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Origin and Introduction:
Lonicera tatarica is native to Central Asia and Southern Russia and is believed to have been introduced into North America for ornamental purposes as early as the 1750s. Lonicera japonica, – a native of China, Japan and Korea – was introduced for horticultural purposes in 1806 on Long Island; it was widely distributed as a garden plant through the early-1900s when it was finally recognized as a weed. Lonicera maackii, also native to China, Japan and Korea, was introduced as seeds to arboreta throughout the U.S. in the late-1800s to determine whether the plant would grow in North America. This species of honeysuckle was utilized as a soil stabilization and wildlife planning until the mid-1980s and is still available for sale on-line. Lonicera morrowii, a native of Japan, was imported to Massachusetts in the 1860s and was later released as an ornamental. All four species have escaped cultivation and are easily spread by birds.
Identification:
Lonicera morrowii, Lonicera tatarica, and Lonicera maackii, are perennial shrubs; Lonicera japonica is a perennial woody vine (although its leaves can remain green throughout mild winters). The shrub forms range from 6 to 15 feet in height, while vines can reach 30 feet in length. The egg-shaped leaves range from 1 to 3 inches in length and are arranged oppositely along stems. Invasive honeysuckles begin flowering from May to June and bear small (less than 1 inch long), very fragrant tubular flowers ranging from creamy white through various shades of pink to crimson. Lonicera morrowii and Lonicera tatarica produce ¼ inch red berries from mid-summer through early-fall; Loniceramaackii’s dark-red berries don’t ripen until late-fall; Lonicera japonica produces dark-purple or black berries in the fall. Stems of all four are hollow.
Impacts:
All three species can form very dense populations that can outcompete and suppress the growth of native plant species. These dense stands suppress the growth of other native species. Lonicera maackii leafs out very early in spring, giving it a competitive advantage over native plants. Lonicera japonica leaves are semi-evergreen allowing the plant to grow longer into the winter and giving it a competitive advantage over native vegetation. It shades out understory growth preventing the success of native understory plants and tree seedlings. Its vigorous vine growth covers native trees; the weight of the vine growth can bring down weak trees. By decreasing light availability to the understory, these invasive honeysuckles can alter habitats by depleting soil moisture and nutrients. The invasive honeysuckle berries do not contain the amount of fat and nutrients present in native honeysuckle berries; eating large amounts of the less nutritious invasive berries rather than native berries can have negative impacts on migrating.
Prevention and Control:
Because these plants spread rapidly via birds eating seeds, control should be started in late-summer or early-fall before seeds are ready to be dispersed. In early stages of invasion, or in cases where populations are at low levels, hand removal of honeysuckle seedlings or young plants is a viable option when repeated annually. Systemic herbicides can be utilized in cases of heavy infestation. Specific state rules should be followed and the appropriate (low environment impact, legally labeled for control of these plants) herbicides should be used. For invasive honeysuckles growing in open habitats, prescribed burning may be an effective control alternative.
Barnes [7] observed the effects of fire on 2 populations of showy fly honeysuckle at the University of Wisconsin Madison Arboretum. At 1 site, all leaves and buds on 9 of 12 shrubs were "apparently" killed by a fire in early May. Some "dormant buds" did survive on 3 individuals and were actively growing by late May, although location of these buds was not discussed. No further information was provided on fire effects or burn characteristics. At another site, a late-summer surface fire burned through a showy fly honeysuckle thicket, leaving scorched bark on basal stems and killing but not consuming leaves. Basal and aerial sprouts began to appear within 3 weeks postfire, and some plants produced new leaves that summer. Although it appears that some plants were top-killed, all plants survived. Only 2 of 30 sampled plants produced fruit 1 year postfire.
Kline and McClintock [87] conducted 2 consecutive annual mid-April prescribed burns in an oak (Q.Ã palaeolithicola) -dominated forest in southern Wisconsin, where showy fly honeysuckle was common in the shrub layer. "Most of the individuals resprouted from the base, but the resprouts were not very vigorous. Some completely dead honeysuckles were observed" in the 1st postfire year.
Kline and McClintock [87] observed showy fly honeysuckle sprouting from the base following
prescribed fire, but "resprouts were not very vigorous". Barnes [7] observed
fire effects on 2 populations of showy fly honeysuckle at the University of Wisconsin Madison
Arboretum. All 12 shrubs observed at 1 site resprouted from "the rootstock".
At the other site, a late-summer surface fire burned through a showy fly honeysuckle thicket,
leaving scorched bark on basal stems and killing but not consuming leaves. All plants subsequently
sampled had survived and had produced "basal sprouts" by early the following summer.
The Research Paper by Bowles and others 2007 provides information on postfire responses of several plant species, including Amur honeysuckle, that was not available when this review was originally written.
The following descriptions of bush honeysuckles provide characteristics that may be relevant to fire ecology, and are not meant for identification. Keys for identification are available (e.g. [18,36,54,59,134,160,186,189,190,191]).
Showy fly honeysuckle is an erect shrub, 4 to 10 feet (1.2-3 m) tall and often at least as wide as it is tall [25,37,134]. It has a round growth habit with spreading, somewhat arching branches [37]. Leaves are 1 to 3 inches (2.5-7.6 cm) long [25]. Fruits are 0.25 to nearly 0.5 inch (6.5-13 mm) diameter round berries [25,37], with 2 to 6 seeds per fruit [37].
Age of showy fly honeysuckle shrubs studied in southern Wisconsin ranged from 12 to 34 years, with a mean of 20.4 years [7].
By excavating numerous showy fly honeysuckle shrubs in Wisconsin, it was determined that most roots occurred at a depth of 0.98 to 5.9 inches (2.5-15 cm), and in many cases extended well beyond crown width [7].
Physiology: Barnes and Cottam [8] found no difference in photosynthetic response of showy fly honeysuckle shrubs originating from wet and dry sites, and subjected to shaded and exposed light conditions. Similarly, they detected no difference in photosynthetic response of shrubs from either site to induced water stress.
Sweet breath of spring was introduced to the U.S. from eastern China in 1845 [36,74,191]. It is distributed in the eastern U.S. from New York, west to Ohio and south to Alabama and Georgia. It is not reported in New Jersey and Delaware, but does occur in Louisiana, Texas, and Utah [36,83,134,160,182]. According to Virginia Department of Conservation and Recreation [182] sweet breath of spring occurs in the Piedmont region of that state.
Amur honeysuckle is native to central and northeastern China, Manchuria, the Amur and Ussuri river valleys, Korea, and isolated parts of Japan [98,106]. It was first introduced into the U.S. in 1897/98 [74,106], and by 1931 was available from at least 8 commercial nurseries [106]. For a thorough review of the historical cultivation and dissemination of Amur honeysuckle, from its apparent origins in China to its cultivation in Russia, Europe, and North America, see Luken and Thieret [106].
Amur honeysuckle is distributed in the eastern U.S. from Massachusetts west to North Dakota and south to Texas. However, there are no specific reports of occurrence in Minnesota, South Dakota, or Florida [18,36,43,54,59,83,99,100,122,171,177,186,186]. Amur honeysuckle also occurs in Idaho [136] and southern Ontario [132]. Lorenz and others [95] indicate Amur honeysuckle is climatically adapted to all but the coldest areas in this range, such as northern Maine, New Hampshire, and Vermont, the Adirondack area of New York, and southwestern portions of Michigan's Upper Peninsula (see Site Characteristics). According to Sharp and Belcher [151] the Amur honeysuckle cultivar 'Rem-Red' is "climatically adapted" from Massachusetts to South Carolina and west to Missouri. Based on a survey of herbaria in eastern North America, Trisel [168] described distribution of "naturalized" Amur honeysuckle from "New Hampshire south to Augusta, Georgia, west to Greenville, Mississippi and Tulsa, Oklahoma, north to Ames, Iowa and Madison, Wisconsin." Rolfsmeier and others [138] reported Amur honeysuckle growing outside cultivation in Nebraska and Kansas, but indicate it may not be spreading rapidly in this area. According to Virginia Department of Conservation and Recreation [182], Amur honeysuckle occurs in the Mountain and Piedmont regions of that state.
Morrow's honeysuckle is native to Japan [54,160,186], and occurs throughout the Japanese archipelago (Talewaki 1969 as cited in [7]). According to Hidayati and others [74] it was introduced to the U.S. from Japan in 1875. Morrow's honeysuckle is distributed in the eastern U.S. from Maine west to Minnesota and south to Arkansas, Tennessee, and the Carolinas, as well as in Alabama [18,44,68,76,83,108,122,150,171,177,178,186,197]. It also occurs in Colorado and Wyoming [83,136,189,190], and in the Canadian provinces of New Brunswick, Quebec, Ontario, and Saskatchewan [83]. According to Virginia Department of Conservation and Recreation [182] Morrow's honeysuckle occurs in the Mountain and Piedmont regions of that state.
Most sources indicate Tatarian honeysuckle is native to eastern Europe and adjacent Asia [18,54,59,92,150,157,186,191], although according to Strausbaugh and Core [160] it was introduced from western Asia. In the U.S., Tatarian honeysuckle is reported from Maine south to Virginia and west to Washington, Oregon and California, but not in Missouri or Nevada [13,18,20,35,38,45,59,68,69,83,83,92,93,108,122,136,150,157,160,177,186,190,191,198]. It is also reported in Georgia [111], Alaska [83] and in Canada from Nova Scotia west to Alberta [83,121]. Lorenz and others [95] indicate Tatarian honeysuckle is climatically adapted throughout the northeastern U.S., from Maine south to Virginia and west to Kentucky, Ohio, and Michigan (see Site Characteristics). According to Virginia Department of Conservation and Recreation [182], Tatarian honeysuckle occurs in the Mountain and Piedmont regions of that state.
Fly honeysuckle was introduced from Eurasia [18,54,150,186]. Fly honeysuckle is distributed in the eastern U.S. from Maine west to Wisconsin, and south to Virginia, but it is not reported in West Virginia or Kentucky [18,83,122,150,177]. It is also reported in Oregon, and in the Canadian provinces of New Brunswick, Quebec, and Ontario [83].
Since it appears the native ranges of Morrow's honeysuckle and Tatarian honeysuckle do not overlap, showy fly honeysuckle probably only occurs outside cultivation in North America [68]. According to a review by Barnes [7], initial reports of showy fly honeysuckle in North America date to around the late 1800s to early 1900s, while its parent species, Tatarian honeysuckle and Morrow's honeysuckle, were introduced sometime in the mid-1700s and mid-1800s, respectively. Determining the distribution of showy fly honeysuckle is especially problematic, since it is a hybrid of two nonnative parent species and is often difficult to identify [8] (see Taxonomy). A distribution map provided by Barnes and Cottam [8] shows the U.S. distribution of showy fly honeysuckle from Maine west to northeastern Montana, most of the Dakotas, eastern Nebraska and northeastern Kansas, and south to North Carolina, Tennessee, and northern Missouri. There are also records of its occurrence in Colorado east of the continental divide [190], in South Carolina and Wyoming [83,136], and in Washington [136]. In Canada, Barnes and Cottam [8] indicate that showy fly honeysuckle occurs in far southern Quebec and adjacent eastern Ontario, and while less common, is also established in southwestern Manitoba, southern Saskatchewan, and southeastern Alberta. There is also a record of its occurrence in New Brunswick [83]. According to Barnes [7], showy fly honeysuckle is most widespread in New England and around the southern Great Lakes.
USDA Plants database provides state distribution maps of bush honeysuckles, although additional information may have led to more extensive descriptions of distribution in this review.
The following biogeographic classification systems demonstrate where bush honeysuckles could potentially be found based on floras and other literature, herbarium samples, and confirmed observations. Precise distribution information is unavailable. Therefore, these lists are speculative and may be imprecise.
Information about the fire ecology of bush honeysuckles is lacking.
Fire adaptations: Although no information could be found regarding the evolutionary relationship between fire and bush honeysuckles in their native ranges, it appears that bush honeysuckles are adapted to survive fire by shielding perennating buds below the soil surface on roots and/or the root crown. Postfire sprouting has been documented [7,75,87,102,126,127] (see Fire Effects), although it is unclear if all bush honeysuckle taxa discussed possess similar abilities.
FIRE REGIMES: Information about bush honeysuckles and FIRE REGIMES is lacking. Research is needed that examines the interactions of fire and bush honeysuckles, effects these interactions may have on native communities and ecosystems, and effects on their respective FIRE REGIMES. For example, bush honeysuckles are present in oak-dominated communities in the eastern U.S. [57,87,119,163]. Historically, fire has been an important ecological influence in oak forests, woodlands, and savannas [34]. Understanding the response of bush honeysuckles (and other nonnative species) to periodic fire could be critical for management and restoration efforts in these and other areas.
The following table lists fire return intervals for communities or ecosystems throughout North America where bush honeysuckles may occur. This list is presented as a guideline to illustrate historic FIRE REGIMES and is not to be interpreted as a strict description of FIRE REGIMES for bush honeysuckles. Find further fire regime information for the plant communities in which these species may occur by entering the species' names in the FEIS home page under "Find FIRE REGIMES".
Community or Ecosystem Dominant Species Fire Return Interval Range (years) silver fir-Douglas-fir Abies amabilis-Pseudotsuga menziesii var. menziesii > 200 grand fir Abies grandis 35-200 [1] maple-beech-birch Acer-Fagus-Betula > 1,000 silver maple-American elm Acer saccharinum-Ulmus americana < 35 to 200 sugar maple Acer saccharum > 1,000 sugar maple-basswood Acer saccharum-Tilia americana > 1,000 [187] California chaparral Adenostoma and/or Arctostaphylos spp. 130] bluestem prairie Andropogon gerardii var. gerardii-Schizachyrium scoparium 90,130] Nebraska sandhills prairie Andropogon gerardii var. paucipilus-Schizachyrium scoparium < 10 bluestem-Sacahuista prairie Andropogon littoralis-Spartina spartinae 130] silver sagebrush steppe Artemisia cana 5-45 [73,133,199] sagebrush steppe Artemisia tridentata/Pseudoroegneria spicata 20-70 [130] basin big sagebrush Artemisia tridentata var. tridentata 12-43 [141] mountain big sagebrush Artemisia tridentata var. vaseyana 15-40 [3,22,120] Wyoming big sagebrush Artemisia tridentata var. wyomingensis 10-70 (40**) [181,201] coastal sagebrush Artemisia californica < 35 to < 100 saltbush-greasewood Atriplex confertifolia-Sarcobatus vermiculatus 130] plains grasslands Bouteloua spp. 130,199] blue grama-needle-and-thread grass-western wheatgrass Bouteloua gracilis-Hesperostipa comata-Pascopyrum smithii 130,139,199] blue grama-buffalo grass Bouteloua gracilis-Buchloe dactyloides 130,199] cheatgrass Bromus tectorum 131,192] California montane chaparral Ceanothus and/or Arctostaphylos spp. 50-100 [130] sugarberry-America elm-green ash Celtis laevigata-Ulmus americana-Fraxinus pennsylvanica 187] curlleaf mountain-mahogany* Cercocarpus ledifolius 13-1,000 [5,144] mountain-mahogany-Gambel oak scrub Cercocarpus ledifolius-Quercus gambelii 130] Atlantic white-cedar Chamaecyparis thyoides 35 to > 200 [187] blackbrush Coleogyne ramosissima < 35 to < 100 northern cordgrass prairie Distichlis spicata-Spartina spp. 1-3 [130] beech-sugar maple Fagus spp.-Acer saccharum > 1,000 [187] California steppe Festuca-Danthonia spp. 130,161] black ash Fraxinus nigra 187] Ashe juniper Juniperus ashei < 35 western juniper Juniperus occidentalis 20-70 Rocky Mountain juniper Juniperus scopulorum 130] cedar glades Juniperus virginiana 3-22 [63,130] tamarack Larix laricina 35-200 [130] western larch Larix occidentalis 25-350 [2,10,31] creosotebush Larrea tridentata 130] yellow-poplar Liriodendron tulipifera 187] wheatgrass plains grasslands Pascopyrum smithii 130,133,199] Great Lakes spruce-fir Picea-Abies spp. 35 to > 200 northeastern spruce-fir Picea-Abies spp. 35-200 [40] southeastern spruce-fir Picea-Abies spp. 35 to > 200 [187] Engelmann spruce-subalpine fir Picea engelmannii-Abies lasiocarpa 35 to > 200 [1] black spruce Picea mariana 35-200 conifer bog* Picea mariana-Larix laricina 35-200 [40] blue spruce* Picea pungens 35-200 [1] red spruce* Picea rubens 35-200 [40] pine-cypress forest Pinus-Cupressus spp. 1] jack pine Pinus banksiana 40] Rocky Mountain lodgepole pine* Pinus contorta var. latifolia 25-340 [9,10,164] Sierra lodgepole pine* Pinus contorta var. murrayana 35-200 [1] shortleaf pine Pinus echinata 2-15 shortleaf pine-oak Pinus echinata-Quercus spp. 187] Colorado pinyon Pinus edulis 10-400+ [49,56,84,130] slash pine Pinus elliottii 3-8 [187] Jeffrey pine Pinus jeffreyi 5-30 western white pine* Pinus monticola 50-200 [1] longleaf-slash pine Pinus palustris-P. elliottii 1-4 [124,187] longleaf pine-scrub oak Pinus palustris-Quercus spp. 6-10 [187] Pacific ponderosa pine* Pinus ponderosa var. ponderosa 1-47 [1] interior ponderosa pine* Pinus ponderosa var. scopulorum 2-30 [1,6,94] Arizona pine Pinus ponderosa var. arizonica 2-15 [6,30,149] Table Mountain pine Pinus pungens 187] red pine (Great Lakes region) Pinus resinosa 10-200 (10**) [40,51] red-white-jack pine* Pinus resinosa-P. strobus-P. banksiana 10-300 [40,70] pitch pine Pinus rigida 6-25 [21,71] pocosin Pinus serotina 3-8 pond pine Pinus serotina 3-8 eastern white pine Pinus strobus 35-200 eastern white pine-eastern hemlock Pinus strobus-Tsuga canadensis 35-200 eastern white pine-northern red oak-red maple Pinus strobus-Quercus rubra-Acer rubrum 35-200 loblolly pine Pinus taeda 3-8 loblolly-shortleaf pine Pinus taeda-P. echinata 10 to < 35 Virginia pine Pinus virginiana 10 to < 35 Virginia pine-oak Pinus virginiana-Quercus spp. 10 to < 35 sycamore-sweetgum-American elm Platanus occidentalis-Liquidambar styraciflua-Ulmus americana 187] galleta-threeawn shrubsteppe Pleuraphis jamesii-Aristida purpurea < 35 to < 100 eastern cottonwood Populus deltoides 130] aspen-birch Populus tremuloides-Betula papyrifera 35-200 [40,187] quaking aspen (west of the Great Plains) Populus tremuloides 7-120 [1,62,113] Texas savanna Prosopis glandulosa var. glandulosa 130] black cherry-sugar maple Prunus serotina-Acer saccharum > 1,000 [187] Rocky Mountain Douglas-fir* Pseudotsuga menziesii var. glauca 25-100 [1,3,4] coastal Douglas-fir* Pseudotsuga menziesii var. menziesii 40-240 [1,123,137] California mixed evergreen Pseudotsuga menziesii var. menziesii-Lithocarpus densiflorus-Arbutus menziesii < 35 California oakwoods Quercus spp. 1] oak-hickory Quercus-Carya spp. < 35 northeastern oak-pine Quercus-Pinus spp. 10 to 187] oak-gum-cypress Quercus-Nyssa-spp.-Taxodium distichum 35 to > 200 [124] southeastern oak-pine Quercus-Pinus spp. 187] coast live oak Quercus agrifolia 2-75 [61] white oak-black oak-northern red oak Quercus alba-Q. velutina-Q. rubra 187] canyon live oak Quercus chrysolepis <35 to 200 blue oak-foothills pine Quercus douglasii-P. sabiniana 1] northern pin oak Quercus ellipsoidalis 187] Oregon white oak Quercus garryana 1] bear oak Quercus ilicifolia 187] California black oak Quercus kelloggii 5-30 [130] bur oak Quercus macrocarpa 187] oak savanna Quercus macrocarpa/Andropogon gerardii-Schizachyrium scoparium 2-14 [130,187] shinnery Quercus mohriana 130] chestnut oak Quercus prinus 3-8 northern red oak Quercus rubra 10 to < 35 post oak-blackjack oak Quercus stellata-Q. marilandica < 10 black oak Quercus velutina 187] interior live oak Quercus wislizenii 1] blackland prairie Schizachyrium scoparium-Nassella leucotricha 187] little bluestem-grama prairie Schizachyrium scoparium-Bouteloua spp. 130] redwood Sequoia sempervirens 5-200 [1,48,162] southern cordgrass prairie Spartina alterniflora 1-3 [130] baldcypress Taxodium distichum var. distichum 100 to > 300 pondcypress Taxodium distichum var. nutans 124] western redcedar-western hemlock Thuja plicata-Tsuga heterophylla > 200 [1] eastern hemlock-yellow birch Tsuga canadensis-Betula alleghaniensis > 200 [187] western hemlock-Sitka spruce Tsuga heterophylla-Picea sitchensis > 200 [1] elm-ash-cottonwood Ulmus-Fraxinus-Populus spp. 40,187] *fire return interval varies widely; trends in variation are noted in the species reviewIt is likely that sites characteristics where bush honeysuckles occur in North America are generally similar for the 6 species considered in this summary. However, it is difficult to definitively ascertain which species share affinities for which site characteristics, especially when considered across the entire North American range of bush honeysuckle (see General Distribution). Information about site characteristics that favor bush honeysuckle establishment, persistence, and spread is often anecdotal. Consequently, the following information describes site characteristics where bush honeysuckles are likely to be found, but should not be considered a comprehensive assessment. More research is needed to determine relationships between various site characteristics and bush honeysuckle invasion.
In the North Carolina Piedmont and Coastal Plain, and in the South Carolina Piedmont, sweet breath of spring is found in woodlands and "waste places" [134]. In north-central Texas it escapes to "forest margins" [36].
According to Luken (personal observation cited in [104]) and Luken and others [98], in its native range Amur honeysuckle commonly grows on sites with some type of canopy cover (open forests, flood plain forests, periodically disturbed floodplains, riparian habitats and scrub communities). In North America, it is found in both open and wooded habitats [99,132]. In southern Wisconsin, Cochrane [27] described Amur honeysuckle occurrence as mostly in partially shaded fencerows, weedy thickets, and brushy groves, and less frequently in woods [27]. In north-central Texas Amur honeysuckle escapes to "forest margins" [36], in Michigan it is found in "woods (upland and swampy), thickets, banks, fencerows, and often near a landscaped source" [186], and in southwestern Ohio it is mentioned as occurring in pastures and woodlands [18]. Hutchinson and Vankat [79] examined Amur honeysuckle distribution in southwestern Ohio along northerly and westerly transects, emanating from a supposed central population source from which invasive populations have subsequently dispersed. Their results suggest Amur honeysuckle population spread is closely linked to forest cover and forest connectivity across the landscape. They propose that large expanses of agricultural land act as a barrier to dispersal, perhaps due to habitat constraints on frugivorous birds that disperse seeds. Medley [112] found that Amur honeysuckle density was significantly (p = 0.001) correlated with proximity to the edge of a 13 acre (5.2 ha) mature deciduous forest stand in southwestern Ohio. However, Amur honeysuckle stem basal area was also significantly (p<0.05) correlated with proximity to stream channels, with some of the largest individuals located near the center of the stand along streambanks.
Amur honeysuckle
John M. Randall/The Nature Conservancy Morrow's honeysuckle is found in woodlands of the Blue Ridge mountains in Tennessee and Virginia [197], in thickets, fields, and hedgerows in New England [150], and along streambanks in Wyoming [39]. In lower Michigan, it escapes to roadsides, railroads, thickets, lakeshores, riverbanks, and woods [186].Morrow's honeysuckle John M. Randall/The Nature Conservancy In Michigan, Tatarian honeysuckle escapes to roadsides, railroads, thickets, lakeshores, riverbanks, woods, fields, "waste places" and swamps [186], and in the northern Great Plains it escapes to open woods, stream banks, or brushy pastures [59,157]. It is found in riverbank thickets, along roadsides, and in "waste land" in New England [150], along fence rows and stream banks in Montana and Wyoming [38], and in riparian areas along the Big Sioux River in eastern South Dakota [35]. According to White [193], Tatarian honeysuckle is present, though not common, on poorly-drained shrub-dominated sites in southeastern Wisconsin [193]. Moffatt and McLachlan [121] included Tatarian honeysuckle among indicator species found in disturbed riparian forest in southern Manitoba. It was 1 of 2 nonnative plant species that was significantly (p<0.05) more likely to occur within "urban" or "suburban" sites compared with "rural" (agricultural) or "reference" (undisturbed) sites.
Tatarian honeysuckle
Fly honeysuckle Henriette Kress
In Michigan, showy fly honeysuckle is found in habitats similar to those of Tatarian honeysuckle and Morrow's honeysuckle [186]. It is found along roadsides and "scrub areas" bordering human habitation in the Adirondacks [25], and in thickets and "waste places" in New England and the Piedmont of North Carolina [134,150]. A review by Barnes [7] indicates a wide range of sites may support showy fly honeysuckle populations in Wisconsin, including roadsides, fencerows, pastures or fields, railroad rights-of-way, lake, river, or stream banks, and wooded areas, particularly within openings or edges of woods. Barnes [7] showed that showy fly honeysuckle distribution within the University of Wisconsin Madison Arboretum was aggregated. He reasoned that the observed patterns of distribution were strongly influenced by site characteristics favorable to seedling establishment (see above).
Soils and topography: Soil requirements and tolerances vary among bush honeysuckles, but most taxa seem to grow best on well-drained sites.
Sweet breath of spring prefers moist but well-drained, loamy soil [128].
Amur honeysuckle performs best on moist, well-drained sites, but is adaptable to "poor" soils, compacted soils, various soil pHs, restricted root zones, drought and salt spray [17]. According to Vogel [185] the lower pH limit for Amur honeysuckle is 5.0. It escapes to calcareous slopes in north-central Texas [36], and grows in thin prairie soils over dolomite in southern Wisconsin [27]. Amur honeysuckle generally occurs in mesic habitats in Virginia [182]. According to Sharp and Belcher [151] the Amur honeysuckle cultivar 'Rem-Red' is "adapted" to deep, well-drained, fertile, sandy loam to clay loam soils, and is not "adapted" to droughty or wet soils. Lorenz and others [95] indicate that 'Rem-Red' "grows in medium-fertility, acid, clayey, loamy, and sandy soils, and tolerates somewhat poorly drained soil."
Morrow's honeysuckle prefers loamy, well-drained, moist soil [174]. In Virginia, it generally occurs in mesic habitats [182]. Vogel [185] reports that the lower pH limit for Morrow's honeysuckle is 5.0.
Barnes [7] indicates Tatarian honeysuckle occurs on a wide variety of soil types in central Asia. According to Lorenz and others [95], it "grows in medium-fertility, acid, clayey, loamy, and sandy soils, and tolerates moderately well-drained soil." Tatarian honeysuckle grows on peat and muck soils [110]. White [193] reports that it is present, though not common, on poorly-drained shrub-dominated sites in southeastern Wisconsin [193]. Tatarian honeysuckle generally occurs in mesic habitats in Virginia [182]. According to Vogel [185] the lower pH limit for Tatarian honeysuckle is 5.0. Tatarian honeysuckle is considered salt sensitive [166].
Fly honeysuckle performs best on moist, well-drained sites, but is adaptable to "poor" soils, various soil pHs, restricted root zones, drought, and salt spray, but is not tolerant of wet sites or poorly drained sites [17].
Mature showy fly honeysuckle shrubs were found growing over a variety of soils at the University of Wisconsin Madison Arboretum including: a) a droughty, infertile, loamy sand, b) a well- to moderately well drained, moderately fertile, silt loam, c) an imperfectly- to poorly drained silt loam, and d) a muck soil where the water table was at or near the surface in spring [7]. In a reciprocal transplant common garden experiment in southern Wisconsin, Barnes and Cottam [8] successfully transplanted showy fly honeysuckle shrubs at 2 sites with quite different soils. The wet site had muck soils with water-retaining capacity of 260% dry weight and organic matter content 64%, while the dry site was a loamy sand soil with water-retaining capacity of 50% dry weight and 2% organic matter. Survival of transplants, 50% at the dry site and 68% at the wet site, was not significantly different. Transplant origin (wet site or dry site) also did not affect performance at either common garden, indicating no evidence of ecotypic differentiation between populations based on soil type. showy fly honeysuckle generally occurs in mesic habitats in Virginia [182].
Climate: Sweet breath of spring is adapted to USDA zones 4-8 [37,114,128,172].
Amur honeysuckle distribution appears to be limited by drought and cold. Trisel [168] observed that during summer droughts in southwestern Ohio Amur honeysuckle leaves can become severely wilted, while native trees remain unaffected. However, based on unpublished data, it was further indicated that affected shrubs can fully recover from wilting with no apparent damage or mortality following rehydration. Trisel [168] also hypothesized that susceptibility to drought may result from its shallow root system, and that drought intolerance may be more pronounced in unshaded areas. Lorenz and others [95] characterize the Amur honeysuckle cultivar 'Rem-Red' as having "fair drought tolerance."
According to Trisel [168], Amur honeysuckle range expansion to the west and north may be limited by moisture and winter temperature. Several sources indicate that it is adapted to USDA zones 2-8 [17,37], or 3-8 [115,173]. Analysis of herbaria records by Trisel [168] indicates Amur honeysuckle "escapes" become limited in USDA zones 4-5 (winter low temperatures of -20.2 to -31 ◦F (-29 to -35 ◦C)). Lorenz and others [95] provide a map of plant hardiness zones of the northeastern U.S., based on average annual minimum temperature, and refer to these as "areas of climatic adaptation" where various plant species are recommended for planting for "conservation" purposes. They indicate that while some species "may grow in zones other than the ones indicated, maximum conservation effectiveness occurs within these zones." Based on this information, Amur honeysuckle is climatically adapted throughout the northeastern U.S. where average annual minimum temperature ranges from 20 to -30 ◦F (-6.7 to -34 ◦C).
Morrow's honeysuckle is adapted to USDA zones 4-6 and warmer parts of zone 3 [37,116,174].
Several sources indicate that Tatarian honeysuckle is adapted to USDA zones 3-8 [117,129,175], or 2-8 [37]. Lorenz and others [95] provide a map of plant hardiness zones of the northeastern U.S., based on average annual minimum temperature, and refer to these as "areas of climatic adaptation" where various plant species are recommended for planting for "conservation" purposes. They indicate that while some species "may grow in zones other than the ones indicated, maximum conservation effectiveness occurs within these zones." Based on this information, Tatarian honeysuckle is climatically adapted throughout the northeastern U.S. where average annual minimum temperature ranges from 20 to -40 ◦F (-6.7 to -40 ◦C). Tatarian honeysuckle is apparently winter hardy in valleys of western Montana [93]. Lorenz and others [95] characterize Tatarian honeysuckle as having "fair drought tolerance."
Fly honeysuckle is adapted to USDA zones 4-6 [17,37,118].
Showy fly honeysuckle is adapted to USDA zones 4-7 [37]. Average annual precipitation throughout the North American range of showy fly honeysuckle is between 9.8 and 59 inches (250-1500 mm), and average frost-free period is 80 to 240 days [8].
Fire may top-kill bush honeysuckle plants, and is likely to kill seedlings and unhealthy plants [75,126,127]. However, perennating tissues on roots and root crowns are often protected from fire damage by soil. By excavating numerous showy fly honeysuckle shrubs in Wisconsin, it was determined that most roots occurred at a depth of 0.98 to 5.9 inches (2.5-15 cm) and in many cases extended well beyond crown width [7].
Fire may also kill seeds [23,24], although this is not confirmed.
Impacts:: Throughout many areas of North America, bush honeysuckles are considered invasive and a threat to native habitats and plant communities. They can escape, establish, and persist outside cultivation, and may continue to spread into adjacent areas [32,108,127,157]. Barnes and Cottam [8] described showy fly honeysuckle as escaped and occupying "a significant extent of territory" in the northern U.S., where it is reproducing, increasing in some areas, and spreading to new areas. Barton and others [11] examined abundance of nonnative woody and semiwoody plants in rural western Maine along transects representing field edges, abandoned railroad right-of-way edges, roadsides, and riparian sites. Of 12 nonnative species measured, bush honeysuckles (Morrow's honeysuckle, Tatarian honeysuckle, and showy fly honeysuckle counted together) occurred along the greatest number of transects and had the 2nd greatest number of total patches and patches/km in the study. Amur honeysuckle has been the target of eradication efforts in north-central Kentucky and south-central Ohio because it "dominates nature reserves to the exclusion of endemic species" [105].
A variety of impacts has been ascribed to bush honeysuckle invasion. Most impacts are associated with their competitive dominance, potentially resulting in displacement of native species. Collier and others [29] compared native vegetation growing under Amur honeysuckle crowns with plants growing outside Amur honeysuckle influence in hardwood forest stands near Oxford, in southwestern Ohio. For all species combined, mean species richness was 53% lower, and mean cover 63% lower, in plots beneath Amur honeysuckle crowns. According to Luken and McKnight [101], dense Amur honeysuckle thickets in forest and open sites are "associated with a near complete absence of ground cover species." One study in a northern Kentucky hardwood forest described a monospecific Amur honeysuckle shrub layer with nearly 100% canopy coverage, mean maximum subcanopy light levels of 1% of full sun, and a sparse ground layer flora composed mainly of suppressed Amur honeysuckle seedlings and saplings [96]. Showy fly honeysuckle, along with common buckthorn, composed a "nearly continuous, almost impenetrable" shrub layer in an oak (Q ? palaeolithicola) -dominated forest in southern Wisconsin [87].
Competition, especially for light, is the most commonly described means by which bush honeysuckles impact native plants. For example, Barnes [7] found light levels beneath dense showy fly honeysuckle thickets in southern Wisconsin were between 0.32 and 0.8% of light in the open. He also observed (without data) a greater abundance and larger size of sun flecks under gray dogwood thickets compared with showy fly honeysuckle. It was suggested that gray dogwood, a common native shrub species in southern Wisconsin, has a more limited shading effect than does showy fly honeysuckle. Klein [86] noted interference associated with shading of Amur honeysuckle upon pride of Ohio (Dodecatheon meadia), a native forest understory herb that performs best under the open canopy of mature trees.
It is likely that interference from dense bush honeysuckle populations can suppress advance regeneration of native tree seedlings. Yost and others [200] studied vegetation of an urban woodland in New York containing abundant Amur honeysuckle. Their survey revealed a significant negative correlation (r=-0.21, p<0.05) between tree seedling density and Amur honeysuckle cover. Collier and others [29] compared native vegetation growing under Amur honeysuckle crowns with plants growing outside Amur honeysuckle influence, in hardwood forest stands near Oxford, in southwestern Ohio. For tree seedlings (≤1 m tall), mean species richness was 41% lower and mean density was 68% lower in plots beneath Amur honeysuckle crowns. Every tree species had lower seedling abundance beneath Amur honeysuckle crowns. Hutchinson and Vankat [78] investigated impacts of Amur honeysuckle invasion in southwestern Ohio hardwood forests. They found tree seedling density to be inversely related to Amur honeysuckle cover (r2 = 0.118, p < 0.001). When Amur honeysuckle cover was ≥15%, seedling densities were nearly always <0.5 m-2, but when Amur honeysuckle cover was <15%, seedling densities varied greatly. Tree seedling species richness was also inversely related to Amur honeysuckle cover (r2 = 0.152, p<0.0001). When Amur honeysuckle cover was >50%, the number of species was usually ≤8, but when Amur honeysuckle cover was <50%, richness was highly variable, ranging from 0 to 15 species. Luken [100] studied the response of woody seedlings to removal of dominant Amur honeysuckle shrubs in a northern Kentucky hardwood forest. Following 4 years of repeated clipping of established Amur honeysuckle plants, plus removal of Amur honeysuckle seedlings in the last 2 years of the study, seedling density and frequency of woody seedlings other than Amur honeysuckle were significantly (p<0.01) greater than in plots where Amur honeysuckle was not controlled. Woods [198] studied invasion of bush honeysuckles (in this study Tatarian honeysuckle and showy fly honeysuckle were not distinguished, although the text referred only to Tatarian honeysuckle (see Taxonomy)) in 3 sugar maple-dominated stands in Vermont, plus a red maple-dominated forest in northwestern Massachusetts. He found tree seedling (<1 m tall) density declined significantly (p<0.01) with increasing Tatarian honeysuckle cover. Average seedling density at all sites was >5 m-2 where Tatarian honeysuckle was not present, but was <1 m-2 when Tatarian honeysuckle cover was >90%. It was suggested that understory dominance by bush honeysuckles, as was observed, could ultimately alter successional patterns in forests typical to these. Gorchov and Trisel [55] detected effects of Amur honeysuckle interference, aboveground and belowground, that reduced survival of native tree seedlings in the understory of a southwestern Ohio deciduous forest. Seedlings of sugar maple, black cherry, northern red oak, and white ash were transplanted into treatment plots consisting of Amur honeysuckle shoot interference removal (pruning), Amur honeysuckle root interference removal (trenching), both pruning and trenching, and control plots where Amur honeysuckle interference effects were not manipulated. Amur honeysuckle basal area within treatment plots (prior to pruning) averaged 3.36 (? 0.16) m2 ha-1. Because of excessive mortality ascribed to white-tailed deer browsing, an additional cohort of sugar maple (only) seedlings was planted and protected from browsing (caged), and survival and growth data for these were subsequently analyzed according to previous procedures. Above-ground interference of Amur honeysuckle with tree seedlings appeared more important than below-ground interference, although both were detected. Pruning significantly (p≤0.05) increased survival for all species except black cherry, while trenching + pruning significantly (p≤0.05) increased survival for sugar maple (caged) and black cherry.
Even if seedlings of shade tolerant tree species can establish, interference from dense bush honeysuckle populations may still impact recruitment into mid-story or subcanopy status. Medley [112] studied distribution of Amur honeysuckle in a 13 acre (5.2 ha) sugar maple- and white ash-dominated deciduous forest in southwestern Ohio. Amur honeysuckle was the most important woody understory species, based on its mean density (3,361 individuals ha-1), frequency (95% of sample points), and basal area (1.89 m2 ha-1). There was a significant (p<0.05) negative relationship between Amur honeysuckle and sugar maple sapling densities (>1 m tall; <10 cm dbh).
There is also evidence that invasive bush honeysuckles can negatively impact native herbs. Collier and others [29] compared native vegetation growing under Amur honeysuckle crowns with plants growing outside Amur honeysuckle influence, in hardwood forest stands near Oxford, in southwestern Ohio. Eighty-six percent of herb species had lower abundance beneath Amur honeysuckle crowns. Hutchinson and Vankat [78] found herbaceous cover was inversely related to Amur honeysuckle cover (r2=0.494, p<0.0001) in southwestern Ohio hardwood forests. Woods [198] studied invasion of bush honeysuckles (in this study Tatarian honeysuckle and showy fly honeysuckle were not distinguished, although the text referred only to Tatarian honeysuckle (see Taxonomy) in 3 sugar maple-dominated stands in Vermont. He found herb species richness and herbaceous cover both declined significantly (p<0.05) with increasing Tatarian honeysuckle cover.
Gould and Gorchov [57] examined the effect of Amur honeysuckle presence on survival to reproductive age, and fecundity, of 3 native forest understory annual forbs. These were stickywilly (Galium aparine), an early-season shade-intolerant , pale touch-me-not (Impatiens pallida), a mid-season semishade-tolerant, and Canadian clearweed (Pilea pumila), a late-season shade-tolerant. Forbs were outplanted into treatment plots where Amur honeysuckle was either a) present, b) removed, or c) previously absent. Resident herb and seedling competitors were removed from all treatment plots at 6-10 day intervals throughout the experiment, and large mammalian herbivores were excluded. Survival of stickywilly and pale touch-me-not was significantly greater (p<0.05) in removal plots than in present plots at 1 of 2 sites. Fecundity of all 3 species (# seeds per surviving individual) was significantly greater (p<0.05) in removal plots than in present plots at both sites. Fecundity of pale touch-me-not and Canadian clearweed was also significantly greater (p<0.05) in absent plots than in present plots (absent plots were only feasible at 1 site). Survival of the shade-tolerant species Canadian clearweed was not affected by Amur honeysuckle presence, but fecundity was reduced. While speculative, this may be interpreted as a relatively less severe impact of Amur honeysuckle invasion on shade tolerant herb-layer species, compared with more shade intolerant species.
Miller and Gorchov [119] studied the effects of Amur honeysuckle presence on growth, reproduction and survival of 3 native forest understory perennial forbs over 5 growing seasons. Species studied included narrowleaf wild leek (Allium burdickii), a spring ephemeral, and the full-season species rue anemone (Thalictrum thalictroides) and downy yellow violet (Viola pubescens var. pubescens). They found Amur honeysuckle presence generally reduced growth and reproduction of target species, but not their survival. These effects appeared cumulative, often manifesting only after several years of treatment. They surmised the lack of treatment effect on forb survival may indicate perennial herbs are less impacted by Amur honeysuckle presence than are some annual forest understory forbs [57] and tree seedlings [55], although exclusion of browsing mammals may also have contributed to sustained survival in this experiment. They also caution that despite no demonstrable impact on survival in this study, reductions in growth and reproduction of individual perennial herbs by invasive shrubs, such as was demonstrated here with Amur honeysuckle, will likely reduce population sizes over time.
These results could be viewed within the context that Amur honeysuckle is simply filling a functional niche often filled by native shrubs, and is not really impacting native plant diversity in any novel way. Miller and Gorchov [119] and Gould and Gorchov [57] considered the possibility that native shrubs may also suppress herb-layer vegetation, although native shrubs were described as "very sparse" at these sites. In contrast, Amur honeysuckle density at one site was 0.7 shrubs m-2. Collier and others [29] asserted that native shrubs are generally uncommon in southwestern Ohio forests, citing Braun (1916, 1950) and Vankat (personal observation). Assuming their assertion is correct, observed negative impacts of Amur honeysuckle on native flora in otherwise shrub depauperate forests may be altering species composition and understory structure in ways that diverge from historic conditions. More research is needed that examines the comparative effects of bush honeysuckles vs. native shrubs in suppressing herbs and woody seedlings within various eastern North American forest types.
Some evidence indicates that where native shrubs and invasive bush honeysuckles co-occur, bush honeysuckles may be stronger competitors. Medley [112] studied distribution of Amur honeysuckle in a 13 acre (5.2 ha) sugar maple- and white ash-dominated deciduous forest in southwestern Ohio. Amur honeysuckle was the most important woody understory species, based on its mean density (3361 individuals ha-1), frequency (95% of sample points), and basal area (1.89 m2 ha-1). Instances of high species richness (>10 spp. per plot) of native woody plants and high basal areas (>1 m2 ha-1) of the most common native shrubs northern spicebush and blackhaw corresponded with Amur honeysuckle basal areas <4 m2 ha-1. When Amur honeysuckle basal areas were >5 m2 ha-1, woody plant species diversity and basal areas of common native shrubs were generally lower (≤ 10 spp. per plot, and <1 m2 ha-1, respectively). Barnes [7] determined that showy fly honeysuckle is generally a stronger competitor than the native shrub gray dogwood where they co-occur in southern Wisconsin. Although no mechanisms for this apparent competitive advantage were directly determined, emphasis was placed on differences in leaf phenology.
Extended leaf longevity may be important for light competition among understory plants of deciduous forests. Whether competition is between bush honeysuckles and native shrubs, forbs, or tree seedlings, early leaf emergence and/or late senescence in bush honeysuckles may permit exploitation of unutilized light resources prior to canopy leaf emergence and following canopy leaf fall [65] (see Seasonal Development). Miller and Gorchov [119] have proposed that summer herbs (i.e. those that grow primarily after canopy leaf emergence) are less impacted by early-leafing invasive shrubs, such as Amur honeysuckle, than those that fix most of their carbon before canopy leaf emergence. Barnes [7] observed that dense showy fly honeysuckle thickets had a very sparse herbaceous component compared with native shrub thickets in southern Wisconsin. He asserted that the effects of showy fly honeysuckle on herbs was similar to that of woody evergreens, in that they can suppress herb-layer development by casting shade throughout the effective seasonal range of most herbaceous species. In comparison, leaf development in most native shrubs occurs later in spring, generally allowing sufficient light for growth and reproduction of spring ephemeral herbs.
Other potential impacts of bush honeysuckle invasion include changes in herbivory pressure on native plants, allelopathy, and altered ecosystem processes. Trisel [168] found herbivory on Amur honeysuckle leaves was substantially less than for many native trees and shrubs in southwestern Ohio. This indicates that, as bush honeysuckles become increasingly dominant within a habitat, native species may encounter a corresponding increase in herbivory, which may contribute to their displacement. Laboratory and greenhouse experiments also indicate Amur honeysuckle may have allelopathic effects on herbs and woody seedlings, but more research is needed to distinguish between resource competition and allelopathy in the field [125,168]. There are also suggestions that bush honeysuckle invasion could have ecosystem level effects. According to Luken and Thieret [97], net primary production of dense open-grown Amur honeysuckle thickets (up to 1350 g m-2 yr-1 in northern Kentucky) may have large impacts on carbon and nutrient budgets of invaded sites.
Research has also provided some insight into why certain habitats may be more or less susceptible to bush honeysuckle invasion and its impacts. Hutchinson and Vankat [78] assert that late-successional forests dominated by shade tolerant tree species such as sugar maple and American beech are more resistant to Amur honeysuckle invasion, probably due to low light levels near the forest floor. They investigated impacts of Amur honeysuckle invasion in the interior of hardwood forest stands in southwestern Ohio. They found that Amur honeysuckle cover was inversely related to tree basal area (r2=0.151, p< 0.0001) and tree canopy cover (r2=0.292, p<0.0001). Amur honeysuckle cover commonly exceeded 50% only in stands with basal area <30 m2/ha, and was rarely <50% when tree canopy cover was <85%.
Evidence from southwestern Ohio indicates that the severity of bush honeysuckle invasion may be related to proximity to established source populations and time since invasion. Hutchinson and Vankat [78] investigated impacts of Amur honeysuckle invasion in hardwood forest stands near Oxford, in southwestern Ohio. Amur honeysuckle cover was positively related to estimated time since invasion (r2=0.172, p<0.0001) and was >50% only in stands invaded ≥12 years. Collier and others [29] compared native vegetation growing under Amur honeysuckle crowns with plants growing outside Amur honeysuckle influence, also in hardwood forest stands near Oxford, Ohio. Species richness for all taxa, as well as species richness and density of tree seedlings, was significantly (p<0.0001) lower in forests where Amur honeysuckle had been present for ≥16 years, compared with forests where Amur honeysuckle was present ≤ 10 years. Hutchinson and Vankat [78] also found that Amur honeysuckle cover was also inversely related to distance from Oxford (r2=0.133, p<0.0006). Stands with >50% cover were mostly ≤3.1 miles (5 km) from Oxford. Amur honeysuckle was planted in Oxford in the 1960s and these populations were considered the primary source for invasion in the study area.
Control: Because bush honeysuckles are capable of sprouting and suckering (see Sexual regeneration), control efforts may require sustained effort for several years [75,108]. Deering and Vankat [33] recommend prioritizing control efforts toward newly established populations, before rapid population growth begins.
Control methods that create soil disturbance may provide opportunities for seedling establishment of bush honeysuckles or other invasive species [154]. Luken and McKnight [101] suggest that where dense Amur honeysuckle thickets substantially reduce herb-layer coverage, removal of this shrub layer may result in erosion and/or colonization by other invasive species. If target plants have reached reproductive age, it may be necessary to subsequently remove numerous seedlings from the area [43,44,45,46] (see Regeneration Processes). Control methods that increase light levels at ground level may result in increases in bush honeysuckle seedling establishment [100]. Luken and Mattimiro [105] suggested that Amur honeysuckle seeds are not long-lived, and elimination of adult populations should be followed by control of the subsequent, if short-lived, flush of seedlings.
Eradicating established bush honeysuckle plants may be more effective in forested than open environments. An experiment in northern Kentucky examined the relative response of forest-grown vs. open-grown Amur honeysuckle plants to repeated clipping. Plants in both populations were clipped at their bases in July, and resprouts were subsequently clipped each July for the next 3 years. One year after the initial clipping there were no significant (p≥0.05) differences between populations in stem (ramet) density or shrub (genet) density as a percentage of the pretreatment populations, due to vigorous sprouting from cut stems. However, following 2 additional years of clipping, percent stem density and percent shrub density of open-grown Amur honeysuckle were significantly (p<0.05) greater than for the forest-grown populations. During the 3 year treatment period, 70% of forest-grown adult plants were killed by repeated clipping, while only 10% of adult plants from pasture plots were killed. In fact, stem density of open-grown plants continued to increase throughout the treatment period, with annual clipping resulting in stem densities approaching 3 times the original level. Percent of pretreatment net primary production (NPP) was significantly (p<0.05) different between forest- and open-grown populations for all 3 years. Open-grown populations maintained NPP at between 15 and 25% of pretreatment levels throughout the experiment, while NPP of forest-grown populations fell to <5% of pretreatment levels during this time [100,105]. Although speculative, it is logical that bush honeysuckle sprouting in response to other control methods (e.g. chemical, fire) might follow a similar pattern. Open-grown plants, being comparatively more productive than forest-grown plants [99], are likely able to obtain and store greater carbohydrate levels, both prior and subsequent to repeated clipping, and therefore may be more resilient under various control treatments [105].
While it is possible that different bush honeysuckle species may respond differently to various control methods, there is no evidence that effectiveness of control methods varies by species.
Prevention: As Brooks and others [19] have reasoned, the effort required for exclusion of invasive nonnative plants is often much lower than for control and eradication of established populations, especially when impacts from invasions require restoration efforts. Further, potential for successful management is greatest when invasions are controlled early.
A review by Nyboer [126] indicates bush honeysuckle introduction is usually facilitated by habitat disturbance. Consequently, avoiding or minimizing disturbance is likely to reduce the chance for bush honeysuckles to become established. Where disturbance is unavoidable, careful monitoring and rapid eradication of new seedlings is easier, less costly and more likely to be successful compared with managing a full-blown invasion.
Planting bush honeysuckles for any reason is probably ill-advised. Since seeds are dispersed by birds, seemingly innocuous plantings such as in residential landscaping can easily provide a seed source for invasion of nearby natural areas.
Integrated management: No information is available on this topic.
Physical/mechanical: Cutting bush honeysuckle stems may eliminate existing plants [23,24,105,108,168] and is effective in temporarily reducing seed production [108]. However, cutting established plants usually results in sprouting [43,44,45,46,75,100,108] (see Asexual regeneration). According to Luken and Mattimiro [105], single cuttings that are subsequently abandoned can produce populations from sprouts that are denser and more productive than pretreatment populations. Repeated cutting as the primary control method may be effective, especially in forested habitats, but is probably not feasible for open-grown plants (see Control above) [100,105].
The frequency, duration, and seasonality of repeated cutting treatments required for effective control are unclear. Luken [100] indicates 3+ years of treatments may be necessary in forested habitats. Luken and Mattimiro [105] suggest cutting at least annually, or more frequently if possible. According to the Maine Natural Areas Program [108], cutting should be done in early spring and in late summer or early fall. Trisel [168] compared treatments for eradication of Amur honeysuckle in a southwestern Ohio second-growth hardwood forest. Amur honeysuckle stems were cut (3.9 inches (10 cm) above ground)) in early October. New shoots were subsequently surveyed and clipped every 2 weeks until mid-November, and again from early June to early November the following year. No immediate posttreatment sprouting was apparent in fall, but all treated shrubs exhibited regrowth by early June the following season. Sprouting continued following commencement of clipping treatments in June but diminished substantially over the course of the growing season. The percentage of shrubs with live sprouts began to decline from 100% in late July and by early November only 10% showed signs of continued regrowth. Average numbers of live stems per shrub was 3.15 before treatment, 3.1 in early June, reached a maximum of 13.8 in early July, then declined to 2.0 by early November. In a separate experiment Amur honeysuckle stems were cut (3.9 inches (10 cm) above ground) in mid-April. New shoots were subsequently surveyed and clipped every month from June until October. Final mortality in this experiment was only 7% [168].
Bush honeysuckles may be controlled by pulling and/or digging to remove entire plants [17,23,24,75,126,127]. Seedlings are often easily pulled, especially when soils are moist [17,75,108,126,127,154]. Since bush honeysuckle roots are typically shallow (see Botanical and Ecological Characteristics), small- to medium-sized plants can often be dug or pulled [17,75]. Todd [167] reported no regrowth of bush honeysuckle shrubs in northern Illinois following control by either hand pulling small individuals when soils were wet, or by cutting near ground level and "pulling" the following year. Trisel [168] achieved complete control of established Amur honeysuckle by severing all shrubs below the root crown. However, all of the root crown and as much of the root system as possible should be removed to minimize sprouting and suckering (see Asexual regeneration) [43,44,45,46,126,127,168].
Sprouts and suckers may be further controlled with herbicides [43,44,45,46,75,105,126,127]. Applying herbicide to cut stumps can increase mortality [23,24,67,126,127,168] (see Chemical control methods below).
According to Trisel [168], severed shrubs can take root if they are discarded with roots contacting the ground.
Fire: See Fire Management Considerations.
Biological: Although not purposely introduced for the purposes of biological control, Hyadaphis tataricae is a nonnative aphid that feeds on a variety of bush honeysuckles in North America (for an analysis of taxa-specific susceptibility see Herman and Chaput [72]) [183,184]. H. tataricae feeding results in dwarfing and folding of terminal leaves, stunted terminal growth, and development of "witches brooms" [23,24,107,183]. This lowers plant vigor and may prevent flowering and fruit development [23,24,184]. Voegtlin and Stoetzel [184] indicate that it is not expected to provide widespread, effective control of bush honeysuckles. However, according to U.S. Geological Survey Northern Prairie Wildlife Research Center [23,24], H. tataricae is still expanding its North American range and "may eventually reach levels that will provide control."
Grazing/browsing: As of this writing (2004), very little information is available concerning browsing as a bush honeysuckle control method. Qualitative observations indicate Tatarian honeysuckle is tolerant of browsing, although subject to reduced fruit production in response [41]. Another observation indicates Tatarian honeysuckle was locally eliminated following 3 years of heavy browsing [81].
Regardless of browse tolerance, heavy livestock traffic in areas where bush honeysuckle seeds are present may encourage bush honeysuckle invasion by disturbing soil and reducing herbaceous competition, thereby providing suitable sites for seedling establishment [153].
Chemical: Herbicides may be effective for controlling invasive bush honeysuckles. However, control with herbicides is temporary, as it does not change conditions that allow infestations to occur [201].Glyphosate is the most commonly mentioned chemical for use against bush honeysuckles, applied either as a foliar spray [75,154,168] or to cut stumps [43,44,45,46,67,88,154,168]. Triclopyr has also shown effectiveness [75]. Most references discuss chemical control of Amur honeysuckle, but it is likely that these methods are also effective against other bush honeysuckle species. See the Weed control methods handbook for considerations on the use of herbicides in natural areas and detailed information on specific chemicals.
Application of herbicide to cut stumps can provide effective control while minimizing risk of damage to associated native species [43,44,45,46,88]. Herbicide should be applied immediately after cutting, for best results [75,126]. Mechanical injection into intact stems is also effective [67]. Hoffman and Kearns [75] recommend 2 cuts/applications per year, 1 in early spring followed by another in early autumn. Others have found single early spring treatments effective [67,168].
Spraying herbicide on foliage may also be effective. While some sources indicate spraying just after flowering is most effective [75,154], early spring application has also been effective [168]. Spraying herbicide in early spring, when bush honeysuckles are actively growing but most native plants are still dormant, can minimize risk to nearby natives [75,168].
Cultural: If desired vegetation is scarce or absent, bush honeysuckle control may be of little value. Planting native species following bush honeysuckle removal can provide a desirable composition of groundcover, shrubs, and understory trees, and may also mitigate reinvasion by bush honeysuckles and other nonnative invasive plant species [23,24,67,127].
Although it appears bush honeysuckles are typically planted for other purposes, they may provide some value for wildlife and are occasionally planted for this use. According to Sharp and Belcher [151], Tatarian honeysuckle has been planted for summer wildlife food in the eastern U.S., and Luken and Thieret [106] state Amur honeysuckle has been planted in the eastern U.S. for wildlife habitat "improvement."
White-tailed deer browse bush honeysuckle twigs and foliage [151]. Vellend [180] confirmed the presence of Tatarian honeysuckle, Morrow's honeysuckle, showy fly honeysuckle, and Amur honeysuckle seeds in white-tailed deer scat in central New York, but it is unclear if fruits were eaten purposely or inadvertently. Bush honeysuckle fruits are borne in leaf axils, so white-tailed deer that are browsing on leaves and twigs are also likely to ingest fruits in season. While Velland [180] did not specify which plant parts are selected by deer, he inferred that leaves and twigs are purposely browsed, and it is obvious that fruits are at least not avoided.
Tatarian honeysuckle is browsed by eastern cottontail [64,151]. Small mammals eat fallen bush honeysuckle fruit in late winter and early spring [151]. Deer mice extract and consume Amur honeysuckle seeds from intact fruits. However, it is speculated that relative presence or absence of Amur honeysuckle has little effect on small mammal forage habitat quality, and conversely, small mammal seed predation probably has little influence on Amur honeysuckle fecundity [195].
Bush honeysuckle fruits are eaten at least occasionally by songbirds, and avian frugivory is thought to be an important bush honeysuckle seed dispersal mechanism. Amur honeysuckle fruits are eaten at least occasionally by songbirds, especially in winter, and Tatarian honeysuckle fruits are eaten by songbirds in summer, soon after maturity (see Seasonal Development) [64,95,151]. Bartuszevige and Gorchov [12] studied avian Amur honeysuckle seed dispersal in southwestern Ohio. Out of 17 bird species captured near fruiting Amur honeysuckle shrubs, 12 were found to have consumed fruit. American robin, cedar waxwing, European starling, hermit thrush, and northern mockingbird defecated viable Amur honeysuckle seed. American tree sparrow, Carolina chickadee, dark-eyed junco, northern cardinal, song sparrow, tufted titmouse, and white-throated sparrow displayed evidence of consuming fruit, but without evidence of passing viable seed. Species that showed no evidence of Amur honeysuckle frugivory included brown creeper, Carolina wren, downy woodpecker, golden-crowned kinglet, and white-breasted nuthatch. Eastern bluebirds were also observed eating Amur honeysuckle fruit, but were not captured in the study [12]. Wild turkey, ruffed grouse, northern bobwhite, and ring-necked pheasant use Amur honeysuckle for food [151].
Palatability/nutritional value: As of this writing (2005) very little information is available concerning palatability/nutritional value of bush honeysuckles. Analysis of Amur honeysuckle and fly honeysuckle fruit in southwestern Ohio showed C:N ratios ranging from 29:1 to 56:1 (mean = 41.1, SD = 9.17) and percent lipid ranging from 4.53% to 5.01% (mean = 4.78%, SD = 0.20) [80].
Although avian frugivory is thought to be an important seed dispersal mechanism, preference for bush honeysuckle fruit as a food source is unclear. McRae [111] noted Tatarian honeysuckle as a major dietary component of northern bobwhite, especially after mid-February, at 2 northwestern Georgia piedmont upland forest sites. Apparently the raisin-like fruit of Tatarian honeysuckle is not necessarily a preferred late-season food, but provides available forage for songbirds when preferred foods are scarce [151]. According to Dirr [37], birds will consume Amur honeysuckle fruit if other food is unavailable.
Ingold and Raycraft [80] examined 115 individuals of 26 bird species for evidence of Amur honeysuckle and fly honeysuckle frugivory in southwestern Ohio between mid-September and mid-November. Nine species (American robin, gray-cheeked thrush, Swainson's thrush, gray catbird, cedar waxwing, northern cardinal, purple finch, American goldfinch, and white-throated sparrow), and 21 of 82 individuals representing these species, showed evidence of feeding on fruits. Sixteen species (35 total individuals) exhibited no evidence of Amur honeysuckle/fly honeysuckle fruit consumption (Carolina chickadee, tufted titmouse, brown creeper, white-eyed vireo, red-eyed vireo, Tennessee warbler, magnolia warbler, bay-breasted warbler, ovenbird, common yellowthroat, yellow-breasted chat, indigo bunting, American tree sparrow, field sparrow, fox sparrow, and song sparrow). The low proportion of species (and individuals within these species) found to be feeding on Amur honeysuckle and fly honeysuckle fruit led to questions concerning forage quality, especially since these fruits were abundant and conspicuous in the study area.
Although information is sparse, in some cases bush honeysuckle frugivory may be harmful to birds. Casual observations indicate that Tatarian honeysuckle fruit can be toxic to birds [15], but this is not confirmed. There is some evidence to indicate birds that eat bush honeysuckle fruit may experience changes in feather coloration. Apparently Morrow's honeysuckle fruit contains the carotenoid rhodoxanthin, which causes normally yellow tail feather bands in cedar waxwings to appear orange. Similar yellow-to-orange changes in feather color have been described in Kentucky warblers and white-throated sparrows, perhaps also as a result of bush honeysuckle fruit consumption. While no definitive impact has yet been established as a result of this phenomenon, subtle differences in coloration within species may affect behavior such as mate selection [196].
Cover value: Bush honeysuckles probably provide some cover for wildlife. Amur honeysuckle provides nesting sites and protection for songbirds from late spring to late fall, and cover for rabbits [151]. Tatarian honeysuckle provides year-round cover for birds and small mammals [95].
However, indirect effects of bush honeysuckle invasion on wildlife may be difficult to predict. Schmidt and Whelan [142] examined the effect of Amur honeysuckle invasion on nest predation of American robins in northern Illinois deciduous woodlands. Nests built in Amur honeysuckle had significantly (p<0.001) higher daily nest mortality rate compared with nests built in native species. Reasons offered for increased nest predation in Amur honeysuckle included lower nest height (compared with many native shrubs and trees), absence of sharp thorns (compared with native hawthorns (Crataegus spp.)), and branch architecture that may facilitate predator (e.g. raccoon) movement. Unfortunately, Amur honeysuckle may provide more attractive nest sites due to its early leaf flush (see Seasonal Development) and sturdy branches. In fact, American robins significantly (r2=0.912, p<0.01) increased their use of Amur honeysuckle over the 6-year study period. Wood thrush also nested in Amur honeysuckle, although use was apparently limited by competition from American robins.
Sweet breath of spring has been cultivated as an early-flowering ornamental with very fragrant flowers [114,191]. It has also been recommended as a hedge or screen plant [37].
Amur honeysuckle has been cultivated as an ornamental in North America [106,132,151], and as of 1996, was still commercially available [106]. Beginning in the 1960s, USDA Soil Conservation Service developed and distributed the Amur honeysuckle cultivar 'Rem-Red' for use as an ornamental shrub, promoted as valuable for wildlife and as useful for soil conservation and as a windbreak, border, hedge, or screen [95,151]. Amur honeysuckle, along with Tatarian honeysuckle and Morrow's honeysuckle, is among species recommended for use in strip mine site reclamation [77,185]. Amur honeysuckle makes a very productive honey plant [26]. However, due to its invasive propensity in natural and seminatural woodlands, Clark [26] recommends against its use outside urban areas where it is already an established part of the flora.
Tatarian honeysuckle has been cultivated as an ornamental [18,151,191], and Dirr [37] provides a list of 14 available cultivars. It has been recommended as a windbreak, shelterbelt, or hedge species [28,53,95,110,157,169], especially in areas with extreme seasonal temperatures [143]. Tatarian honeysuckle has been characterized as useful for range restoration and soil stabilization [109], and has been used for streambank reclamation [188].
Showy fly honeysuckle has been used for landscape and ornamental purposes in the northern U.S. [8].
Although information about asexual regeneration is relatively sparse, it is apparent that sprouting is a common response to mechanical stem damage in bush honeysuckles (see Physical/mechanical control). Similarly, bush honeysuckles can also produce sprouts in response to damage from fire [7,75,87,102,126,127].
Bush honeysuckles may establish from bird-dispersed seed after fire. Since snags, surviving trees, or tall shrubs are often present in postfire environments where bush honeysuckles are likely to be found (see Habitat Types And Plant Communities) and provide perches for frugivorous birds, bush honeysuckle postfire seedling establishment and growth may occur in this environment.
Bush honeysuckles regenerate from seeds, as well as vegetatively following disturbance.
Breeding system: As of this writing (2005) there is very little available information about bush honeysuckle breeding systems. According to Stephens [157] Tatarian honeysuckle flowers are perfect.
Pollination: According to Hauser [68] Morrow's honeysuckle, Tatarian honeysuckle, and showy fly honeysuckle are pollinated by bumblebees. Graenicher states [58] Showy fly honeysuckle is pollinated by a variety of bees and perhaps by hummingbirds.
Seed production: Information about seed production is sparse, but it is apparent that some bush honeysuckles are capable of producing substantial numbers of seeds. Barnes [7] indicates showy fly honeysuckle produces consistent annual seed crops. A single "typical" showy fly honeysuckle shrub, about 6.6 feet (2 m) tall, growing in southern Wisconsin, produced 3,554 berries in 1 year. Numbers of seeds/fruit, sampled from several shrubs at this site, averaged 5 to 7, indicating that a "typical" plant may produce >20,000 seeds annually [7].
Estimates of annual fruit production for Amur honeysuckle and Fly honeysuckle in southwestern Ohio ranged from 0 to 1.2 million berries per plant, and approximately 400 million berries ha-1 [80]. According to Welsh and others [191], sweet breath of spring fruits are "seldom formed", although no further explanation was provided.
There is some evidence for shrub age and size as determinants of reproductive ability. According to Sharp and Belcher [151], Amur honeysuckle plants begin flowering in the 3rd or 4th year, after which flowers appear on stems 2 years old and older. Deering and Vankat [33] compared reproductive state with shrub age and height within an Amur honeysuckle population in southwestern Ohio. Established shrubs took 3-8 years to reach reproductive age. At age 3 only 5.7% of individuals were reproductive, while >50% were reproductive by age 5. All shrubs ≥8.2 feet (2.5 m) tall were reproductive, while none <3.3 feet (1 m) tall were reproductive. Showy fly honeysuckle shrubs may also produce fruit at as young as 3 years of age [7].
Site characteristics may also affect seed production. Amur honeysuckle flowering and fruiting were significantly (p=0.001 and p=0.03, respectively) correlated with light availability in southern Vermont [140].
Seed dispersal: Several sources indicate bush honeysuckle seeds are dispersed primarily by frugivorous birds [7,80,93,126,186]. Bartuszevige and Gorchov [12] showed that a wide variety of bird species consumed Amur honeysuckle fruit in southwestern Ohio. They also confirmed that American robins dispersed viable Amur honeysuckle seed, usually into woodlot edge and fencerow habitats. White-tailed deer may also consume and disperse viable seeds of Tatarian honeysuckle, Morrow's honeysuckle, showy fly honeysuckle, and Amur honeysuckle [180]. Barnes [7] suggests that "many, if not most" fruits fall near the parent plant. For more information see Importance to Livestock and Wildlife.
Seed banking: It appears the potential for bush honeysuckles to form seed banks is low, but more research is needed to confirm this assertion and to determine interspecific differences. According to Luken and Mattimiro [105], seeds of Amur honeysuckle are "not long-lived in the soil." Hidayati and others [74] concluded that neither sweet breath of spring, Amur honeysuckle, or Morrow's honeysuckle have the potential to form persistent seed banks. However, Stevens and Jorgensen [158] found 12-year-old Tatarian honeysuckle seed to be still viable. They compared germination in seed stored for 12 years with fresh seed. Stored seeds were kept in a dry, open warehouse where temperatures over a 25-year study period ranged from -21.8 to 100.9 ?F (-29.9 to 38.3 ?C). Seeds from both lots were germinated over a 16-month period in a refrigerator (34 to 38 ?F (1.1-3.3?C)). Germination rates were 57% for fresh seed and 31% for 12-year-old seed.
Germination: Bush honeysuckle germination requirements are variable between species.
Sweet breath of spring seeds require warm plus cold stratification prior to breaking dormancy. Although seeds mature in late spring/early summer, they generally will not germinate until late winter/early spring of the following year. A greenhouse study by Hidayati and others [74] indicated that sweet breath of spring seeds germinated while buried under 2 inches (5 cm) of leaf litter or 2.8 inches (7 cm) of soil.
Stratification requirements for Amur honeysuckle seed germination are unclear. According to Luken and Goessling [103], seeds are released in a nondormant condition, and germinate easily in warm, moist conditions. According to Hidayati and others [74], Amur honeysuckle seeds require a period of either warm- or cold stratification. Nevertheless, they are dispersed in fall and may germinate in fall or spring [74,103]. According to Hidayati and others [74], if seeds mature early enough and are subjected to a sufficiently long warm stratification period prior to onset of cold winter temperatures, they may germinate in fall. Late-maturing seeds are cold-stratified over winter, and will germinate in early spring when warm temperatures induce embryo growth.
Light seems to enhance Amur honeysuckle seed germination, but it is not obligatory. In a laboratory experiment, Amur honeysuckle germination was significantly (p<0.01) higher in light (35 ?mol m-2 s-1, 14/10 hour light/dark photoperiod) than in dark (light excluded). Nevertheless, after 88 days, mean cumulative germination ranged from 53.7% to 81.3% in light, and from 31.3% to 55.0% in dark [103]. Hidayati and others [74] found that Amur honeysuckle seeds were not inhibited by burial under 2 inches (5 cm) of leaf litter or 2.8 inches (7 cm) of soil in a greenhouse.
Germination may be enhanced when seeds are separated from the fruit pulp. Bartuszevige and Gorchov [12] found that seeds within intact fruit were significantly less viable (44% germination) than either seeds that were separated from pulp by hand (76% germination) or seeds that had passed through the guts of American robins (86% germination), after 12 weeks of favorable laboratory germination conditions.
Morrow's honeysuckle seeds, which are dispersed in summer, require warm stratification only and typically germinate prior to winter [74]. Germination will occur in light or dark. Hidayati and others [74] found that, while Morrow's honeysuckle seeds germinated more readily under light than in dark under laboratory conditions, they were not inhibited by burial under 2 inches (5 cm) of leaf litter or 2.8 inches (7 cm) of soil in a greenhouse. A greenhouse study by Ruesink [140] demonstrated no effect of shading (25% vs. full light) on germination.
Tatarian honeysuckle seed germination is affected by scarification and cold stratification. Krefting and Roe [89] tested the effects of cold stratification, and ingestion and passage by American robins, on Tatarian honeysuckle seed germination. Unstratified seeds recovered from bird droppings germinated more readily (46%) than unstratified controls (24.5%). Stratification (90 days at 41 to 50 ?F (5-10 ?C) prior to feeding to birds) resulted in substantial improvement in germination, regardless of whether seeds had passed through bird guts (95% for bird ingested seeds, 92% for stratified controls). Although unstratified seed germinated more rapidly if passed through bird guts, this effect was not detected with stratified seed. Apparently avian frugivory has some positive effect on Tatarian honeysuckle seeds with seedcoat dormancy, while simultaneously, cold stratification is effective for breaking internal dormancy.
According to Barnes [7] showy fly honeysuckle germination is epigeal.
Seeds of Tatarian honeysuckle, Morrow's honeysuckle, showy fly honeysuckle, and Amur honeysuckle remain germinable following passage through the guts of white-tailed deer. Vellend [180] measured 76% germination for seeds collected from deer feces, compared with 81% for fresh-collected seeds.
Seedling establishment/growth: Bush honeysuckle seedling establishment appears most successful where litter cover and herbaceous competition are sparse [126,185]. Luken [100] found that after clipping established Amur honeysuckle plants in forested and pasture habitats, Amur honeysuckle seedlings established in forested plots at approximately twice the rate of those in pastures. In pasture plots, grasses and forbs were relatively undisturbed, and probably continued suppression of Amur honeysuckle seedlings. Barnes [7] sampled showy fly honeysuckle seedling density and frequency at 4 sites in southern Wisconsin. The site with the highest seedling frequency (39%) was characterized as a red pine (Pinus resinosa)- and eastern white pine (P. strobus)-dominated overstory and a sparse understory. This site had a primarily pine straw litter layer of variable depth over sandy loam and loamy sand soils. Within this site, showy fly honeysuckle seedlings were found within microsites having little to no litter cover. The site with the greatest seedling density (5,280 seedlings acre-1 ) contained a "very dense" population of mature showy fly honeysuckle shrubs, with near-continuous cover in some places. Observations indicate that at this site, seedlings occurred mainly under mature showy fly honeysuckle, where litter accumulation and herbaceous competition were sparse. Two other sites each had only 1 and 2 showy fly honeysuckle seedlings total. Among reasons provided for the paucity of seedlings at these sites were lack of soil disturbance, a thick layer of leaf litter from the oak overstory, and strong herbaceous and vine competition. A subsample was obtained from another section within 1 of these seedling-poor sites, where a dense population of mature showy fly honeysuckle shrubs had been eradicated during the previous year. Because of eradication treatments, plant litter and herbaceous competition were sparse. Consistent with other observations, substantial numbers of seedlings (26% occurrence, 2,560 seedlings acre-1) were found where litter cover and herbaceous competition were sparse and a seed source had been present [7].
However, the relationship between canopy cover and bush honeysuckle seedling establishment and growth is not straightforward. According to a review by Nyboer [126], bush honeysuckles commonly establish under tall shrubs or trees that serve as perch areas for seed-dispersing birds. As discussed above, canopy shading may also suppress strong herbaceous competition and permit greater bush honeysuckle seedling establishment. However, too much shading may result in reduced seedling establishment and growth [98]. Luken and Goessling [103] studied Amur honeysuckle seedling establishment in forest patches dominated by sugar maple, white ash, and American elm in northern Kentucky. Seedling densities were greatest near the edges of forest patches and declined steadily toward their interior. While they were unable to establish a firm causal link between light levels and seedling densities, light levels and seedling densities were significantly positively correlated (p<0.05; r = 0.88) along transects from forest edge to interior. Ruesink [140] compared Morrow's honeysuckle greenhouse-grown seedlings under full-sun conditions with identical seedlings grown under 25% of full sun. After 50 days, full-sun seedlings were twice as tall and produced 6 times more aboveground biomass. It is likely that in most habitats where seeds are present, such as under the canopy of preexisting bush honeysuckle shrubs or where frugivorous birds find perch sites proximate to fruiting bush honeysuckles, any disturbance that increases light at ground level is likely to release bush honeysuckle seedlings [100].
Deering and Vankat [33] described the age structure and allometric development of a relatively isolated Amur honeysuckle population of recent origin (colonized ~ 1979) in southwestern Ohio. First-year shrubs averaged 1.3 feet (0.4 m) tall and 2 basal stems per shrub. Most individuals were >3.3 feet (1 m) tall by their 3rd year. For the first 4 years of development, numbers of 1-year-old stems averaged 2.2 to 2.6 per shrub. Individual plants averaged 4.3 total stems per plant by age 3. As shrubs reached reproductive age (beginning at 3-8 years), height growth continued, but recruitment of new stems ceased. With time, resource allocation shifted from new basal stem production and height growth in young shrubs to a balance of height growth, radial growth of existing stems, and reproduction in older shrubs [33].
Asexual regeneration: Information on asexual regeneration in bush honeysuckles is generally sparse. Studies cited below are specific to Amur honeysuckle and showy fly honeysuckle. Although it seems likely that these traits are shared by other bush honeysuckles, applicability to other taxa is not confirmed. Since showy fly honeysuckle is a hybrid of Morrow's honeysuckle and Tatarian honeysuckle (see Taxonomy), it is likely that either or both of the parent species share the traits discussed for showy fly honeysuckle below. More information is needed to determine similarities and differences in the biology of asexual regeneration in bush honeysuckles.
Amur honeysuckle will sprout from adventitious buds on the root crown in response to stem damage [105,168]. Repeated cutting throughout the growing season results in continued but diminished sprouting (see Physical/mechanical contol) [168]. The sprouting response of Amur honeysuckle to any particular stem damage event does not appear to diminish with stem age [105].
Showy fly honeysuckle reproduces asexually by root suckering and layering [7]. Barnes [7] studied root suckering and layering in 4 populations of showy fly honeysuckle in Wisconsin. Between 4 and 7% of shrubs sampled exhibited suckers. Suckers were encountered primarily on small shrubs, and those found on large, mature plants were usually within 2 to 3 feet (60-90 cm) of the root crown. Frequency of layering was estimated by examining all branches of sampled shrubs in contact with the soil surface for evidence of root development. Layering frequency varied between sites, with 1 site having 3% of shrubs showing evidence of layering, 2 sites having 9%, and a 4th site 19%. Layering frequency appeared to be positively related to soil moisture and duration of contact between branch and soil, although there were no supporting data. Barnes [7] also indicated that suckering and layering occurred most frequently on sites where showy fly honeysuckle seedling establishment was poorest.
Bush honeysuckles are likely to occur across a variety of successional habitats within their North American range [127]. Luken and McKnight [101] suggest that Amur honeysuckle can dominate habitats ranging from recently disturbed areas to mature forest.
Several studies document the influence of bush honeysuckles in old-field succession. Foster and Gross [50] examined woody plant establishment following abandonment of cultivation in a southwestern Michigan old-field habitat. Tatarian honeysuckle established in the 3rd season following abandonment. Average density increased steadily from 6.7 stems/acre in the year of establishment, to 91.1 stems/acre 4 years later (7 years following abandonment of agriculture). Fike and Niering [47] documented nearly 40 years of vegetation change in an old-field habitat in southeastern Connecticut. This site was cultivated until about 1945 and grazed until 1951. The initial survey in 1954 indicated a continuous perennial herbaceous cover with scattered woody plants <3.3 feet (1 m) tall. By 1960 the herbaceous community had decreased slightly and tree species were becoming more established. Presence of Morrow's honeysuckle (<1% cover) was first recorded in 1973, in conjunction with development of a thicket community of small trees, shrubs, and woody vines. This woody stratum was 13 to 20 feet (4-6 m) in height and had >40% cover. By 1983 Morrow's honeysuckle cover increased to 10% in a community characterized as "a young hardwood forest", with tree cover of 90%, shrub/vine cover of 85%, and herbaceous cover decreasing to about 40%. By the end of this study in 1993, there was a relatively continuous tree canopy 40 to 59 feet (12-18 m) in height, a 3.3 to 6.6 feet (1-2 m) high shrub stratum contributing about 50% cover, and 10% herbaceous cover. Morrow's honeysuckle was the dominant shrub species at 24% cover. Vankat and Snyder [179] examined floristics of a chronosequence of nearby stands corresponding to old-field/deciduous-forest succession in southwestern Ohio. Amur honeysuckle was present, but not common, in a 10-year-old goldenrod (Solidago spp.)- and fescue (Festuca spp.)-dominated old field, and in an approximately 50-year-old goldenrod-dominated old field with a sparse white ash-black cherry tree stratum. Amur honeysuckle was codominant in the understory (3.3 to 9.8 feet (1-3 m) tall) with sugar maple, and codominant in the ground layer (<3.3 feet (1 m)) with jewelweed (Impatiens capensis), in an approximately 90-year-old sugar maple-slippery elm forest. Vankat and Snyder [179] concede that conclusions about successional status of Amur honeysuckle, based on the above data, are limited by the study design. Nevertheless, Amur honeysuckle was common in a young closed-canopy forest stand, sparse in 2 old fields with some woody plant composition but no closed canopy, and absent from a 2-year-old abandoned agricultural field and an old-growth American beech-sugar maple forest.
It appears that bush honeysuckle establishment is often facilitated by some form of habitat disturbance [127]. In forested habitats, Amur honeysuckle performs best near edges and in canopy gaps, where light levels are favorable [98].
Once established, the ability of bush honeysuckles to persist and spread within various successional habitats is less clear. Hutchinson and Vankat [78] assert that late successional forests dominated by shade-tolerant tree species such as sugar maple and American beech are more resistant to Amur honeysuckle invasion, probably due to low light levels near the forest floor. Luken [101] suggested forest patches having complete canopy closure can resist Amur honeysuckle invasion, but if canopy gaps are created, Amur honeysuckle can establish and persist. Bush honeysuckle populations, once established, can persist for many years. Age of showy fly honeysuckle shrubs studied in southern Wisconsin ranged from 12 to 34 years, with a mean of 20.4 years [7].
There are suggestions that bush honeysuckles could alter successional trajectories in ways that favor their persistence. Collier and others [29] hypothesized that Amur honeysuckle invasion may alter patterns of forest succession in southwestern Ohio. If development of a dense Amur honeysuckle shrub layer suppresses establishment of shade-tolerant tree seedlings, recruitment of mid- and late successional tree species may be inhibited. Hypothetically then, as older canopy trees die, closed-canopy forests could change to open-canopy woodlands or even Amur honeysuckle-dominated shrublands. Luken [100] demonstrated that Amur honeysuckle dominance in the shrub layer of northern Kentucky hardwood forests can suppress advance regeneration of overstory species. Woods [198] came to a similar conclusion after finding a significant (p<0.01) negative correlation between Tatarian honeysuckle cover and tree seedling (<3.3 feet (1 m tall)) density (in this study Tatarian honeysuckle and showy fly honeysuckle were not distinguished, although the text referred only to Tatarian honeysuckle (see Taxonomy)). In contrast, tree seedlings 3.3 to 6.6 feet (1-2 m) tall were not significantly (p<0.05) related to Tatarian honeysuckle cover. Woody seedlings in this larger size class frequently overtopped Tatarian honeysuckle. Examination of growth rings revealed that establishment of these larger seedlings predated Tatarian honeysuckle invasion. It was speculated that persistent Tatarian honeysuckle cover could suppress advance regeneration of overstory species, possibly leading to changes in canopy composition or even conversion of forests to more open canopies or shrublands. Gorchov and Trisel [55] provide direct evidence that Amur honeysuckle invasion can inhibit tree seedling establishment in southwestern Ohio. For further discussion, see Impacts.
Shade tolerance: Most sources characterize bush honeysuckles as intermediate in shade tolerance, adapted to grow in full sun to partial shade conditions [17,95,128,172,173,174,176,185]. Descriptions of Amur honeysuckle shade tolerance range from shade intolerant [98] to intermediate [185] to tolerant [173] to "amazing" shade tolerance [37]".
Virginia Department of Conservation and Recreation [182] indicates the following light regimes for bush honeysuckles occurring in Virginia:
Full Sun Part Sun Shade Sweet breath of spring X X Amur honeysuckle X Morrow's honeysuckle X X X Tatarian honeysuckle X X Showy fly honeysuckle X X
One reason often cited for an apparent competitive advantage of bush honeysuckles over native shrubs (see Impacts) is the ability of bush honeysuckles to respond rapidly to changes in light availability. While bush honeysuckles have some ability to establish and persist in relatively low light environments, growth is typically greatest under high light availability. For example, Harrington and others [66] found showy fly honeysuckle aboveground growth rates were significantly (p=0.0008) higher in open habitat than under a mature closed-canopy hardwood forest. Amur honeysuckle can respond to gap formation in otherwise shaded habitats via phenotypic plasticity in photosynthetic capability of shade-grown leaves, as well as by rapid stem elongation and production of new leaves with even greater photosynthetic capacity [98]. Luken and others [104] compared performance of Amur honeysuckle shrubs with the indigenous shade-tolerant northern spicebush (Lindera benzoin), under shade and full sun. They transplanted forest-grown plants into pots and grew them in a greenhouse under full sun, 25% full sun, or 1% full sun treatments. Relative stem growth rates (integrated over an 11-week period) under the 1% full sun treatment were similar for both species. Amur honeysuckle stem growth was greatest under full sun, while maximum stem growth for northern spicebush occurred under the 25% full sun treatment. Amur honeysuckle stem growth was substantially greater than spicebush under both the 25% and 100% full sun treatments. Observed differences in leaf-level morphology and physiology, and biomass allocation indicate that Amur honeysuckle has a much greater ability than spicebush to acclimate and respond to enhanced light levels that might occur following forest canopy disturbance. This trait, coupled with an ability to tolerate heavy shade comparable to native shade-tolerant shrubs such as spicebush, indicates Amur honeysuckle may be highly competitive under a range of conditions, and may persist under a variety of successional stages and pathways in eastern deciduous forests.
The currently accepted genus name for honeysuckle is Lonicera L.
(Caprifoliaceae) [18,36,54,59,82,83,93,134,160,189,190,191,197]. This report
summarizes information on 4 nonnative species and 2 nonnative hybrids of Lonicera:
Lonicera fragrantissima Lindl. & Paxt. [36,82,83,134,191], sweet breath of spring
Lonicera maackii Maxim. [18,27,36,54,59,82,83,132,138,186], Amur honeysuckle
Lonicera morrowii A. Gray [18,39,54,60,83,160,186,189,190,197], Morrow's honeysuckle
Lonicera tatarica L. [18,38,39,54,59,60,82,83,92,93,157,160,186,190,191], Tatarian honeysuckle
Lonicera ÃÂ bella Zabel [54,60,83,134,178,186,190], showy fly honeysuckle
Lonicera × xylosteum L. [18,54,60,83,178,186], fly honeysuckle
Showy fly honeysuckle is a cross between L. tatarica and L. morrowii
that has arisen in cultivation and probably spontaneously in the wild [7,54,68,134,186].
According to Barnes [7], it honeysuckle is intermediate to its parent species in most
characteristics, but "many of these characteristics vary between extremes so that often
detection of the hybrid nature of an individual can only be accomplished by looking at a large
number of characters." Field observations in Ohio and Michigan suggest that Tatarian
honeysuckle is the pollen parent of showy fly honeysuckle [68]. Bush honeysuckle shrubs in
southern Vermont were described as a "hybrid complex", with most individuals
resembling the Morrow's honeysuckle type, but some apparently more influenced by Tatarian
honeysuckle [140]. Barnes [7] illustrates the difficulty often encountered in distinguishing
between showy fly honeysuckle and its parent species, and asserts that in many instances
showy fly honeysuckle is misidentified in the literature as Tatarian honeysuckle or Morrow's
honeysuckle. Chapman and Bessette [25] describe showy fly honeysuckle as the dominant
"species" in Adirondack Park, New York, with pure specimens of either Tatarian
honeysuckle or Morrow's honeysuckle becoming difficult to find.
Fly honeysucky is a cross between Tatarian honeysuckle and dwarf honeysuckle (L. xylosteum) [178].
When discussing characteristics typical (or likely to be typical) of all 6 of the above
taxa, this report refers to them collectively as bush honeysuckle(s). When referring
to individual taxa, the common names listed above are used.
Although apparently not widely escaped, additional hybrids may be formed among the
abovementioned and other Lonicera taxa [60,72]:
Lonicera ÃÂ minutiflora Zabel (bunchberry honeysuckle), a cross between L. morrowii
and L.ÃÂ xylosteoides.
Lonicera ÃÂ muendeniensis Rehd. (Muenden honeysuckle), a cross between L. ÃÂ bella
and L. ruprechtiana (Manchurian honeysuckle).
Lonicera ÃÂ muscaviensis Rehd. (Muscovy honeysuckle), a cross between L. morrowii and L. ruprechtiana.
Lonicera ÃÂ notha Zabel (Rutarian honeysuckle),
a cross between L. ruprechtiana and L. tatarica.
Lonicera ÃÂ salicifolia Dieck ex Zabel (willowleaf honeysuckle), a cross between
L. ruprechtiana and L. ÃÂ xylosteoides.
Lonicera ÃÂ xylosteoides Tausch (Vienna honeysuckle),
a cross between L. tatarica and L. xylosteum.
Doqquzdon (lat. Lonicera) – doqquzdonkimilər fəsiləsinə aid bitki cinsi.
Yarpaqları sadə, qısa saplaqlı, qarşı-qarşıya düzülür. Çiçəkləri ağ, sarı, çəhrayı, yaxud qırmızı, ikicinsiyyətlidir. Meyvəsi şirəli giləmeyvədir. Şimal yarımkürəsində 200-dən çox növünə təsadüf edilir.
Doqquzdonun əksəriyyəti balverən bitkilərdir.
İkiləpəlilər ilə əlaqədar bu məqalə qaralama halındadır. Məqaləni redaktə edərək Vikipediyanı zənginləşdirin. Doqquzdon (lat. Lonicera) – doqquzdonkimilər fəsiləsinə aid bitki cinsi.
Yarpaqları sadə, qısa saplaqlı, qarşı-qarşıya düzülür. Çiçəkləri ağ, sarı, çəhrayı, yaxud qırmızı, ikicinsiyyətlidir. Meyvəsi şirəli giləmeyvədir. Şimal yarımkürəsində 200-dən çox növünə təsadüf edilir.
Doqquzdonun əksəriyyəti balverən bitkilərdir.
Ar gwezvoud pe gavrvoued (genad:Lonicera) a zo ur seurt plant frondus a gresk ouzh ar mogerioù hag ar gwez.
Bronnoù-koukoug a vez graet eus ar bleunioù a blij d'ar vugale chutal.
Ar gwezvoud pe gavrvoued (genad:Lonicera) a zo ur seurt plant frondus a gresk ouzh ar mogerioù hag ar gwez.
Xuclamel o lligabosc (designant principalment Lonicera implexa, Lonicera periclymenum i Lonicera caprifolium), didalets de la Mare de Déu pl., dolçamel (Lonicera implexa i Lonicera caprifolium), gallarets pl. (Lonicera etrusca), gallinassa, mare-selva, mare de bosc, mata-selva, rotaboc o santjoanera (Lonicera implexa a la Terra Alta), (Lonicera) és un gènere de plantes amb flor.
A la Catalunya del Nord es diu patimaneta o manetes al Conflent i banya de cabra (Lonicera implexa a Tivissa).
El nom del gènere Lonicera prové del botànic del Renaixement Adam Lonicer. El gènere Lonicera és originari de l'hemisferi nord. Bàsicament està implantat en l'Àsia central i oriental i la conca del Mediterrani. El gènere conté prop de 180 espècies amb el centre de diversificació a la Xina on n'hi ha vora 100.
Són lianes o arbusts caducifolis o de fulles persistents. Les fulles tenen una disposició oposada, són simples i ovals amb els contorns dentats o llisos i de color verd molt fosc. Les flors tenen forma de campana, de colors variats i en moltes espècies són altament flairoses. El fruit és una baia d'un vermell molt viu amb diverses llavors.
Algunes espècies (particularment el lligabosc japonès) tenen ús en jardineria.
Es pot produir tant a la primavera, l'estiu, la tardor i fins i tot l'hivern, depenent de l'espècie.
Hi ha espècies arbustives que s'utilitzen com a elements aïllats o en grups. Les trepadores són molt adequades per adornar façanes i pèrgoles. Es poden cultivar en testos de grans dimensions, d'uns 70 cm de profunditat i un diàmetre de 50 cm, com a mínim). La seva alçada pot arribar a fer 7 metres.
A la penombra o en ombra absoluta. En aquest últim cas la floració serà menys vistosa.
Ha de ser força ric i tou. En plantes en test o contenidor es fa servir habitualment una barreja d'13 de torba i un 16 de sorra, adobat i ben drenat. Tanmateix, s'ha demostrat que pot arribar a créixer en quasi qualsevol terreny.
Es fa a la tardor o al final de l'hivern. La seva multiplicació es realitza per estaca o per suport durant el juny; per esqueix en abril o agost, implantant-lo en terra sorrenca amb una protecció de plàstic. En la primavera es fa per llavors.
Xuclamel o lligabosc (designant principalment Lonicera implexa, Lonicera periclymenum i Lonicera caprifolium), didalets de la Mare de Déu pl., dolçamel (Lonicera implexa i Lonicera caprifolium), gallarets pl. (Lonicera etrusca), gallinassa, mare-selva, mare de bosc, mata-selva, rotaboc o santjoanera (Lonicera implexa a la Terra Alta), (Lonicera) és un gènere de plantes amb flor.
A la Catalunya del Nord es diu patimaneta o manetes al Conflent i banya de cabra (Lonicera implexa a Tivissa).
El nom del gènere Lonicera prové del botànic del Renaixement Adam Lonicer. El gènere Lonicera és originari de l'hemisferi nord. Bàsicament està implantat en l'Àsia central i oriental i la conca del Mediterrani. El gènere conté prop de 180 espècies amb el centre de diversificació a la Xina on n'hi ha vora 100.
Són lianes o arbusts caducifolis o de fulles persistents. Les fulles tenen una disposició oposada, són simples i ovals amb els contorns dentats o llisos i de color verd molt fosc. Les flors tenen forma de campana, de colors variats i en moltes espècies són altament flairoses. El fruit és una baia d'un vermell molt viu amb diverses llavors.
Prysgwydden gordeddog yn nheulu'r Caprifoliaceae yw'r gwyddfid neu laeth y gaseg (enw unigol ac enw lluosog) sy'n gynhenid i hemisffêr y gogledd. Mae'n blanhigyn dringol ac ymnyddol o deulu’r Caprifoliaceæ ac mae'n tyfu mewn llwyni a gwrychoedd.[1] Melyn-pinc ydy lliw'r blodau sy'n eitha persawrus ac ar ffurf utgyrn; mae'r aeron a dyf yn yr hydref o liw coch. Mae tua 180 o rywogaethau gwahanol ac mae 20 ohonynt yn gynhenid i Ewrop. Adwaenir y gwyddfid hefyd fel llaeth y gaseg, ymysg nifer o enwau gwahanol. Y math mwyaf cyffredin yw'r Lonicera periclymenum.
Mae'r dail mewn parau, yn syml ac yn hirgrwn. Yn ôl y naturiaethwraig Bethan Wyn Jones: Mae arogl y gwyddfid yn drymach ar awel yr hwyr am mai gwyfynod yn bennaf sy'n peillio'r gwyddfid, ac er mwyn denu'r gwyfynod hynny i beillio'r blodau mae'r gwyddfid yn rhyddhau perarogl.[2]
Cyfeirir at "laeth-y-gaseg" gan Dafydd Rowlands yn ei gerdd Dangosaf iti Lendid.[3]
Mae'r gwyddfid yn blanhigyn cyffredin mewn gerddi - yn bennaf gan eu bod yn gorchuddio hen waliau ac oherwydd lliw ac arogl y blodau. Mae'r mathau sy'n dringo'n hoffi gwreiddio yn y cysgod. Gallant ordyfu, gan dyfu'n wyllt, os nad ydynt yn cael eu tocio.[4]
Yn ddiweddar defnyddiwyd yr enw fel enw ar ferch.
Prysgwydden gordeddog yn nheulu'r Caprifoliaceae yw'r gwyddfid neu laeth y gaseg (enw unigol ac enw lluosog) sy'n gynhenid i hemisffêr y gogledd. Mae'n blanhigyn dringol ac ymnyddol o deulu’r Caprifoliaceæ ac mae'n tyfu mewn llwyni a gwrychoedd. Melyn-pinc ydy lliw'r blodau sy'n eitha persawrus ac ar ffurf utgyrn; mae'r aeron a dyf yn yr hydref o liw coch. Mae tua 180 o rywogaethau gwahanol ac mae 20 ohonynt yn gynhenid i Ewrop. Adwaenir y gwyddfid hefyd fel llaeth y gaseg, ymysg nifer o enwau gwahanol. Y math mwyaf cyffredin yw'r Lonicera periclymenum.
Mae'r dail mewn parau, yn syml ac yn hirgrwn. Yn ôl y naturiaethwraig Bethan Wyn Jones: Mae arogl y gwyddfid yn drymach ar awel yr hwyr am mai gwyfynod yn bennaf sy'n peillio'r gwyddfid, ac er mwyn denu'r gwyfynod hynny i beillio'r blodau mae'r gwyddfid yn rhyddhau perarogl.
Cyfeirir at "laeth-y-gaseg" gan Dafydd Rowlands yn ei gerdd Dangosaf iti Lendid.
Zimolez (Lonicera) je rod rostlin patřící do čeledi zimolezovité (Caprifoliaceae). Jsou to keře, liány nebo nízké stromy se vstřícnými jednoduchými listy a bílými, žlutými, růžovými nebo červenými, často nápadnými a vonnými květy. Zimolezy jsou rozšířeny v počtu asi 180 druhů v Evropě, Asii, severní Africe a Severní Americe. V České republice jsou domácí 2 druhy, zimolez obecný a zimolez černý, některé další se zde vyskytují zplaněle. Zimolezy mají význam zejména jako okrasné keře a popínavé rostliny. Některé druhy mají využití v medicíně a výjimečně jako drobné ovoce, většina druhů je však více či méně jedovatá.
Zimolezy jsou stálezelené nebo opadavé keře, řidčeji liány nebo nízké stromy. Větévky jsou duté nebo vyplněné bělavou či hnědou dření. Zimní pupeny jsou okrouhlé až ostře čtyřhranné, kryté jedním nebo několika páry šupin. Listy jsou vstřícné nebo výjimečně přeslenité. Čepel listů je celokrajná, pouze výjimečně zubatá nebo laločnatá. Palisty většinou chybějí, řidčeji jsou vyvinuty interpetiolární palisty nebo jsou řapíky protistojných listů spojené vystouplou linií. U některých druhů jsou horní 1 nebo 2 páry listů pod květenstvím srostlé (např. zimolez kozí list, L. caprifolia) a tvoří zákrovní listeny.
Květenství je vrcholové nebo postranní, obvykle thyrsus složený z vrcholíků tvořených jediným párem květů, řidčeji jsou květy jednotlivé nebo po třech. Vrcholíky mohou být stopkaté a podepřené párem listenů a 2 páry listenců nebo přisedlé. U některých druhů tvoří přisedlé vrcholíky hlávku. Květy ve dvojicích mohou být volné nebo částečně až zcela srostlé svými semeníky. Květy jsou drobné a nenápadné až velké a velmi nápadné. Kalich je pětičetný nebo výjimečně čtyřčetný, srostlý, zakončený laloky nebo na vrcholu uťatý. Koruna je bílá, žlutá, růžová nebo červená a často mění v průběhu vývoje květu barvu. Koruna je srostlá, zvonkovitá nebo nálevkovitá, s krátkou až dlouhou korunní trubkou, pravidelně nebo nepravidelně pětilaločnatá nebo dvoupyská s horním pyskem čtyřlaločným. Na vnitřní stěně korunní trubky jsou na spodní straně nektária. Tyčinek je 5 a jsou přirostlé ke korunní trubce. Semeník má 2, 3 nebo řidčeji až 5 komůrek, na vrcholu nese tenkou čnělku zakončenou hlavatou bliznou. Plodem je bobule obsahující 1 až mnoho semen. Plody jsou nejčastěji červené, modročerné, černé nebo zelené, řidčeji bílé. U druhů se srostlými semeníky tvoří souplodí. U některých druhů (např. zimolez zákrovnatý, L. involucrata) jsou dvojice plodů uzavřené ve vytrvalých listenech.[1]
Detail květů zimolezu etruského (Lonicera etrusca)
Květenství zimolezu Lonicera hirsuta
Souplodí zimolezu Lonicera altmannii
Rod zimolez zahrnuje asi 180 druhů. Je rozšířen v Evropě, Asii, severní Africe a Severní Americe.[1]
V České republice jsou původní 2 druhy zimolezů. Zimolez obecný (Lonicera xylosteum) je rozšířen zejména v nižších a středních polohách, zimolez černý (L. nigra) roste roztroušeně v horských lesích. Některé z pěstovaných druhů zimolezů zplaňují ve volné přírodě. Z keřovitých druhů je to zejména zimolez tatarský (L. tatarica), z popínavých druhů zimolez ovíjivý (L. periclymenum) a zimolez kozí list (L. caprifolium).[2]
Z celé Evropy je udáváno celkem 17 druhů zimolezů. Nejrozsáhlejší oblast rozšíření zaujímá zimolez obecný (L. xylosteum), zimolez modrý (L. caerulea), zimolez ovíjivý (L. periclymenum) a zimolez černý (L. nigra). Ve větších evropských pohořích roste zimolez horský (L. alpigena), který má jednu lokalitu i na Slovensku na Muráňské planine. Zimolez kozí list pochází ze střední a jihozápadní Evropy, dnes je však již široce rozšířen po většině kontinentu. Zimolez tatarský (L. tatarica) je v Evropě domácí pouze v Rusku, je však pěstován po celé Evropě a nezřídka zplaňuje. Z dalších druhů je po celém Středomoří rozšířen zimolez etruský (L. etrusca) a Lonicera implexa, v jihozápadní Evropě zimolez pyrenejský (L. pyrenaica), ve Španělsku Lonicera arborea, Lonicera biflora a endemický Lonicera splendida, v Itálii Lonicera stabiana, v Řecku Lonicera nummulariifolia a endemický Lonicera hellenica, na Balkáně endemický Lonicera glutinosa. Mimo to roste ve Středomoří zdomácnělý zimolez japonský (L. japonica), pocházející z Asie.[3]
Květy zimolezu japonského (L. japonica) obsahují monoterpenické silice (linalool, geraniol), pineny, kyselinu chlorogenovou, flavonoidy (lonicerin, loniceraflavon), iridoidní glykosidy (loganin, sekologanin) a triterpenoidní saponiny. Svíravá chuť je způsobena tříslovinami.[4]
Plody většiny druhů zimolezu jsou více či méně jedovaté. Otrava bobulemi zimolezu obecného (L. xylosteum) se projevuje zrudnutím obličeje, zvracením a průjmem, bolestmi břicha, nepravidelným pulsem, světloplachostí a hlubokým dechem. Bobule způsobují dávení i u ovcí a koz, naproti tomu nať spásají tato zvířata bez potíží. Plody zimolezu černého (L. nigra) jsou jedovaté méně. Byly také zaznamenány případy lehké otravy dětí po požití bobulí zimolezu tatarského (L. tatarica). Účinek je připisován obsaženým saponinům. Ve větším množství jsou jedovaté i bobule zimolezu japonského (L. japonica). Otrava se projevuje zvracením, průjmem, studeným potem, tlukotem srdce, rozšířenými zornicemi, dýchacími potížemi, křečemi a kómatem.[5][6][7] Naproti tomu bobule zimolezu kamčatského (L. caerulea var. kamtschatica) jsou jedlé a řadí se mezi drobné ovoce.[8]
Zimolezy náležejí mezi oblíbené okrasné dřeviny. Z keřovitých druhů je zejména v městské výsadbě nejčastěji vysazován zimolez tatarský (L. tatarica), který se pěstuje v řadě kultivarů. Dosti často se pěstují také stálezelené druhy s drobnými listy, zimolez lesklý (L. nitida) a zimolez fialový (L. pileata). Celkem zřídka se pěstuje zimolez zákrovnatý (L. involucrata), vyznačující se sytě červenými listeny podepírajícími květy a plody. Keřovitých zimolezů se pěstuje celá řada včetně kříženců a jejich určování je někdy nesnadné.[9] Množství druhů a kultivarů zimolezů je uváděno z českých botanických zahrad a arboret.[10]
Listy, květy a stonky zimolezu japonského se využívají v tradiční čínské medicíně zejména při léčení nemocí trávicího traktu. Má protizánětlivý a močopudný účinek, čistí krev a snižuje horečku.[4]
Zimolez kamčatský (L. caerulea var. kamtschatica) je pěstován pro jedlé plody, které mají velký obsah vitamínů C a B a karotenoidů. Ovoce, nazývané kamčatská borůvka, dozrává u raných odrůd již koncem května, u pozdnějších v červnu nebo červenci.[8] Pro naše podmínky se doporučují odrůdy Altaj a Amur vyšlechtěné na Slovensku.
Lonicera × brownii 'Dropmore Scarlet'
Plně rozkvetlý zimolez tatarský
Jedlé bobule zimolezu kamčatského
Většina zimolezů jsou poměrně nenáročné dřeviny. Daří se jim na slunci i v mírném zástinu. Vysazují se nejčastěji ve skupinách. K rozmnožování opadavých druhů se používají dřevité řízky, stálezelené druhy se množí i zelenými a letními řízky, ovíjivé hřížením. Výsev semen se používá pouze u botanických druhů z přirozených stanovišť.[9]
Obrázky, zvuky či videa k tématu zimolez ve Wikimedia Commons
Zimolez (Lonicera) je rod rostlin patřící do čeledi zimolezovité (Caprifoliaceae). Jsou to keře, liány nebo nízké stromy se vstřícnými jednoduchými listy a bílými, žlutými, růžovými nebo červenými, často nápadnými a vonnými květy. Zimolezy jsou rozšířeny v počtu asi 180 druhů v Evropě, Asii, severní Africe a Severní Americe. V České republice jsou domácí 2 druhy, zimolez obecný a zimolez černý, některé další se zde vyskytují zplaněle. Zimolezy mají význam zejména jako okrasné keře a popínavé rostliny. Některé druhy mají využití v medicíně a výjimečně jako drobné ovoce, většina druhů je však více či méně jedovatá.
Gedeblad (Lonicera), også kaldet kaprifolie eller kaprifolium (af latin caper 'buk' og folium 'blad'[1]) er en planteslægt som er udbredt i Nordamerika, Europa og Østasien med hen ved 200 arter af stedsegrønne eller løvfældende buske og lianer. De har modsatte, helrandede blade. Blomsterne er 5-tallige og sidder enten parvist ved bladhjørnerne eller i endestillede stande, der er støttet af højblade. Bægerbladene er rør- eller bægerformet sammenvoksede, og det samme er sket med kronbladene, der danner et langt eller meget langt kronrør, der har to eller fem lapper ved mundingen. Ved blomstens åbning spaltes kronbladene, sådan at de fire øverste tilsammen danner én læbe, mens den enlige, nederste danner en anden. Frugterne er bær, der sidder enkeltvis eller to sammen.
Beskrevne arter
Die Heckenkirschen und Geißblätter (Lonicera) sind eine Pflanzengattung in der Familie der Geißblattgewächse (Caprifoliaceae). Die etwa 180 Arten sind auf der Nordhalbkugel weitverbreitet.
Als „Heckenkirschen“ werden vor allem die strauchig wachsenden Arten bezeichnet, bei denen die Blüten paarweise stehen. Die aus einem Blütenpaar hervorgehenden Beeren sind bei manchen Arten zu einer Doppelbeere verwachsen (diese Arten heißen auch Doppelbeere). Die Lianen (mit mehrblütigen Blütenständen) werden dagegen meist als „Geißblatt“, umgangssprachlich auch als Jelängerjelieber, bezeichnet.
Lonicera-Arten sind immergrüne oder laubabwerfende, verholzende Pflanzen, die meist als Sträucher oder rechtswindende Lianen, selten als Bäume wachsen. Die Sprossachsen sind bei manchen Arten hohl. Die Winterknospen besitzen ein bis einige Paare gerundete oder spitz vierkantige Knospenschuppen, wobei die inneren manchmal weiterwachsend oder zurückgebogen sind. Manchmal ist die Endknospe reduziert und von zwei Seitenknospen ersetzt.
Die meist gegenständig oder selten wirtelig angeordneten Laubblätter sind gestielt oder ungestielt. Die Blattspreiten sind meist einfach mit ganzen oder selten gezähnten Blatträndern. Nebenblätter fehlen meist.
Oft stehen unter den Blütenständen ein oder zwei Paare kleiner oder laubblattartiger Hochblätter. Die seiten- oder endständigen, manchmal auf Blütenstandsschäften stehenden, schirmtraubigen Gesamtblütenstände bestehen aus gegenständigen, sitzenden, zymösen Teilblütenständen, die ein bis mehrere Blüten enthalten; manchmal ist der Blütenstand kopfförmig. Bei einigen Arten ist der Blütenstand auf ein Blütenpaar, selten auch eine oder drei Blüten reduziert. paarweise in den Blattachseln oder in endständigen kopfigen Blütenständen zusammen. Die Blüten stehen über einem Paar von äußeren und oft auch inneren Deckblättern, die, wenn vorhanden, meist frei, manchmal mehr oder weniger stark verwachsen sind und gelegentlich die Fruchtknoten umhüllen können.
Die zwittrigen Blüten sind zygomorph und meist fünf-, selten vierzählig mit doppelter Blütenhülle. Die meist fünf, selten vier Kelchblätter sind röhrig oder becherförmig verwachsen, manchmal gestutzt; manchmal befindet sich an ihrer Basis eine kragenähnliche Emergenz. Die Farben der Kronblätter reichen von weiß über weißlich bis gelb und von rötlich bis purpurrot, oft ändert sich die Farbe beim Verblühten. Die meist fünf, selten vier Kronblätter sind zu einer mehr oder weniger langen bis sehr langen, glockenförmigen bis trichterförmigen Kronröhre verwachsen. Die Krone endet mit mehr oder weniger regelmäßigen vier oder fünf Kronzipfeln oder zweilippig. Wenn die Krone zweilippig ist, dann ist die Oberlippe vierlappig. Nach der Entfaltung der Knospe ist die Kronröhre noch geschlossen und sieht dann keulenförmig aus. Der verdickte Teil spaltet sich dann in einen einzelnen, nach unten zeigenden Zipfel, welcher eine Unterlippe darstellt, und vier (bei vielen Arten weitgehend miteinander verwachsene) Zipfel, die nach oben zeigen. Die Kronröhre ist leicht bis stark gewölbt an der Unterseite zur Basis hin, selten ist ein Sporn vorhanden; dort befinden sich kompakte, sitzende Nektardrüsen, manchmal in fünf gleichmäßigen Linien; selten sind sie angeschwollen an der Basis des Griffels.
Es ist ein Kreis mit fünf Staubblättern vorhanden. Meist zwei bis drei, selten bis zu fünf Fruchtblätter sind zu einem unterständigen, zwei- bis drei-, selten bis zu fünfkammerigen Fruchtknoten verwachsen. Wenn die Blüten paarweise zusammen stehen, dann können die Fruchtknoten teilweise oder vollständig verwachsen sein (Syngynium). Der lange und dünne, behaarte oder kahle Griffel endet in einer kopfigen Narbe.
Die Beeren stehen einzeln oder als Doppelbeere in Paaren. Die bei Reife sich weiß, rot, blau-schwarz bis schwarz färbenden oder grünen, manchmal bereiften Beeren enthalten ein bis viele Samen. Manchmal wachsen die Deckblätter bis zur Fruchtreife und umhüllen dann die Doppelbeere. Die glatten, narbigen oder granulösen Samen besitzen viel Endosperm und einen kleinen, geraden, gerundeten Embryo.
Die verschiedenen Arten sind an Nachtfalter (speziell Schwärmer), Hummeln, Bienen, Wespen oder Schwebfliegen als Bestäuber angepasst (Entomophilie).
Die Gattung Lonicera wurde durch L. 1753 in Species Plantarum aufgestellt.[1] Als Lektotypus wurde Lonicera caprifolium L. 1913 durch N. L. Britton und A. Brown festgelegt.[2] Homonyme sind Lonicera Boehm. in Definitiones Generum Plantarum ed. 3 Boehmer, 1760. 139, Lonicera Gaertn. in De Fructibus et Seminibus Plantarum ..., 1, 1788, S. 132, Lonicera Adans. in Familles des Plantes, 2, 1763, S. 157. Weitere Synonym für Lonicera L. sind: Xylosteon Mill., Caprifolium Miller, Euchylia Dulac.[3] Der Gattungsname Lonicera ehrt den deutschen Mathematiker, Arzt und Botaniker Adam Lonitzer (1528–1586) (latinisiert als Lonicerus).[4]
Die Gattung Lonicera gehört zur Tribus Caprifolieae innerhalb der Familie der Caprifoliaceae.
Die Gattung Lonicera ist auf der Nordhalbkugel weitverbreitet. Lonicera-Arten gedeihen hauptsächlich in den Gemäßigten Gebieten. Sie kommt in Nordafrika, Eurasien und Nordamerika vor. In China kommen etwa 57 Arten vor, davon 23 nur dort.[5]
In Mitteleuropa sind die Sträucher Alpen-Heckenkirsche (Lonicera alpigena), Blaue Heckenkirsche (Lonicera caerulea), Schwarze Heckenkirsche (Lonicera nigra), Rote Heckenkirsche (Lonicera xylosteum) und die Lianen Gartengeißblatt (Lonicera caprifolium) sowie Waldgeißblatt (Lonicera periclymenum) beheimatet. Der Strauch Tataren-Heckenkirsche (Lonicera tatarica) ist in vielen Gebieten der Gemäßigten Zonen ein Neophyt.
Es gibt weltweit etwa 180 Arten[5]; hier eine Auswahl:
Einige Arten und Sorten werden als Zierpflanzen in Parks und Gärten verwendet.
Häufig angepflanzte Arten und Hybriden sind:
Die Heckenkirschen und Geißblätter (Lonicera) sind eine Pflanzengattung in der Familie der Geißblattgewächse (Caprifoliaceae). Die etwa 180 Arten sind auf der Nordhalbkugel weitverbreitet.
Als „Heckenkirschen“ werden vor allem die strauchig wachsenden Arten bezeichnet, bei denen die Blüten paarweise stehen. Die aus einem Blütenpaar hervorgehenden Beeren sind bei manchen Arten zu einer Doppelbeere verwachsen (diese Arten heißen auch Doppelbeere). Die Lianen (mit mehrblütigen Blütenständen) werden dagegen meist als „Geißblatt“, umgangssprachlich auch als Jelängerjelieber, bezeichnet.
Anaraf (Isem usnan: Lonicera) d tawsit n yemɣi seg twacult n caprifoliaceae 
. Carl Von Linné d amdan amezwaru i yuran fell-as deg useggas n 1753.
Anaraf (Isem usnan: Lonicera) d tawsit n yemɣi seg twacult n caprifoliaceae . Carl Von Linné d amdan amezwaru i yuran fell-as deg useggas n 1753.
Los cabrifuèlhs (genre Lonicera) son d'arbrilhon o de lianas de la familha dels caprifoliacèas.
Lo cabrifuèlh a de fuèlhas dentadas buta a las aurièras de las sèlvas e talvèras.
Se conéis gaireben 200 espècias dins las regions temperadas de l'emisfèri nòrd e las regions subtropicalas.
L'abitat de gaireben totas las espècias de cabrifuèlhas, es l'aurièra de las sèlvas e per extension los randls e talveras.
Los cabrifuèlhs, autoctons o exotics son frequentament utilizats per formar de randals o parets decoratius
Plan solelh fins a ombre leugièra.
Per empèut de fusta miègdur en estiu.
Los vièlhs plants podon èsser regeneradas le rebatent al sol.
L'espècia supòrta la talha, que permet de l'empachar de desbordar de l'espaci disponible.
Lo malhum GRIN recensa 139 espècias de Lonicera[1]. Per eFloras, i a près 180 espècas.
Los cabrifuèlhs (genre Lonicera) son d'arbrilhon o de lianas de la familha dels caprifoliacèas.
Lo cabrifuèlh a de fuèlhas dentadas buta a las aurièras de las sèlvas e talvèras.
Tekst üüb Öömrang Haagekäärsen (Lonicera) san en plaantenskööl uun det famile faan a Siigbleedplaanten (Caprifoliaceae). Diar jaft at son 180 slacher faan üüb a nuurdelk eerdheleft.
Haagekäärsen (Lonicera) san en plaantenskööl uun det famile faan a Siigbleedplaanten (Caprifoliaceae). Diar jaft at son 180 slacher faan üüb a nuurdelk eerdheleft.
Iadh-shlat neo iath-shlat (lonicera): luibh le blàthan cùbhraidh air a bhios a' direadh.
Seo cuid dhen ainmean a tha air iadh-shlat:
Kaprifolio esas lonicera caprifolium, arboreto klimera, sarmentoza, di qua la flori odoras.
Küz'mäine pu (latin.: Lonicera) om penzhiden heim. Oiktad, kerdujad vai ujelijad kazmused. Mülütadas Küz'mäižpuižed-sugukundha. Erasiden erikoiden plodud oma södabad, no äjiden erikoiden plodud oma travijad.
Heim om levitadud Pohjoižen mapoliškon äjiš rajoniš. Erikoiden tobj pala kazvab Gimalajas i Päivnouzmaižes Azijas. Venämas om 14 mecerikod, voib vastata mecanröunoiš i sarikoiš.
Järedahkod änikod oleldas vauktan, ruskedvauvhan, pakuižen i sinivauvhan mujun. Änikod i sid' plodud kazdas paroil lehtesiden alusišpäi vai barban lopus. Änikon vencudes om viž pölükäd i pit'kahk petkloine. Plodud kazdas ühthe paksus, kuti ülälehtesed-ki (erasil erikoil kaik lehtesed). Venäman erikod änikoitas semendkun lopuspäi kezakun keskhesai.
Küz'mäižen pun äi erikod ištutadas da kazvatadas saduiš čomikš dekorativižikš penzhikš. Ned sättudas gruppiden, allejoiden i kezapavil'joniden täht. Erased erikod oma medenkandajad. Kova pumaterial kožub sädamha penid tegesid.
Sädihe severz'-se kümnikoid dekorativižid sortuid södabidenke marjoidenke sinižen (kamčatižen) i södaban (Lonicera edulis) küz'mäižiden puiden alusel.
Kaik om 180 küz'mäižen pun erikod, niiden keskes enamba sadad om dokumentiruidud.
Küz'mäine pu (latin.: Lonicera) om penzhiden heim. Oiktad, kerdujad vai ujelijad kazmused. Mülütadas Küz'mäižpuižed-sugukundha. Erasiden erikoiden plodud oma södabad, no äjiden erikoiden plodud oma travijad.
Papsûger (Lonicera), of ek wol kamperfoelje, is in skaai fan klimplanten dat yn Jeropa, Sina, noardeastlik Aazje en yn de Feriene Steaten foarkomt. De plant heart ta de famylje fan de papsûgers (Caprifoliaceae). Hy wynt him om oare planten en beammen hinne.
De blommen hawwe benammen jûns in sterke swiete rook. Se binne der in ferskate kleuren, in soad foarkommend is de rôze-reade en giel-wite foarm. Kamperfoelje is frij maklik te fermearderjen út simmer- of winterstek. Yn it Frysk wurdt dit planteskaai behalven papsûgers ek wol de kamperfoelje, klapsûgers, stjonkblommen of tateblommen neamd. It skaai krige syn Latynske namme fan de Dútske natuerhistorikus Johann Lonitzer.
Papsûger (Lonicera), of ek wol kamperfoelje, is in skaai fan klimplanten dat yn Jeropa, Sina, noardeastlik Aazje en yn de Feriene Steaten foarkomt. De plant heart ta de famylje fan de papsûgers (Caprifoliaceae). Hy wynt him om oare planten en beammen hinne.
De blommen hawwe benammen jûns in sterke swiete rook. Se binne der in ferskate kleuren, in soad foarkommend is de rôze-reade en giel-wite foarm. Kamperfoelje is frij maklik te fermearderjen út simmer- of winterstek. Yn it Frysk wurdt dit planteskaai behalven papsûgers ek wol de kamperfoelje, klapsûgers, stjonkblommen of tateblommen neamd. It skaai krige syn Latynske namme fan de Dútske natuerhistorikus Johann Lonitzer.
Klimmende soarten Lonicera caprifolium - gewoane kamperfoelje Lonicera japonica Lonicera periclymenum - wylde kamperfoelje of papsûger Lonicera sempervirens Lonicera ×heckrotti (krusing americana mei sempervirens)
Wintergriene strûken Lonicera fragrantissima Lonicera nitida - Sineeske kamperfoelje Lonicera pileata Lonicera korolkowii Lonicera ledebourii Lonicera maackii Lonicera morrowii Lonicera tatarica Lonicera xylosteum - reade papsûger Lonicera syringantha (var. wolfii) Lonicera ×purpusii (krusing standishii mei fragrantissima
Shilvi, uchqat — shilvidoshlar oilasiga mansub butalar turkumi. 30 dan ortiq turi maʼlum. Oʻzbekistonda shahrining xushboʻy Sh., tangabarg Sh., tatar Sh.si, maydagul Sh., Korolkov Sh.si, nozik Sh., maydabarg Sh., olga Sh.si, altman Sh.si va boshqalar turlari uchraydi. Boʻyi 1,5 m dan 4,5 m gacha, barglari keng tuxumsimon, baʼzilariniki uzun tuxumsimon, gullari ikki jinsli, oq, sargʻish, qizil, pushti, aprel—may oylarida gullab, avg .—sent.da urugʻlaydi. Mevasi sersuv, rezavor. Xushboʻy Sh., tatar Sh.si, maydagul Sh. manzarali oʻsimlik sifatida oʻstiriladi. shahrining boshqa koʻplab turlari togʻ daralari, daryo boʻylari, togʻ yonbagʻirlarida butazorlar hosil qilib, daraxtzorlar orasida, adirlarda oʻsadi. Sovuqqa chidamsiz. Dasht zonalarida ekinzorlarni himoya qilish, koʻkalamzorlar, yashil devorlar hosil qilishda foydalaniladi. Yogʻochi qattiq va mustahkam boʻlganligi tufayli duradgorlik va mebelsozlikda ishlatiladi.
Sukerjennigjen of kamperfoelie (Latien: Lonicera) is een geslach van slingerplaanteen en struken dat in Europa, China, Noordoost-Azië en in de Amerika veurkump. 't Geslach beheurt tot de kamperfoeliefemilie (Caprifoliaceae). De plaanten greuien um aandere plaanten en bomen hinne.
De bloemen hemmen veural 's avens een starke zeute geur. Ze bin der in verschillende kleuren, de roze-rooie en geel-witte koemen 't meest veur. De plaante ku-j makkelijk vermeerderen uut zoemer- of wienterstekken.
De naam sukerjennigjen kump werschienlijk deurdat de geur 's avens beheurlijk zeut en stark is, en deurdat de bloemen een eetbaore zeute nectar anmaken. A-j de stengel van 't sukerjennigjen breken dan ku-j de zeute geur oek goed ruken.
't Sukerjennigjen, oek wè kamperfoelie eneumd, wönnen in sommigen dialekken oek wè geitenblad of geitenklever eneumd. Dat kump overene mit 't Franse 'chèvre-feuille', 't Duutse 'Geißblatt' en 't Italiaanse 'caprifoglio'. De naam kamperfoelie is een verbastering van de Italiaanse vorm.
De botanische naam Lonicera kump van de achternaam van de Duutse plaantkundige Adam Lonitzer.
Sukerjennigjen of kamperfoelie (Latien: Lonicera) is een geslach van slingerplaanteen en struken dat in Europa, China, Noordoost-Azië en in de Amerika veurkump. 't Geslach beheurt tot de kamperfoeliefemilie (Caprifoliaceae). De plaanten greuien um aandere plaanten en bomen hinne.
De bloemen hemmen veural 's avens een starke zeute geur. Ze bin der in verschillende kleuren, de roze-rooie en geel-witte koemen 't meest veur. De plaante ku-j makkelijk vermeerderen uut zoemer- of wienterstekken.
Анамска рака (науч. Lonicera, syn. Caprifolium Mill.) — род грмушки или повивни ползавци од фамилијата анамски раце (Caprifoliaceae), автохтони на северната полутопка. Постојат околу 180 вида, од кои 100 во Кина и по 20 во Европа, Индија и Северна Америка. Општопознати видови се обичната (L. periclymenum), јапонската (L. japonica, наречена и „кинеска“) и зимзелената анамска рака (L. sempervirens). Некои од нив привлекуваат колибрија, особено зимзелената и портокаловата анамска рака (L. ciliosa).
Латинскиот назив Lonicera доаѓа од германскиот ренесансен ботаничар Адам Лоницер (1528-1586).
Голем дел од видовите анамски раце се мразоотпорни повивни растенија, а остатокот се грмушести. Неколку вида се мошне кревки, па можат да се одгледуваат на отворено само во суптропски подрачја. Меѓу овие кревки видови се вбројуваат џиновската бурманска анамска рака {L. hildebrandiana} од подножјето на Хималаите и етрурската анамска рака (L. etrusca) од Средоземјето. Листови се спротиставени, просто-јајцевидни, со должина од 1–10 см. Највеќето видови се листопадни, но има и зимзелени. Многу од нив имаат по чифт двострано симетрични цветови со опоен мирис и даваат сладок јадлив нектар. Стеблата се тенки, свитливи и мошне влакнести по структура, па затоа наоѓаат традиционална примена како врзиво и текстилен материјал. Плодот може да биде црвена, сина или црна, округла или издолжена бобинка со по неколку семки. Кај највеќето видови, бобинките се благо отровни, но неколку вида (особено сината анамска рака, L. caerulea) имаат јадливи бобинки што се одгледуваат за исхрана. Бобинките кај речиси сите видови се привлечни за животните, кои така ги изнесуваат вон природниот ареал, при што стануваат инвазивни растенија. Такви се . Доста видови се храна за ларвите на разни видови пеперутки.
Неколку вида анамска рака станале инвазивни откако биле доведени на места вон матичното подрачје, што е особено случај со Нов Зеланд и САД. За инвазивни се сметаат јапонската (L. japonica) и Маковата (L. maackii), Мороовата (L. morrowii) и татарската анамска рака (L. tatarica).
Анамските раце се ценети како градинарски растенија, бидејќи ги прекриваат и украсуваат оградите и помалку привлечните делови од градбите. Лете имат голем број трубести цветови со мошне привлечен мирис. Поиздржливите ползечки видови бараат корењата да им бидат во сенка, цветните делови на сонце. Видот и сортата треба да се одбира со внимание, бидејќи некои знаат да значајно се прошират и да станат тешки за справување.[1]
Lonicera acuminata
Lonicera albiflora — бела анамска рака
Lonicera alpigena — планинска анамска рака
Lonicera altmannii
Lonicera angustifolia
Lonicera anisocalyx
Lonicera arborea
Lonicera arizonica — аризонска анамска рака
Lonicera biflora
Lonicera bournei
Lonicera brevisepala
Lonicera buchananii
Lonicera buddleioides
Lonicera caerulea — сина анамска рака
Lonicera calcarata
Lonicera calvescens
Lonicera canadensis — канадска анамска рака
Lonicera caprifolium — козја анамска рака (типски вид)
Lonicera carnosifolis
Lonicera cerviculata
Lonicera chrysantha — златна анамска рака
Lonicera ciliosa — портокалова анамска рака
Lonicera ciliosissima
Lonicera cinerea
Lonicera codonantha
Lonicera confusa
Lonicera conjugialis — виолетова анамска рака
Lonicera crassifolia
Lonicera cyanocarpa
Lonicera dasystyla — тонкинска анамска рака
Lonicera dioica — свитлива анамска рака
Lonicera elisae
Lonicera etrusca — етрурска анамска рака
Lonicera fargesii
Lonicera ferdinandii
Lonicera ferruginea
Lonicera flava — жолта анамска рака
Lonicera fragilis
Lonicera fragrantissima — зимска анамска рака
Lonicera fulvotomentosa
Lonicera glutinosa
Lonicera graebneri
Lonicera gynochlamydea
Lonicera × heckrottii — златнопламена анамска рака
Lonicera hellenica — грчка анамска рака
Lonicera hemsleyana
Lonicera heterophylla
Lonicera hildebrandiana — џиновска бурманска анамска рака
Lonicera hirsuta — влакнеста анамска рака
Lonicera hispida
Lonicera hispidula — розова анамска рака
Lonicera humilis
Lonicera hypoglauca
Lonicera hypoleuca
Lonicera implexa
Lonicera inconspicua
Lonicera inodora
Lonicera interrupta — чапаралска анамска рака
Lonicera involucrata — покривална анамска рака
Lonicera japonica — јапонска или кинеска анамска рака
Lonicera jilongensis
Lonicera kansuensis
Lonicera kawakamii
Lonicera korolkowii — синолистна анамска рака
Lonicera lanceolata
Lonicera ligustrina
Lonicera litangensis
Lonicera longiflora
Lonicera longituba
Lonicera maackii — Макова или амурска анамска рака
Lonicera macrantha
Lonicera macranthoides
Lonicera maximowiczii
Lonicera microphylla
Lonicera minuta
Lonicera minutifolia
Lonicera modesta
Lonicera morrowii — Морова анамска рака
Lonicera mucronata
Lonicera myrtillus
Lonicera nervosa
Lonicera nigra — црна анамска рака
Lonicera nitida — сјајна анамска рака
Lonicera nubium
Lonicera nummulariifolia
Lonicera oblata
Lonicera oblongifolia — долголистна анамска рака
Lonicera oiwakensis
Lonicera oreodoxa
Lonicera orientalis
Lonicera pampaninii
Lonicera paradoxa
Lonicera periclymenum — обична анамска рака
Lonicera pileata — капчеста анамска рака
Lonicera pilosa — мексиканска анамска рака
Lonicera praeflorens
Lonicera prostrata
Lonicera pyrenaica
Lonicera reticulata — мрежеста анамска рака
Lonicera retusa
Lonicera rhytidophylla
Lonicera rupicola
Lonicera ruprechtiana — манџурска анамска рака
Lonicera saccata
Lonicera schneideriana
Lonicera semenovii
Lonicera sempervirens — зимзелена анамска рака
Lonicera serreana
Lonicera setifera
Lonicera similis
Lonicera spinosa
Lonicera splendida
Lonicera standishii Стендишова анамска рака
Lonicera stephanocarpa
Lonicera subaequalis
Lonicera subhispida
Lonicera sublabiata
Lonicera subspicata јужна анамска рака
Lonicera szechuanica
Lonicera taipeiensis
Lonicera tangutica
Lonicera tatarica — татарска анамска рака
Lonicera tatarinowii
Lonicera tomentella
Lonicera tragophylla
Lonicera tricalysioides
Lonicera trichogyne
Lonicera trichosantha
Lonicera trichosepala
Lonicera tubuliflora
Lonicera utahensis — јутска анамска рака
Lonicera villosa — планинска влакнеста анамска рака
Lonicera virgultorum
Lonicera webbiana
Lonicera xylosteum — вистинска анамска рака
Lonicera yunnanensis
Анамска рака (науч. Lonicera, syn. Caprifolium Mill.) — род грмушки или повивни ползавци од фамилијата анамски раце (Caprifoliaceae), автохтони на северната полутопка. Постојат околу 180 вида, од кои 100 во Кина и по 20 во Европа, Индија и Северна Америка. Општопознати видови се обичната (L. periclymenum), јапонската (L. japonica, наречена и „кинеска“) и зимзелената анамска рака (L. sempervirens). Некои од нив привлекуваат колибрија, особено зимзелената и портокаловата анамска рака (L. ciliosa).
Латинскиот назив Lonicera доаѓа од германскиот ренесансен ботаничар Адам Лоницер (1528-1586).
Айыу баланы (рус. жимолость, лат. Lonícera) — тура баҫып, үрмәләп йә ергә йәйелеп үҫә торған ҡыуаҡтарҙан; айыу баланы ғаиләһенең типлы ырыуынан. Латинса атамаһы немец математигы, физигы һәм ботанигы Адам Лоницер (1528—1586) исеменән алынған, ә башта уны Карл Линней каприфоль тип атарға йыйынған булған (Caprifolium, сөнки Европала тап бына ошо төр -айыу баланы каприфоль үҫтерелә торған булған[3].
Төньяҡ ярымшарҙа һәр ерҙә тиерлек осрай. 190 төрө билдәле, күберәк Гималайҙа һәм Шәрҡи Азияла үҫә. Рәсәйҙә ҡырағай 14 төрө бар.
Сәскәләре эре генә, аҡ, алһыу, һарғылт йә зәңгәрһыу. Япраҡ төптәрендә йә суҡтарҙың осонда икешәр булып урынлаша.
Емештәре лә парлы, ҡайһы саҡ ҡушар булып үҫә.
Ҡырағай төрө республикабыҙҙа ла үҫә, ул ҡыҙыл еләкле һәм ағыулы. Айыу баланының ашарға яраҡлы төрҙәре лә күп, хәҙер уны беҙҙә баҡсаларҙа үҫтерә башланылар. Оҙонса еләктәренә, әйтерһең, көртмәле менән мышар тәме ҡушылған, тиресәһе лә көртмәле төҫөндә. Ҡыуаҡтан ғына алып ҡапҡанда әллә ни тәмле лә түгел кеүек, әсерәк. Әммә шәкәр йәки бал менән – хәтәр шәп! Етмәһә, ул июнь башында уҡ, башҡа еләктәрҙән алда, бешеп тә етә. Ҡайнатма ла, компот та әҙерләргә була унан, ә ойотҡан-ҡатыҡ, кефир менән шунда уҡ ҡына бына тигән файҙалы, тәмле ризыҡты табынға ҡуйып була.
Ырыуҙа 200 төр бар[4] Ҡайһы бер төрҙәре:
Ойотҡан-ҡатыҡ менән баллы эсемлек
2 кешелек: 2 балғалаҡ бал йәки 4 балғалаҡ шәкәр 100 г айыу баланы 2 стакан ҡатыҡ ( ойотҡан) йә кефир
Еләктәрҙе иҙеп ҡатыҡҡа ҡушабыҙ, бал йә шәкәр өҫтәйбеҙ ҙә ныҡ итеп болғатабыҙ.
Айыу баланы (рус. жимолость, лат. Lonícera) — тура баҫып, үрмәләп йә ергә йәйелеп үҫә торған ҡыуаҡтарҙан; айыу баланы ғаиләһенең типлы ырыуынан. Латинса атамаһы немец математигы, физигы һәм ботанигы Адам Лоницер (1528—1586) исеменән алынған, ә башта уны Карл Линней каприфоль тип атарға йыйынған булған (Caprifolium, сөнки Европала тап бына ошо төр -айыу баланы каприфоль үҫтерелә торған булған.
Бружмель — род кветкавых расьлінаў сямейства бружмелевых.
Налічвае звыш 200 відаў. Пашыраны пераважна ва ўмераных абласьцях Паўночнага паўшар’я, у Паўднёвым паўшар’і — у Андах. Род бружмель прадстаўлены хмызьнякамі зь ліку лістападных і шматгадовазялёных прамастойных, сьцелістых, іншы раз павойных. Зрэдку сустракаюцца невялікія дрэўцы і ліяны. Лісьце простае, суцэльнае або лопасьцевае, супраціўнае, на чаранках, сядзячае або зрослае асновамі, суцэльнакрайняе. Кветкі няправільныя, рознага адценьня, разьмяшчаюцца парамі на кароткіх пазушных кветканосах. Радзей кветкі месьцяцца ў складаных паўпарасоніках, што ўтвараюць несапраўдныя кальчакі, галоўчатыя або коласападобныя суквецьці. Вяночак трубчаста-лейкападобны, часта двухгубы. Плады — сакаўныя, свабодныя або зрослыя парамі ягады (у некаторых відаў ядомыя). Паводле прызначэньня сярод відаў роду бружмель вылучаюць: дэкаратыўныя, лекавыя (ірвотныя і слабільныя), меданосныя і тэхнічныя расьліны[1].
Сьпелыя ягады маюць уласьцівасьць ападаць з хмызьняка. Ягады бружмелю багатыя на аскарбінавую кісьлю (вітамін С) і такія мікраэлемэнты, як ёд, марганец і медзь. Цёмна-фіялетавыя ягады з шызым налётам маюць густы фарбавальны сок і прадаўгаватую форму. Смак ягадаў кісла-салодкі[2].
Для вырошчваньня бружмеля падыходзіць лёгкая глеба без застою вады, асьветленае або трохі зацененае месца, абароненае ад ветру. Хмызьнякі бружмелю высаджваюць увосень на адлегласьці прынамсі 2 мэтраў адзін ад аднаго ў ямы дыямэтрам і глыбінёй 50 см. Перагной уносяць увосень і раньняй вясной. Разгалінаваныя хмызьнякі дасягаюць вышыні 2 мэтраў з бурай карой, што лупіцца, і апушчаным даўгаватым лісьцем. У пачатку траўня на хмызьняках бружмелю зьяўляюцца жоўтыя кветкі, якія вабяць водарам вусякоў. Квітненьне цягнецца месяц[2].
У Беларусі трапляецца 1 дзікарослы від — звычайны бружмель — як падлесак у хвойных і мяшаных лясах на паўднёвай мяжы арэалу. У зялёнае будаўніцтва ўвялі звыш 60 відаў, сярод якіх найбольш вядомыя 8 відаў бружмелю: альпійскі, алтайскі, гарбаты, капрыфоль, павойны, татарскі і ядомы[1].
Бружмель ёсьць найбольш раньняй ягадай, што пачынае высьпяваць у садах Беларусі. Высьпяваньне пладоў расьцягнута да ліпеня. Сярод пашыраных у Беларусі ягадаў бружмель займае 2-е месца пасьля чорных парэчак паводле насычанасьці вітамінам С (аскарбінавая кісьля)[2].
Бружмель — род кветкавых расьлінаў сямейства бружмелевых.
Налічвае звыш 200 відаў. Пашыраны пераважна ва ўмераных абласьцях Паўночнага паўшар’я, у Паўднёвым паўшар’і — у Андах. Род бружмель прадстаўлены хмызьнякамі зь ліку лістападных і шматгадовазялёных прамастойных, сьцелістых, іншы раз павойных. Зрэдку сустракаюцца невялікія дрэўцы і ліяны. Лісьце простае, суцэльнае або лопасьцевае, супраціўнае, на чаранках, сядзячае або зрослае асновамі, суцэльнакрайняе. Кветкі няправільныя, рознага адценьня, разьмяшчаюцца парамі на кароткіх пазушных кветканосах. Радзей кветкі месьцяцца ў складаных паўпарасоніках, што ўтвараюць несапраўдныя кальчакі, галоўчатыя або коласападобныя суквецьці. Вяночак трубчаста-лейкападобны, часта двухгубы. Плады — сакаўныя, свабодныя або зрослыя парамі ягады (у некаторых відаў ядомыя). Паводле прызначэньня сярод відаў роду бружмель вылучаюць: дэкаратыўныя, лекавыя (ірвотныя і слабільныя), меданосныя і тэхнічныя расьліны.
Зелпе (лат. Lonícera) — парлап урнашкан вак яфраклы, хуш исле алсу һәм ак чәчәк ата, кара коңгырт төстәге җимеш бирә торган үсемлек.
Зелпе сүзе гар. зөлеф — «бөдрә толым»[3] сүзеннән[4].
Зелпе (лат. Lonícera) — парлап урнашкан вак яфраклы, хуш исле алсу һәм ак чәчәк ата, кара коңгырт төстәге җимеш бирә торган үсемлек.
Шилби (лат. Lonicera, L. 1753) – шилбилер тукумундагы өсүмдүк уруусу. Көпчүлүгү түз сабактуу же чырмалма бадал, чанда анча чоң эмес дарак. Бийикт. 0,5-10 м. Жалбырагы жөнөкөй, сүйрү, туташ жайгашат. Гүлү ак, сары, кызгылт же кызыл түстүү, жуптан жайгашат, айрымдары төгөрөк. Мөмөсү ширелүү жемиш. Дүйнөдө 200дөн ашык, КМШда 50, Кыргызстанда 20дай түрү белгилүү. Көбүнчө токойдо же ачык тоо беттеринде өсөт. Кадимки Ш., Россиянын Европа бөлүгүндө, Чыгыш Сибирде, татар Ш-си Волгадан Енисейге чейин, көгүш Ш. Карпатта өсөт. Ш-нин жыгачы катуу, түрдүү иштерге керектелет. Дары-дармек жасоодо пайдаланылат. Кооз жана жармашып өсүүчү түрү кооздук жана жашылдандыруу үчүн өстүрүлөт.
Шилби (лат. Lonicera, L. 1753) – шилбилер тукумундагы өсүмдүк уруусу. Көпчүлүгү түз сабактуу же чырмалма бадал, чанда анча чоң эмес дарак. Бийикт. 0,5-10 м. Жалбырагы жөнөкөй, сүйрү, туташ жайгашат. Гүлү ак, сары, кызгылт же кызыл түстүү, жуптан жайгашат, айрымдары төгөрөк. Мөмөсү ширелүү жемиш. Дүйнөдө 200дөн ашык, КМШда 50, Кыргызстанда 20дай түрү белгилүү. Көбүнчө токойдо же ачык тоо беттеринде өсөт. Кадимки Ш., Россиянын Европа бөлүгүндө, Чыгыш Сибирде, татар Ш-си Волгадан Енисейге чейин, көгүш Ш. Карпатта өсөт. Ш-нин жыгачы катуу, түрдүү иштерге керектелет. Дары-дармек жасоодо пайдаланылат. Кооз жана жармашып өсүүчү түрү кооздук жана жашылдандыруу үчүн өстүрүлөт.
Дая кады (орус. жимолость) улуг эвес чадаң үнүш, кузумаар өңңүг бүрүлери чолдак сыптыг, төгериксимээр. Чечээ сарыгзымаар өңнүг, чимизи эш-эш, каттың дөзүнде чыпшынчак, кады шөйбек, ак-көк өңнүг. Тывада тайга эдээнде, арыг ишти шыктыг черлерде хөй үнүп турар. Кады ажыгзымаар амданныг, оон кисель, варенье хайындырып, шайга каап, ижип ажыглап турар.
Дая кадының тургузуунда чигир, глюкоза, фруктоза, сахароза, галактоза база лимон, яблок, щавель кислоталары болгаш аскорбинниг кислота бар.
Дая кадында хөй витаминнар, өске-даа холуксаалар бар болганда, ону ниити мага-ботту быжыглаарынга, витамин четпестээр аарыгларга ажыглап турар. Дая кадын улус хан базыышкыны кудуладырынга, ижин-шөйүнду аарыгларынга ажыглап турар.
Дая кады (орус. жимолость) улуг эвес чадаң үнүш, кузумаар өңңүг бүрүлери чолдак сыптыг, төгериксимээр. Чечээ сарыгзымаар өңнүг, чимизи эш-эш, каттың дөзүнде чыпшынчак, кады шөйбек, ак-көк өңнүг. Тывада тайга эдээнде, арыг ишти шыктыг черлерде хөй үнүп турар. Кады ажыгзымаар амданныг, оон кисель, варенье хайындырып, шайга каап, ижип ажыглап турар.
Дая кадының тургузуунда чигир, глюкоза, фруктоза, сахароза, галактоза база лимон, яблок, щавель кислоталары болгаш аскорбинниг кислота бар.
Дая кадында хөй витаминнар, өске-даа холуксаалар бар болганда, ону ниити мага-ботту быжыглаарынга, витамин четпестээр аарыгларга ажыглап турар. Дая кадын улус хан базыышкыны кудуладырынга, ижин-шөйүнду аарыгларынга ажыглап турар.
Honeysuckles are arching shrubs or twining vines in the genus Lonicera (/lɒˈnɪsərə/[2]) of the family Caprifoliaceae, native to northern latitudes in North America and Eurasia.[3] Approximately 180 species of honeysuckle have been identified in both continents.[3] Widely known species include Lonicera periclymenum (common honeysuckle or woodbine), Lonicera japonica (Japanese honeysuckle, white honeysuckle, or Chinese honeysuckle) and Lonicera sempervirens (coral honeysuckle, trumpet honeysuckle, or woodbine honeysuckle). L. japonica is a highly invasive species considered a significant pest on parts of North America, Europe, South America, Australia, and Africa.[3]
Some species are highly fragrant and colorful, so are cultivated as ornamental garden plants. In North America, hummingbirds are attracted to the flowers, especially L. sempervirens and L. ciliosa (orange honeysuckle). Honeysuckle derives its name from the edible sweet nectar obtainable from its tubular flowers.[4] The name Lonicera stems from Adam Lonicer, a Renaissance botanist.[3]
Most species of Lonicera are hardy twining climbers, with a minority of shrubby habit.[3] Some species (including Lonicera hildebrandiana from the Himalayan foothills and L. etrusca from the Mediterranean) are tender and can only be grown outside in subtropical zones. The leaves are opposite, simple oval, 1–10 cm long; most are deciduous but some are evergreen.
Many of the species have sweetly scented, bilaterally symmetrical flowers that produce a sweet, edible nectar, and most flowers are borne in clusters of two (leading to the common name of "twinberry" for certain North American species). Both shrubby and vining sorts have strongly fibrous stems which have been used for binding and textiles.
The fruit is a red, blue or black spherical or elongated berry containing several seeds; in most species the berries are mildly poisonous, but in a few (notably Lonicera caerulea) they are edible and grown for home use and commerce. Most honeysuckle berries are attractive to wildlife, which has led to species such as L. japonica and L. maackii spreading invasively outside of their home ranges. Many species of Lonicera are eaten by the larvae of some Lepidoptera species—see a list of Lepidoptera that feed on honeysuckles.
The spread of L. japonica in North America began in the United States in 1806, when it was widely cultivated by the 1860s.[3] It was first discovered in Canada in Ontario forests in 1976, and became invasive by 2007.[3] L. japonica was introduced in Australia between 1820 and 1840.[3]
Several species of honeysuckle have become invasive when introduced outside their native range, particularly in North America, Europe, South America, Australia, and Africa.[3] Invasive species include L. japonica, L. maackii, L. morrowii, L. tatarica, and the hybrid between the last two, L. × bella.[3]
Honeysuckles are valued as garden plants, for their ability to cover unsightly walls and outbuildings, their profuse tubular flowers in early summer, and the intense fragrance of many varieties. The hardy climbing types need their roots in shade, and their flowering tops in sunlight or very light shade. Varieties need to be chosen with care, as they can become substantial. Cultivars of the dense, small-leaved L. nitida are used as low, narrow hedges.[5]
The following hybrids have gained the Royal Horticultural Society's Award of Garden Merit:[6]
Other cultivars are dealt with under their species names.
The honeysuckle species Lonicera japonica is grown as a commercial crop for traditional Chinese medicine use.[11]
Honeysuckle is renowned for its colorful, fragrant flowers[12][13] and variously colored fruit, indicating the presence of complex phytochemicals underlying these properties. Component analyses of berries from 27 different cultivars and 3 genotypes of edible honeysuckle (Lonicera caerulea var. kamtschatica) showed the presence of iridoids, anthocyanins, flavonols, flavanonols, flavones, flavan-3-ols, and phenolic acids.[14] While sugars determine the level of sweetness in the berries, organic acids and polyphenols are responsible for the sour taste and tartness.[14] Some 51 of the same compounds in berries are found in flowers, although the proportions of these compounds varied among cultivars studied.[15]
Many insects in the order Lepidoptera visit honeysuckles as a food source. An example of this is the moth Deilephila elpenor. This nocturnal species of moth is especially attracted to honeysuckles, and they visit the flowers at night to feed on their nectar.[16]
Some 180 species of Lonicera are documented.[3][17]
Several fossil species are known from the Miocene of Asia.[18]
Lonicera japonica
L. ciliosa
L. japonica fruit
L. hispidula
L. sempervirens
L. tatarica
L.caprifolium, Chèvrefeuille
_26-07-2020_(d.j.b.)_01.jpg)
flower buds.
Honeysuckles are arching shrubs or twining vines in the genus Lonicera (/lɒˈnɪsərə/) of the family Caprifoliaceae, native to northern latitudes in North America and Eurasia. Approximately 180 species of honeysuckle have been identified in both continents. Widely known species include Lonicera periclymenum (common honeysuckle or woodbine), Lonicera japonica (Japanese honeysuckle, white honeysuckle, or Chinese honeysuckle) and Lonicera sempervirens (coral honeysuckle, trumpet honeysuckle, or woodbine honeysuckle). L. japonica is a highly invasive species considered a significant pest on parts of North America, Europe, South America, Australia, and Africa.
Some species are highly fragrant and colorful, so are cultivated as ornamental garden plants. In North America, hummingbirds are attracted to the flowers, especially L. sempervirens and L. ciliosa (orange honeysuckle). Honeysuckle derives its name from the edible sweet nectar obtainable from its tubular flowers. The name Lonicera stems from Adam Lonicer, a Renaissance botanist.
Lonicero (Lonicera el kaprifoliacoj) estas genro de fal- kaj daŭra-foliaj arbustoj, volviĝantaj aŭ ne, kun kontraŭe duopaj folioj, kun dulipaj, longtubaj floroj kaj kun berecaj fruktoj ofte tre venenaj; ĉirkaŭ 180 specioj, precipe Nord-hemisferaj, multaj pororname kultivataj.[1]
http://en.wikipedia.org/upload/b/b2/Honeysuckle_w_y.jpg
Lonicero (Lonicera el kaprifoliacoj) estas genro de fal- kaj daŭra-foliaj arbustoj, volviĝantaj aŭ ne, kun kontraŭe duopaj folioj, kun dulipaj, longtubaj floroj kaj kun berecaj fruktoj ofte tre venenaj; ĉirkaŭ 180 specioj, precipe Nord-hemisferaj, multaj pororname kultivataj.
Lonicera es un género de plantas con flores perteneciente a la familia Caprifoliaceae. Comprende 526 especies descritas y de estas, solo 108 aceptadas.[2] Las especies incluidas dentro de este género normalmente son conocidas por el nombre popular de madreselvas. Son arbustos arqueados o parras sarmentosas, la mayoría con dulces fragancias y flores con forma de campana.
Las hojas son opuestas, ovales simples, y desde 1–10 cm de longitud; la mayoría son caducifolias y algunas son perennifolias. Estas plantas son la base de alimentación de las larvas de especies de Lepidoptera de muchas familias, por ejemplo Spilosoma virginica (Erebidae), Hyphantria cunea (Erebidae), Celastrina argiolus (Lycaenidae), Amphipyra pyramidoides (Noctuidae).
La madreselva japonesa y la madreselva del Amur (Lonicera maackii) están consideradas como plantas invasivas en los EE. UU. y en Nueva Zelanda. Las madreselvas pueden ser controladas: cortándolas, quemándolas, o quemando las raíces y repitiendo la operación a las dos semanas hasta que las reservas de las raíces se hayan agotado.
Lonicera caerulea var. edulis (Madreselva azul) y Lonicera ciliosa (Madreselva naranja) destacan por su fruto comestible (a diferencia de las otras especies de loniceras cuyos frutos son tóxicos para el ser humano).
Lonicera xylosteum, es un remedio en la medicina tradicional. Lonicera periclymenum (madreselva europea) es otro remedio de medicina tradicional, no muy corriente, usado para tratar la irritabilidad con explosiones de violencia. De igual manera, la Lonicera periclymenum y Lonicera japonica también se usan en medicina tradicional, por lo que hay diversos estudios sobre las funciones de estas plantas. [3]
La lonicera ha sido recientemente descubierta como una de las plantas capaces de absorber más polución mejorando significativamente la calidad del aire a su alrededor, y por ser una planta que crece fácilmente en cualquier parte ha sido propuesta como parte de un proyecto de Holanda [1] para limpiar el aire de las grandes ciudades. La primera ciudad en realizar un proyecto con la lonicera será Ámsterdam, donde se creará un parque en forma de G alrededor de toda la ciudad. Este corredor verde tendrá más de 25.000 hectáreas de tierra.
Además esta planta contiene una gran cantidad de biomasa que puede ser convertida en biocombustible (biodiésel). Estudios realizados por el ingeniero Ton van Oostwaard en Holanda hallaron que una hectárea de lonicera resulta en 12 toneladas de biomasa lista para convertirse en biocombustible.
El género fue descrito por Carlos Linneo y publicado en Species Plantarum 1: 173. 1753.[4] La especie tipo es: Lonicera caprifolium
El término "madreselva" se ha usado durante mucho tiempo para designar a las especies integrantes del género Lonicera, aunque este apelativo se aplicó primeramente para designar a la especie Lonicera caprifolium L., planta sarmentosa que se encuentra en los bosques europeos. El término "Lonicera" fue usado por primera vez por Linneo en 1753 adaptando al latín el apellido "Lonitzer", en honor del botánico Lonitzer (1528-1586), médico que ejerció en Fráncfort.[5]
Lonicera es un género de plantas con flores perteneciente a la familia Caprifoliaceae. Comprende 526 especies descritas y de estas, solo 108 aceptadas. Las especies incluidas dentro de este género normalmente son conocidas por el nombre popular de madreselvas. Son arbustos arqueados o parras sarmentosas, la mayoría con dulces fragancias y flores con forma de campana.
Kuslapuu (Lonicera) on uniohakalaadsete seltsi kuslapuuliste sugukonda kuuluv põõsaste perekond.
Teaduslikult kirjeldas kuslapuud esimesena Carl von Linné. Ladinakeelse nime sai ta saksa botaaniku Adam Lonitzeri (1528–1586) järgi, kes avaldas oma teosed ladina keeles nime Adamus Lonicerus all.
Maailmas kasvab umbes 180 liiki kuslapuid, neist sadakond Hiinas. Euroopas, Indias ja Põhja-Ameerikas kasvab igaühes looduslikult umbes 20 liiki kuslapuid.
Mitut liiki kuslapuid kasvatatakse ilutaimena. Eriti mõjusad on nad rühmades, näiteks alleena.
Mõned kuslapuud on muutunud invasiivseks, kui neid on viidud kasvama väljapoole looduslikku levilat, näiteks Põhja-Ameerikasse või Uus-Meremaale. Niisugused on näiteks jaapani, Maacki, Morrow' ja tatari kuslapuu.
Kuslapuu (harilik kuslapuu ja sinine kuslapuu) on Eesti 2016. aasta puu.[1]
Kuslapuu lehed on 1–10 cm pikad, lihtsad ja ovaalsed. Leheseis on vastak. Enamik taimi on heitlehised, aga mõned, mis kasvavad ilma talveta kliimas, on ka igihaljad. Vastakuti asuvad lehed võivad omavahel kokku kasvada.
Paljudel kuslapuudel on magusalt lõhnavad kahekülgse sümmeetriaga õied, mis sisaldavad magusat söödavat nektarit. Õied on heledad: valged, roosad, kollased või helesinised. Õielehti on viis. Enamik õisi kasvab kahekaupa ja sellepärast paiknevad ka valminud viljad oksal tavaliselt kahekaupa. Pole haruldane, et naaberviljad omavahel kokku kasvavad.
Kuslapuu vili on punane, sinine või must kerajas või pikergune mari, milles on mitu seemet. Enamik kuslapuid on mürgiste või söödamatute viljadega. Erandiks on sinine kuslapuu, mis kasvab looduslikuna ka Eestis.
Kuslapuu (Lonicera) on uniohakalaadsete seltsi kuslapuuliste sugukonda kuuluv põõsaste perekond.
Teaduslikult kirjeldas kuslapuud esimesena Carl von Linné. Ladinakeelse nime sai ta saksa botaaniku Adam Lonitzeri (1528–1586) järgi, kes avaldas oma teosed ladina keeles nime Adamus Lonicerus all.
Maailmas kasvab umbes 180 liiki kuslapuid, neist sadakond Hiinas. Euroopas, Indias ja Põhja-Ameerikas kasvab igaühes looduslikult umbes 20 liiki kuslapuid.
Mitut liiki kuslapuid kasvatatakse ilutaimena. Eriti mõjusad on nad rühmades, näiteks alleena.
Mõned kuslapuud on muutunud invasiivseks, kui neid on viidud kasvama väljapoole looduslikku levilat, näiteks Põhja-Ameerikasse või Uus-Meremaale. Niisugused on näiteks jaapani, Maacki, Morrow' ja tatari kuslapuu.
Kuslapuu (harilik kuslapuu ja sinine kuslapuu) on Eesti 2016. aasta puu.
Atxaparra, sasiama, ahuntz-hostoa edo aker-aihena (Lonicera) Caprifoliaceae familiako genero baten izen arrunta da, barnean 526 espezie, horietatik 108 onarturik, dituena.[1]
Loreak bi mingain ditu eta usain eta zapore gozoa duen nektarra sortzen dute. Zabaltzen direnean zuriak dira eta denborarekin horitu egiten dira gero.
Artikulu hau landareei buruzko zirriborroa da. Wikipedia lagun dezakezu edukia osatuz. Atxaparra, sasiama, ahuntz-hostoa edo aker-aihena (Lonicera) Caprifoliaceae familiako genero baten izen arrunta da, barnean 526 espezie, horietatik 108 onarturik, dituena.
Loreak bi mingain ditu eta usain eta zapore gozoa duen nektarra sortzen dute. Zabaltzen direnean zuriak dira eta denborarekin horitu egiten dira gero.
Kuusamat (Lonicera) on kuusamakasvien (Caprifoliaceae) suku, johon kuuluu noin 180 lajia. Monet koristepensaat kuuluvat kuusamiin.[2]
Kuusamat ovat yksikotisia pensaita tai köynnöksiä ja tavallisesti kesävihantia. Lehdet sijaitsevat vastakkain ja ne ovat ehyitä ja ehytlaitaisia. Kukinto on kaksikukkainen hankakukinto tai monikukkainen tiheä kärkikukinto. Kukat ovat huulimaisia, lyhytperäisiä ja pitkätorvisia. Hedelmä on monisiemeninen mehevä marja.[3][4]
Kuusamat (Lonicera) on kuusamakasvien (Caprifoliaceae) suku, johon kuuluu noin 180 lajia. Monet koristepensaat kuuluvat kuusamiin.
Lonicera
Les Chèvrefeuilles (genre Lonicera) sont des arbustes ou lianes de la famille des caprifoliacées. Certaines espèces sont aussi nommées communément camérisiers. On en connaît environ 200 espèces dans les régions tempérées de l'hémisphère nord et les régions subtropicales. L'habitat de la plupart des espèces de chèvrefeuilles est la lisière des forêts et, par extension, les haies, bords de chemins creux. Les chèvrefeuilles, autochtones ou exotiques, sont fréquemment utilisés pour former des haies ou parois décoratives.
Le nom Lonicera a été donné en 1703, à la place du nom originel Caprifolium, par Charles Plumier (1646-1704), en hommage à Adam Lonitzer (1528-1586), botaniste et médecin allemand[1],[2]. Carl von Linné a gardé ce nom de genre tout en mentionnant, comme épithète spécifique pour l’espèce type du genre, le nom générique originel, nommant ainsi l'espèce Lonicera caprifolium[3],[note 1].
Comme les autres lianes, ils offrent un habitat supplémentaire aux oiseaux, et facilitent le déplacement dans les arbres et buissons de certains insectes et petits mammifères. Leurs fleurs sont surtout liées à diverses espèces d'insectes de l'environnement nocturne, souvent à longue trompe, qui sont en Europe :
D'autres insectes que des papillons apprécient le chèvrefeuille :
L'OPIE (Office pour les insectes et leur environnement) signale en 2009[4] un développement récent apparent de la Sésie du chèvrefeuille (facilement confondue avec un Hyménoptère), à partir des Alpes vers le reste de la France. Sa chenille se développe très lentement (2 à 3 ans) et uniquement sur certains chèvrefeuilles.
Les chèvrefeuilles seraient toxiques par leurs baies[5].
Selon The Plant List (1 mai 2020)[6] :
Selon Tropicos (1 mai 2020)[7] (Attention liste brute contenant possiblement des synonymes) :
Selon la flore de France, six espèces non grimpantes (dont L. xylosteum) et 5 espèces grimpantes (dont L. caprifolium et L. periclymenum…) peuvent être observées en France, outre quelques espèces exotiques introduites.
En 1888 Legrand, déplorant le remplacement des noms de genre de Tournefort, nous dit « Si Linné est le créateur de la combinaison binaire, n'oublions pas que Tournefort est le créateur du genre » et il cite notamment, en le regrettant, le remplacement de Caprifolium par Lonicera[9].
Le mot caprifolium, désignant à l'origine le chèvrefeuille, remonte au Haut Moyen Âge. On trouve dans un manuscrit du IXe siècle, le Codex Parisinus Latinus, une liste de plantes dont Dorcadis caprolus dont on ne peut être sûr qu’il se réfère au caprifolium[10].
Dans nombre d’encyclopédies médicales médiévales, qui ont été compilées à la Renaissance, on trouve le nom de caprifolium.
Le chèvrefeuille était appelé par Dioscoride (40-90 ap. J.-C), médecin et botaniste grec, periclymenus [note 4].
Cependant, la plante désignée par le mot caprifolium a pu être confondue avec le troène (Ligustrum). En effet, dans un dictionnaire étymologique allemand, nous trouvons « caprifolium liguster », « liguster » étant le nom commun allemand pour « troène »[14].
Une multitude de noms vernaculaires, noms communs ou noms locaux ont été donnés au Caprifoilum, citons notamment « Chamécerisier » ou « Camécerisier » [15].
Les anglophones l’appellent « honeysuckle », littéralement « suceur de miel » probablement en raison de son caractère mellifère.
La Flore Populaire d’Eugène Rolland (1846-1909) de 1906 fait une compilation exhaustive des noms donnés à plusieurs espèces de chèvrefeuille, en Europe francophone et dans les régions et villages de France allant de Capra mater à « cerisier des Alpes »[16]. Parmi plus de 200 appellations, citons :
Dans le langage des fleurs, le chèvrefeuille symbolise l'amitié et l'amour[17].
Dans le calendrier républicain français, le 23e jour du mois de Prairial est dénommé jour du Chèvrefeuille[18]
Lonicera
Les Chèvrefeuilles (genre Lonicera) sont des arbustes ou lianes de la famille des caprifoliacées. Certaines espèces sont aussi nommées communément camérisiers. On en connaît environ 200 espèces dans les régions tempérées de l'hémisphère nord et les régions subtropicales. L'habitat de la plupart des espèces de chèvrefeuilles est la lisière des forêts et, par extension, les haies, bords de chemins creux. Les chèvrefeuilles, autochtones ou exotiques, sont fréquemment utilisés pour former des haies ou parois décoratives.
Lonicera é un xénero de plantas con flores pertencente á familia Caprifoliaceae. As especies incluídas dentro deste xénero normalmente son coñecidas polo nome popular de madreselvas[1] ou chuchameles[2] (ademais dos múltiplos nomes vulgares en galego das diferentes especies).
Son arbustos arqueados ou parras sarmentosas, a maioría con doces fragrancias, flores con forma de campá. Hai unhas 180 especies de madreselvas.
Sábese que o termo madreselva se usou durante moito tempo para designar as especies integrantes do xénero Lonicera, aínda que este apelativo deberíase aplicar só para designar a especie Lonicera caprifolium L., planta sarmentosa que se encontra nos bosques europeos, e chamar todas as demais simplemente como loniceras.[Cómpre referencia]
O termo "Lonicera" foi usado por primeira vez por Linné en 1753 adaptando ao latín o apelido "Lonitzer", en honra ao botánico Adam Lonitzer (1528-1586), médico que exerceu en Frankfurt.[3]
En galego existen multitude de nomes para as diferentes especies de Lonicera, ás veces uns mestúranse con outros. Entre eles: madreselva (var. madresilva), cabrifollo (var. cadrifollo), herba salgueira, bigorda, chuchamel (zugameles, sugamés, zugos), altasebes, garnicela etc.
As follas son opostas, ovais simples, e de 1–10 cm de lonxitude. A maioría son caducifolias e algunhas son perennifolias. Moitas das especies presentan flores que presentan un olor perfumado, producindo un doce néctar comestible. A froita é unha baga de coloración roxa, azul ou negra contendo varias sementes; na maioría das especies as bagas son levemente tóxicas, porén algunhas (como a Lonicera caerulea) teñen bagas comestibles. Estas plantas son a base de alimentación das larvas dalgunhas especies de Lepidoptera.
A madreselva xaponesa e a madreselva de Amur (Lonicera maackii) están consideradas como plantas invasoras en EUA e Nova Zelandia. As madreselvas poden ser controladas: cortándoas, queimándoas, ou queimando as raíces e repetindo a operación ás dúas semanas até que as reservas das raíces se esgoten.
A Lonicera xylosteum é unha planta usada en homeopatía para tratamento de asmas, dificultades respiratorias e sífilis. A Lonicera periclymenum é usada como remedio homeopático para o tratamento da irritabilidade con explosións violentas.
A Lonicera caprifolium é moi apreciada como planta ornamental, debido ás súas bonitas e aromáticas flores.
Lonicera é un xénero de plantas con flores pertencente á familia Caprifoliaceae. As especies incluídas dentro deste xénero normalmente son coñecidas polo nome popular de madreselvas ou chuchameles (ademais dos múltiplos nomes vulgares en galego das diferentes especies).
Son arbustos arqueados ou parras sarmentosas, a maioría con doces fragrancias, flores con forma de campá. Hai unhas 180 especies de madreselvas.
Kozokrvina (kozja krv, lat. Lonicera), veliki biljni rod iz porodice kozokrvnica kojemu pripada preko 190 vrsta[1] listopadnih, rjeđe poluzimzelenih ili vazdazelenih penjačica ili uspravnih grmova. U Hrvatskoj raste nekoliko vrsta, od kojih se Borbaševa kozja krv (L. borbasiana) vodi kao hrvatski endem. Poznatije vrste su isprepletena kozja krv (Lonicera implexa), planinska kozja krv ili sitno pasje grožđe (L. alpigena), modra kozja krv (L. caerulea), crvena kozja krv (L. xylosteum) i druge
Rod je nekada nazivan Caprifolium, i po njemu je porodica dobila ime, ali se danas naziva Lonicera po njemačkom botaničaru Adamu Loniceru.
Kozokrvina (kozja krv, lat. Lonicera), veliki biljni rod iz porodice kozokrvnica kojemu pripada preko 190 vrsta listopadnih, rjeđe poluzimzelenih ili vazdazelenih penjačica ili uspravnih grmova. U Hrvatskoj raste nekoliko vrsta, od kojih se Borbaševa kozja krv (L. borbasiana) vodi kao hrvatski endem. Poznatije vrste su isprepletena kozja krv (Lonicera implexa), planinska kozja krv ili sitno pasje grožđe (L. alpigena), modra kozja krv (L. caerulea), crvena kozja krv (L. xylosteum) i druge
Rod je nekada nazivan Caprifolium, i po njemu je porodica dobila ime, ali se danas naziva Lonicera po njemačkom botaničaru Adamu Loniceru.
Kozylist[1][2] (Lonicera) je ród ze swójby kozylistowych rostlinow (Caprifoliaceae).
Kozylist (Lonicera) je ród ze swójby kozylistowych rostlinow (Caprifoliaceae).
Kamperfuli (honeysuckles atau Lonicera, /[unsupported input]lɒˈnɪsərə/;[1] syn. Caprifolium Mill.) adalah tanaman perdu dan tumbuhan merambat yang terdapat terutama di belahan bumi utara. Kamperfuli ada sekitar 180 spesies, 100 spesies berada di China; Eropa, India dan Amerika Utara hanya mempunyai sekitar 20 spesies asli dari masing-masing tempat. Bunganya biasanya sangat semerbak baunya, berwarna putih, ros, merah, atau kuning. Bila bunganya gugur, terbentuk tandan buah yang bulat berwarna merah, ungu, jingga, atau hijau.
Ada tanaman kamperfuli yang tumbuh sebagai perdu yang tingginya mencapai 2,4m hingga 3m. Jenis-jenis lain tumbuh rendah, menyebar di tanah. Ada juga yang tumbuh tinggi, merambat pada tembok kebun.
Ada kamperfuli yang bunganya berbentuk pipa atau terompet. Bunganya tumbuh dalam kelompok atau tandan. Kamperfuli tumbuh sangat cepat.
Kamperfuli biasa digunakan sebagai tanaman pekarangan, karena kemampuannya untuk menutupi dinding yang tak terlihat, pembatas, atau menutupi bangunan bagian luar. Kamperfuli menghasilkan banyak bunga berbentuk tabung di musim panas, dengan aroma yang intens dari berbagai varietas.
Lonicera acuminata
Lonicera albiflora (Kamperfuli Putih)
Lonicera alpigena (Kamperfuli Alpen)
Lonicera altmannii
Lonicera angustifolia
Lonicera anisocalyx
Lonicera arborea
Lonicera arizonica (Kamperfuli Arizona)
Lonicera biflora
Lonicera bournei
Lonicera brevisepala
Lonicera buchananii
Lonicera buddleioides
Lonicera caerulea
Lonicera calcarata
Lonicera calvescens
Lonicera canadensis
Lonicera caprifolium
Lonicera carnosifolis
Lonicera chrysantha
Lonicera ciliosa (Kamperfuli jingga)
Lonicera ciliosissima
Lonicera cinerea
Lonicera codonantha
Lonicera confusa
Lonicera conjugialis
Lonicera crassifolia
Lonicera cyanocarpa
Lonicera dasystyla
Lonicera dioica -
Lonicera elisae
Lonicera etrusca
Lonicera fargesii
Lonicera ferdinandii
Lonicera ferruginea
Lonicera flava (Kamperfuli kuning)
Lonicera fragilis
Lonicera fragrantissima
Lonicera fulvotomentosa
Lonicera glutinosa
Lonicera graebneri
Lonicera gynochlamydea
Lonicera hellenica
Lonicera hemsleyana
Lonicera heterophylla
Lonicera hildebrandiana
Lonicera hirsuta)
Lonicera hispida
Lonicera hispidula (Kamperfuli pink)
Lonicera humilis
Lonicera hypoglauca
Lonicera hypoleuca
Lonicera implexa
Lonicera inconspicua
Lonicera inodora
Lonicera interrupta
Lonicera involucrata
Lonicera japonica (Kamperfuli Jepang)
Lonicera jilongensis
Lonicera kansuensis
Lonicera kawakamii
Lonicera korolkowii
Lonicera lanceolata
Lonicera ligustrina
Lonicera litangensis
Lonicera longiflora
Lonicera longituba
Lonicera maackii
Lonicera macrantha
Lonicera macranthoides
Lonicera maximowiczii
Lonicera microphylla
Lonicera minuta
Lonicera minutifolia
Lonicera modesta
Lonicera morrowii
Lonicera mucronata
Lonicera myrtillus
Lonicera nervosa
Lonicera nigra
Lonicera nitida
Lonicera nubium
Lonicera nummulariifolia
Lonicera oblata
Lonicera oblongifolia
Lonicera oiwakensis
Lonicera oreodoxa
Lonicera orientalis
Lonicera pampaninii
Lonicera paradoxa
Lonicera periclymenum
Lonicera pileata
Lonicera pilosa
Lonicera praeflorens
Lonicera prostrata
Lonicera pyrenaica
Lonicera reticulata
Lonicera retusa
Lonicera rhytidophylla
Lonicera rupicola
Lonicera ruprechtiana
Lonicera saccata
Lonicera schneideriana
Lonicera semenovii
Lonicera sempervirens
Lonicera serreana
Lonicera setifera
Lonicera similis
Lonicera spinosa
Lonicera splendida
Lonicera standishii
Lonicera stephanocarpa
Lonicera subaequalis
Lonicera subhispida
Lonicera sublabiata
Lonicera subspicata
Lonicera szechuanica
Lonicera taipeiensis
Lonicera tangutica
Lonicera tatarica
Lonicera tatarinowii
Lonicera tomentella
Lonicera tragophylla
Lonicera tricalysioides
Lonicera trichogyne
Lonicera trichosantha
Lonicera trichosepala
Lonicera tubuliflora
Lonicera utahensis
Lonicera villosa
Lonicera virgultorum
Lonicera webbiana
Lonicera xylosteum
Lonicera yunnanensis
Kamperfuli (honeysuckles atau Lonicera, /[unsupported input]lɒˈnɪsərə/; syn. Caprifolium Mill.) adalah tanaman perdu dan tumbuhan merambat yang terdapat terutama di belahan bumi utara. Kamperfuli ada sekitar 180 spesies, 100 spesies berada di China; Eropa, India dan Amerika Utara hanya mempunyai sekitar 20 spesies asli dari masing-masing tempat. Bunganya biasanya sangat semerbak baunya, berwarna putih, ros, merah, atau kuning. Bila bunganya gugur, terbentuk tandan buah yang bulat berwarna merah, ungu, jingga, atau hijau.
Ada tanaman kamperfuli yang tumbuh sebagai perdu yang tingginya mencapai 2,4m hingga 3m. Jenis-jenis lain tumbuh rendah, menyebar di tanah. Ada juga yang tumbuh tinggi, merambat pada tembok kebun.
Ada kamperfuli yang bunganya berbentuk pipa atau terompet. Bunganya tumbuh dalam kelompok atau tandan. Kamperfuli tumbuh sangat cepat.
Lonicera L. 1753 è un genere di piante Spermatofite Dicotiledoni appartenenti alla famiglia delle Caprifoliaceae, originario dell'America ed Estremo Oriente. Le piante di questo genere sono comunemente note come caprifogli. Vi appartengono, tra gli altri il caprifoglio alpino (Lonicera alpigena), il caprifoglio comune (Lonicera caprifolium), il caprifoglio mediterraneo (Lonicera implexa) e il caprifoglio peloso (Lonicera xylosteum).
Il genere Lonicera comprende circa 200 specie provenienti dall'Asia, America settentrionale e Europa, di queste una decina appartengono alla flora spontanea italiana, mentre in Cina si trovano la maggioranza di specie presenti (circa 100). Nelle classificazioni più vecchie la famiglia di questo genere è anche chiamata Loniceraceae Vest. È da aggiungere inoltre che prima di Linneo questo genere era chiamato Caprifolium ma anche Peryclimenon, nomenclature talora usate anche in tempi moderni. Altri generi non più in uso, le cui specie sono passare al Lonicera, sono: Xylosteum, Nintooa e Chamaecerasus. Anche l'ordine (attualmente quello delle Dipsacales) non è sempre stato lo stesso: nelle prime classificazioni filogenetiche a opera del botanico Richard von Wettstein (1863-1931) nel suo Handbuch der Systematischen Botanik (traduzione italiana: Botanica sistematica) la famiglia delle Caprifoliaceae è assegnata all'ordine delle Rubiales, alla sottoclasse delle Sympetalae e quindi alla classe delle Dicotyledones.
La classificazione di questo genere è così organizzata:
Il genere di questa scheda è riccamente polimorfo per cui viene suddiviso in più sezioni (o sottogeneri):
Altri botanici, considerando più a fondo i vari caratteri morfologici delle varie specie, hanno suddiviso il genere fino a 6 gruppi (in fondo alla presente scheda tramite il sistema delle chiavi analitiche dicotome vengono elencate le specie spontanee della nostra flora).
Sebbene il termine caprifoglio sia largamente usato per indicare genericamente ogni specie appartenente al genere Lonicera, sarebbe auspicabile limitarne l'impiego solo per designare la specie Lonicera caprifolium L., e chiamare tutte le altre indistintamente lonìcere; equivoci che comunque si possono dissipare facilmente affiancando sempre al nome comune anche la nomenclatura binomiale scientifica.
Il termine del genere (Lonicera) fu coniato da Linneo nel 1753 adattando al latino il cognome "Lonitzer", volendo ricordare il botanico Adam Lonitzer (1528-1586) - in italiano questo cognome si pronuncia Lonicer - medico condotto a Francoforte. Il nome comune (caprifolium) deriva dal latino ed è composto da due termini: “capra” e “folium” (capra e foglia). Probabilmente questa dizione deriva dal fatto che le capre usano brucare le foglie di alcune specie di questo genere.
Degli altri nomi assegnati a questo genere si può citare Dioscoride che insieme ai greci chiamava queste piante "periclymenon", che tradotto liberamente significa “accerchiamento” (termine che probabilmente deriva dal verbo “perikleio”, “io mi intreccio”). Ma un'altra etimologia fa derivare questo nome dal “polimorfo” personaggio di Periclimeno, figlio di Neleo, descritto da Omero nell'Odissea. “Madreselva”, altro nome per queste piante, si trova per la prima volta nell'opera dedicata ai medicamenti del medico romano Scribonio Largo
Gli altri nomi (Vincibosco – Ligabosco) sono di derivazione rinascimentale toscana.
Il portamento sotto il quale si presentano le varie specie del genere è assai diverso: può comprendere piante legnose e arbusti a portamento cespuglioso, sarmentoso, cespitoso (e quindi anche eretto), ma anche rampicante o lianoso (e quindi volubile); possono essere coltivate anche in diversi esemplari ibridi, sempreverdi o caducifoglia. Delle specie spontanee italiane ad esempio metà sono volubili e lianose, l'altra metà invece hanno un abito eretto-arbustivo.
Le piante di questo genere sono molto longeve, ma presentano dei cicli vegetativi intermedi caratterizzati dal fatto che dopo pochi anni di vita si essiccano quasi completamente. A questo punto dalla ceppaia vengono emessi nuovi polloni, che naturalmente dopo un certo numero di anni si atrofizzano e muoiono, ripetendo da capo il ciclo appena descritto.
L'altezza del fusto è molto variabile: da 20 cm fino a 7 m e in genere è molto ramoso. Questa ramosità quasi cespitosa è data dalla presenza di gemme multiple, soprannumerali e in serie sovrapposte nelle zone ascellari del fusto. Un'altra particolarità del fusto è che questo è caratterizzato dalla formazione di un unico strato di fibre “liberiane” (fibre a membrana ispessita che entrano nella costituzione del “libro”, all'interno della corteccia), per ciascun ciclo vegetativo annuale, facilitando così la determinazione della sua età.
Le foglie possono essere persistenti, semi-persistenti o caduche; la lamina quasi sempre è semplice di forma più o meno ovata; la disposizione delle foglie lungo il fusto è opposta a 2 a 2; possono essere picciolate (specialmente nei rami sterili – senza fiori) o sessili. Spesso sono connate ossia sono appaiate e saldate alla base tra di loro e formano quindi un'unica foglia amplessicaule attraversata nel centro dal fusto (lamina perfogliata). Le pagine fogliari possono essere glabre o vellutate. In alcuni casi sono presenti delle stipole. Le dimensioni delle foglie va 1 cm a 10 cm.
L'infiorescenza può essere ascellare o terminale. I fiori sono variamente disposti ma sempre in numero relativamente piccolo per ogni infiorescenza. A volte possono essere brevemente pedicellati su 2 brattee e 4 bratteole. Altre volte si hanno capolini sessili o infiorescenze cimose (corte o allungate).
I fiori sono zigomorfi, ermafroditi, tetraciclici (calice– corolla – androceo – gineceo) e pentameri; sono inoltre profumati da sostanze di natura benzoloide (essenze nelle quali prevalgono i composti ad anello benzoico). Questa profumazione si rileva anche spezzando i fusti della pianta.
Il frutto è una bacca succosa di colore rosso - violaceo o nero spesso tossica per la presenza di xilosteina, xylostosidina (glycoside iridoide e alkaloide thio C18H25NO8S) hederagenina . Contiene da pochi a numerosi semi discoidi.
Queste piante allo stato libero crescono su un vastissimo territorio che comprende oltre all'Europa, qualsiasi altra zona posta nell'Emisfero boreale come l'Asia, l'Africa e l'America, con particolare rilevanza per le regioni montuose dell'Asia centrale e orientale. Possiamo infatti considerare l'Himalaya, a una altitudine compresa tra i 3000 e 4000 m s.l.m., l'area di origine del genere Lonicera. comprese comunque anche le zone montuose della Cina occidentale.
In alcune zone dell'Himalaya si consumano le bacche zuccherine della L. angustifolia, mentre in Siberia sono ricercate quelle del L. coerulea (grande arbusto a grossi frutti). Altre specie commestibili sono due piante americane: L. involucrata e L. ciliata (questa informazione viene dal Ministero dell'Agricoltura di Washington).
Inoltre alcuni fiori delle Lonicere producono un dolce nettare commestibile che può essere utilizzato come sciroppo o sorbetto o in altri dolci.
L'impiego maggiore di queste piante si ha nel giardinaggio: sembra che almeno un terzo delle specie che si conoscono siano oggetto di coltivazione nei vari giardini d'Europa e degli altri paesi.
Sono considerati arbusti rustici o semi-rustici, a seconda del clima locale, i cui pregi di profumazione, dei fiori e di portamento assicurano a essi una larga diffusione commerciale. Le specie rampicanti sono utilizzate soprattutto per ricoprire muri o pergolati o creare galleria nel giardino. Quelle arbustive si prestano ottimamente per la formazione di macchie arbustive, per formare siepi o dividere zone diverse dei giardini.
Alcune specie fioriscono subito in Primavera (L. fragrantissima); ma la maggior parte delle specie di questo genere fiorisce nella stagione più calda (estate o anche fine dell'estate). Ci sono poi specie più delicate (L. sempervirens) alle quali vanno destinate zone più calde e protette. Altre sono striscianti (L. japonica-flexuosa) e allora saranno lasciate libere di vegetare come l'edera.
Lo stesso argomento in dettaglio: Specie di Lonicera. Per meglio comprendere e individuare le varie specie del genere (solamente per le specie spontanee della nostra flora) l'elenco che segue utilizza in parte il sistema delle chiavi analitiche.
Lonicera xylosteum
Lonicera xylosteum - Frutti
Lonicera alpigena
Lonicera alpigena – Frutti
Lonicera caerulea
Lonicera caerulea - Frutti
Lonicera implexa
Lonicera caprifolium
Lonicera caprifolium, Chèvrefeuille
Lonicera caprifolium
Lonicera caprifolium
Lonicera etrusca
Lonicera periclymenum
Lonicera periclymenum – Frutti
Lonicera japonica
Lonicera L. 1753 è un genere di piante Spermatofite Dicotiledoni appartenenti alla famiglia delle Caprifoliaceae, originario dell'America ed Estremo Oriente. Le piante di questo genere sono comunemente note come caprifogli. Vi appartengono, tra gli altri il caprifoglio alpino (Lonicera alpigena), il caprifoglio comune (Lonicera caprifolium), il caprifoglio mediterraneo (Lonicera implexa) e il caprifoglio peloso (Lonicera xylosteum).
Sausmedis (lot. Lonicera) – sausmedinių (Caprifoliaceae) šeimos augalų gentis. Ją sudaro Šiaurės pusrutulyje paplitę krūmai ir vijokliai. Dauguma rūšių aptiktos Kinijoje, kitos auga Europoje ir Šiaurės Amerikoje.
Dauguma sausmedžių – lapus metantys augalai, nors yra ir visžalių. Žiedai vamzdiški, kvapnūs, turi daug nektaro. Kai kurių rūšių uogos valgomos.
Gentį sudaro ~180 rūšių. Lietuvoje savaime auga viena rūšis – paprastasis sausmedis (Lonicera xylosteum).
Iliustruotas Lietuvos augalų genčių vardynas · Lietuvos vietinės medžių ir krūmų rūšys · Lietuvos išskirtiniai medžiai · Lietuvos svetimžemė dendroflora · Pasaulio išskirtiniai medžiai
Miškas · Miško skliautas · Lietuvos miškai · Pasaulio miškai (šalys pagal miškų plotą) · Miškų nykimas (neteisėtas miško kirtimas)
Miškininkystė (ekologinė miškininkystė) · Miško atkūrimas · Įveisimas · Miškų ūkis · Miškų urėdija · Girininkija · Eiguva · Lietuvos miškų institutas
Sausmedis (lot. Lonicera) – sausmedinių (Caprifoliaceae) šeimos augalų gentis. Ją sudaro Šiaurės pusrutulyje paplitę krūmai ir vijokliai. Dauguma rūšių aptiktos Kinijoje, kitos auga Europoje ir Šiaurės Amerikoje.
Dauguma sausmedžių – lapus metantys augalai, nors yra ir visžalių. Žiedai vamzdiški, kvapnūs, turi daug nektaro. Kai kurių rūšių uogos valgomos.
Kamperfoelie (Lonicera) is een geslacht van slingerplanten en struiken dat zowel in Europa, China, Noordoost-Azië als in de Verenigde Staten voorkomt. Het geslacht behoort tot de kamperfoeliefamilie (Caprifoliaceae). De planten slingeren zich om andere planten en bomen heen.
De bloemen hebben vooral 's avonds een sterke zoete geur. Ze zijn er in diverse kleuren, veelvoorkomend is de roze-rode en geel-witte vorm. De plant is vrij gemakkelijk te vermeerderen uit zomer- of winterstekken.
Kamperfoelie wordt ook wel 'geitenblad' genoemd. Dat komt overeen met Frans 'chèvre-feuille', Duits 'Geißblatt' en Italiaanse 'caprifoglio'. De Nederlandse naam is een verbastering van de Italiaanse.
De botanische naam Lonicera is ontleend aan de Duitse natuurvorser Adam Lonitzer.
Kamperfoelie (Lonicera) is een geslacht van slingerplanten en struiken dat zowel in Europa, China, Noordoost-Azië als in de Verenigde Staten voorkomt. Het geslacht behoort tot de kamperfoeliefamilie (Caprifoliaceae). De planten slingeren zich om andere planten en bomen heen.
De bloemen hebben vooral 's avonds een sterke zoete geur. Ze zijn er in diverse kleuren, veelvoorkomend is de roze-rode en geel-witte vorm. De plant is vrij gemakkelijk te vermeerderen uit zomer- of winterstekken.
Leddvedslekta (Lonicera) er utbreidd i Nord-Amerika, Europa og Aust-Asia med nesten 200 artar av buskar og lianar. Dei har motsette, heilranda blad. Blomstrane er 5-talige og sitt anten parvist ved bladhjørna eller i endestilte standar som er støtta av høgblad. Begerblada er røyr- eller begerforma samanvaksne, og det same er skjedd med kronblad, som dannar eit langt kronrøyr som har to eller fem lappar ved munningen. Ved blomsteropningen er kronblada spalta, slik at dei fire øvste til saman dannar ei leppe, medan den einslege, nedste dannar ei anna. Frukta er bær som sit enkeltvis eller to saman.
Namnet «Lonicera» stammar frå renessansebotanikaren Adam Lonicer.
Fleire artar av Lonicera har blitt invasive artar når dei er introdusert utanfor sitt naturlege vekstområde. Dette gjeld særleg på New Zealand og i USA. Mellom desse finn ein L. japonica, L. maackii, L. morrowii og L. tatarica.
Artar ein kan finne i Noreg:
Det finst mange hydridar og kultivarar som er nytta som hageplanter. Mange av desse har ukjent opphav.[2][3]
Wikimedia Commons har multimedia som gjeld: Leddvedslekta Leddvedslekta (Lonicera) er utbreidd i Nord-Amerika, Europa og Aust-Asia med nesten 200 artar av buskar og lianar. Dei har motsette, heilranda blad. Blomstrane er 5-talige og sitt anten parvist ved bladhjørna eller i endestilte standar som er støtta av høgblad. Begerblada er røyr- eller begerforma samanvaksne, og det same er skjedd med kronblad, som dannar eit langt kronrøyr som har to eller fem lappar ved munningen. Ved blomsteropningen er kronblada spalta, slik at dei fire øvste til saman dannar ei leppe, medan den einslege, nedste dannar ei anna. Frukta er bær som sit enkeltvis eller to saman.
Namnet «Lonicera» stammar frå renessansebotanikaren Adam Lonicer.
Fleire artar av Lonicera har blitt invasive artar når dei er introdusert utanfor sitt naturlege vekstområde. Dette gjeld særleg på New Zealand og i USA. Mellom desse finn ein L. japonica, L. maackii, L. morrowii og L. tatarica.
Leddvedslekta (Lonicera) er ei planteslekt som har omkring 180 arter på verdensbasis. 9 arter har fått offisielt norsk navn. To arter er viltvoksende i Norge, men flere finnes forvillet. Slekten er i Norge lett gjenkjennelig med sine motsatte og helrandete blader.
Artene i leddvedslekta har hele blader, med blomster som normalt sitter parvise ved bladfestene langsmed greinstammen. Hos noen arter sitter blomstene i tette hoder, hos de med norske navn gjelder dette vivendel og kaprifol. Disse blomstene blir omdannet til hvert sitt bær, mens bærparene hos blåleddved vokser i sammen så de ser ut som ett bær.
Man ser likevel fortsatt rester etter to blomsterbunner på undersiden av bærene. Blomstene eller bærene pleier å ha støtteblader og to forblader, som stort sett er fri, men også noen ganger sammenvokste med frukten (blåleddved). Blomstene er monosymmetrisk, og blomstene har hvit, gul, eller rød farge, men også blandinger av disse (lysegul og rosa). Blomstene har firefliket overleppe og en udelt underleppe. Underleppa er så å si radiærsymetriske hos blåleddved. Blomstene har fem pollenbærere, og bærene er saftige.
Det er kun leddved og vivendel som har en naturlig utbredelse her hos oss. De andre er innført, da som regel igjennom hager og parker. De andre i slekta man finner ute i naturen, har da spredd seg fra hager, hageavfall eller fugler som har spist bærene, og spredd frø gjennom avføringen. Leddved er vanlig til spredt til Dovre og Tynset, men den er sjeldnere nord til Verdal, der den foretrekker baserik jord. Den er også antageligvis dyrket som hageplante og dermed forvillet på Åkerøya ved Mo i Rana og fire steder på Svalbard.
Flere av de innførte artene i leddvedslekta har havnet på svartelista. Det er oppdaget at måten disse artene sprer seg, og utkonkurrer andre arter på, at noen av dem er en risiko for den naturlige floraen og faunaen i Norge. På svartelista blir plantene sortert etter faren de utgjør, og i leddvedslekta er farene artene utgjør fordelt slik:
Alle artene i leddvedslekta er moderat til lett giftige, mens blåleddved er brukt i syltetøy og liknende blant annet i Russland. Om blåleddvedbærene du finner i Norge, er sikre å spise, er usikkert. Det anbefales ikke å gjøre dette, da spiseligheten i Russland kan ha noe med tilberedning å gjøre, eventuelt at det dreier seg om forskjellige underarter, varieteter eller sorter. Det er observert forgiftninger, dog vanligvis ikke alvorlige, hos andre arter. Vanligvis ender det med oppkast og annet ubehag, men det er også i sjeldne tilfeller beskrevet forgiftninger med dødelig utgang, antageligvis barn som har spist mange bær. Giftstoffene er for det meste sapoiner. Men det er også funnet spor av alkaloider, deriblant en som heter xylostosidin.
Lonicera er oppkalt etter den tyske legen Adam Lonitzer (1528-1586). Det er Charles Plumier, som brukte dette navnet først på en plante i 1703.
Leddvedslekta (Lonicera) er ei planteslekt som har omkring 180 arter på verdensbasis. 9 arter har fått offisielt norsk navn. To arter er viltvoksende i Norge, men flere finnes forvillet. Slekten er i Norge lett gjenkjennelig med sine motsatte og helrandete blader.
Hasło w Wikisłowniku Wiciokrzew, suchodrzew (Lonicera L.) – rodzaj roślin wieloletnich należący do rodziny przewiertniowatych (Caprifoliaceae). Rośliny zielne i pnące nazywane są wiciokrzewami, natomiast krzewy i niewielkie drzewa – suchodrzewami. Rodzaj liczy około 180 gatunków szeroko rozprzestrzenionych na całej półkuli północnej[3][4], na południe sięgając do Meksyku, północnej Afryki, Jawy i Filipin[5]. W Polsce występują trzy gatunki rodzime: wiciokrzew pomorski (L. periclymenum), czarny (L. nigra) i pospolity (L. xylosteum). Zadomowionymi antropofitami są wiciokrzew przewiercień (L. caprifolium) i wiciokrzew tatarski (L. tatarica)[6]. Rośliny te rosną zwykle w lasach i zaroślach. Około stu gatunków uprawianych jest jako rośliny ozdobne, ze względu najczęściej na silnie pachnące, efektowne kwiaty i pnący pokrój, ewentualnie przydatność krzewów do nasadzeń w formie żywopłotów[5]. Jako roślina owocowa uprawiana jest odmiana wiciokrzewu sinego L. caerulea var. kamtschatica znana pod nazwą jagody kamczackiej[7]. Kwiaty u tych roślin przeważnie są wonne, silnie zwłaszcza wieczorami i nocą, wytwarzają nektar i zapylane są przez owady i kolibry[5].
Caprifolium Mill., Euchylia Dulac
Lonicera J. Gaertner = Loranthus L., Lonicera Boehmer in C. G. Ludwig = Psittacanthus C. F. P. Martius
Rodzaj z podrodziny Caprifolioideae Eaton z rodziny przewiertniowatych Caprifoliaceae[1].
Wiciokrzew, suchodrzew (Lonicera L.) – rodzaj roślin wieloletnich należący do rodziny przewiertniowatych (Caprifoliaceae). Rośliny zielne i pnące nazywane są wiciokrzewami, natomiast krzewy i niewielkie drzewa – suchodrzewami. Rodzaj liczy około 180 gatunków szeroko rozprzestrzenionych na całej półkuli północnej, na południe sięgając do Meksyku, północnej Afryki, Jawy i Filipin. W Polsce występują trzy gatunki rodzime: wiciokrzew pomorski (L. periclymenum), czarny (L. nigra) i pospolity (L. xylosteum). Zadomowionymi antropofitami są wiciokrzew przewiercień (L. caprifolium) i wiciokrzew tatarski (L. tatarica). Rośliny te rosną zwykle w lasach i zaroślach. Około stu gatunków uprawianych jest jako rośliny ozdobne, ze względu najczęściej na silnie pachnące, efektowne kwiaty i pnący pokrój, ewentualnie przydatność krzewów do nasadzeń w formie żywopłotów. Jako roślina owocowa uprawiana jest odmiana wiciokrzewu sinego L. caerulea var. kamtschatica znana pod nazwą jagody kamczackiej. Kwiaty u tych roślin przeważnie są wonne, silnie zwłaszcza wieczorami i nocą, wytwarzają nektar i zapylane są przez owady i kolibry.
Lonicera L. é um gênero botânico pertencente a família das Caprifoliaceae.
As espécies incluídas no gênero Lonicera normalmente são conhecidas pelo nome popular de madressilvas, nativas do hemisfério norte. São arbustos arqueados ou parreiras sarmentosas, a maioria com fragrâncias doces, com flores na forma de campainha.
O termo madressilva foi usado por muito tempo para designar as espécies integrantes do gênero Lonicera, porém deveria ser aplicado apenas para designar a espécie Lonicera caprifolium L., planta sarmentosa encontrada nos bosques europeus, e denominar as demais simplesmente como loniceras.
As folhas são opostas, ovaladas, simples, com 10 cm de comprimento; na maioria das espécies as folhas são decíduas, porém algumas são perenes. Muitas das espécies apresentam flores que apresentam um odor perfumado, produzindo um doce néctar comestível. A fruta é uma baga de coloração, roxa, azul ou preta contendo várias sementes; na maioria das espécies as bagas são levemente tóxicas, porém algumas (notadamente a Lonicera caerulea) têm bagas comestíveis. A planta é fonte de alimento de larvas de algumas espécies de Lepidopteras.
A Lonicera xylosteum é uma planta usada em homeopatia para tratamento de asmas, dificuldades respiratórias e sífilis. A Lonicera periclymenum é usada como remédio homeopático para o tratamento da irritabilidade com explosões violentas. A madeira da espécie Lonicera tartarica, nativa da Eurásia, é vendida para a produção de brinquedos para gatos porque contém um princípio ativo ao qual os gatos reagem favoravelmente.
A Lonicera caprifolium é muito apreciada como planta ornamental, devido a suas bonitas e aromáticas flores.
A Lonicera japonica e a Lonicera maackii são espécies consideradas invasivas nos Estados Unidos e na Nova Zelândia. O controle é feito pelo corte e queima das plantas, operação que deve ser repetida por semanas, ou pela aplicação do herbicida glifosato.
O termo "Lonicera" foi usado pela primeira vez por Carl Linné em 1753 adaptando ao latim o nome "Lonicer", em homenagem ao médico e botânico Adam Lonicer (1528-1586).
No sistema de classificação filogenética Angiosperm Phylogeny Website, este género é sinónimo de Dendrophthoe.
O gênero é constituido por aproximadamente 840 espécies. As principais são:
Lonicera L. é um gênero botânico pertencente a família das Caprifoliaceae.
As espécies incluídas no gênero Lonicera normalmente são conhecidas pelo nome popular de madressilvas, nativas do hemisfério norte. São arbustos arqueados ou parreiras sarmentosas, a maioria com fragrâncias doces, com flores na forma de campainha.
O termo madressilva foi usado por muito tempo para designar as espécies integrantes do gênero Lonicera, porém deveria ser aplicado apenas para designar a espécie Lonicera caprifolium L., planta sarmentosa encontrada nos bosques europeus, e denominar as demais simplesmente como loniceras.
As folhas são opostas, ovaladas, simples, com 10 cm de comprimento; na maioria das espécies as folhas são decíduas, porém algumas são perenes. Muitas das espécies apresentam flores que apresentam um odor perfumado, produzindo um doce néctar comestível. A fruta é uma baga de coloração, roxa, azul ou preta contendo várias sementes; na maioria das espécies as bagas são levemente tóxicas, porém algumas (notadamente a Lonicera caerulea) têm bagas comestíveis. A planta é fonte de alimento de larvas de algumas espécies de Lepidopteras.
A Lonicera xylosteum é uma planta usada em homeopatia para tratamento de asmas, dificuldades respiratórias e sífilis. A Lonicera periclymenum é usada como remédio homeopático para o tratamento da irritabilidade com explosões violentas. A madeira da espécie Lonicera tartarica, nativa da Eurásia, é vendida para a produção de brinquedos para gatos porque contém um princípio ativo ao qual os gatos reagem favoravelmente.
A Lonicera caprifolium é muito apreciada como planta ornamental, devido a suas bonitas e aromáticas flores.
A Lonicera japonica e a Lonicera maackii são espécies consideradas invasivas nos Estados Unidos e na Nova Zelândia. O controle é feito pelo corte e queima das plantas, operação que deve ser repetida por semanas, ou pela aplicação do herbicida glifosato.
O termo "Lonicera" foi usado pela primeira vez por Carl Linné em 1753 adaptando ao latim o nome "Lonicer", em homenagem ao médico e botânico Adam Lonicer (1528-1586).
No sistema de classificação filogenética Angiosperm Phylogeny Website, este género é sinónimo de Dendrophthoe.
Tryar (Lonicera)[1] är ett släkte av kaprifolväxter med cirka 130 arter varav fem förekommer som vilda eller förvildade i Sverige. Tryar ingår i familjen kaprifolväxter.[1]
De är vanligen lövfällande buskar eller klängande lianer. Bladen är motsatta, enkla och har helbräddad kant. Blommorna är vita till gula eller orange, ibland svagt purpurfärgade eller rosa, de är oskaftade och sitter parvis eller i ett huvudlikt knippe. Fodret är femflikigt. Kronan är tvåläppig (zygomorf), den övre läppen är fyrflikad och den undre läppen är hel. Mer sällan är blommorna radiärsymmetriska med fem nästan likstora flikar. Ståndarna är fem och stiftet ett, ett långt med knapplikt märke. Frukten är ett fåfröigt rödgult, rött eller blåsvart bär. Bären är giftiga och ger kräkningar, ansiktsrodnad, överdriven törst och vidgade pupiller[2].
Den tyske läkaren Adam Lonicerus (1528-1586) har fått ge namn åt släktet.
Wikimedia Commons har media som rör Lonicera.
Wikispecies har information om Lonicera.
Tryar (Lonicera) är ett släkte av kaprifolväxter med cirka 130 arter varav fem förekommer som vilda eller förvildade i Sverige. Tryar ingår i familjen kaprifolväxter.
De är vanligen lövfällande buskar eller klängande lianer. Bladen är motsatta, enkla och har helbräddad kant. Blommorna är vita till gula eller orange, ibland svagt purpurfärgade eller rosa, de är oskaftade och sitter parvis eller i ett huvudlikt knippe. Fodret är femflikigt. Kronan är tvåläppig (zygomorf), den övre läppen är fyrflikad och den undre läppen är hel. Mer sällan är blommorna radiärsymmetriska med fem nästan likstora flikar. Ståndarna är fem och stiftet ett, ett långt med knapplikt märke. Frukten är ett fåfröigt rödgult, rött eller blåsvart bär. Bären är giftiga och ger kräkningar, ansiktsrodnad, överdriven törst och vidgade pupiller.
Den tyske läkaren Adam Lonicerus (1528-1586) har fått ge namn åt släktet.
Hanımeli, Caprifoliaceae familyasına ait, çalı ve/veya sarmaşık grubundan bir bitkidir. Yaklaşık 180 türü vardır, bunun 100 kadarı Çin'dedir. Avrupa ve Kuzey Amerika'da 20şer türü vardır. En çok bilinen türleri Lonicera periclymenum (Avrupa Hanımelisi), Lonicera japonica (Japon Hanımelisi, Beyaz Hanımeli) ve Lonicera sempervirens (Mercan Hanımelisi, Trompet Hanımelisi) dir.
Yapraklar karşılıklı, basit oval ve 1–10 cm uzunlukta çoğunlukla dökülen olmakla beraber sürekli olanlarıda bulunur. Türlerin çoğu hoş kokulu, yenilebilen nektar üreten, çan şeklinde çiçeklere sahibtir. Meyvesi çok çekirdekli kırmızı, mavi ya da siyah çitlenbik şeklindedir, çoğu türde meyveleri hafif zehirli olmakla beraber birkaçı (Lonicera caerulea) yenilebilir meyvelere sahiptir.
Bitki bazı Lepidoptera türlerinin larvaları tarafından yenilir.
İki çenekliler ile ilgili bu madde bir taslaktır. Madde içeriğini geliştirerek Vikipedi'ye katkıda bulunabilirsiniz. Відомо близько 190 видів майже у всіх областях Північної півкулі, в більшості із Гімалаїв і Східної Азії.
Досить крупні квітки (білі, рожеві, жовтуваті та блакитні) розташовані часто попарно в кутках листків чи на кінцях гілок в суцвіттях. Із слабо розвинутої чашечки виходить неправильний (у більшості) трубчастий віночок, розділений на кінці на п'ять частин; неправильність квіток, побудованих по п'ятірному плану, залежить від зростання трьох передніх пелюсток і нерівномірного їх розвитку, че́рез що віночок є двогубим; в трубці віночка п'ять тичинок і довгий стовпчик маточки.
Ягоди розміщені попарно, часто зростаються між собою .
Верхні листки в деяких видів (а в деяких і всі) зростаються разом, утворюючи одну спільну пластинку або широку облямівку, крізь яку проходить кінець гілки з квітами.
Багато видів жимолості дуже часто розводять в садах як красиві декоративні кущі, придатні для груп, алей і альтанок; квітнуть на початку літа, тобто в кінці травня і до середини червня. Досить часто зустрічається на узліссях жимолость справжня (Lonicera xylosteumalt) з жовто-білими квітами і червоними ягодами, листки знизу пухнасті. Висаджується часто в садах.
Інша, жимолость татарська (Lonicera tatarica), з рожевими квітками і гладкими листям, давно розмножується в садах, частіше попередньої. В'юнка і пахуча жимолость духмяна (капріфоль або козяча, чи Шевр-Фель, Lonicera caprifolium L.), родом з Південної Європи, росте в Криму і Бессарабії, з червонуватими чи білими квітками, при відцвітанні жовтими: ягоди червоні.
Найпівнічніший український дикорослий вид — жимолость блакитна (Lonicera caerulea), з жовтуватими, майже правильними квітками і блакитнуватими ягодами, які утворюються кожна із пари плодів, що зрослись; найпівнічніша європейська — жимолость в’юнка (Lonicera periclymenum), в якої листки ніколи разом не зростаються (жимолость жирна, папороть духмяна). В садівництві відомі ще декілька американських видів.
На Кавказі відомі ще жимолость грузинська (Lonicera iberica), з червоно-жовтими квітками, і жимолость кавказька (Lonicera caucasica), з багряними квітками; плоди першої — червоні, другої — чорні; обидва види мають дуже щільну деревину, придатну для дрібних столярних виробів.
У горах Хінгана, біля річки Амур, відкрита жимолость Максимовича (Lonicera maximowiczii).
Плоди деяких видів жимолості їстівні, наприклад, жимолость їстівна.
Рід налічує багато видів, кількість яких приблизно 200. Різні класифікації визнають різну кількість видів.[1]
Суцвіття Lonicera etrusca
Листки та суцвіття Lonicera etrusca
Ілюстрація Lonicera xylosteum з книги
Плід Lonicera implexa
Листки Lonicera japonica
Суцвіття Lonicera periclymenum
Суцвіття Lonicera periclymenum
Листя Lonicera periclymenum
Суцвіття Lonicera periclymenum
Chi Kim ngân hay còn gọi là chi nhẫn đông (danh pháp khoa học: Lonicera, đồng nghĩa: Caprifolium Mill.) là chi thực vật gồm một số loài cây bụi hoặc dây leo trong họ Kim ngân (Caprifoliaceae) thực vật bản địa của Bắc bán cầu. Có khoảng 180 loài kim ngân, ở Trung Quốc có độ đa dạng cao nhất với hơn 100 loài, châu Âu và Bắc Mỹ mỗi nơi có khoảng 20 loài. Các loài phổ biến gồm có Lonicera periclymenum (kim ngân châu Âu), Lonicera japonica (kim ngân trắng hay kim ngân Nhật, phổ biến ở Nhật Bản, Trung Quốc, Việt Nam) và Lonicera sempervirens. Kim ngân rất thu hút chim ruồi.
Lá kim ngân mọc đối, hình bầu dục, dài từ 1 đến 10 cm. Đa số các loài kim ngân có lá sớm rụng, nhưng một số là cây thường xanh. Nhiều loài có hoa thơm, hình chuông, trong có chứa mật ngọt ăn được. Khi bẻ cuống hoa sẽ thấy mùi hương thơm. Quả kim ngân là loại quả đơn (mỗi quả phát triển từ một noãn) màu đen, xanh lam, hoặc đỏ, trong có chứa vài hạt. Quả của đa số các loài kim ngân có chứa chất độc nhẹ, một số loài (nổi tiếng nhất là Lonicera caerulea) có quả ăn được.
Một số loài kim ngân được dùng làm thuốc Đông y như Lonicera confusa[1] và Lonicera japonica[2].
Chi Kim ngân hay còn gọi là chi nhẫn đông (danh pháp khoa học: Lonicera, đồng nghĩa: Caprifolium Mill.) là chi thực vật gồm một số loài cây bụi hoặc dây leo trong họ Kim ngân (Caprifoliaceae) thực vật bản địa của Bắc bán cầu. Có khoảng 180 loài kim ngân, ở Trung Quốc có độ đa dạng cao nhất với hơn 100 loài, châu Âu và Bắc Mỹ mỗi nơi có khoảng 20 loài. Các loài phổ biến gồm có Lonicera periclymenum (kim ngân châu Âu), Lonicera japonica (kim ngân trắng hay kim ngân Nhật, phổ biến ở Nhật Bản, Trung Quốc, Việt Nam) và Lonicera sempervirens. Kim ngân rất thu hút chim ruồi.
Lá kim ngân mọc đối, hình bầu dục, dài từ 1 đến 10 cm. Đa số các loài kim ngân có lá sớm rụng, nhưng một số là cây thường xanh. Nhiều loài có hoa thơm, hình chuông, trong có chứa mật ngọt ăn được. Khi bẻ cuống hoa sẽ thấy mùi hương thơm. Quả kim ngân là loại quả đơn (mỗi quả phát triển từ một noãn) màu đen, xanh lam, hoặc đỏ, trong có chứa vài hạt. Quả của đa số các loài kim ngân có chứa chất độc nhẹ, một số loài (nổi tiếng nhất là Lonicera caerulea) có quả ăn được.
Một số loài kim ngân được dùng làm thuốc Đông y như Lonicera confusa và Lonicera japonica.
Lonicera L.
Синонимы Типовой вид Виды
Жи́молость (лат. Lonícera) — род прямостоячих, вьющихся или ползучих кустарников; типовой род семейства Жимолостные (Caprifoliaceae). Своё латинское название род получил в честь немецкого математика, физика и ботаника Адама Лоницера (1528—1586), хотя первоначально Карл Линней собирался назвать их каприфолями (Caprifolium), поскольку чаще всего в садах Европы выращивали именно жимолость каприфоль[4]. Ягоды некоторых видов жимолости употребляются в пищу; некоторые, наоборот, ядовиты, в том числе жимолость обыкновенная, широко распространённая в лесах средней полосы России.
Известно около 190 видов почти во всех областях Северного полушария, а большей частью из Гималаев и Восточной Азии. В России дикорастущих 14 видов.
Довольно крупные цветки (белые, розоватые, желтоватые и голубые) расположены чаще попарно в углах листьев или на концах ветвей в головчатых соцветиях. Из слабо развитой чашечки выходит неправильный (у большинства) трубчатый венчик, на конце разделённый на пять долей; неправильность цветов, построенных по пятерному плану, зависит от срастания трёх передних лепестков и неравномерного их развития, вследствие чего венчик является двугубым; в трубке венчика пять тычинок и длинный столбик пестика.
Ягодообразные плоды сидят попарно, а нередко и срастаются друг с другом.
Верхние листья у некоторых видов (а у иных и все) срастаются вместе, образуя одну общую пластинку или широкую оторочку, сквозь которую проходит конец ветви с цветками.
Много видов жимолости очень часто разводятся в садах как красивые декоративные кустарники, хорошо пригодные для групп, аллей и беседок; российские виды цветут в начале лета, то есть в конце мая и до середины июня. В Средней России довольно часто встречается по опушкам лесов и по рощам ядовитая Lonicera xylosteum L. — Жимолость настоящая, или жиломусть, или волчьи ягоды с жёлто-белыми цветками и красными ягодами, листья снизу пушистые. Разводится часто в садах, но в Южной России дико не растёт.
Другая, Жимолость татарская (Lonicera tatarica L.), с розовыми цветками и гладкими листьями, давно разводится в садах, чаще предыдущей, в дикорастущем виде известна по Средней Волге, Казахстане и в Сибири до Алтая.
Вьющаяся и пахучая Жимолость душистая (или козья, Lonicera caprifolium L.), родом из Южной Европы, за Кавказом в изобилии. Также кое-где в Крыму и Бессарабии, с красноватыми или белыми цветками, при отцветании желтеющими: ягоды красные.
Самый северный дикорастущий вид в России — Жимолость голубая (Lonicera caerulea L.), с желтоватыми, почти правильными цветками и голубоватыми ягодами, образованными каждая из пары сросшихся плодов; самая северная европейская, не попадающаяся дико в России, но разводимая, — Жимолость вьющаяся (Lonicera periclymenum L.), у которых листья никогда не срастаются вместе (Жимолость жирная, папороть душистая). В садоводстве известно ещё несколько американских видов.
На Кавказе известны ещё Жимолость грузинская (Lonicera iberica Bieb.), с красно-жёлтыми цветками, и Жимолость кавказская (Lonicera caucasica Pall.), с пурпурными цветками; плоды у первой — красные, у второй — чёрные; оба вида имеют очень плотную древесину, годную для мелких токарных поделок.
В горах Хингана, близ реки Амура, открыта Жимолость Максимовича (Lonicera maximowiczii Rupr.).
По информации базы данных The Plant List, род включает 103 вида[5]. Некоторые из них:
По информации базы данных The Plant List, на октябрь 2016 г., статус видов Жимолость Шамиссо (Lonicera chamissoi Bunge)[6], Жимолость съедобная (Lonicera edulis Turcz.)[7], Жимолость Глена (Lonicera glehnii F.Schmidt)[8] и Жимолость Королькова (Lonicera korolkowii Stapf)[9] не определён.
Культурные съедобные сорта жимолости выведены из Жимолости камчатской и Жимолости съедобной. Некоторые из них:
Жи́молость (лат. Lonícera) — род прямостоячих, вьющихся или ползучих кустарников; типовой род семейства Жимолостные (Caprifoliaceae). Своё латинское название род получил в честь немецкого математика, физика и ботаника Адама Лоницера (1528—1586), хотя первоначально Карл Линней собирался назвать их каприфолями (Caprifolium), поскольку чаще всего в садах Европы выращивали именно жимолость каприфоль. Ягоды некоторых видов жимолости употребляются в пищу; некоторые, наоборот, ядовиты, в том числе жимолость обыкновенная, широко распространённая в лесах средней полосы России.
忍冬属(学名:Lonicera)是忍冬科下的一个属,为直立或攀援状灌木植物。该属共有大约180种,分布于北半球温带和亚热带地区[1]。大约100个这些物种都可以在中国找到,大约20个本土物种已被确认在欧洲,20个在印度,和20个在北美。常见的物种有忍冬,贯月忍冬等。
这是一篇與植物相關的小作品。你可以通过编辑或修订扩充其内容。 忍冬属(学名:Lonicera)是忍冬科下的一个属,为直立或攀援状灌木植物。该属共有大约180种,分布于北半球温带和亚热带地区。大约100个这些物种都可以在中国找到,大约20个本土物种已被确认在欧洲,20个在印度,和20个在北美。常见的物种有忍冬,贯月忍冬等。
分類 界 : 植物界 Plantae 階級なし : 被子植物 Angiosperms 階級なし : 真正双子葉類 Eudicots 階級なし : キク類 Asterids 階級なし : キキョウ類 Campanulids 目 : マツムシソウ目 Dipsacales 科 : スイカズラ科 Caprifoliaceae 属 : スイカズラ属 Lonicera 学名 Lonicera L. 英名 Honeysuckle 種 スイカズラ属(Lonicera または Caprifolium)はスイカズラ科の属の一つ。
低木または蔓性木本からなる。北半球におよそ180種が分布する。特に中国に100種以上を産し、日本にもスイカズラ、ウグイスカグラ、キンギンボク(ヒョウタンボク)をはじめ20種ほどある。花が美しくまたは芳香を放つため栽培されるものもある。日本原産のスイカズラも栽培されたものがアメリカなどで野生化し問題になっている。
葉は卵形の単葉で対生し、縁は全縁か、まれに裂ける。ツキヌキニンドウは花序直下の2枚の葉が融合している。多くは落葉性であるが常緑性のものもある。花はラッパ形または筒形の花冠を持ち、色は白、赤、黄色など。芳香を持つものが多く、また蜜を多く出す。果実は液果で赤、青、黒などに熟し、数個の種子を含む。ハスカップ(クロミノウグイスカグラ)など一部の果実は食用になるが、キンギンボクなど毒性のあるものも多い。
スイカズラ属(Lonicera または Caprifolium)はスイカズラ科の属の一つ。
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