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Description

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This species measures 23-29 mm in SVL for adult males and 24-32 mm for adult females (Lampert 2001). Hyperolius have horizontally elliptical pupils and narrow heads with a blunt snout (Adler and Halliday 2002). The body shape is slender and half-cylindrical with long thin limbs (Kobelt and Linsenmair 1995). Skin folds are present, allowing frogs to hide their feet underneath while aestivating (Geise and Linsenmair 1986). Fingers and toes have circummarginal discs. Males have a median subgular vocal sac (Lampert 2001). Adults exhibit metachrosis (change in color) with coloration varying throughout the day, in response to factors such as temperature, humidity, light intensity, and stress (Adler and Halliday 2002). At night, H. nitidulus are uniformly beige (Lampert 2001). During the day, the skin color varies between beige and bright colors like yellow and orange, with dark markings present on the flanks (Lampert 2001). Juveniles are beige in ground color and display a dark lateral stripe along the body from snout to vent (Lampert 2001). During the dry season, juveniles become white when they aestivate and the skin on the inside of their limbs becomes red due to the underlying capillary network (Geise and Linsenmair 1986).Member of the Hyperolius viridiflavus superspecies and also treated under that name (see H. viridiflavus account for description). Sometimes regarded as a separate species.

References

  • Beltz, E. (2005). Frogs: Inside Their Remarkable World. Firefly Books, Buffalo, NY.
  • Geise, W. and Linsenmair, K. E. (1986). ''Adaptations of the Reed Frog Hyperolius viridiflavus (Amphibia: Anura: Hyperoliidae) to its arid environment, II. Some aspects of the water economy of Hyperolius viridiflavus nitidulus under wet and dry season conditions.'' Oecologia, 68, 542-548.
  • IUCN (2008). 2008 IUCN Red List of Threatened Species. www.iucnredlist.org. Downloaded on 23 November 2008.
  • Joger, U. and Lambert, M.R.K. (2002). ''Inventory of amphibians and reptiles in SE Senegal, including the Niokola-Koba National Park, with observations on factors influencing diversity.'' Tropical Zoology, 15, 165-185.
  • Kobelt, F. and Linsenmair, K.E. (1995). ''Adaptations of the reed frog Hyperolius viridiflavus (Amphibia, Anura, Hyperoliidae) to its arid environment, VII. The heat budget of Hyperolius-viridiflavus-nitidulus and the evolution of an optimized body shape.'' Journal of Comparitive Physiology B- Biochemical Systemic and Environmental Physiology, 165(2), 110-124.
  • Lama, W. (1997). The World's Most Spectacular Reptiles and Amphibians. World Publications, Tampa, Florida.
  • Lampert, K. (2001). Alternative life history strategies in the West African reed frog, Hyperolius nitidulus. Unpublished dissertation, Universität Würzburg, Fakultät für Biologie, Germany.
  • Lampert, K. and Linsenmair, K.E. (2001). ''Alternative life cycle strategies in the West African reed frog Hyperolius nitidulus: the answer to an unpredictable environment?'' Oecologia, 130, 364-372.
  • Schmuck, R., Geise, W., and Linsenmair, K.E. (1994). ''Life cycle strategies and physiological adjustments of reedfrog tadpoles (Amphibia, Anura, Hyperoliidae) in relation to environmental conditions.'' Copeia, 1994(4), 996-1007.

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Distribution and Habitat

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Hyperolius nitidulus is found in the savannas of western Africa south of the Sahara (Lampert 2001), as well as in shrublands, grasslands, and wetlands (IUCN 2008). It occurs between 250-900 m in elevation (Lampert 2001).
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Life History, Abundance, Activity, and Special Behaviors

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Hyperolius nitidulus is primarily a nocturnal, arboreal species, commonly found on reeds in the African savanna (Adler and Halliday 2002). Adults are insectivores, consuming flies in the genera Drosophila, Musca, Phormia, Lucilia, and Calliphora (Geise and Linesenmair 1986).Breeding occurs during the wet season, May to October (Lampert 2001), and is prolonged (Beltz 2005). Males migrate to temporary ponds during the breeding season, and may wander between ponds or remain stationary at one pond (Lampert 2001). Approximately two months after the first rains of the season, males begin calling at savanna ponds between dusk and midnight. They have two distinct calls, a advertisement (mating) call and a territorial call. The mating call is characterized by a short metallic click that lasts between 0.10-0.24 s and has a frequency of 2.04-3.43 kHz, depending on the size of the frog (Lampert 2001). The territorial call is a "croak" call, longer and deeper than a mating call, which lasts from 0.28-0.36 s and has a frequency of 0.98-2.6 kHz (Lampert 2001). Males tend to aggregate and defend small calling territories. Lampert (2001) characterized this as a lek, with mating occurring aquatically, since females have not been found to be selective when choosing a mate. Amplexus is axillary (Adler and Halliday 2002).Hyperolius nitidulus is oviparous. The female deposits her eggs in the water and attaches them to underwater vegetation or to the bottom of the pond. Females lay from 94-800 eggs (Lampert 2001). The eggs are distinguished by a white color with a dark brown animal pole (Lampert 2001). This species exhibits no parental care (Lampert 2001). Within two to five days after the female lays her eggs the embryos hatch as free-swimming tadpoles (Adler and Halliday 2002). Development may take longer depending on water temperature (Lampert 2001). The free-living larvae live in dense vegetation on the edges of the pond where they feed off algae (Lampert 2001). Tadpole predators include dragonfly larvae, beetle larvae, turtles, and fish (Lama 1997). After six to eight weeks, tadpoles metamorphose into adult frogs, at which point they weigh 0.2 g and are 12-15 mm (Lampert 2001). Maturation typically takes place within two months (Lampert 2001). Hyperolius nitidulus is known for its unique aestivation behavior (Schmuck et al. 1994). Unlike other amphibians, juvenile H. nitidulus do not seek shelter or hide during the dry season. Instead, they fully expose themselves to the sun by sitting on dry plants, with their legs held tightly to the body and feet hidden under skinfolds (Lampert 2001; Geise and Linsenmair 1986). Geise and Linsenmair (1986) have reported that juvenile frogs can withstand water loss up to 50% of their body weight. The young frogs cope with dehydration by sitting in a position that reduces rapid water loss, and can remain in this position for months without food or water (Geise and Linsenmair 1986). Extending their arms and legs exposes the inner vascular skin portions, which are responsible for quick water uptake (Lampert 2001). Uptake of water can occur very rapidly, approximately 69.3+/-19.4% of the body weight per hour (Geise and Linsenmair 1986). Juveniles adhere to the plants by dried skin gland secretions (Geise and Linsenmair 1986). Having the skin secretions dry is important; when exposed to water, the mucus loses its adhesiveness and the frog accordingly loses its ability to prevent water loss and to aestivate (Geise and Linsenmair 1986). When aestivating, the juvenile frogs do not urinate or defecate (Kobelt and Linsenmair 1995). The nitrogenous wastes are stored as urea in body fluids and purines (Geise and Linsenmair 1986). During aestivation at temperatures above 39 degrees C, the frog's skin turns white, due to the presence of iridophores filled with purine crystals that reflect the sun's rays (Lampert 2001; Geise and Linsenmair 1986). Juveniles born in the first 2/3 of the wet season are able to mature and reproduce the same season in which they were born (Lampert and Linsenmair 2001). These individuals invest in growth and reproduction instead of storing energy to carry them through aestivation (Kobelt and Linsenmair 1995). Therefore, they will not survive the dry season (Geise and Linsenmair 1986). Those born in the last third of the wet season do not reproduce, but allocate resources to energy storage in order to survive the dry season and reproduce the following year (Lampert and Linsenmair 2001). Adult H. nitidulus have little energy reserve after reproduction and are not able to reduce activity and metabolism as quickly or as effectively as juveniles; thus, adults generally do not survive the dry season (Geise and Linsenmair 1988; Lampert and Linsenmair 2001).
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Life History, Abundance, Activity, and Special Behaviors

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Hyperolius nitidulus is stable, abundant, and does not appear to be facing any major threats (IUCN 2008). Factors contributing to this stability include the wide distribution, tolerance of a large range of habitats, and large population size (IUCN 2008). The species is found in many protected areas, such as Comoe National Park (in north eastern Cote d'Ivoire) and Niokola-Koba National Park in Senegal (Joger and Lambert 2002).
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Hyperolius nitidulus

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Hyperolius nitidulus is a species of frog from the family Hyperoliidae. It is found on the West African savannas between Guinea and Mali in the west and Nigeria and Cameroon in the east.[1][2] Common name plain reed frog has been coined for it.[1]

Description

Hyperolius nitidulus are medium-sized reed frogs with a rather blunt snout. Males vary is size between 23–29 mm (0.91–1.14 in) and on average weight about one gram.[3] Females are larger and heavier than males, their body size can vary between 24–32 mm (0.94–1.26 in) with an average weight of about two grams before laying eggs.[4] This species has a large choana, which is not hidden beneath edge of mandible like in most Hyperolius species.[5] They have a relatively large tongue which is broad and shaped like a heart. Their dorsal view is roundish and sometimes a bit pointy.[5] From a lateral view their body is flattened but some have a round truncate. The position of the naris is slightly close to snout tip than to the eye. Skin is laterally smooth and with small warts.[5] Body is slender and half cylindrical with thin limbs. They have extra skin folds that are used to hide their feet while aestivating during dry conditions. Fingers and toes have circummarginal discs.[3] Males have a median subgular vocal sac which is used for calling.[6]

During their juvenile stage their color is beige with a darker lightly flanked stripe at the side from snout to vent. As an adult they exhibit metachrosis (change in color), this color change is based on many factors such temperature, humidity.[7] During the night the uniformly color is beige and during the day the color can vary between yellow and orange with spots.[5] During the dry season the juveniles become white as they aestivate the skin in the inside of their limbs becomes red due to the underlying capillary network.

Diet

Adults are insectivores, usually consuming taxa such as Drosophila, Musca, Phormia, Lucilia, and Calliphora.[4]

Reproduction

Breeding normally occurs during wet season, that is May–October.[6][7] During mating season males will migrate to temporary ponds and at times stay there and wander between ponds. Males on average stay for several days or even weeks, while females only visit the ponds only for oviposition. While in the ponds males begin calling between dusk and midnight.[6][7] Males have two distinct calls; one call is used for mating to attract females, and the second call is used as a territorial call. Mating call is fairly short metallic that can last from 0.16 to 0.24 seconds with an average frequency of 2.04–3.43 Kilohertz; the frequency varies depending on the size of the frog. Territorial call sounds like a “croak”; it is deeper than the mating call and lasts for a longer period of time. On average each calls can last from 0.28 to 0.36 seconds with a frequency of 0.98–2.0 Kilohertz.[4][6] Males tend to become aggressive when defending their small calling territories.[6]

The female deposits her eggs in the water, attaching the clutch underwater where there is vegetation at the bottom of the pond.[6] Females have the ability to lay 94–800 eggs per clutch.[8] Females are able to produce several clutches during one mating season. Nonetheless, clutch size will decrease when multiple clutches are laid.[8] There is no parental care. Eggs are white with a dark brown animal pole.[6]

Two to fives days after the egg were laid the embryos start to hatch as are free-swimming tadpoles.[6] The tadpole development may take longer because it is dependent on water temperature. Free-living larvae stay in the vegetation areas at the edge of the pond and feed of algae.[4][7] During this period the larvae are at high risk of many predators such as dragonfly and beetle larvae, turtles, and most fish. The tadpole stage lasts six to eight weeks, before the tadpoles metamorphose. For the frog to mature completely it requires about two months.[8]

Habitat

Hyperolius nitidulus inhabit margins of swamps, rivers and lakes in savanna, grassland and bushland habitats. It is a very adaptable species that also occurs in many human-modified areas, such as cultivated land, towns, and gardens.[1]

Survival during dry season

Hyperolius nitidulus live in an environment with a wet season that can be cold and humid, and an extremely hot and dry season.[3][5] During the hot and dry season the frog is dependent on water therefore it has special adaptations to survive the extreme climate. Hyperolius nitidulus is known for its unique aestivation behavior during the hot and dry season. During dry season Hyperolius nitidulus do not seek shelter or hide, instead, they fully expose themselves to the sun by sitting on dry plants to reduce rapid water loss and can remain in this sitting position for months without food or water.[7] The juveniles only move when they are in serious danger. They sit with their legs held tightly to the body and feet hidden under their skin folds.[8] During this period, since there is no food or water intake, the juvenile frog does not urinate or defecate. The body stores all nitrogenous waste as urea in body fluids and purines. As the hot weather increases the dorsal skin of the frog becomes white due to the presence iridophores that can reflect light like a mirror since they are filled with purines crystals.

Juveniles are the only ones that survive a dry season because most adults cannot adapt to the changes in living condition and die.[1][6] Juveniles born in the first 2/3 of the wet season have enough time to mature and reproduce in the same season.[3] These juveniles must mature quickly and use all their energy for growth and reproduction, which prevents them from preparing for the dry season that lies ahead; they will die when dry season begins due to the lack of energy.[4] Juveniles that are born in the last third of the wet season take their time maturing and prepare themselves for the dry season. These last juveniles do not reproduce, instead, they allocate all their resources to energy storage to be able to survive the dry season and hope to reproduce the following wet season.[5]

References

  1. ^ a b c d e IUCN SSC Amphibian Specialist Group (2017). "Hyperolius nitidulus". IUCN Red List of Threatened Species. 2017: e.T16794889A16813897. doi:10.2305/IUCN.UK.2017-2.RLTS.T16794889A16813897.en. Retrieved 16 November 2021.
  2. ^ Frost, Darrel R. (2015). "Hyperolius nitidulus Peters, 1875". Amphibian Species of the World: an Online Reference. Version 6.0. American Museum of Natural History. Retrieved 2 December 2015.
  3. ^ a b c d Bubac, Christine. "Hyperolius nitidulus". Retrieved 9 November 2013.
  4. ^ a b c d e Lampert, Kathrin; Linsenmair, Eduard K. (2002). "Alternative life cycle strategies in the West African reed frog Hyperolius nitidulus: the answer to an unpredictable environment?". Oecologia. 130 (3): 364–372. doi:10.1007/s00442-001-0821-4. PMID 28547042. S2CID 6446076.
  5. ^ a b c d e f Rödel, Mark-Oliver; Sandberger (November 2010). "The taxonomic status of Hyperolius spatzi Ahl, 1931 and Hyperolius nitidulus Peters, 1875 (Amphibia: Anura: Hyperoliidae)". Bonn Zoological Bulletin. 57 (2): 177–188.
  6. ^ a b c d e f g h i Lampert, Kathrin P. (2001). Alternative life history strategies in the West African reed frog, Hyperolius nitidulus (Ph.D. thesis). Bayerischen Julius-Maximilians-Universität Würzburg.
  7. ^ a b c d e Schmuck, R.; Linsenmair, Eduard K. (1986). "Adaptations of the reed frog Hyperolius viridiflavus (Amphibia: Anura: Hyperoliidae) to its arid environment, II". Journal of Comparative Physiology B. 158 (5): 542–548. doi:10.1007/BF00692561. S2CID 31036567.
  8. ^ a b c d Kobelt, Frank; K.E Linsenmair (1986). "Adaptation of the reed frog Hyperolius viridiflavus (Amphibia, Anura, Hyperoliidae) to its arid environment". Oecologia. 68 (4): 533–541. doi:10.1007/bf00378768. JSTOR 4217879. PMID 28311709. S2CID 20785118.
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Hyperolius nitidulus: Brief Summary

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Hyperolius nitidulus is a species of frog from the family Hyperoliidae. It is found on the West African savannas between Guinea and Mali in the west and Nigeria and Cameroon in the east. Common name plain reed frog has been coined for it.

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