leptodactylidae species
细趾蛙科物种
the leptodactylidae
细趾蛙科
leptodactylidae habitat
细趾蛙科栖息地
leptodactylidae found
发现细趾蛙科
leptodactylidae research
细趾蛙科研究
leptodactylidae conservation
细趾蛙科保护
leptodactylidae discovered
已发现细趾蛙科
leptodactylidae studying
研究细趾蛙科
leptodactylidae population
细趾蛙科种群
leptodactylidae distribution
细趾蛙科分布
the leptodactylidae family comprises over 200 species of frogs.
细趾蟾科包含超过200种青蛙。
researchers studied the reproductive behavior of the leptodactylidae.
研究人员研究了细趾蟾科的繁殖行为。
leptodactylidae species are primarily found in the neotropical realm.
细趾蟾科物种主要分布在新热带界。
the distinct morphology of leptodactylidae aids in their identification.
细趾蟾科独特的形态有助于对其进行鉴定。
habitat loss poses a significant threat to many leptodactylidae populations.
栖息地丧失对许多细趾蟾科种群构成了严重威胁。
scientists discovered a new species within the leptodactylidae family in brazil.
科学家在巴西发现了细趾蟾科的一个新物种。
the diverse vocalizations of leptodactylidae frogs are well documented.
细趾蟾科青蛙多样的叫声已被充分记录。
molecular phylogenetics has clarified the evolutionary relationships of leptodactylidae.
分子系统发育学阐明了细趾蟾科的进化关系。
leptodactylidae fossils have been unearthed in various geological layers.
细趾蟾科化石已在各种地质层中被发掘。
many leptodactylidae species build foam nests to protect their eggs.
许多细趾蟾科物种建造泡沫巢来保护它们的卵。
the tadpoles of leptodactylidae exhibit varied developmental patterns.
细趾蟾科的蝌蚪表现出不同的发育模式。
conservation efforts are crucial for endangered leptodactylidae species.
保护工作对濒危的细趾蟾科物种至关重要。
leptodactylidae species
细趾蛙科物种
the leptodactylidae
细趾蛙科
leptodactylidae habitat
细趾蛙科栖息地
leptodactylidae found
发现细趾蛙科
leptodactylidae research
细趾蛙科研究
leptodactylidae conservation
细趾蛙科保护
leptodactylidae discovered
已发现细趾蛙科
leptodactylidae studying
研究细趾蛙科
leptodactylidae population
细趾蛙科种群
leptodactylidae distribution
细趾蛙科分布
the leptodactylidae family comprises over 200 species of frogs.
细趾蟾科包含超过200种青蛙。
researchers studied the reproductive behavior of the leptodactylidae.
研究人员研究了细趾蟾科的繁殖行为。
leptodactylidae species are primarily found in the neotropical realm.
细趾蟾科物种主要分布在新热带界。
the distinct morphology of leptodactylidae aids in their identification.
细趾蟾科独特的形态有助于对其进行鉴定。
habitat loss poses a significant threat to many leptodactylidae populations.
栖息地丧失对许多细趾蟾科种群构成了严重威胁。
scientists discovered a new species within the leptodactylidae family in brazil.
科学家在巴西发现了细趾蟾科的一个新物种。
the diverse vocalizations of leptodactylidae frogs are well documented.
细趾蟾科青蛙多样的叫声已被充分记录。
molecular phylogenetics has clarified the evolutionary relationships of leptodactylidae.
分子系统发育学阐明了细趾蟾科的进化关系。
leptodactylidae fossils have been unearthed in various geological layers.
细趾蟾科化石已在各种地质层中被发掘。
many leptodactylidae species build foam nests to protect their eggs.
许多细趾蟾科物种建造泡沫巢来保护它们的卵。
the tadpoles of leptodactylidae exhibit varied developmental patterns.
细趾蟾科的蝌蚪表现出不同的发育模式。
conservation efforts are crucial for endangered leptodactylidae species.
保护工作对濒危的细趾蟾科物种至关重要。
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