Results 81 to 90 of about 414 (167)
Ptychadena pumilio (Boulenger, 1920) Western Dwarf Grass Frog Material: Female, NGK-Nimba 0069 (Fig. 13H). Comments: A female P. pumilio was recorded in an open area with a shallow but densely vegetated pond near the Yéalé village (07°31.928’N, 008°25.401’W; 425 m asl).
Kanga, Kouassi Philippe +9 more
openaire +2 more sources
Abstract The Cenozoic topographic development of the Himalaya‐Tibet orogen (HTO) substantially affected the paleoenvironment and biodiversity patterns of High Asia. However, concepts on the evolution and paleoenvironmental history of the HTO differ massively in timing, elevational increase and sequence of surface uplift of the different elements of the
Sylvia Hofmann +18 more
wiley +1 more source
Ethiopia is a world biodiversity hotspot and harbours levels of biotic endemism unmatched in the Horn of Africa, largely due to topographic—and thus habitat—complexity, which results from a very active geological and climatic history.
Colston, Timothy J. +2 more
core +1 more source
The Ethiopian Highlands are considered a biodiversity hotspot, harboring a high number of endemic species. Some of the endemic species probably diversified in situ; this is, for example, the case of a monophyletic clade containing 12 known species of ...
M. L. Lyra (15418673) +4 more
core +1 more source
Ptychadena christyi (Boulenger, 1919) Fig. 10E. Area: Bechuchuu, Yalokole, Yetee. Season/survey: Wet (Nov 2018), dry (Aug 2019). Material: CSB:Herp: RNBK 636, 637, 664, 720; IVB-H-CD 18306. Comments: This species is very poorly known and is somewhat enigmatic because some other species of Ptychadena have been misidentified as P. christyi.
Badjedjea, Gabriel +3 more
openaire +2 more sources
Abstract Anuran species are some of the good environmental indicators of habitat quality and condition in ecosystems. This is due to their amphibious life modes and sensitivity to environmental change caused by rapid expansion of agricultural activities, advancement of forest destruction, climate change and emerging infectious diseases.
Joseph Musonda Kabanze +3 more
wiley +1 more source
We investigated the distribution of species of the genus Ptychadena at nine sites at the upper Nile and its catchment in Rwanda. For species delimitation, we chose an integrative approach, combining morphological and bioacoustic data and DNA barcoding ...
Dehling, J. Maximilian, Sinsch, Ulrich
core +1 more source
Ptychadena sp. aff. mascareniensis Fig. 10G. Area: Yalokole, Yotemankele. Season/survey: Wet (May 2018, Nov 2018), dry (Aug 2019). Material: CSB:Herp: RNBK 069, 080, 120, 149, 184, 531, 641, 642, 643, 677, 678; IVB-H-CD 18221, 18226– 18229, 18231, 18233–18235, 18272–18274.
Badjedjea, Gabriel +3 more
openaire +2 more sources
Figure 2 Comparisons of the topologies of the mitochondrial rRNA 16S (left) and ddRAD-seq (right) for members of the Ptychadena neumanni species complex. Type specimens are indicated in red in the 16S phylogeny.
Freilich, Xenia +3 more
core +1 more source
PARASITIC FAUNA OF AMPHIBIANS FROM RUMUJI-EMOHUA, RIVERS STATE, NIGERIA.
A survey of the parasites of amphibians from Rumuji in Emohua Local Government Area of Rivers State, Nigeria, was conducted in the months of April and May, 2016. Anurans collected included Amietophrynus maculatus, A.
Chidinma Charity Amuzie +2 more
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