Reinforcing and expanding the predictions of the disturbance vicariance hypothesis in Amazonian harlequin frogs: a molecular phylogenetic and climate envelope modelling approach

• Published in: Biodiversity and conservation Vol. 19; no. 8; pp. 2125 - 2146
• Main Authors: Lötters, Stefan, van der Meijden, Arie, Rödder, Dennis, Köster, Timo E, Kraus, Tanja, La Marca, Enrique, Haddad, Célio F. B, Veith, Michael
• Format: Journal Article
• Language: English
• Published: Dordrecht Dordrecht : Springer Netherlands 01.07.2010; Springer Netherlands; Springer Nature B.V
• Subjects: Amphibians; Animal populations; Anura; Atelopus; Bayesian inference; Bioclimate; Bioclimatology; Biodiversity; Biomedical and Life Sciences; Climate; Climate Change/Climate Change Impacts; Conservation Biology/Ecology; Dispersal; Ecology; Frogs; Geographical distribution; Habitats; Life Sciences; MaxEnt; Maximum likelihood; Original Paper; Phylogenetics; Phylogeny; Ripley's K function; Speciation; South America; South America, Amazonia; South America, Amazon R; South America; Maximum likelihood; MaxEnt; Bayesian inference; Ripley’s K function; Bioclimate
• ISSN: 0960-3115; 1572-9710
• DOI: 10.1007/s10531-010-9869-y

The disturbance vicariance hypothesis (DV) has been proposed to explain speciation in Amazonia, especially its edge regions, e.g. in eastern Guiana Shield harlequin frogs (Atelopus) which are suggested to have derived from a cool-adapted Andean ancestor. In concordance with DV predictions we studied that (i) these amphibians display a natural distribution gap in central Amazonia; (ii) east of this gap they constitute a monophyletic lineage which is nested within a pre-Andean/western clade; (iii) climate envelopes of Atelopus west and east of the distribution gap show some macroclimatic divergence due to a regional climate envelope shift; (iv) geographic distributions of climate envelopes of western and eastern Atelopus range into central Amazonia but with limited spatial overlap. We tested if presence and apparent absence data points of Atelopus were homogenously distributed with Ripley's K function. A molecular phylogeny (mitochondrial 16S rRNA gene) was reconstructed using Maximum Likelihood and Bayesian Inference to study if Guianan Atelopus constitute a clade nested within a larger genus phylogeny. We focused on climate envelope divergence and geographic distribution by computing climatic envelope models with MaxEnt based on macroscale bioclimatic parameters and testing them by using Schoener's index and modified Hellinger distance. We corroborated existing DV predictions and, for the first time, formulated new DV predictions aiming on species' climate envelope change. Our results suggest that cool-adapted Andean Atelopus ancestors had dispersed into the Amazon basin and further onto the eastern Guiana Shield where, under warm conditions, they were forced to change climate envelopes.