Origin, evolution and biodiversity of the Neotropical herpetofauna: patterns and processes of the world’s richest and most threatened biota
Abstract
The biological diversity of tropical America (the Neotropics) is astonishing. However, even
among terrestrial vertebrates, most biogeographical patterns are not fully described nor understood,
especially for many Neotropical reptiles and amphibians (the herpetofauna). To understand
the evolutionary processes that gave rise to this incredible diversity, it is necessary to map
the geographical distribution of multiple species. Furthermore, biogeographical analyses that
integrate phylogenetic information provide the means to disentangle the roles of geography and
environment in shaping biodiversity patterns. Herpetofaunal groups are very diverse in the region,
occupying a wide range of habitats and niches, making them key organisms to understanding
the origins of Neotropical biodiversity. My goal in this thesis is to understand biogeographical
patterns and processes underlying this diversity. For this, I aim to: (1) provide novel
taxonomic assignments and mapping of the distribution of snakes in the region, (2) test the role
of geographical and environmental distances in the patterns of phylogenetic regionalization in
reptiles and amphibians in the Cerrado savannas, (3) map endemism patterns for all Neotropical
snakes, (4) investigate the origins and assembly of Neotropical savannas, and (5) apply biodiversity
indices to guide conservation. The results indicate that in the Cerrado savannas, geography
and environment affect the distribution of reptile and amphibian lineages in different
ways, resulting in distinct patterns of phylogenetic regionalization. Also, biodiversity patterns
in the Cerrado region were shaped in the context of a much more recent appearance of savanna
ecosystems in comparison to tropical forests, as shown from several lines of evidence. The main
contribution of this thesis is the mapping of narrowly distributed snake diversity in Central
America, the Andean mountains, the Caribbean Islands, and the Atlantic Forest. The topographical
complexity of these regions is the main predictor of both ancient and recent endemism. By
describing diversity patterns of the Neotropical herpetofauna, I hope to contribute to the understanding
of critical biogeographical patterns and processes underlying one of the world’s richest
biotas.
Parts of work
1. On the young savannas in the land of ancient forests. Springer. In: Rull, V., Carnaval, A. Neotropical Diversification. In press. 2. Contrasting patterns of phylogenetic turnover in amphibians and reptiles are driven by environment and geography in Neotropical savannahs. Manuscript. 3. Taxonomic review of the genus Xenopholis Peters, 1869 (Serpentes: Dipsadidae), integrating morphology with ecological niche. Manuscript. 4. Museums and cradles of diversity are geographically coincident for narrowly distributed Neotropical snakes. Manuscript submitted to Ecography (minor revision). 5. WEGE: a new metric for ranking locations for biodiversity conservation. Manuscript submitted to Conservation Biology.
Degree
Doctor of Philosophy
University
University of Gothenburg. Faculty of Science
Institution
Department of Biological and Environmental Sciences ; Institutionen för biologi och miljövetenskap
Disputation
fredagen den 18, oktober, 2019 kl. 10:00 i hörsalen, institutionen för biologi och miljövetenskap, Botanhuset, Carl Skottsbergs gata 22, Göteborg
Date of defence
2019-10-18
josueanderson21@gmail.com
Date
2019-09-16Author
Azevedo, Josué
Keywords
Amazonia
biodiversity indices
Cerrado
integrative taxonomy
phylogenetic endemism
phylogenetic turnover
Publication type
Doctoral thesis
ISBN
978-91-7833-626-5
Language
eng