RT Journal Article
SR Electronic
T1 South American freshwater fish diversity shaped by Andean uplift since the Late Cretaceous
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 2021.05.14.444133
DO 10.1101/2021.05.14.444133
A1 Lydian M. Boschman
A1 Fernanda A.S. Cassemiro
A1 Luca Carraro
A1 Jorad de Vries
A1 Florian Altermatt
A1 Oskar Hagen
A1 Carina Hoorn
A1 Loïc Pellissier
YR 2021
UL http://biorxiv.org/content/early/2021/05/16/2021.05.14.444133.abstract
AB South America is home to the highest freshwater fish biodiversity on Earth1,2. The hotspot of species richness is located in the western Amazon Basin, and richness decreases downstream along the Amazon River towards the mouth at the Atlantic coast (Fig. 1b, c)3,4, which contradicts the positive relationship between stream size and biodiversity that is commonly observed in river systems across the world5,6. We investigate the role of river rerouting events caused by Andean mountain building and repeated episodes of flooding in western Amazonia in shaping the modern-day richness pattern of freshwater fishes in South America. To this end, we combine a reconstruction of river networks following Andean surface uplift since 80 million years ago with a mechanistic biological model simulating dispersal, allopatric speciation and extinction over the dynamic landscape of rivers and lakes. We show that the numerous small river rerouting events in western Amazonia resulting from mountain building produced highly dynamic riverine habitats that caused high diversification rates, shaping the exceptional present-day richness of this region. The history of marine incursions and lakes, including the Miocene Pebas megawetland system in western Amazonia, played a secondary role. This study is a major step towards the understanding of the processes involved in the interactions between the solid Earth, landscapes, and life of extraordinary biodiverse South America.Competing Interest StatementThe authors have declared no competing interest.