Unravelling Large-scale Patterns and Drivers of Biodiversity in Dry Rivers

Author

Arnaud Foulquier
Thibault Datry
Roland Corti
Daniel von Schiller
Klement Tockner
Rachel Stubbington
Mark O. Gessner
Frederic Boyer
Marc Ohlmann
Wilfried Thuiller
Delphine Rioux
Christian Miquel
Ricardo Albarino
Daniel C. Allen
Florian Altermatt
Maria Isabel Arce
Shai Arnon
Damien Banas
Andy Banegas-Medina
Erin Beller
Melanie L. Blanchette
Joanna Blessing
Iola Goncalves Boechat
Kate Boersma
Michael Bogan
Nuria Bonada
Nick Bond
Katherine Brintrup
Andreas Bruder
Ryan Burrows
Tommaso Cancellario
Cristina Canhoto
Stephanie Carlson
Nuria Cid
Julien Cornut
Michael Danger
Bianca de Freitas Terra
Anna Maria De Girolamo
Ruben del Campo
Veronica Diaz Villanueva
Fiona Dyer
Arturo Elosegi
Catherine Febria
Ricardo Figueroa Jara
Brian Four
Sarig Gafny
Rosa Gomez
Lluis Gomez-Gener
Simone Guareschi
Bjorn Gucker
Jason Hwan
J. Iwan Jones
Patrick S. Kubheka
Alex Laini
Simone Daniela Langhans
Bertrand Launay
Guillaume Le Goff
Catherine Leigh
Chelsea Little
Stefan Lorenz
Jonathan Marshall
Eduardo J. Martin Sanz
Angus McIntosh
Clara Mendoza-Lera
Elisabeth I. Meyer
Marko Milisa
Musa C. Mlambo
Manuela Morias
Nabor Moya
Peter Negus
Dev Niyogi, Missouri University of Science and TechnologyFollow
Iluminada Pagan
Athina Papatheodoulou
Giuseppe Pappagallo
Isabel Pardo
Petr Paril
Steffen U. Pauls
Marek Polasek
Pablo Rodriguez-Lozano
Robert J. Rolls
Maria Mar Sanchez-Montoya
Ana Savic
Oleksandra Shumilova
Kandikere R. Sridhar
Alisha Steward
Amina Taleb
Avi Uzan
Yefrin Valladares
Ross Vander Vorste
Nathan J. Waltham
Dominik H. Zak
Annamaria Zoppini

Abstract

More than half of the world’s rivers dry up periodically, but our understanding of the biological communities in dry riverbeds remains limited. Specifically, the roles of dispersal, environmental filtering and biotic interactions in driving biodiversity in dry rivers are poorly understood. Here, we conduct a large-scale coordinated survey of patterns and drivers of biodiversity in dry riverbeds. We focus on eight major taxa, including microorganisms, invertebrates and plants: Algae, Archaea, Bacteria, Fungi, Protozoa, Arthropods, Nematodes and Streptophyta. We use environmental DNA metabarcoding to assess biodiversity in dry sediments collected over a 1-year period from 84 non-perennial rivers across 19 countries on four continents. Both direct factors, such as nutrient and carbon availability, and indirect factors such as climate influence the local biodiversity of most taxa. Limited resource availability and prolonged dry phases favor oligotrophic microbial taxa. Co-variation among taxa, particularly Bacteria, Fungi, Algae and Protozoa, explain more spatial variation in community composition than dispersal or environmental gradients. This finding suggests that biotic interactions or unmeasured ecological and evolutionary factors may strongly influence communities during dry phases, altering biodiversity responses to global changes.

Recommended Citation

A. Foulquier et al., "Unravelling Large-scale Patterns and Drivers of Biodiversity in Dry Rivers," Nature Communications, vol. 15, no. 1, article no. 7233, Nature Research, Dec 2024.

The definitive version is available at https://doi.org/10.1038/s41467-024-50873-1

Department(s)

Biological Sciences

Publication Status

Open Access

International Standard Serial Number (ISSN)

2041-1723

Document Type

Article - Journal

Document Version

Final Version

File Type

text

Language(s)

English

Rights

© 2025 The Authors, All rights reserved.

Creative Commons Licensing

This work is licensed under a Creative Commons Attribution 4.0 License.

Publication Date

1 December 2024

PubMed ID

39174521