Large rivers as complex adaptive ecosystems

Thoms, Martin; Sheldon, Fran

doi:10.1002/rra.3448

Author(s)

Thoms, Martin

Sheldon, Fran

Publication Date

2019-06-06

Abstract

Large rivers dominate the world's terrestrial surface, yet we are still learning of their structure, how they function, and whether they are different not only from each other, but also from smaller rivers. There is a benefit in framing large rivers as complex adaptive systems, as they contain essential features of these entities, the emergent properties of which are nonlinear and often display unpredictable behaviour in space and time, contagion, and modularity. Large rivers are also social–ecological systems with a high degree of coupling between natural and human components. The manuscripts in this special issue highlight these fundamental properties for large river ecosystems from different geographic regions of the world. This special issue is dedicated to three former editorial board members of River Research and Applications. The loss of Professors Bryan Davies (University of Cape Town, South Africa), Jay O'Keefe (Rhodes University, South Africa), and Keith Walker (University of Adelaide, Australia) leaves a great gap and a rich memory bank in river science—especially large river ecosystems.

Citation

River Research and Applications, 35(5), p. 451-458

ISSN

1535-1467

1535-1459

Link

https://hdl.handle.net/1959.11/29824

Language

en

Publisher

John Wiley & Sons Ltd

Title

Large rivers as complex adaptive ecosystems

Type of document

Journal Article

Entity Type

Publication

Author(s)	Thoms, Martin Sheldon, Fran
Publication Date	2019-06-06
Abstract	Large rivers dominate the world's terrestrial surface, yet we are still learning of their structure, how they function, and whether they are different not only from each other, but also from smaller rivers. There is a benefit in framing large rivers as complex adaptive systems, as they contain essential features of these entities, the emergent properties of which are nonlinear and often display unpredictable behaviour in space and time, contagion, and modularity. Large rivers are also social–ecological systems with a high degree of coupling between natural and human components. The manuscripts in this special issue highlight these fundamental properties for large river ecosystems from different geographic regions of the world. This special issue is dedicated to three former editorial board members of River Research and Applications. The loss of Professors Bryan Davies (University of Cape Town, South Africa), Jay O'Keefe (Rhodes University, South Africa), and Keith Walker (University of Adelaide, Australia) leaves a great gap and a rich memory bank in river science—especially large river ecosystems.
Citation	River Research and Applications, 35(5), p. 451-458
ISSN	1535-1467 1535-1459
Link	https://hdl.handle.net/1959.11/29824
Language	en
Publisher	John Wiley & Sons Ltd
Title	Large rivers as complex adaptive ecosystems
Type of document	Journal Article
Entity Type	Publication

Large rivers as complex adaptive ecosystems

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