Fish habitat models for a future of novel riverscapes
Fish habitat models for a future of novel riverscapes
Multiple anthropogenic forces have pushed river ecosystems into undesirable states with no clear understanding of how they should be best managed. The advancement of riverine fish habitat models intended to provide management insights has slowed. Investigations into theoretical and empirical gaps to define habitat more comprehensively across different scales and ecological organizations are crucial in managing the freshwater biodiversity crisis. We introduce the concept of novel riverscapes to reconcile anthropogenic forcing, fish habitat, limitations of current fish habitat models, and opportunities for new models. We outline three priority data-driven opportunities that incorporate the novel riverscape concept: fish movement, river behavior, and drivers of novelty that all are integrated into a scale-based framework to guide the development of new models. Last, we present a case study showing how researchers, model developers, and practitioners can work collaboratively to implement the novel riverscape concept.
624-639
Hansen, Henry H.
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Comoglio, Claudio
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Elings, Jelger
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Ericsson, Philip
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Goethals, Peter
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Gosselin, Marie-Pierre
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Hölker, Franz
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Katopodis, Christos
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Kemp, Paul
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Lind, Lovisa
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Mawer, Rachel
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Mozzi, Gloria
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Nestler, John M.
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Piccolo, John
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Radinger, Johannes
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Schneider, Matthias
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Stoilova, Velizara
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Wegscheider, Bernhard
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Bergman, Eva
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September 2024
Hansen, Henry H.
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Comoglio, Claudio
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Elings, Jelger
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Ericsson, Philip
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Goethals, Peter
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Gosselin, Marie-Pierre
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Hölker, Franz
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Katopodis, Christos
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Kemp, Paul
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Lind, Lovisa
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Mawer, Rachel
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Mozzi, Gloria
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Nestler, John M.
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Piccolo, John
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Radinger, Johannes
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Schneider, Matthias
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Stoilova, Velizara
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Wegscheider, Bernhard
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Bergman, Eva
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Hansen, Henry H., Comoglio, Claudio, Elings, Jelger, Ericsson, Philip, Goethals, Peter, Gosselin, Marie-Pierre, Hölker, Franz, Katopodis, Christos, Kemp, Paul, Lind, Lovisa, Mawer, Rachel, Mozzi, Gloria, Nestler, John M., Piccolo, John, Radinger, Johannes, Schneider, Matthias, Stoilova, Velizara, Wegscheider, Bernhard and Bergman, Eva
(2024)
Fish habitat models for a future of novel riverscapes.
BioScience, 74 (9), .
(doi:10.1093/biosci/biae081).
Abstract
Multiple anthropogenic forces have pushed river ecosystems into undesirable states with no clear understanding of how they should be best managed. The advancement of riverine fish habitat models intended to provide management insights has slowed. Investigations into theoretical and empirical gaps to define habitat more comprehensively across different scales and ecological organizations are crucial in managing the freshwater biodiversity crisis. We introduce the concept of novel riverscapes to reconcile anthropogenic forcing, fish habitat, limitations of current fish habitat models, and opportunities for new models. We outline three priority data-driven opportunities that incorporate the novel riverscape concept: fish movement, river behavior, and drivers of novelty that all are integrated into a scale-based framework to guide the development of new models. Last, we present a case study showing how researchers, model developers, and practitioners can work collaboratively to implement the novel riverscape concept.
Text
biae081
- Version of Record
More information
Accepted/In Press date: 16 July 2024
e-pub ahead of print date: 28 August 2024
Published date: September 2024
Identifiers
Local EPrints ID: 506182
URI: http://eprints.soton.ac.uk/id/eprint/506182
ISSN: 0006-3568
PURE UUID: bf72b17e-c5cd-4969-b8d9-510bee49f6be
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Date deposited: 29 Oct 2025 17:45
Last modified: 30 Oct 2025 02:38
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Contributors
Author:
Henry H. Hansen
Author:
Claudio Comoglio
Author:
Jelger Elings
Author:
Peter Goethals
Author:
Marie-Pierre Gosselin
Author:
Franz Hölker
Author:
Christos Katopodis
Author:
Lovisa Lind
Author:
Rachel Mawer
Author:
Gloria Mozzi
Author:
John M. Nestler
Author:
John Piccolo
Author:
Johannes Radinger
Author:
Matthias Schneider
Author:
Velizara Stoilova
Author:
Bernhard Wegscheider
Author:
Eva Bergman
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