Toward Improved Understanding of Streamflow Effects on Freshwater Fishes

Mary C. Freeman; Kevin R. Bestgen; Daren Carlisle; Emmanuel A. Frimpong; Nathan R. Franssen; Keith B. Gido; Elise Irwin; Yoichiro Kanno; Charles Luce; S. Kyle McKay; Meryl C. Mims; Julian D. Olden; N. LeRoy Poff; David L. Propst; Laura Rack; Allison H. Roy; Edward S. Stowe; Annika Walters; Seth J. Wenger

doi:10.1002/fsh.10731

Toward Improved Understanding of Streamflow Effects on Freshwater Fishes

Mary C. Freeman
, Kevin R. Bestgen
, Daren Carlisle
, Emmanuel A. Frimpong
, Nathan R. Franssen
, Keith B. Gido
, Elise Irwin
, Yoichiro Kanno
, Charles Luce
, S. Kyle McKay
, Meryl C. Mims
, Julian D. Olden
, N. LeRoy Poff
, David L. Propst
, Laura Rack
, Allison H. Roy
, Edward S. Stowe
, Annika Walters
, Seth J. Wenger

Ecosystem and Conservation Sciences

Research output: Contribution to journal › Article › peer-review

52 Scopus citations

Abstract

Understanding the effects of hydrology on fish populations is essential to managing for native fish conservation. However, despite decades of research illustrating streamflow influences on fish habitat, reproduction, and survival, biologists remain challenged when tasked with predicting how fish populations will respond to changes in flow regimes. This uncertainty stems from insufficient understanding of the context-dependent mechanisms underlying fish responses to, for example, periods of reduced flow or altered frequency of high-flow events. We aim to address this gap by drawing on previous research to hypothesize mechanisms by which low and high flows influence fish populations and communities, identifying challenges that stem from data limitations and ecological complexity, and outlining research directions that can advance an empirical basis for prediction. Focusing flow ecology research on testing and refining mechanistic hypotheses can help narrow management uncertainties and better support species conservation in changing flow regimes.

Original language	English
Pages (from-to)	290-298
Number of pages	9
Journal	Fisheries
Volume	47
Issue number	7
DOIs	https://doi.org/10.1002/fsh.10731
State	Published - Jul 2022

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Freeman, M. C., Bestgen, K. R., Carlisle, D., Frimpong, E. A., Franssen, N. R., Gido, K. B., Irwin, E., Kanno, Y., Luce, C., Kyle McKay, S., Mims, M. C., Olden, J. D., LeRoy Poff, N., Propst, D. L., Rack, L., Roy, A. H., Stowe, E. S., Walters, A., & Wenger, S. J. (2022). Toward Improved Understanding of Streamflow Effects on Freshwater Fishes. Fisheries, 47(7), 290-298. https://doi.org/10.1002/fsh.10731

@article{14e5260a51924c8298fca2ae536e6e7d,

title = "Toward Improved Understanding of Streamflow Effects on Freshwater Fishes",

abstract = "Understanding the effects of hydrology on fish populations is essential to managing for native fish conservation. However, despite decades of research illustrating streamflow influences on fish habitat, reproduction, and survival, biologists remain challenged when tasked with predicting how fish populations will respond to changes in flow regimes. This uncertainty stems from insufficient understanding of the context-dependent mechanisms underlying fish responses to, for example, periods of reduced flow or altered frequency of high-flow events. We aim to address this gap by drawing on previous research to hypothesize mechanisms by which low and high flows influence fish populations and communities, identifying challenges that stem from data limitations and ecological complexity, and outlining research directions that can advance an empirical basis for prediction. Focusing flow ecology research on testing and refining mechanistic hypotheses can help narrow management uncertainties and better support species conservation in changing flow regimes.",

author = "Freeman, \{Mary C.\} and Bestgen, \{Kevin R.\} and Daren Carlisle and Frimpong, \{Emmanuel A.\} and Franssen, \{Nathan R.\} and Gido, \{Keith B.\} and Elise Irwin and Yoichiro Kanno and Charles Luce and \{Kyle McKay\}, S. and Mims, \{Meryl C.\} and Olden, \{Julian D.\} and \{LeRoy Poff\}, N. and Propst, \{David L.\} and Laura Rack and Roy, \{Allison H.\} and Stowe, \{Edward S.\} and Annika Walters and Wenger, \{Seth J.\}",

note = "Publisher Copyright: {\textcopyright} 2022 American Fisheries Society.",

year = "2022",

month = jul,

doi = "10.1002/fsh.10731",

language = "English",

volume = "47",

pages = "290--298",

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Freeman, MC, Bestgen, KR, Carlisle, D, Frimpong, EA, Franssen, NR, Gido, KB, Irwin, E, Kanno, Y, Luce, C, Kyle McKay, S, Mims, MC, Olden, JD, LeRoy Poff, N, Propst, DL, Rack, L, Roy, AH, Stowe, ES, Walters, A & Wenger, SJ 2022, 'Toward Improved Understanding of Streamflow Effects on Freshwater Fishes', Fisheries, vol. 47, no. 7, pp. 290-298. https://doi.org/10.1002/fsh.10731

TY - JOUR

T1 - Toward Improved Understanding of Streamflow Effects on Freshwater Fishes

AU - Freeman, Mary C.

AU - Bestgen, Kevin R.

AU - Carlisle, Daren

AU - Frimpong, Emmanuel A.

AU - Franssen, Nathan R.

AU - Gido, Keith B.

AU - Irwin, Elise

AU - Kanno, Yoichiro

AU - Luce, Charles

AU - Kyle McKay, S.

AU - Mims, Meryl C.

AU - Olden, Julian D.

AU - LeRoy Poff, N.

AU - Propst, David L.

AU - Rack, Laura

AU - Roy, Allison H.

AU - Stowe, Edward S.

AU - Walters, Annika

AU - Wenger, Seth J.

PY - 2022/7

Y1 - 2022/7

N2 - Understanding the effects of hydrology on fish populations is essential to managing for native fish conservation. However, despite decades of research illustrating streamflow influences on fish habitat, reproduction, and survival, biologists remain challenged when tasked with predicting how fish populations will respond to changes in flow regimes. This uncertainty stems from insufficient understanding of the context-dependent mechanisms underlying fish responses to, for example, periods of reduced flow or altered frequency of high-flow events. We aim to address this gap by drawing on previous research to hypothesize mechanisms by which low and high flows influence fish populations and communities, identifying challenges that stem from data limitations and ecological complexity, and outlining research directions that can advance an empirical basis for prediction. Focusing flow ecology research on testing and refining mechanistic hypotheses can help narrow management uncertainties and better support species conservation in changing flow regimes.

AB - Understanding the effects of hydrology on fish populations is essential to managing for native fish conservation. However, despite decades of research illustrating streamflow influences on fish habitat, reproduction, and survival, biologists remain challenged when tasked with predicting how fish populations will respond to changes in flow regimes. This uncertainty stems from insufficient understanding of the context-dependent mechanisms underlying fish responses to, for example, periods of reduced flow or altered frequency of high-flow events. We aim to address this gap by drawing on previous research to hypothesize mechanisms by which low and high flows influence fish populations and communities, identifying challenges that stem from data limitations and ecological complexity, and outlining research directions that can advance an empirical basis for prediction. Focusing flow ecology research on testing and refining mechanistic hypotheses can help narrow management uncertainties and better support species conservation in changing flow regimes.

UR - https://www.scopus.com/pages/publications/85125993639

U2 - 10.1002/fsh.10731

DO - 10.1002/fsh.10731

M3 - Article

AN - SCOPUS:85125993639

SN - 0363-2415

VL - 47

SP - 290

EP - 298

JO - Fisheries

JF - Fisheries

IS - 7

ER -

Toward Improved Understanding of Streamflow Effects on Freshwater Fishes

Abstract

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