Salmonid population dynamics: stability under weak density dependence?

Lobón-Cerviá and Rincón analysed the dynamics of a stream-resident brown trout (Salmo trutta) population using stockrecruitment relationships, and reported no indication of density dependence but strong effects of water discharge on juvenile production. The authors concluded to have demonstrated an...

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Published inOikos Vol. 110; no. 3; pp. 630 - 633
Main Author Einum, S
Format Journal Article
LanguageEnglish
Published Copenhagen Munksgaard International Publishers 01.09.2005
Blackwell Publishers
Blackwell
Blackwell Publishing Ltd
Subjects
Agnatha. Pisces
Animal and plant ecology
Animal populations
Animal reproduction
Animal, plant and microbial ecology
Animals
Biological and medical sciences
Demecology
Density dependence
Eggs
Fish
Fish populations
Fundamental and applied biological sciences. Psychology
Marine fishes
Mortality
Opinions
Population density
Population dynamics
Population ecology
Salmo trutta
Salmon
Trout
Vertebrata
Wildlife habitats
Young animals
Freshwater environment
Salmonidae
Vertebrata
Salmo trutta
Stability
Pisces
Population recruitment
Density dependence
Population dynamics
Stock
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Abstract Lobón-Cerviá and Rincón analysed the dynamics of a stream-resident brown trout (Salmo trutta) population using stockrecruitment relationships, and reported no indication of density dependence but strong effects of water discharge on juvenile production. The authors concluded to have demonstrated an example of a population where ".. .endogenous density-dependent mechanisms played, at most, a limited role" for population dynamics (p. 643), and that the population persists with "... little or no operation of endogenous regulatory mechanisms" (p. 641). Further, they "... question the extent to which generalizations claiming that most natural animal populations should be subject to the operation of regulatory feedback mechanisms hold for fish populations" (p. 644). If these conclusions were accurate, it should radically alter our view of fish population dynamics and how such populations should be managed. However, here I argue that these conclusions should be treated cautiously, and suggest alternative interpretations which are more consistent with theory and previous empirical research. Furthermore, using the study of Lobón-Cerviá and Rincón as an illustrative example, I suggest that additional insight into population dynamics may be attained by shifting the focus away from the conventional absolute distinction between density-dependent and -independent factors towards studies that address the potential for interactions between external forces and density.
AbstractList Lobon-Cervia and Rincon analysed the dynamics of a stream-resident brown trout (Salmo trutta) population using stock-recruitment relationships, and reported no indication of density dependence but strong effects of water discharge on juvenile production. The authors concluded to have demonstrated an example of a population where "... endogenous density-dependent mechanisms played, at most, a limited role" for population dynamics (p. 643), and that the population persists with "... little or no operation of endogenous regulatory mechanisms" (p. 641). Further, they "... question the extent to which generalizations claiming that most natural animal populations should be subject to the operation of regulatory feedback mechanisms hold for fish populations" (p. 644). If these conclusions were accurate, it should radically alter our view of fish population dynamics and how such populations should be managed. However, here I argue that these conclusions should be treated cautiously, and suggest alternative interpretations which are more consistent with theory and previous empirical research. Furthermore, using the study of Lobon-Cervia and Rincon as an illustrative example, I suggest that additional insight into population dynamics may be attained by shifting the focus away from the conventional absolute distinction between density-dependent and -independent factors towards studies that address the potential for interactions between external forces and density.[PUBLICATION ABSTRACT]
Lobón‐Cerviá and Rincón analysed the dynamics of a stream‐resident brown trout ( Salmo trutta ) population using stock‐recruitment relationships, and reported no indication of density dependence but strong effects of water discharge on juvenile production. The authors concluded to have demonstrated an example of a population where “… endogenous density‐dependent mechanisms played, at most, a limited role” for population dynamics (p. 643), and that the population persists with “… little or no operation of endogenous regulatory mechanisms” (p. 641). Further, they “… question the extent to which generalizations claiming that most natural animal populations should be subject to the operation of regulatory feedback mechanisms hold for fish populations” (p. 644). If these conclusions were accurate, it should radically alter our view of fish population dynamics and how such populations should be managed. However, here I argue that these conclusions should be treated cautiously, and suggest alternative interpretations which are more consistent with theory and previous empirical research. Furthermore, using the study of Lobón‐Cerviá and Rincón as an illustrative example, I suggest that additional insight into population dynamics may be attained by shifting the focus away from the conventional absolute distinction between density‐dependent and ‐independent factors towards studies that address the potential for interactions between external forces and density.
Lobon-Cervia and Rincon analysed the dynamics of a stream-resident brown trout (Salmo trutta) population using stock-recruitment relationships, and reported no indication of density dependence but strong effects of water discharge on juvenile production. The authors concluded to have demonstrated an example of a population where '...[puncsp]endogenous density-dependent mechanisms played, at most, a limited role' for population dynamics (p. 643), and that the population persists with '...[puncsp]little or no operation of endogenous regulatory mechanisms' (p. 641). Further, they '...[puncsp]question the extent to which generalizations claiming that most natural animal populations should be subject to the operation of regulatory feedback mechanisms hold for fish populations' (p. 644). If these conclusions were accurate, it should radically alter our view of fish population dynamics and how such populations should be managed. However, here I argue that these conclusions should be treated cautiously, and suggest alternative interpretations which are more consistent with theory and previous empirical research. Furthermore, using the study of Lobon-Cervia and Rincon as an illustrative example, I suggest that additional insight into population dynamics may be attained by shifting the focus away from the conventional absolute distinction between density-dependent and -independent factors towards studies that address the potential for interactions between external forces and density.
Lobón‐Cerviá and Rincón analysed the dynamics of a stream‐resident brown trout (Salmo trutta) population using stock‐recruitment relationships, and reported no indication of density dependence but strong effects of water discharge on juvenile production. The authors concluded to have demonstrated an example of a population where “… endogenous density‐dependent mechanisms played, at most, a limited role” for population dynamics (p. 643), and that the population persists with “… little or no operation of endogenous regulatory mechanisms” (p. 641). Further, they “… question the extent to which generalizations claiming that most natural animal populations should be subject to the operation of regulatory feedback mechanisms hold for fish populations” (p. 644). If these conclusions were accurate, it should radically alter our view of fish population dynamics and how such populations should be managed. However, here I argue that these conclusions should be treated cautiously, and suggest alternative interpretations which are more consistent with theory and previous empirical research. Furthermore, using the study of Lobón‐Cerviá and Rincón as an illustrative example, I suggest that additional insight into population dynamics may be attained by shifting the focus away from the conventional absolute distinction between density‐dependent and ‐independent factors towards studies that address the potential for interactions between external forces and density.
Lobón-Cerviá and Rincón analysed the dynamics of a stream-resident brown trout (Salmo trutta) population using stockrecruitment relationships, and reported no indication of density dependence but strong effects of water discharge on juvenile production. The authors concluded to have demonstrated an example of a population where ".. .endogenous density-dependent mechanisms played, at most, a limited role" for population dynamics (p. 643), and that the population persists with "... little or no operation of endogenous regulatory mechanisms" (p. 641). Further, they "... question the extent to which generalizations claiming that most natural animal populations should be subject to the operation of regulatory feedback mechanisms hold for fish populations" (p. 644). If these conclusions were accurate, it should radically alter our view of fish population dynamics and how such populations should be managed. However, here I argue that these conclusions should be treated cautiously, and suggest alternative interpretations which are more consistent with theory and previous empirical research. Furthermore, using the study of Lobón-Cerviá and Rincón as an illustrative example, I suggest that additional insight into population dynamics may be attained by shifting the focus away from the conventional absolute distinction between density-dependent and -independent factors towards studies that address the potential for interactions between external forces and density.
Author Einum, S
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Keywords Freshwater environment
Salmonidae
Vertebrata
Salmo trutta
Stability
Pisces
Population recruitment
Density dependence
Population dynamics
Stock
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Cattaneo, F., Lamouroux, N., Breil, P. et al. 2002. The influence of hydrological and biotic processes on brown trout (Salmo trutta) population dynamics. Can. J. Fish. Aquat. Sci. 59: 12-22.
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2001; 93
2002; 59
2004; 105
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2003; 270
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2005; 143
2002; 83
1995; 47
2000; 129
1993; 30
1997; 12
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1978; 47
2003; 60
1933; 2
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2003; 62
2001; 58
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1992; 61
Kocik J. (e_1_2_4_26_1) 1998; 55
Elliott J. M. (e_1_2_4_15_1) 1994
Woiwod I. P. (e_1_2_4_39_1) 1992; 61
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Snippet Lobón-Cerviá and Rincón analysed the dynamics of a stream-resident brown trout (Salmo trutta) population using stockrecruitment relationships, and reported no...
Lobón‐Cerviá and Rincón analysed the dynamics of a stream‐resident brown trout (Salmo trutta) population using stock‐recruitment relationships, and reported no...
Lobón‐Cerviá and Rincón analysed the dynamics of a stream‐resident brown trout ( Salmo trutta ) population using stock‐recruitment relationships, and reported...
Lobon-Cervia and Rincon analysed the dynamics of a stream-resident brown trout (Salmo trutta) population using stock-recruitment relationships, and reported no...
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wiley
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SubjectTerms Agnatha. Pisces
Animal and plant ecology
Animal populations
Animal reproduction
Animal, plant and microbial ecology
Animals
Biological and medical sciences
Demecology
Density dependence
Eggs
Fish
Fish populations
Fundamental and applied biological sciences. Psychology
Marine fishes
Mortality
Opinions
Population density
Population dynamics
Population ecology
Salmo trutta
Salmon
Trout
Vertebrata
Wildlife habitats
Young animals
Title Salmonid population dynamics: stability under weak density dependence?
URI https://api.istex.fr/ark:/67375/WNG-PW0ZK2CZ-P/fulltext.pdf
https://www.jstor.org/stable/3548603
https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fj.0030-1299.2005.14088.x
https://www.proquest.com/docview/211475278
https://www.proquest.com/docview/17097373
Volume 110
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