Re‐evaluating the effect of harvesting regimes on Nile crocodiles using an integral projection model
Crocodile populations are size‐structured, and for populations that are subject to harvesting, removal is typically size selective. For this reason, size‐structured matrix models are typically used to analyse the dynamics of crocodile populations. The boundaries between the size classes used to clas...
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| Published in | The Journal of animal ecology Vol. 82; no. 1; pp. 155 - 165 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Oxford
Blackwell Publishing
2013
Blackwell Blackwell Publishing Ltd |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Crocodile populations are size‐structured, and for populations that are subject to harvesting, removal is typically size selective. For this reason, size‐structured matrix models are typically used to analyse the dynamics of crocodile populations. The boundaries between the size classes used to classify individuals in these models are typically chosen arbitrarily. This is problematic because results can depend upon the number and width of size classes. The recent development of continuous character population models termed integral projection models (IPM) has removed the need to arbitrarily classify individuals. These models are yet to be applied to harvested animal populations. Using information obtained from the literature, we develop an IPM for crocodiles. We use perturbation analyses to investigate how altering size‐specific demographic rates influences the population growth rate and the strength of selection on snout to vent length. We find that perturbations can lead to complex responses. Sensitivity analysis to population growth and fertility selection reveals that the smallest animals and the sizes of early breeding individuals and their eggs may have more influence on these population biology parameters than previously thought. Although our model is relatively simple, our results show that IPM can be used to gain theoretical insight into the possible consequences of altering size‐specific demographic rates on the population and evolutionary ecology of harvested populations. |
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| AbstractList | Crocodile populations are size‐structured, and for populations that are subject to harvesting, removal is typically size selective. For this reason, size‐structured matrix models are typically used to analyse the dynamics of crocodile populations. The boundaries between the size classes used to classify individuals in these models are typically chosen arbitrarily. This is problematic because results can depend upon the number and width of size classes. The recent development of continuous character population models termed integral projection models (IPM) has removed the need to arbitrarily classify individuals. These models are yet to be applied to harvested animal populations. Using information obtained from the literature, we develop an IPM for crocodiles. We use perturbation analyses to investigate how altering size‐specific demographic rates influences the population growth rate and the strength of selection on snout to vent length. We find that perturbations can lead to complex responses. Sensitivity analysis to population growth and fertility selection reveals that the smallest animals and the sizes of early breeding individuals and their eggs may have more influence on these population biology parameters than previously thought. Although our model is relatively simple, our results show that IPM can be used to gain theoretical insight into the possible consequences of altering size‐specific demographic rates on the population and evolutionary ecology of harvested populations. 1. Crocodile populations are size-structured, and for populations that are subject to harvesting, removal is typically size selective. For this reason, size-structured matrix models are typically used to analyse the dynamics of crocodile populations. The boundaries between the size classes used to classify individuals in these models are typically chosen arbitrarily. This is problematic because results can depend upon the number and width of size classes. 2. The recent development of continuous character population models termed integral projection models (IPM) has removed the need to arbitrarily classify individuals. These models are yet to be applied to harvested animal populations. 3. Using information obtained from the literature, we develop an IPM for crocodiles. We use perturbation analyses to investigate how altering size-specific demographic rates influences the population growth rate and the strength of selection on snout to vent length. 4. We find that perturbations can lead to complex responses. Sensitivity analysis to population growth and fertility selection reveals that the smallest animals and the sizes of early breeding individuals and their eggs may have more influence on these population biology parameters than previously thought. 5. Although our model is relatively simple, our results show that IPM can be used to gain theoretical insight into the possible consequences of altering size-specific demographic rates on the population and evolutionary ecology of harvested populations. Summary Crocodile populations are size‐structured, and for populations that are subject to harvesting, removal is typically size selective. For this reason, size‐structured matrix models are typically used to analyse the dynamics of crocodile populations. The boundaries between the size classes used to classify individuals in these models are typically chosen arbitrarily. This is problematic because results can depend upon the number and width of size classes. The recent development of continuous character population models termed integral projection models (IPM) has removed the need to arbitrarily classify individuals. These models are yet to be applied to harvested animal populations. Using information obtained from the literature, we develop an IPM for crocodiles. We use perturbation analyses to investigate how altering size‐specific demographic rates influences the population growth rate and the strength of selection on snout to vent length. We find that perturbations can lead to complex responses. Sensitivity analysis to population growth and fertility selection reveals that the smallest animals and the sizes of early breeding individuals and their eggs may have more influence on these population biology parameters than previously thought. Although our model is relatively simple, our results show that IPM can be used to gain theoretical insight into the possible consequences of altering size‐specific demographic rates on the population and evolutionary ecology of harvested populations. This is the first example of crocodile population modelling using body size as a continuous character instead of the traditional ‘arbitrary’ size categories. The authors provide unique insights into the dynamics of a population of Nile crocodiles. Summary [PUBLICATION ABSTRACT] Crocodile populations are size-structured, and for populations that are subject to harvesting, removal is typically size selective. For this reason, size-structured matrix models are typically used to analyse the dynamics of crocodile populations. The boundaries between the size classes used to classify individuals in these models are typically chosen arbitrarily. This is problematic because results can depend upon the number and width of size classes. The recent development of continuous character population models termed integral projection models (IPM) has removed the need to arbitrarily classify individuals. These models are yet to be applied to harvested animal populations. Using information obtained from the literature, we develop an IPM for crocodiles. We use perturbation analyses to investigate how altering size-specific demographic rates influences the population growth rate and the strength of selection on snout to vent length. We find that perturbations can lead to complex responses. Sensitivity analysis to population growth and fertility selection reveals that the smallest animals and the sizes of early breeding individuals and their eggs may have more influence on these population biology parameters than previously thought. Although our model is relatively simple, our results show that IPM can be used to gain theoretical insight into the possible consequences of altering size-specific demographic rates on the population and evolutionary ecology of harvested populations.Crocodile populations are size-structured, and for populations that are subject to harvesting, removal is typically size selective. For this reason, size-structured matrix models are typically used to analyse the dynamics of crocodile populations. The boundaries between the size classes used to classify individuals in these models are typically chosen arbitrarily. This is problematic because results can depend upon the number and width of size classes. The recent development of continuous character population models termed integral projection models (IPM) has removed the need to arbitrarily classify individuals. These models are yet to be applied to harvested animal populations. Using information obtained from the literature, we develop an IPM for crocodiles. We use perturbation analyses to investigate how altering size-specific demographic rates influences the population growth rate and the strength of selection on snout to vent length. We find that perturbations can lead to complex responses. Sensitivity analysis to population growth and fertility selection reveals that the smallest animals and the sizes of early breeding individuals and their eggs may have more influence on these population biology parameters than previously thought. Although our model is relatively simple, our results show that IPM can be used to gain theoretical insight into the possible consequences of altering size-specific demographic rates on the population and evolutionary ecology of harvested populations. |
| Author | Boots, Mike Leslie, Alison Wallace, Kevin Coulson, Tim |
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| Keywords | Vertebrata Population growth Sensitivity analysis Fertility Nile crocodile Crocodilia Reptilia Models Crocodylus niloticus fertility selection |
| Language | English |
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| Snippet | Crocodile populations are size‐structured, and for populations that are subject to harvesting, removal is typically size selective. For this reason,... 1. Crocodile populations are size-structured, and for populations that are subject to harvesting, removal is typically size selective. For this reason,... Summary Crocodile populations are size‐structured, and for populations that are subject to harvesting, removal is typically size selective. For this reason,... Crocodile populations are size-structured, and for populations that are subject to harvesting, removal is typically size selective. For this reason,... Summary [PUBLICATION ABSTRACT] |
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| SubjectTerms | Alligators and Crocodiles Alligators and Crocodiles - physiology Amphibia. Reptilia Animal and plant ecology Animal ecology Animal, plant and microbial ecology Animals Aquatic reptiles Biological and medical sciences Body Size Breeding Conservation biology Crocodiles Crocodylus niloticus Ecological modeling eggs Female Female animals fertility selection Fundamental and applied biological sciences. Psychology General aspects harvesting integrated pest management Mathematical independent variables Models, Biological Nile crocodile physiology Population Dynamics Population ecology population growth Population parameters Population size sensitivity analysis Vertebrates: general zoology, morphology, phylogeny, systematics, cytogenetics, geographical distribution |
| Title | Re‐evaluating the effect of harvesting regimes on Nile crocodiles using an integral projection model |
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