Ecological Inference from Variable Recruitment Data

To understand the processes affecting the abundance of wild populations is a fundamental goal of ecology and a prerequisite for the management of living resources. Variable abundance, however, makes the investigation of ecological processes challenging. Recruitment, the process whereby new individua...

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Bibliographic Details
Main Author: Minto, Cóilín
Language:English
Published: 2011
Subjects:
Population dynamics
Marine fish
Recruitment
Hierarchical analysis
State space analysis
Variance partitioning
Gadus morhua
Time-varying parameters
Species interactions
atlantic cod
Online Access:http://hdl.handle.net/10222/13881
id ftcanadathes:oai:collectionscanada.gc.ca:NSHD.ca#10222/13881
record_format openpolar
spelling ftcanadathes:oai:collectionscanada.gc.ca:NSHD.ca#10222/13881 2023-05-15T15:27:31+02:00 Ecological Inference from Variable Recruitment Data Minto, Cóilín 2011-06-30T14:45:21Z http://hdl.handle.net/10222/13881 en_US eng http://hdl.handle.net/10222/13881 Population dynamics Marine fish Recruitment Hierarchical analysis State space analysis Variance partitioning Gadus morhua Time-varying parameters Species interactions 2011 ftcanadathes 2013-11-23T23:00:20Z To understand the processes affecting the abundance of wild populations is a fundamental goal of ecology and a prerequisite for the management of living resources. Variable abundance, however, makes the investigation of ecological processes challenging. Recruitment, the process whereby new individuals enter a given stage of a ?sh population, is a highly variable entity. I have confronted this issue by developing methodologies speci?cally designed to account for, and ecologically interpret, patterns of variability in recruitment. To provide the necessary context, Chapter 2 begins with a review of the history of recruitment science. I focus on the major achievements as well as present limitations, particularly regarding environmental drivers. Approaches that include explicit environmental information are contrasted with time-varying parameter techniques. In Chapter 3, I ask what patterns of variability in pre-recruit survival can tell us about the strength of density-dependent mortality. I provide methods to investigate the presence of density-dependent mortality where this has previously been hindered by highly variable data. Stochastic density-independent variability is found to be attenuated via density dependence. Sources of recruitment variability are further partitioned in Chapter 4. Using time-varying parameter techniques, signi?cant temporal variation in the annual reproductive rate is found to have occurred in many Atlantic cod populations. Multivariate state space models suggest that populations in close proximity typically have a shared response to environmental change whereas marked differences occur across latitude. Hypotheses that could result in consistent changes in productivity of cod populations are tested in Chapter 5. I focus on a meta-analytical investigation of potential interactions between Atlantic cod and small pelagic species, testing aspects of the cultivation-depensation hypothesis. The ?ndings suggest that predation or competition by herring and mackerel on egg and larval cod could delay recovery of depleted cod populations. Chapter 6 concludes with a critical re?ection on: the suitability of the theories employed, the underlying assumptions of the empirical approaches, and the quality of the data used in my thesis. Application of ecological insights to ?sheries management is critically evaluated. I then propose future work on recruitment processes based on methods presented herein. Other/Unknown Material atlantic cod Gadus morhua Theses Canada/Thèses Canada (Library and Archives Canada)
institution Open Polar
collection Theses Canada/Thèses Canada (Library and Archives Canada)
op_collection_id ftcanadathes
language English
topic Population dynamics
Marine fish
Recruitment
Hierarchical analysis
State space analysis
Variance partitioning
Gadus morhua
Time-varying parameters
Species interactions
spellingShingle Population dynamics
Marine fish
Recruitment
Hierarchical analysis
State space analysis
Variance partitioning
Gadus morhua
Time-varying parameters
Species interactions
Minto, Cóilín
Ecological Inference from Variable Recruitment Data
topic_facet Population dynamics
Marine fish
Recruitment
Hierarchical analysis
State space analysis
Variance partitioning
Gadus morhua
Time-varying parameters
Species interactions
description To understand the processes affecting the abundance of wild populations is a fundamental goal of ecology and a prerequisite for the management of living resources. Variable abundance, however, makes the investigation of ecological processes challenging. Recruitment, the process whereby new individuals enter a given stage of a ?sh population, is a highly variable entity. I have confronted this issue by developing methodologies speci?cally designed to account for, and ecologically interpret, patterns of variability in recruitment. To provide the necessary context, Chapter 2 begins with a review of the history of recruitment science. I focus on the major achievements as well as present limitations, particularly regarding environmental drivers. Approaches that include explicit environmental information are contrasted with time-varying parameter techniques. In Chapter 3, I ask what patterns of variability in pre-recruit survival can tell us about the strength of density-dependent mortality. I provide methods to investigate the presence of density-dependent mortality where this has previously been hindered by highly variable data. Stochastic density-independent variability is found to be attenuated via density dependence. Sources of recruitment variability are further partitioned in Chapter 4. Using time-varying parameter techniques, signi?cant temporal variation in the annual reproductive rate is found to have occurred in many Atlantic cod populations. Multivariate state space models suggest that populations in close proximity typically have a shared response to environmental change whereas marked differences occur across latitude. Hypotheses that could result in consistent changes in productivity of cod populations are tested in Chapter 5. I focus on a meta-analytical investigation of potential interactions between Atlantic cod and small pelagic species, testing aspects of the cultivation-depensation hypothesis. The ?ndings suggest that predation or competition by herring and mackerel on egg and larval cod could delay recovery of depleted cod populations. Chapter 6 concludes with a critical re?ection on: the suitability of the theories employed, the underlying assumptions of the empirical approaches, and the quality of the data used in my thesis. Application of ecological insights to ?sheries management is critically evaluated. I then propose future work on recruitment processes based on methods presented herein.
author Minto, Cóilín
author_facet Minto, Cóilín
author_sort Minto, Cóilín
title Ecological Inference from Variable Recruitment Data
title_short Ecological Inference from Variable Recruitment Data
title_full Ecological Inference from Variable Recruitment Data
title_fullStr Ecological Inference from Variable Recruitment Data
title_full_unstemmed Ecological Inference from Variable Recruitment Data
title_sort ecological inference from variable recruitment data
publishDate 2011
url http://hdl.handle.net/10222/13881
genre atlantic cod
Gadus morhua
genre_facet atlantic cod
Gadus morhua
op_relation http://hdl.handle.net/10222/13881
_version_ 1766357943464230912

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