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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Planning of Marine Protected Area and Involvement of the Private Sector

Chang, Fang-chia 02 September 2003 (has links)
NONE
2

Evaluation de l'efficacité des aires marines protégées pour les populations de poissons exploitées mobiles et leurs pêcheries : approches de modélisation / Evaluation of the effectiveness of marine protected areas for mobile exploited fish populations and their fisheries : modeling approaches

Grüss, Arnaud 23 March 2012 (has links)
Les aires marines protégées (AMPs), soulèvent un intérêt croissant pour leur capacité à améliorer la conservation des ressources marines et, potentiellement, les captures des pêcheries au travers de l'export de poissons et de larves vers les zones pêchées. Des lacunes importantes subsistent dans nos connaissances des impacts du mouvement des poissons sur le fonctionnement des AMPs, et sur la manière dont les AMPs protégeant les populations de poissons modérément à fortement mobiles pourraient être efficaces sans être extrêmement larges. Différents modèles sont utilisés ici afin de combler ces lacunes de connaissances. Tout d'abord, un modèle conceptuel a été développé afin d'explorer les impacts du mouvement des poissons sur l'efficacité des AMPs comparativement à ceux de la dispersion larvaire. Les résultats de ce modèle démontrent que le mouvement des poissons a un impact négatif plus fort sur la persistance d'une population dans les réseaux d'AMPs que la dispersion larvaire. La redistribution de l'effort de pêche anciennement dans les AMPs et la concentration des pêcheurs en bordure d'AMPs réduisent de façon significative la persistance et les captures des populations se dispersant dans le stade adulte, tandis qu'elles n'ont qu'un effet marginal pour les populations se dispersant dans le stade larvaire. Deux modèles appliqués ont été ensuite développés afin d'examiner les impacts des AMPs protégeant des fractions spécifiques de populations migratrices. Un modèle spatialement explicite a été utilisé afin d'étudier les effets des AMPs pour deux populations de merlus sud africaines effectuant des migrations ontogéniques. Les résultats de ce modèle montrent que les AMPs ciblant les juvéniles entraînent une augmentation considérable de la biomasse féconde. Cette augmentation de biomasse conduit à une amélioration des captures de certaines, mais pas de toutes les flottes de pêche. Un modèle par recrue est utilisé afin d'évaluer les effets des AMPs pour les populations récifales effectuant des migrations pour former des agrégations de ponte transitoires. L'application de ce modèle à deux populations de poissons des Seychelles révèle que les AMPs protégeant les agrégations de ponte augmentent le potentiel reproductif des poissons en général, mais pas les captures par recrue. / Marine protected areas (MPAs) are increasingly considered for their ability to improve species conservation and, potentially, fisheries yields via the export of fish and larvae to fished areas. Critical knowledge gaps remain on the impacts of fish movement for MPA functioning and on how MPAs protecting moderately to highly mobile populations may be effective without being extremely large. Here, different models are used to address these knowledge gaps. First, a conceptual model was developed to explore the impacts of fish movement versus larval dispersal on MPA effectiveness. Results demonstrate that fish movement has a stronger negative impact on population persistence in MPA networks than larval dispersal. Redistribution of the fishing effort formerly in MPAs and concentration of fishers on MPA borders dramatically reduce persistence and yields for mobile populations, while they marginally change results for populations with dispersing larvae. Two applied models examining the effects of MPAs targeting specific fractions of migratory populations were then developed. A spatially-explicit model was used to study the effects of MPAs on two South African hake populations undergoing ontogenetic migrations. Results show that MPAs targeting juveniles considerably increase hake spawning biomass. This increase in biomass improves the yields of some, but not all fishing fleets. A per-recruit model was used to assess MPA effects for reef populations migrating to form transient spawning aggregations. Applying the model to two populations from Seychelles, MPAs protecting spawning aggregations are found to improve fish reproductive potential in general, but not yield-per-recruit.
3

Use of Larval Connectivity Modeling to Determine Settlement Habitats of Panulirus argus in The Bahamas as a Pre-cursor to Marine Protected Area Network Planning

Callwood, Karlisa A. 01 January 2010 (has links)
Caribbean spiny lobster (Panulirus argus) is a popular and heavily exploited seafood throughout its range. This species supports the primary fishery in many Caribbean countries, especially in the Bahamas, which reports the highest catches and where spiny lobster serves as the number one food export. P. argus possesses one of the longest pelagic larval durations of any marine species, ranging from 6-12 months. This allows for the possibility of long-range dispersal, which would make it difficult to determine if local adult populations originate from areas close-by or within the same countries/jurisdictions, thus presenting implications for conservation and management of the species. This project seeks to explore the policy implications of lobster larval dispersal in the Bahamas by examining the larval connectivity of locally spawned P. argus in order to determine the mean dispersal kernel and to identify hotspots of settlement within the area. A coupled biophysical model was used to simulate larval transport from scaled egg production of 47 release locations within the Bahamas. The model was initialized bi-weekly from April through May, the highest months of larvae production in the Bahamas, with each model run occurring for a maximum of 180 days. The dispersal kernel for the Bahamas was calculated to be an average of 100-300 km, indicating that the larvae released within its boundaries typically settled there as well. Due to the long pelagic larval duration, larval particles were able to travel extensive distances, averaging trajectories covering distances of 4000 km and greater from the source locations. Yet, those same larval particles still settled in locations within the Bahamas, suggesting local retention, which varies from the common perception that lobster in the Bahamas originate elsewhere. This knowledge can be used to assess and perhaps reevaluate conservation and management strategies related to the Bahamian P. argus fishery, including the implementation of MPAs and/or MPA networks, input and output management controls, and other management tools.
4

Good Governance of A Marine Nation: Establishing Institutions on Marine Protected Areas for Taiwan

Chen, Tai-An 08 September 2012 (has links)
This dissertation uses ¡§marine good governance¡¨ as the core to discuss the establishment of marine protected areas institutions in Taiwan. As a marine nation, it is a fatal key whether Taiwan can properly manage marine resources or not. Appropriately dealing with marine-related affairs can bring success to overall national development. The marine environmental diversity makes its affairs much more complicated than the land area. The global cognition of marine management has greatly changed. ¡§The concept of public management¡¨ has shifted from ¡§government¡¨ to ¡§governance¡¨. Good governance is the aim of public management nowadays. A marine nation should aim to have good marine governance. Establishing integrated marine institutions would be the key point. Although the quantity of Taiwan¡¦s marine protected areas has greatly increased, the effectiveness of management on marine protected areas is still called into question. This dissertation recommends that Taiwan should focus on integrating the institutions on marine protected areas. The future Marine Affair Organization and the corresponding marine governance legal structure would result in a ¡§Good Governance of a Marine Nation¡¨.
5

Valuing Marine Protected Areas (MPAs) in Belize: A Case Study Using Contigent Valuation Methodology (CVM) to determine tourists' willingness to pay (WTP)

Trejo, José Edwardo 06 October 2005 (has links)
No description available.
6

Evaluating U.S. Federal Marine Protected Areas Programs: A Comparative Analysis and Conceptual Framework

Bradley, Rosemarie Ann January 2008 (has links)
No description available.
7

The ecology of spiny lobsters (Jasus edwardsii) on fished and unfished reefs

Freeman, Debbie January 2008 (has links)
Knowledge of the interactions among species and communities is vital for their management and protection. Increasingly, the role of marine protected areas in this regard is being recognised, primarily because of the potential for previously-harvested species to increase in density and biomass, and the linkages among species to be restored. Monitoring and research was conducted within and surrounding two marine reserves on the east coast of the North Island of New Zealand – Te Tapuwae o Rongokako, near Gisborne, and Te Angiangi, south of Napier. The aim was to describe the biological characteristics of spiny lobsters (Jasus edwardsii) in the absence of fishing, and to describe the effects of fishing and protection on lobster populations and the communities of which they are a component. Diver and pot surveys showed that lobsters were significantly more abundant within the reserves than in the surrounding fisheries and that the populations were comprised of a larger proportion of legal-sized individuals. Higher female fecundity within Te Tapuwae o Rongokako Marine Reserve compared with the surrounding fishery was proposed to be primarily a result of increased availability of large males within the reserve. The impact of the fishery on lobsters was also evidenced in the lower tail width to carapace length ratio of the fished population compared to the population within Te Tapuwae o Rongokako Marine Reserve, due to the minimum legal size for Jasus edwardsii in New Zealand being based on tail width. The largest tagging study ever to be conducted in a New Zealand marine reserve showed that sublegal male lobsters within Te Tapuwae o Rongokako Marine Reserve were growing on average faster than the same sized individuals outside the reserve, potentially as a result of the effects of handling and / or size-selective fishing. A decrease in growth rate over time was recorded in male lobsters within the reserve, which coincided with an increase in catch per unit effort and may indicate that density-dependent effects are operating. Distinct seasonal movements of tagged lobsters were recorded, with the vast majority of movements taking place within reefs. Where the boundaries of the reserve crossed reef habitat, significant movement of lobsters across the boundaries occurred. Lobsters within Te Tapuwae o Rongokako Marine Reserve not only exhibited cannibalistic behaviour but foraged during the day, including on intertidal reef platforms at high tide, potentially as a behavioural response to increased competition for food – behaviour not previously reported for this species. Outside the reserve, lobster bait apparently provided an alternative protein source but despite this supplementation of diet, these lobsters were in poorer nutritional condition, as evidenced by their lower body weights relative to carapace length and tail width for both sexes. Lobsters outside the reserve were also significantly more affected by a bacterial infection associated with handling, than lobsters within the reserve. These findings have significant implications for fisheries management and for the design and management of marine protected areas (MPAs). This study demonstrates that many of the biological parameters used in evaluating harvest strategies in the New Zealand lobster fishery may be biased unless collected from populations with a natural size structure, such as may occur within marine protected areas.
8

The ecology of spiny lobsters (Jasus edwardsii) on fished and unfished reefs

Freeman, Debbie January 2008 (has links)
Knowledge of the interactions among species and communities is vital for their management and protection. Increasingly, the role of marine protected areas in this regard is being recognised, primarily because of the potential for previously-harvested species to increase in density and biomass, and the linkages among species to be restored. Monitoring and research was conducted within and surrounding two marine reserves on the east coast of the North Island of New Zealand – Te Tapuwae o Rongokako, near Gisborne, and Te Angiangi, south of Napier. The aim was to describe the biological characteristics of spiny lobsters (Jasus edwardsii) in the absence of fishing, and to describe the effects of fishing and protection on lobster populations and the communities of which they are a component. Diver and pot surveys showed that lobsters were significantly more abundant within the reserves than in the surrounding fisheries and that the populations were comprised of a larger proportion of legal-sized individuals. Higher female fecundity within Te Tapuwae o Rongokako Marine Reserve compared with the surrounding fishery was proposed to be primarily a result of increased availability of large males within the reserve. The impact of the fishery on lobsters was also evidenced in the lower tail width to carapace length ratio of the fished population compared to the population within Te Tapuwae o Rongokako Marine Reserve, due to the minimum legal size for Jasus edwardsii in New Zealand being based on tail width. The largest tagging study ever to be conducted in a New Zealand marine reserve showed that sublegal male lobsters within Te Tapuwae o Rongokako Marine Reserve were growing on average faster than the same sized individuals outside the reserve, potentially as a result of the effects of handling and / or size-selective fishing. A decrease in growth rate over time was recorded in male lobsters within the reserve, which coincided with an increase in catch per unit effort and may indicate that density-dependent effects are operating. Distinct seasonal movements of tagged lobsters were recorded, with the vast majority of movements taking place within reefs. Where the boundaries of the reserve crossed reef habitat, significant movement of lobsters across the boundaries occurred. Lobsters within Te Tapuwae o Rongokako Marine Reserve not only exhibited cannibalistic behaviour but foraged during the day, including on intertidal reef platforms at high tide, potentially as a behavioural response to increased competition for food – behaviour not previously reported for this species. Outside the reserve, lobster bait apparently provided an alternative protein source but despite this supplementation of diet, these lobsters were in poorer nutritional condition, as evidenced by their lower body weights relative to carapace length and tail width for both sexes. Lobsters outside the reserve were also significantly more affected by a bacterial infection associated with handling, than lobsters within the reserve. These findings have significant implications for fisheries management and for the design and management of marine protected areas (MPAs). This study demonstrates that many of the biological parameters used in evaluating harvest strategies in the New Zealand lobster fishery may be biased unless collected from populations with a natural size structure, such as may occur within marine protected areas.
9

The ecology of spiny lobsters (Jasus edwardsii) on fished and unfished reefs

Freeman, Debbie January 2008 (has links)
Knowledge of the interactions among species and communities is vital for their management and protection. Increasingly, the role of marine protected areas in this regard is being recognised, primarily because of the potential for previously-harvested species to increase in density and biomass, and the linkages among species to be restored. Monitoring and research was conducted within and surrounding two marine reserves on the east coast of the North Island of New Zealand – Te Tapuwae o Rongokako, near Gisborne, and Te Angiangi, south of Napier. The aim was to describe the biological characteristics of spiny lobsters (Jasus edwardsii) in the absence of fishing, and to describe the effects of fishing and protection on lobster populations and the communities of which they are a component. Diver and pot surveys showed that lobsters were significantly more abundant within the reserves than in the surrounding fisheries and that the populations were comprised of a larger proportion of legal-sized individuals. Higher female fecundity within Te Tapuwae o Rongokako Marine Reserve compared with the surrounding fishery was proposed to be primarily a result of increased availability of large males within the reserve. The impact of the fishery on lobsters was also evidenced in the lower tail width to carapace length ratio of the fished population compared to the population within Te Tapuwae o Rongokako Marine Reserve, due to the minimum legal size for Jasus edwardsii in New Zealand being based on tail width. The largest tagging study ever to be conducted in a New Zealand marine reserve showed that sublegal male lobsters within Te Tapuwae o Rongokako Marine Reserve were growing on average faster than the same sized individuals outside the reserve, potentially as a result of the effects of handling and / or size-selective fishing. A decrease in growth rate over time was recorded in male lobsters within the reserve, which coincided with an increase in catch per unit effort and may indicate that density-dependent effects are operating. Distinct seasonal movements of tagged lobsters were recorded, with the vast majority of movements taking place within reefs. Where the boundaries of the reserve crossed reef habitat, significant movement of lobsters across the boundaries occurred. Lobsters within Te Tapuwae o Rongokako Marine Reserve not only exhibited cannibalistic behaviour but foraged during the day, including on intertidal reef platforms at high tide, potentially as a behavioural response to increased competition for food – behaviour not previously reported for this species. Outside the reserve, lobster bait apparently provided an alternative protein source but despite this supplementation of diet, these lobsters were in poorer nutritional condition, as evidenced by their lower body weights relative to carapace length and tail width for both sexes. Lobsters outside the reserve were also significantly more affected by a bacterial infection associated with handling, than lobsters within the reserve. These findings have significant implications for fisheries management and for the design and management of marine protected areas (MPAs). This study demonstrates that many of the biological parameters used in evaluating harvest strategies in the New Zealand lobster fishery may be biased unless collected from populations with a natural size structure, such as may occur within marine protected areas.
10

The ecology of spiny lobsters (Jasus edwardsii) on fished and unfished reefs

Freeman, Debbie January 2008 (has links)
Knowledge of the interactions among species and communities is vital for their management and protection. Increasingly, the role of marine protected areas in this regard is being recognised, primarily because of the potential for previously-harvested species to increase in density and biomass, and the linkages among species to be restored. Monitoring and research was conducted within and surrounding two marine reserves on the east coast of the North Island of New Zealand – Te Tapuwae o Rongokako, near Gisborne, and Te Angiangi, south of Napier. The aim was to describe the biological characteristics of spiny lobsters (Jasus edwardsii) in the absence of fishing, and to describe the effects of fishing and protection on lobster populations and the communities of which they are a component. Diver and pot surveys showed that lobsters were significantly more abundant within the reserves than in the surrounding fisheries and that the populations were comprised of a larger proportion of legal-sized individuals. Higher female fecundity within Te Tapuwae o Rongokako Marine Reserve compared with the surrounding fishery was proposed to be primarily a result of increased availability of large males within the reserve. The impact of the fishery on lobsters was also evidenced in the lower tail width to carapace length ratio of the fished population compared to the population within Te Tapuwae o Rongokako Marine Reserve, due to the minimum legal size for Jasus edwardsii in New Zealand being based on tail width. The largest tagging study ever to be conducted in a New Zealand marine reserve showed that sublegal male lobsters within Te Tapuwae o Rongokako Marine Reserve were growing on average faster than the same sized individuals outside the reserve, potentially as a result of the effects of handling and / or size-selective fishing. A decrease in growth rate over time was recorded in male lobsters within the reserve, which coincided with an increase in catch per unit effort and may indicate that density-dependent effects are operating. Distinct seasonal movements of tagged lobsters were recorded, with the vast majority of movements taking place within reefs. Where the boundaries of the reserve crossed reef habitat, significant movement of lobsters across the boundaries occurred. Lobsters within Te Tapuwae o Rongokako Marine Reserve not only exhibited cannibalistic behaviour but foraged during the day, including on intertidal reef platforms at high tide, potentially as a behavioural response to increased competition for food – behaviour not previously reported for this species. Outside the reserve, lobster bait apparently provided an alternative protein source but despite this supplementation of diet, these lobsters were in poorer nutritional condition, as evidenced by their lower body weights relative to carapace length and tail width for both sexes. Lobsters outside the reserve were also significantly more affected by a bacterial infection associated with handling, than lobsters within the reserve. These findings have significant implications for fisheries management and for the design and management of marine protected areas (MPAs). This study demonstrates that many of the biological parameters used in evaluating harvest strategies in the New Zealand lobster fishery may be biased unless collected from populations with a natural size structure, such as may occur within marine protected areas.

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