About this Research Topic
The objective of our research is to develop models that help us understand the complex interactions occurring among different marine species, influencing catches made by fishermen. Our approach aims to optimize the profits of fishermen while taking into consideration the need to preserve marine biodiversity.
This research requires an in-depth analysis of factors affecting fish catches, including predator-prey interactions, competition for food resources, and other environmental variables. We also seek to assess fishing methods and management strategies that can contribute to maintaining sustainable fish populations.
Our work encompasses mathematical and statistical modeling to better understand fish population dynamics, as well as the impact of human interventions such as fishing quotas, marine protected areas, minimum size regulations, and other regulations. We strive to strike a balance between the economic interests of fishermen and the long-term preservation of marine biodiversity.
Areas of study include (but are not limited to):
- Modeling interactions among marine species.
- Impact of environmental factors on catches.
- Sustainable fishery management strategies.
- Evaluating the effectiveness of fishing regulations.
- Analyzing fish population dynamics.
- Utilizing real data for modeling.
Our ultimate goal is to contribute to the balanced management of marine resources, allowing fishermen to thrive while ensuring the preservation of biological diversity in our oceans and seas.
This research requires an in-depth analysis of factors affecting fish catches, including predator-prey interactions, competition for food resources, and other environmental variables. We also seek to assess fishing methods and management strategies that can contribute to maintaining sustainable fish populations.
Our work encompasses mathematical and statistical modeling to better understand fish population dynamics, as well as the impact of human interventions such as fishing quotas, marine protected areas, minimum size regulations, and other regulations. We strive to strike a balance between the economic interests of fishermen and the long-term preservation of marine biodiversity.
Areas of study include (but are not limited to):
- Modeling interactions among marine species.
- Impact of environmental factors on catches.
- Sustainable fishery management strategies.
- Evaluating the effectiveness of fishing regulations.
- Analyzing fish population dynamics.
- Utilizing real data for modeling.
Our ultimate goal is to contribute to the balanced management of marine resources, allowing fishermen to thrive while ensuring the preservation of biological diversity in our oceans and seas.
Keywords: Biological model, Bioeconomic model, optimal control, fish population, Nash equilibrium
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