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楊 人翰 Jen Han YANG
研究実習生
研究テーマ
Monitoring and modeling impacts of ocean warming, acidification and hypoxia on oysters, scallops and other aquaculture species
Global warming has been the driving force behind ocean warming, acidification, and deoxygenation, posing long-standing risks to crucial marine ecosystems in the marine sector. The 2021 Sixth Assessment Report on Climate Change (AR6) underscored the adverse effects of climate change, which have already manifested as ocean warming, acidification, and rising sea levels in marine environments. These changes have not only inflicted harm upon marine calcifying organisms but have also had a profound impact on the overall marine ecosystem. My research focuses on utilizing numerical simulation methods to analyze and forecast the ramifications of ocean acidification and hypoxia on aquaculture species. By employing modeling techniques, the research aims to gain valuable results into the potential consequences of climate change on marine ecosystems and is expected to establish evidence-based adaptive management strategies under climate change. Additionally, the research aims to make valuable contributions to the advancement of adaptive Marine Spatial Planning (MSP). The research outcomes will be provided to policymakers and government management units engaged in the development of MSP and climate-resilient spatial management strategies with essential information. The findings will be served as a valuable resource, equipping decision-makers with the necessary insights to formulate effective policies and actions. By incorporating the crucial knowledge gained from this research, the stakeholder can address the challenges posed by climate change and develop strategies that ensure the long-term sustainability of marine ecosystems. Ultimately, the research results will aid in advansing resilient and adaptive approaches to spatial management, benefitting both the environment and society.