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::: 首頁/演講/2023-06-14 (週三) 簡嘉德 博士:Effects of phytoplankton physiology on global ocean biogeochemistry and climate: the role of variable stoichiometry

地球所演講

14
Jun
14:00
2023-06-14 (週三) 簡嘉德 博士:Effects of phytoplankton physiology on global ocean biogeochemistry and climate: the role of variable stoichiometry
地球所演講
2023/06/14

2023-06-14 (週三) 簡嘉德 博士:Effects of phytoplankton physiology on global ocean biogeochemistry and climate: the role of variable stoichiometry

主講人:簡嘉德 博士(GEOMAR Helmholtz Centre for Ocean Research Kiel, Germany)
演講日期:2023/06/14 14:00
地點:二樓演講廳
主持人:梁茂昌 研究員

主講人:簡嘉德 博士(GEOMAR Helmholtz Centre for Ocean Research Kiel, Germany)

講題:Effects of phytoplankton physiology on global ocean biogeochemistry and climate: the role of variable stoichiometry

演講日期:2023/06/14 14:00

地點:二樓演講廳

主持人:梁茂昌 研究員

摘要:

  Earth system climate models (ESCMs) are powerful tools for analyzing variations in climate, while resolving interdependencies between changes in the atmosphere, on land, and in the ocean. In this regard, the dynamic of marine ecosystems is a critical link. On long timescales, it regulates atmospheric CO_2 on the basis of biotic uptake of CO_2 over vast oceanic regions and due to the export of photosynthetically fixed carbon into the deep ocean, which affects the Earth’s climate. Plankton–ecosystem models are widely applied to understand marine biogeochemical cycles, by estimating fluxes of major elements, e.g.,nitrogen, phosphorus, and carbon, as well as the sources and sinks of marine oxygen. However, most of these models lack a sound mechanistic foundation, preventing them from explicitly accounting for the organisms’ regulation of their internal physiological state. Specifically, the carbon : nitrogen : phosphorus (C:N:P) stoichiometry of phytoplankton is still often represented by static (Redfield) ratios, entirely ignoring its highly variable nature, which can affect model sensitivity to climate change and thus the projections of the future carbon pump.

 

  In the first part of this talk, I will present my recent modelling work regarding an optimality-based ecosystem model that considers variable phytoplankton stoichiometry, and the effect of variable stoichiometry on the projection of 21st-century biological carbon pump. In the second part, I will talk about a sensitivity analysis aimed at resolving a fundamental question in marine biogeochemistry: why are particulate organic and dissolved inorganic N:P ratios in the ocean similar on the global scale? The analysis also, for the first time, reveals a potential interdependence of phytoplankton physiology and global climate conditions. At last, I will introduce my research plans. In addition to continuing to explore the effects of variable stoichiometry on the marine biogeochemical cycles under different climate settings, I will combine lab/field experiments and the modelling tool to study potential changes in the marine ecosystem caused by multiple stressors and the effects on our climate in the Anthropocene.