| Summary: | 大气CO2浓度升高引起的海洋酸化,经大量研究表明,会减少海洋钙化植物与动物的钙化量;然而,非钙化浮游植物如何响应海洋酸化的问题,尚未见报道。海水pCO2的升高尽管会增加浮游植物光合作用的底物浓度,但酸化引起的海水化学变化会对浮游植物产生胁迫。与此同时,阳光UV辐射也会对浮游植物产生胁迫。酸化与UV对浮游植物的影响,是叠加、拮抗还是无耦合效应?这是迄今尚未得到充分认识的科学问题。硅藻在海洋CO2生物泵中起着重要的作用,其生理学过程如何响应酸化及UV的问题,亟需探讨。本文通过CO2加富调控海水碳酸盐系统,模拟本世纪末海洋酸化状态(pCO2:800-1000ppmv,pH:7.80-7.90),对两. The CO2-driven ocean acidification (OA) has been shown to reduce the calcification of marine calcifiers. However, little knowledge has been documented on non-calcifying organisms. Though elevated pCO2 in seawater provides more substrate for photosynthetic carbon fixation, changes of the seawater carbonate system induced by OA could stress the cells. On the other hand, solar UV radiation would affe. 学位:理学博士 院系专业:海洋与环境学院环境科学与工程系_环境科学 学号:22620070153934
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