Welcome to Overseas Expertise Introduction Center for Discipline Innovation of Watershed Ecological Security in the Water Source Area of the Mid-line Project of South-to-North Water Diversion!

学院主页      | 加入收藏 
首页 > 研究前沿 > 正文

研究前沿

【他山之石】从分钟到一天:湖泊垂向混合导致的光场波动下浮游植物的生态/生理响应[Limnol. Oceanogr.,2022]http://www.jlakes.org/ch/reader/view_news.aspx?id=20221031141528001

发布日期:2022-11-08  文章来源:   点击数:

【他山之石】从分钟到一天:湖泊垂向混合导致的光场波动下浮游植物的生态/生理响应[Limnol. Oceanogr.,2022]http://www.jlakes.org/ch/reader/view_news.aspx?id=20221031141528001。

Alexis Lucas Norbert Guislain* Jan Köhler From minute to day: Ecophysiological response of phytoplankton to flfluctuating light exposure during vertical mixing. Limnol. Oceanogr. 9999, 2022, 1–12. doi: 10.1002/lno.12240


Abstract:Underwater light is a highly dynamic resource for phytoplankton. Fluctuating light inflfluences photosynthesis, respiration, biosynthesis, and growth at different timescales, but the interplay of these processes is not well understood. Subsamples of a phytoplankton community from the turbid, well-mixed lake TaiHu (China) were either vertically moved through different mixing depths or incubated at fifixed depths of matching daily light supply. Growth, photosynthetic electron transport rates, net oxygen production, and night respiration were measured for 9 days. Production was investigated during cyclic mixing, throughout the day, and among days of different integral light intensities. Electron transport rates were higher during vertical mixing and increased with mixing depth, therefore mixing phytoplankton better exploited short periods of surface illumination. On the other hand, light-stimulation of oxygen consumption and photoperiod shortening increased the compensation light intensities for daily production and growth. The communities kept at the surface and sub-surface were photoinhibited; their net oxygen production declined and compensation light intensity increased in the after noon. There was no sign of afternoon depression of net oxygen production in mixing phytoplankton which metabolized photosynthetic products in periodic phases of low light in deeper layers. Mixing phytoplankton produced more oxygen during increasing light intensities and respired more at decreasing light intensities, decreasing net oxygen production during the day. This cyclic post-illumination enhancement of respiration seemed to be hardwired to flfluctuating light, regardless of mixing depth and uncoupled from night respiration rates. Photosynthesis and respiration seemed more tightly connected under flfluctuating than constant light.