%0 Journal Article %T 水温、光能对春季太湖藻类生长的耦合影响 %T Coupling effect of water temperature and light energy on the algal growth in Lake Taihu %A 赵巧华 %A 孙国栋 %A 王健健 %A 于志国 %A 姜勃 %A ZHAO,Qiaohua %A SUN,Guodong %A WANG,Jianjian %A YU,Zhiguo %A JIANG,Bo %J 湖泊科学 %J Journal of Lake Sciences %@ 1003-5427 %V 30 %N 2 %D 2018 %P 385-393 %K 水温;光能;藻类生长;耦合;太湖;梅梁湾;藻类总初级生产力 %K Water temperature;light energy;algal growth;coupling;Lake Taihu;Meiliang Bay;gross primary production of phytoplankton %X 环境因素对藻类生长的影响机制是探讨蓝藻水华暴发的基础,其中水温和光能均是影响藻类生长的关键物理因子.基于2015年春季于太湖观测的11次藻类总初级生产力、水温廓线和营养盐浓度等,探讨水温、光能及营养盐对藻类生长过程的影响.结果表明:春季,水温、光能是影响藻类生长的关键因素,而营养盐的影响贡献相对较弱.深层水体中光能是藻类生长的关键性限制因子,浅层表现为水温、光能的共同影响,而表层主要表现为光能的抑制.水温的升高促进藻类对光能的获取和利用,提高光抑制的光能阈值,造成深层水体中光能限制程度的加强,藻类生长呈现光限制的深度变浅.本研究有利于确定气候变化下水生生态系统演变的方向,为水生生态系统的恢复提供理论依据. %X The effect of environmental factors on the gross primary production of phytoplankton is a basis for understanding the cyanobacteria bloom. Hereinto, water temperature and light energy are the key physical factors affecting phytoplankton growth. Based on phytoplankton primary productivity, water temperature profile and nutrient concentration observed in Lake Taihu in the spring of 2015, we explored the effects of these environmental factors on the the algae gross primary production. Results showed that in spring, water temperature and light energy were the key factors affecting algae growth, but the effect of nutrient was relatively weak in deep layers. The light energy and water temperature jointly affected the gross primary production of phytoplankton in shallower layer. The production were inhibited by light energy in surface layer. The water temperature increase promoted the ability of algae for the acquisition and utilization of light, improved the threshold value of light limitation, and enhanced the effect of light limitation, and shallowed the photo-inhibition depth. Current study is helpful to determine the evolution direction of aquatic ecosystems under climate change, and to provide an approach for the aquatic ecosystems restoration. %R 10.18307/2018.0210 %U http://www.jlakes.org/ch/reader/view_abstract.aspx %1 JIS Version 3.0.0