收藏本站  |  水生所  |  中国科学院
当前位置:首页 > 近期论文
Occurrence of Raphidiopsis raciborskii blooms in cool waters: Synergistic effects of nitrogen availability and ecotypes with adaptation to low temperature
文章来源:  |  发布时间:2021-07-19  |  【打印】 【关闭】  |  浏览:
 
论文标题:       Occurrence of Raphidiopsis raciborskii blooms in cool waters: Synergistic effects of nitrogen availability and ecotypes with adaptation to low temperature 
第一作者:  Jia, Nannan; Wang, Yilang; Guan, Yuying; Chen, Youxin; Li, Renhui; Yu, Gongliang 
出版刊物:  ENVIRONMENTAL POLLUTION 
出版日期:  FEB 1 
出版年份: 2021 
DOI: 10.1016/j.envpol.2020.116070 
论文摘要:  Raphidiopsis raciborskii is a diazotrophic and potentially toxic cyanobacterium. To date, this species has successfully invaded many regions from the tropics to sub-tropical and temperate regions, typically forming blooms at temperatures greater than 25 degrees C. However, there have been a few cases in which R. raciborskii blooms have occurred at low temperatures (below 15 degrees C), but its cause and mechanisms remain unclear. In this study, field investigations revealed that R. raciborskii blooms occurred at 10-15 degrees C in Lake Xihu, Yunnan, China. The biomass of R. raciborskii was found to be positively related to nitrate concentrations in this lake. Three strains of R. raciborskii, two isolated from Lake Xihu (CHAB 6611 and CHAB 6612) and one from Lushui Reservoir in central China (CHAB 3409), were used for growth experiments at 15 degrees C. The three strains exhibited genotypic (16S rRNA and ITS-L genes) and physiological differences in response to nitrogen concentrations at low temperature. The growth rates of strains CHAB 6611 and CHAB 6612 increased with nitrogen concentration while CHAB 3409 could not grow at 15 degrees C. Furthermore, the growth and phenotypic responses of CHAB 6611 and CHAB 6612 to nitrogen concentrations were different, despite the closer genetic relationship shared by these two strains. Thus, increased nitrogen concentration in water may enhance the biological availability and utilization of nitrogen by R. raciborskii, which is the external promoter, leading to improving the resistance of R. raciborskii to low temperature. The internal cause is the presence of ecotypes in R. raciborskii populations with adaptation to low temperature. With increasing global eutrophication, the distribution range of R. raciborskii as well as the scale of its blooms will increase. As such, the risk of exposure of aquatic biota and humans to cylindrospermopsin is also expected to increase. (C) 2020 Elsevier Ltd. All rights reserved. 
附件

相关文档
版权所有 © 中国科学院藻类生物学重点实验室 鄂ICP备050003091
地址:武汉市武昌东湖南路7号 邮编:430072 电话:027-68780839