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生态学杂志 ›› 2023, Vol. 42 ›› Issue (4): 880-888.doi: 10.13292/j.1000-4890.202304.021

• 研究报告 • 上一篇    下一篇

贵州高原猫跳河流域浮游植物功能群组成特征及其与环境因子之间的关系

刘英龙1,2,李秋华1,2*,刘晨1,2,肖晶1,2


  

  1. 1贵州师范大学, 贵州省山地环境信息系统和生态环境保护重点实验室, 贵阳 550001; 2 贵州省国际科技合作基地水生态国际联合研究中心, 贵阳 550001)

  • 出版日期:2023-04-03 发布日期:2023-04-03

Composition characteristics of phytoplankton functional groups and its relationship with environmental factors in Maotiao River Basin of Guizhou Plateau.

LIU Yinglong1,2, LI Qiuhua1,2*, LIU Chen1,2, XIAO Jing1,2#br#

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  1. (1Key Laboratory for Information System of Mountainous Area and Protection of Ecological Environment of Guizhou Province, Guizhou Normal University, Guiyang 550001, China; 2Guizhou International Science and Technology Cooperation Research Base-Water Ecology International Joint Research Center, Guiyang 550001, China).

  • Online:2023-04-03 Published:2023-04-03

摘要: 猫跳河是典型喀斯特河流,其下游水库为贵阳市重要饮用水源。为探究猫跳河流域浮游植物功能群组成的动态变化特征及其与环境因子的相关性,基于冗余分析、相关性分析方法,于2020年6月、8月和11月对浮游植物与理化指标进行采样分析。结果表明:猫跳河流域调查期间共检出浮游植物7门67种(属),其中绿藻门种类最多;浮游植物群落结构呈时空异构,各采样断面浮游植物细胞丰度变化范围为0.11×106~17.71×106 cells·L-1,生物量变化范围为29.85~1256.16 μg·L-1;猫跳河流域浮游植物可划分为24个功能群,其中B、MP、S1、Y和D为猫跳河流域主要优势功能群,功能群D的生物量在8月达到峰值1256.85 μg·L-1,主要优势功能群适应生境均为浑浊的中富营养水体;浮游植物功能群呈现显著时间演替特征。冗余分析结果显示:水温、pH和电导率是影响猫跳河流域浮游植物功能类群动态分布的主要环境因素。


关键词: 浮游植物功能群, 冗余分析, 环境因子, 猫跳河流域

Abstract: Maotiao River is a typical karst river, whose downstream reservoir is an important source of drinking water in Guiyang. To explore the variations of the composition of phytoplankton functional groups and its correlation with environmental factors in the Maotiao River Basin, phytoplankton were sampled and river physicochemical parameters were analyzed in June, August and November 2020, based on redundancy analysis and correlation analysis methods. During the investigation period, 7 phyla and 67 species (genera) of phytoplankton were recorded in the Maotiao River Basin, with the most species from Chlorophyta. The phytoplankton community structure varied temporally and spatially. The phytoplankton cell abundance across sampling sections ranged 0.11×106-17.71×10cells·L-1, and biomass ranged 29.85-1256.16 μg·L-1. The phytoplankton in the Maotiao River Basin could be divided into 24 functional groups, with B, MP, S1, Y, and D were the dominant functional groups. The biomass of functional group D peaked at 1256.85 μg·L-1 in August. The dominant functional groups were adapted to turbid meso-eutrophic water bodies. The phytoplankton functional groups showed significant temporal succession. The results of redundancy analysis showed that water temperature, pH, and electrical conductivity were the main environmental factors affecting the variations of phytoplankton functional groups in the Maotiao River Basin.


Key words: phytoplankton functional group, redundancy analysis, environmental factor, Maotiao River Basin.