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生态学杂志 ›› 2023, Vol. 42 ›› Issue (8): 1920-1927.doi: 10.13292/j.1000-4890.202307.023

• 研究报告 • 上一篇    下一篇

水深对克氏原鳌虾稻田养殖水体浮游植物群落结构的影响

张露1,李滔1,章叶飞1,王海艳1,习小杰1,朱建强1,2,杨军1,2*


  

  1. 1长江大学农学院, 湖北荆州 434025;  2长江大学湿地生态与农业利用教育部工程研究中心, 湖北荆州 434025)

  • 出版日期:2023-08-10 发布日期:2023-07-27

Effects of water depth on phytoplankton community structure in rice-Procambarus clarkii cultivation model.

ZHANG Lu1, LI Tao1, ZHANG Yefei1, WANG Haiyan1, XI Xiaojie1, ZHU Jianqiang1,2, YANG Jun1,2*#br#

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  1. (1College of Agriculture, Yangtze University, Jingzhou 434025, Hubei, China; 2Engineering Research Center of Ecology and Agricultural Use of Wetland, Ministry of Education, Yangtze University, Jingzhou 434025, Hubei, China).

  • Online:2023-08-10 Published:2023-07-27

摘要: 于2021年4—5月在湖北省荆州市长江大学农业科技园稻虾试验地进行试验,试验设置0.6 m(D1)、0.9 m(D2)、1.2 m(D3)和1.5 m(D4)四种环沟水深处理,以了解克氏原鳌虾(Procambarus clarkii)稻田养殖水体中环沟水深对浮游植物群落结构的影响。结果表明:D1、D2、D3和D4处理共鉴定出浮游植物8门106种,且均以绿藻门种类为主,分别占各处理的50.67%、46.83%、46.91%和46.38%,主要优势种为拟菱形弓形藻(Schroederia nitzschioides)、小球藻属(Chlorella sp.)和具尾蓝隐藻(Chroomonas caudata);浮游植物丰度和生物量分别为0.82×106~99.74×106 cells·L-1和0.77~27.21 mg·L-1,以D1处理的浮游植物丰度和生物量最低,D4处理的丰度和D2处理的生物量最高;浮游植物多样性指数显示,稻田水体水质整体介于清洁-中污染型,D1处理的Margalef指数、Pielou指数和Shannon指数均高于其他处理;冗余分析表明,溶解氧和水温对稻田浮游植物优势种的影响最大。在稻田养殖水体中保持浅水有利于浮游植物的生长和提升浮游植物现存量。


关键词: 浮游植物, 稻田, 水深, 克氏原鳌虾

Abstract: We investigated the effects of water depths (0.6 m (D1), 0.9 m (D2), 1.2 m (D3) and 1.5 m (D4)) on phytoplankton community structure in paddy fields with Procambarus clarkii from April to May 2021 in the Agricultural Science and Technology Park of Yangtze University in Jingzhou, Hubei Province. The results showed that a total of 106 phytoplankton species belonging to 8 phyla were identified across the four treatments. Chlorophyta was the most dominant group, which accounted for 50.67%, 46.83%, 46.91% and 46.38% of total phytoplankton species in D1, D2, D3, and D4 treatments, respectively. Schroederia nitzschioides, Chlorella sp., and Chroomonas caudata were the dominant species. The total phytoplankton abundance and biomass in the four treatments ranged from 0.82×106 to 99.74×106 cells·L-1 and 0.77 to 27.21 mg·L-1, respectively. The total phytoplankton abundance and biomass was lower in D1 than in other treatments, with the highest phytoplankton abundance in D4 treatment and biomass in D2 treatment. The Margalef, Pielou, and Shannon indices were higher in D1 treatment than in other treatments. Based on the phytoplankton diversity indices, water quality in paddy fields was at light to medium pollution level. Results of redundancy analysis showed that dissolved oxygen and water temperature greatly impacted dominant phytoplankton species in paddy fields of different water depths. Therefore, keeping shallow water is beneficial to phytoplankton growth and increase phytoplankton standing stocks in paddy fields.


Key words: phytoplankton, paddy field, water depth, Procambarus clarkii.