Analysis of water quality and mosquito larval breeding at the tail water wetland of the Shanghai East Water Purification Plant

  • LU Xin-yu ,
  • XIAO Bing ,
  • HUANG Min-sheng ,
  • HE Yan ,
  • LI Xin-ran ,
  • YIN Chao ,
  • LENG Pei-en
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  • 1. School of Ecological and Environmental Sciences, East China Normal University, Shanghai 200241, China;
    2. Shanghai Key Laboratory for Urban Ecological Processes and Eco-Restoration, East China Normal University, Shanghai 200241, China;
    3. Shanghai Municipal Center for Disease Control & Prevention, Shanghai 200031, China

Received date: 2018-07-18

  Online published: 2018-12-01

Abstract

In this study, a constructed wetland for advanced treatment of tail water at the Shanghai East Water Purification Plant was taken as an example to explore the relationship between environmental factors, such as water quality and mosquito (Culex pipiens pallens) larval breeding. The comprehensive pollution index (P Value) method and organic pollution index (A Value) method were used to evaluate the water quality of wetland from May to November of 2017. The breeding status of mosquito larvae at 14 sample points in the wetland were monitored by the standard dipping method during this period. The subsequent analysis showed that:① The water quality of the wetland was better than Class V of the environmental quality standard for surface water; ② The larval density was higher in water whose P Value was equal to or greater than 143.1 per spoon; ③ The larval density was high between May and August and declined with the decrease of temperature; ④ The larval density was significantly lower in areas where the water surface could be exposed to direct sunlight (p<0.05); and ⑤ The larval density was small when the concentration of Chlorophyll a was high, and excessive duckweed coverage can inhibit mosquito breeding.

Cite this article

LU Xin-yu , XIAO Bing , HUANG Min-sheng , HE Yan , LI Xin-ran , YIN Chao , LENG Pei-en . Analysis of water quality and mosquito larval breeding at the tail water wetland of the Shanghai East Water Purification Plant[J]. Journal of East China Normal University(Natural Science), 2018 , 2018(6) : 122 -130 . DOI: 10.3969/j.issn.1000-5641.2018.06.015

References

[1] 秦颂, 包宇飞, 丁京楠, 等. 新型组合式人工湿地处理污水厂尾水的试验研究[J]. 武汉理工大学学报, 2016(5):75-79.
[2] 张俊辉, 吴红斌, 张冉. 垂直流人工湿地在城镇污水厂尾水深度脱氮除磷中的应用[J]. 工程建设, 2016(2):70-74.
[3] 廖冠. 垂直流人工湿地在污水厂尾水处理及景观设计中的应用研究[J]. 轻工科技, 2018(7):98-99.
[4] 谷先坤, 王国祥, 刘波, 等. 复合垂直流人工湿地净化污水厂尾水的研究[J]. 中国给水排水, 2011(3):8-11.
[5] 徐承龙, 姜志宽. 蚊虫防制(一)——蚊虫的危害与形态分类[J]. 中华卫生杀虫药械, 2006(4):289-293.
[6] RUSSELL R C. Constructed wetlands and mosquitoes:Health hazards and management options-An Australian perspective[J]. Ecological Engineering, 1999, 12(1):107-124.
[7] DIEMONT S A W. Mosquito larvae density and pollutant removal in tropical wetland treatment systems in Honduras[J]. Environment International, 2006, 32(3):332-341.
[8] KNIGHT R L, WALTON W E, MEARA G F, et al. Strategies for effective mosquito control in constructed treatment wetlands[J]. Ecological Engineering, 2003, 21(4/5):211-232.
[9] WALTON W E, WORKMAN P D. Effect of marsh design on the abundance of mosquitoes in experimental constructed wetlands in southern California[J]. Journal of The American Mosquito Control Association, 1998, 14(1):95-107.
[10] 张廷辉. 上海市桃浦工业区(东片)河道水环境变化分析及其成因初探[D]. 上海:华东师范大学, 2017.
[11] 段田莉. 人工湿地+生态塘耦合深度处理污水厂尾水[D]. 山东青岛:青岛理工大学, 2016.
[12] 高云亮. 牡丹江水质现状及污染特征研究[D]. 哈尔滨:东北农业大学, 2017.
[13] KENGNE I M, BRISSAUD F, AKOA A, et al. Mosquito development in a macrophyte-based wastewater treatment plant in Cameroon (Central Africa)[J]. Ecological Engineering, 2003, 21(1):53-61.
[14] 陈奇. 上海某组合式污水处理试验系统中蚊虫孳生规律及影响因素研究[D]. 上海:华东师范大学, 2017.
[15] WALTON W E, POPKO D A, VAN DAM A R, et al. Width of planting beds for emergent vegetation influences mosquito production from a constructed wetland in California (USA)[J]. Ecological Engineering. 2012, 42:150-159.
[16] SUNLISH I P, REUBEN R. Factors influencing the abundance of Japanese encephalitis vectors in ricefields in India-I. Abiotic[J]. Medical & Veterinary Entomology, 2001, 15(4):381.
[17] 张磊, 蔚建军, 付莉, 等. 三峡库区回水区营养盐和叶绿素a的时空变化及其相互关系[J]. 环境科学, 2015(6):2061-2069.
[18] 徐承龙, 姜志宽. 蚊虫防制(二)——蚊虫的生态习性与常见种类[J]. 中华卫生杀虫药械, 2006(5):403-407.
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