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灾难性气候事件和人类废物对孟加拉国卡纳普利河口弧菌分布的影响。

Influence of catastrophic climatic events and human waste on Vibrio distribution in the Karnaphuli estuary, Bangladesh.

机构信息

Leibniz Zentrum für Marine Tropenökologie, Bremen, Germany.

出版信息

Ecohealth. 2009 Jun;6(2):279-86. doi: 10.1007/s10393-009-0257-6. Epub 2009 Nov 10.

DOI:10.1007/s10393-009-0257-6
PMID:19902301
Abstract

Vibrios are bacteria of marine and estuarine origin that can cause human diseases, such as cholera, and also affect aquatic organisms. The impact of storm-driven changes in salinity and suspended particulate matter (SPM) on cultivable Vibrio counts (CVC) and distribution in Karnaphuli estuary, Bangladesh, was compared before and after a strong cyclone in mid May 2007 and after a monsoon landslide a month later. CVC were higher (approximately 10(3) colony forming units-cfu/ml) at estuary's mouth (salinity 20-15 parts per thousand, ppt) and steeply declined landwards. CVC and their proportion of total aerobic bacteria were highest after the cyclone and also increased after the landslide, likely due to higher SPM loads. The cyclone did not significantly change previous fecal coliform abundance, contrasting with the ten times increase after the landslide. Sewage input enhanced CVC near the point sources. CVC and salinity correlated highly significantly at salinities <10 ppt; however, at higher values dispersion increased, probably due to the effect of sediment resuspension on CVC. Cyclone or heavy rainfall-mediated turbidity changes jointly with salinity gradients can significantly influence abundance and distribution of estuarine vibrios. Extended salt intrusion and higher turbidities in tropical estuaries by stronger and more frequent storms and deforestation-derived erosion could favor Vibrio growth, with increasing risks for aquatic resources and human health in the coastal zone.

摘要

弧菌是源自海洋和河口的细菌,可引起人类疾病,如霍乱,也会影响水生生物。本研究比较了 2007 年 5 月中旬一场强气旋和一个月后一次季风滑坡前后,盐度和悬浮颗粒物(SPM)驱动的风暴变化对孟加拉国卡纳普利河口可培养弧菌计数(CVC)和分布的影响。河口口部(盐度 20-15 部分/千,ppt)的 CVC 较高(约 10(3)菌落形成单位-cfu/ml),并向陆地急剧下降。气旋后 CVC 及其在需氧细菌中的比例最高,滑坡后也有所增加,可能是由于 SPM 负荷增加。气旋并没有显著改变先前粪大肠菌群的丰度,与滑坡后增加十倍形成鲜明对比。污水输入增强了靠近污染源的 CVC。在盐度<10 ppt 时,CVC 与盐度高度显著相关;然而,在更高的盐度值下,分散度增加,可能是由于沉积物再悬浮对 CVC 的影响。气旋或强降雨引起的浊度变化与盐度梯度共同作用,可显著影响河口弧菌的丰度和分布。更强和更频繁的风暴以及森林砍伐导致的侵蚀导致热带河口的盐度入侵和浊度增加,可能有利于弧菌的生长,沿海地区的水生资源和人类健康面临的风险也会增加。

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