Change in the dynamics of salinity and water quality of an island estuary by the discharge of effluents

IF 0.9 Q4 WATER RESOURCES

RBRH-Revista Brasileira de Recursos Hidricos Pub Date : 2021-07-30 DOI:10.1590/2318-0331.2621202100263

C. J. Rodrigues, D. Franco, A. Fonseca, N. K. Leite, L. Garbossa, Aichely Rodrigues da Silva

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引用次数: 2

Abstract

ABSTRACT Anthropic changes in coastal watersheds affect the quantity and quality of water in estuaries. Based on an analytical model of saline intrusion and load balance, we have evaluated the effects of effluent discharge (mean of 285 L·s−1 and peak of 495 L·s−1) from a wastewater treatment plant (WWTP) in an island estuary. Saline intrusion at low tide, without actual anthropic discharge, will increase by 22%, whereas with increasing discharge, reductions of 16% and 28%. The reduction of saline intrusion may affect biogeochemical processes and the distribution of species in regions further up the estuary. When the WWTP reaches the mean projected discharge, it will increase its BOD and phosphorus loads by 90% and 82%, respectively, in relation to the current load. With the increase of WWTP discharge, there will be an expansion of hypoxic and anoxic conditions over the current areas, worsening the condition of this already jeopardized estuary. For the WWTP to lead to the expected environmental gains, it is necessary to consider the carrying capacity of the receiving body.

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污水排放引起的岛屿河口盐度和水质的动态变化

沿海流域的人为变化影响着河口的水量和水质。基于盐水入侵和负荷平衡分析模型，对海岛河口污水处理厂的污水排放(平均285 L·s−1，峰值495 L·s−1)的影响进行了评价。在没有实际人为排放的情况下，低潮时的盐水入侵将增加22%，而随着排放量的增加，则减少16%和28%。盐水入侵的减少可能会影响河口上游地区的生物地球化学过程和物种分布。当污水处理厂达到平均预计流量时，其BOD和磷负荷将分别比当前负荷增加90%和82%。随着污水处理量的增加，当前地区的缺氧和缺氧条件将进一步扩大，使本已处于危险中的河口状况进一步恶化。为了使污水处理产生预期的环境效益，需要考虑接收体的承载能力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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