Definition of water quality variability parameters and dynamics to improve management in a deep canyon type subtropical hydroelectric reservoir

Pub Date : 2022-01-01 DOI:10.1590/2318-0331.272220210126
D. Guedes, L. Rodrigues, J. Bravo, D. M. Marques, Carlos Ruberto Fragoso Júnior, J. R. Cavalcanti, Glaucia Nascimento
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引用次数: 1

Abstract

ABSTRACT Spatial and temporal variability patterns of water quality were evaluated through monthly collection of water samples (surface, sub-surface and bottom) from 2005 to 2012. Principal Component Analysis was used to define the relative importance of each variable and Anova (two way) to analyze the significance of differences in water quality in the longitudinal axis of the reservoir. The variables: turbidity, Secchi transparency, residence time and temperature have greater importance on water quality. It was observed spatial and temporal gradients, related to the circulation, sedimentation and resuspension processes, and the influence of low flow, high residence time and winter mixing of water column on the cycling of solids and nutrients may explain the variation in these processes. The use of multivariate statistical analysis methods provided important information to understand these processes, it helps the interpretation of complex data to improve monitoring, and use of information to decision makers.
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深峡谷型亚热带水电站水库水质变率参数的定义与动态分析
2005 - 2012年,通过逐月采集水样(表层、次表层和底层),评价了水质的时空变化特征。主成分分析用于确定各变量的相对重要性,方差分析(双向)用于分析水库纵轴水质差异的显著性。浊度、塞奇透明度、停留时间和温度对水质影响较大。观测到与循环、沉积和再悬浮过程相关的时空梯度,而小流量、高停留时间和冬季水柱混合对固体和养分循环的影响可能解释了这些过程的变化。利用多元统计分析方法提供了了解这些过程的重要信息,它有助于对复杂数据的解释,改善监测,并为决策者提供信息。
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