Characterising wetland hydrology and water quality in streams and wetlands of Khalong-la-Lithunya, Lesotho

IF 0.6 Q4 DEVELOPMENT STUDIES
Mots’ets’e Motseko, Esther Mapeshoane Botle, Masopha Makoae, M. Khoeli, N. Tumelo, Mokhatla Mohlamatsane, Gerard Rasekoele Motlalepula
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引用次数: 2

Abstract

Wetland hydrology is important in understanding wetland systems, evaluating wetland functions and processes and assessing wetland conditions. Wetlands assimilate and transform pollutants and nutrients ensuring that quality water is discharged from the wetland into streams. The objective of this study was to characterise wetland hydrology and evaluate the water quality so as to determine the ecological functioning of the Khalong-la-Lithunya wetland. Wetland hydrology and water quality of the three sub-catchments were monitored from October 2015 to March 2016. Water levels in piezometers were recorded once a month and monthly water levels data for the years 2010, 2011, 2012 and 2013 previously recorded by the Millennium Challenge Account-Lesotho (MCA-L) project were integrated to this study’s data. Rainfall, piezometer and stream water were similarly obtained once every month. These were analysed for δ2H and δ18O water stable isotopes and water quality parameters determined. The estimated overall hydro-period of Khalong-la-Lithunya from the years 2010 to 2016 was 11.4% of the sampled time. The wetland showed delayed response of piezometer water levels to rainfall and additional source of water to the wetland through sub-surface flow. The isotopic composition of piezometer and stream water showed that the water gets stored in the wetland before being discharged to the stream leading to a positive interaction between ground and surface water. Most water quality parameters (Na, pH, Mg, PO4 , COD, BOD, NO3, K, Ca, EC) were higher in streams than in piezometers and were mostly within WHO permissible limits. There was a poorer water quality index in streams (59.71) when compared to that of piezometers (53.67). The principal component analysis (PCA) indicated that the parameters that were responsible for the variation in water quality were related to natural hydro-chemical processes, anthropogenic factors and geology and soil constituents. Temporally most parameters were highest during dry months. Due to a short hydro-period, a delayed interaction between surface and ground water and a poorer stream water quality index, it is concluded that the wetland was not in a good condition. Thus, it is not adequately performing its ecological function.
莱索托Khalong-la-Lithunya河流和湿地的水文和水质特征
湿地水文学对认识湿地系统、评价湿地功能和过程、评价湿地状况具有重要意义。湿地吸收和转化污染物和营养物质,确保优质水从湿地排入溪流。本研究的目的是描述湿地的水文特征和评价水质,以确定卡龙-拉-利屯雅湿地的生态功能。在2015年10月至2016年3月期间,对三个小流域的湿地水文和水质进行了监测。压计中的水位每月记录一次,此前千年挑战账户-莱索托(MCA-L)项目记录的2010年、2011年、2012年和2013年的月度水位数据被整合到本研究的数据中。雨量、气压计和溪水也同样是每月一次。分析了这些水的δ2H和δ18O稳定同位素,并确定了水质参数。从2010年到2016年,Khalong-la-Lithunya的总体水力周期估计为采样时间的11.4%。该湿地的水位对降雨和通过地下流向湿地提供的额外水源的响应具有延迟性。地表水和地表水的同位素组成表明,水先储存在湿地中,再排入河流,导致地下水和地表水之间的正相互作用。大多数水质参数(Na、pH、Mg、PO4、COD、BOD、NO3、K、Ca、EC)在溪流中高于气压计,且大多在WHO允许的范围内。河流水质指数(59.71)低于气压计(53.67)。主成分分析(PCA)表明,影响水质变化的参数与自然水化学过程、人为因素、地质和土壤成分有关。从时间上看,大部分参数在干旱月份最高。由于水文周期短,地表水与地下水相互作用滞后,河流水质指标较差,湿地状况不佳。因此,它没有充分发挥其生态功能。
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