Using Landsat satellite imagery to monitor the spatial and temporal dynamics of aquatic weed extent in Lakes Chivero and Manyame, located in an urban catchment of Zimbabwe

IF 1 4区 环境科学与生态学 Q4 WATER RESOURCES
Munyaradzi Davis Shekede, Takudzwa Gondo, Melisa Matavire Mavhenge, Aldridge Nyasha Mazhindu
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Abstract

This study quantified the spatial and temporal variation of aquatic weeds in two lakes in an urban catchment of Zimbabwe using the automatic water extraction index (AWEI) and normalised difference vegetation index (NDVI) derived from Landsat satellite data from 1986 to 2020. Extent of aquatic weeds estimated using AWEI in Lake Chivero increased from less than 1 km2 (4%) in 1986 to 7 km2 (27%) in 2020. NDVI-based aquatic weed estimation gave the least spatial extent in the first few years. Similarly, in Lake Manyame aquatic weeds occupied ~62 ha (<1% in 1986) before reaching a peak extent of 60 km2 (~70%) in 1995, based on AWEI estimates. NDVI-derived aquatic weed extent ranged from less than 2 km2 in 1997 to a maximum of 56.12 km2 in 1994. Although AWEI and NDVI estimated similar extents, NDVI had higher estimates than AWEI. A non-significant positive trend in aquatic weed extent was detected for Lake Manyame based on AWEI (Mann-Kendal tau = 0.139, s = 69, p = 0.27) and NDVI (Mann-Kendal tau = 0.129, s = 64, p = 0.307). In Lake Chivero, a non-significant negative trend was observed in aquatic weed extent based on NDVI (Mann-Kendal tau = −0.06, s = −30, p = 0.6382), while a positive trend was detected using AWEI (tau = 0.0036, s = 18, p = 0.7827). Results of the regression analysis indicate that phosphorus (R2 = 0.7957, p = 0.00122) and nitrogen (R2 = 0.8992, p = 0.0011) significantly explained variations in aquatic weed infestation in Lake Chivero. These results suggest that phosphorus and nitrogen enrichment are key drivers of aquatic weed proliferation in the two lakes. Thus, sustainable management of water resources in the catchment hinges on reducing the amount of nutrients released into the lakes from sewage treatment plants and croplands.
利用陆地卫星图像监测津巴布韦城市集水区奇韦罗湖和Manyame湖水草范围的时空动态
基于1986 - 2020年Landsat卫星数据,采用自动取水指数(AWEI)和归一化植被差异指数(NDVI)对津巴布韦城市集水区两个湖泊水草的时空变化进行了量化。利用awi估算的Chivero湖水草面积从1986年的不足1 km2(4%)增加到2020年的7 km2(27%)。基于ndvi的水草估算在前几年的空间范围最小。同样,根据AWEI的估计,在1995年达到60 km2(~70%)的峰值之前,Manyame湖的水草面积约为62 ha(1986年<1%)。ndvi衍生水草范围从1997年的不足2 km2到1994年的最大56.12 km2不等。尽管AWEI和NDVI估计的范围相似,但NDVI的估计高于AWEI。基于awi (Mann-Kendal tau = 0.139, s = 69, p = 0.27)和NDVI (Mann-Kendal tau = 0.129, s = 64, p = 0.307)的分析结果显示,湖水草面积呈非显著性正相关。基于NDVI的奇维罗湖水草面积呈非显著负向(Mann-Kendal tau = - 0.06, s = - 30, p = 0.6382),而基于awi的水草面积呈正向(tau = 0.0036, s = 18, p = 0.7827)。回归分析结果表明,磷(R2 = 0.7957, p = 0.00122)和氮(R2 = 0.8992, p = 0.0011)显著解释了奇韦罗湖水草侵染的变化。这些结果表明,磷和氮的富集是两个湖泊水草繁殖的关键驱动因素。因此,集水区水资源的可持续管理取决于减少从污水处理厂和农田释放到湖泊中的营养物质的数量。
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来源期刊
Water SA
Water SA 环境科学-水资源
CiteScore
2.80
自引率
6.70%
发文量
46
审稿时长
18-36 weeks
期刊介绍: WaterSA publishes refereed, original work in all branches of water science, technology and engineering. This includes water resources development; the hydrological cycle; surface hydrology; geohydrology and hydrometeorology; limnology; salinisation; treatment and management of municipal and industrial water and wastewater; treatment and disposal of sewage sludge; environmental pollution control; water quality and treatment; aquaculture in terms of its impact on the water resource; agricultural water science; etc. Water SA is the WRC’s accredited scientific journal which contains original research articles and review articles on all aspects of water science, technology, engineering and policy. Water SA has been in publication since 1975 and includes articles from both local and international authors. The journal is issued quarterly (4 editions per year).
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