Spatio-Temporal Variation of Atmospheric Nutrient Deposition in Different Land Uses/Covers around Lake Kivu

水资源与保护(英文) Pub Date : 2021-09-07 DOI:10.4236/jwarp.2021.139037

M. Bagalwa, J. Majaliwa, H. Bootsma, K. Karume, S. Akello, F. Kansiime

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Abstract

Atmospheric deposition of nutrients, particularly nitrogen and phosphorus has the capacity to significantly affect the productivity and biogeochemistry of aquatic ecosystems. The objective of this study was to assess the impact of land use/cover types on the atmospheric deposition of nutrients around Lake Kivu. Dry and wet atmospheric deposition samples were collected from four different land use/cover types (forest, wetland, agricultural and urbanized area) at four stations (Goma, Lwiro, Bukavu and Iko) around the Lake Kivu basin. The highest annual loading of dry total phosphorus (TP) was recorded at a station located in an urban area at Goma (4.4 ± 3.9 μmol/m2/yr) and the highest dry deposition of total nitrogen (TN) was recorded at Iko (84.5 ± 41.2 μmol/m2/yr). High wet TP and TN were at Bukavu (0.7 ± 1.1 μmol/m2/yr) and Iko (21.7 ± 34.7 μmol/m2/yr) respectively. High dry TP loads were recorded in the forest area of Goma and the highest dry TN at Lwiro. High wet TP loads were record in agriculture at Goma and high values of wet TN in agriculture at Iko. Phosphorus and nitrogen deposition rates around Lake Kivu were similar to those reported for other African lakes. The highest rate of TP was recorded mainly in the forest area for dry deposition while high TN was recorded in all types of land use/cover in the basin. This study found out that forest traps high concentration of nutrient than other land uses/covers.

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基伍湖周围不同土地利用/覆盖的大气养分沉积时空变化

大气中营养物质，特别是氮和磷的沉积有能力显著影响水生生态系统的生产力和生物地球化学。本研究的目的是评估土地利用/覆盖类型对基伍湖周围营养物质大气沉积的影响。在基伍湖流域周围的四个站点（戈马、勒维罗、布卡武和伊科），从四种不同的土地利用/覆盖类型（森林、湿地、农业和城市化地区）收集了干湿大气沉积样本。戈马城市地区的一个站点记录的干总磷（TP）年负荷最高（4.4±3.9μmol/m2/yr），总氮（TN）的干沉降最高（84.5±41.2μmol/m2/yr）。高湿TP和TN分别位于布卡武（0.7±1.1μmol/m2/yr）和伊科（21.7±34.7μmol/m2/yr）。戈马林区的TP干负荷较高，Lwiro的TN干负荷最高。戈马农业的湿TP负荷较高，伊科农业的湿TN值较高。基伍湖周围的磷和氮沉积速率与其他非洲湖泊的报告相似。TP的最高速率主要记录在干沉降的森林区域，而TN的高速率记录在盆地的所有类型的土地利用/覆盖中。这项研究发现，森林比其他土地利用/覆盖物更能捕获高浓度的养分。

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水资源与保护(英文)

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