基于农业生态与地下水资源的作物适宜性潜力模型综合评价——以南非林波波省为例

Q3 Social Sciences

Asian Journal of Agriculture and Rural Development Pub Date : 2021-12-15 DOI:10.18488/journal.ajard.2021.114.334.345

Ndwambi Khudzadzo, A. E. Nesamvuni, K. Tshikolomo, S. Mpandeli, J. V. Niekerk, B. Petja

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引用次数: 0

摘要

将地下水资源与多准则预测参数相结合，建立了亚热带水果潜力综合模型。采用等权叠加法对栅格进行重分类和排序，建立栅格分级系统。Vhembe、Mopane和Waterberg地区牛油果和荔枝掩盖高降水(>1000 mmpa)小气候区的空间程度最小;同时，芒果和柑橘是全省分布最广泛的作物。随后的潜力按选区顺序分配:Waterberg(1719019公顷)，Mopane(977741公顷)，Vhembe(764044公顷)，Capricorn(579506公顷)和Sekhukhune(379968公顷)。IUM的结果是划分了870万公顷用于生产选定作物，这反映了雨养适宜性模型增加了770万公顷。综合模式将创造1087万个直接就业机会。IUM扩大了农业部门，对农业综合企业的发展产生了积极的影响。

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Integration of Agro-Ecological and Groundwater Resources for the Assessment of Crop Suitability Potential Modeling: The Case of Limpopo Province, South Africa

A comprehensive subtropical fruit potential model (IUM) was established through novel integration of groundwater resources with multi-criterion predictive parameters. Equal-weights overlay was applied to reclassified and ranked rasters to institute IUM. Avocado and litchi had the least spatial extent that concealed the micro-climatic zones of high rainfall (>1000 mmpa) in Vhembe, Mopane, and Waterberg districts; meanwhile, mango and citrus were the crops with the most extensive province-wide distribution. Subsequent potential was apportioned in these sequences by constituency: Waterberg (1719019 ha), Mopane (977741 ha), Vhembe (764044 ha), Capricorn (579506 ha), and Sekhukhune (379968 ha). The IUM resulted in the demarcation of 8.7 million ha to produce the selected crops, which reflected an increase of 7.7 million from the rainfed suitability model. The integrated model would result in the creation of 10.87 million direct employments. The IUM expanded the agrarian sector with positive spinoffs for agribusiness development.

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来源期刊

Asian Journal of Agriculture and Rural Development Social Sciences-Geography, Planning and Development

CiteScore

1.30

自引率

0.00%

发文量