COCKPIT-PLUS: A proposed method for rapid groundwater vulnerability-driven land use zoning in tropical cockpit karst areas

IF 8 1区环境科学与生态学 Q1 GEOGRAPHY, PHYSICAL

Geography and Sustainability Pub Date : 2023-07-23 DOI:10.1016/j.geosus.2023.07.002

Eko Haryono, Afid Nur Kholis, Margaretha Widyastuti, Ahmad Cahyadi, Hanindha Pradipa, Tjahyo Nugroho Adji

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Abstract

Karst groundwater is highly vulnerable to contamination, which urges better land use zoning. This paper proposes a new approach, called COCKPIT-PLUS, to minimize groundwater contamination within cockpit karst regions. The method employed four parameters: P (the existence of ponor/swallow hole), L (lineament density), U (sinking stream to an underground river), and S (distance to spring/pumping site). These parameters are essential for identifying contaminant pathways and transport from the surface to the karst groundwater/springs. COCKPIT-PLUS has been developed and validated in the Gunungsewu karst in Java, Indonesia. This research considers a cockpit as a single hydrological unit that uniquely recharges karst groundwater. We analyzed 2,811 cockpits and 81 other closed depressions to develop a land use planning map. The research used the time to first arrival (Ta), time to peak (Tp), and Q_max/min ratio parameters of two karst springs and two underground pumping sites for validation. Cockpits with ponors/swallow holes, sinking streams, high lineament density, and short distances to springs are vulnerable to groundwater and thus must be restricted areas for any land uses. The findings show that though the COCKPIT-PLUS uses a limited karst dataset, the proposed method seems reliable enough for a rapid land-use zoning approach in cockpit karst areas.

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COCKPIT-PLUS:一种基于地下水脆弱性的热带岩溶地区土地利用快速区划方法

岩溶地下水极易受到污染，这促使人们更好地进行土地利用分区。本文提出了一种新的方法，称为COCKPIT-PLUS，以最大限度地减少驾驶舱岩溶地区的地下水污染。该方法使用了四个参数：P（是否存在池塘/燕子洞）、L（线性结构密度）、U（下沉到地下河流的溪流）和S（到泉水/抽水站的距离）。这些参数对于识别污染物路径和从地表到岩溶地下水/泉水的传输至关重要。COCKPIT-PLUS已经在印度尼西亚爪哇的Gunongsewu岩溶中开发并验证。这项研究将驾驶舱视为一个独特的水文单元，为岩溶地下水充电。我们分析了2811个驾驶舱和81个其他封闭洼地，以绘制土地利用规划图。该研究使用了两个岩溶泉和两个地下抽水站的首次到达时间（Ta）、峰值时间（Tp）和Qmax/min比参数进行验证。带有蓄水池/燕子洞、下沉的溪流、高线理密度和离泉水较短距离的驾驶舱容易受到地下水的影响，因此必须是任何土地使用的限制区域。研究结果表明，尽管COCKPIT-PLUS使用了有限的岩溶数据集，但所提出的方法对于驾驶舱岩溶地区的快速土地利用分区方法来说似乎足够可靠。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Geography and Sustainability Social Sciences-Geography, Planning and Development

CiteScore

16.70

自引率

3.10%

发文量

审稿时长

41 days

期刊介绍： Geography and Sustainability serves as a central hub for interdisciplinary research and education aimed at promoting sustainable development from an integrated geography perspective. By bridging natural and human sciences, the journal fosters broader analysis and innovative thinking on global and regional sustainability issues. Geography and Sustainability welcomes original, high-quality research articles, review articles, short communications, technical comments, perspective articles and editorials on the following themes: Geographical Processes: Interactions with and between water, soil, atmosphere and the biosphere and their spatio-temporal variations; Human-Environmental Systems: Interactions between humans and the environment, resilience of socio-ecological systems and vulnerability; Ecosystem Services and Human Wellbeing: Ecosystem structure, processes, services and their linkages with human wellbeing; Sustainable Development: Theory, practice and critical challenges in sustainable development.