Land Suitability Assessment for Olive Mill Wastewater Disposal by Integrating Multicriteria Decision Support Tools

Triantakonstantis, Dimitris; Detsikas, Spyridon; Kavvadias, Victor; Papadopoulou, Zoi; Sparangis, Panagiotis; Katsenios, Nikolaos; Vlachakis, Dimitriοs; Efthimiadou, Αspasia

doi:10.14806/ej.26.1.947

EMBnet j.

2021

DOI: 10.14806/ej.26.1.947

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Land Suitability Assessment for Olive Mill Wastewater Disposal by Integrating Multicriteria Decision Support Tools

Dimitris Triantakonstantis¹,

Spyridon Detsikas²,

Victor Kavvadias³

et al.

Abstract: Many on-site waste disposal systems fail regularly due to problems concerning suitable location and management. A potential environmental threat is inevitably propagated through on-site, off-site, downstream, soil surface and ground water pollution. Soil is a key component of land suitability for waste disposal. This paper presents a Geographic Information Systems (GIS) – based integrated multicriteria decision support system for evaluating the land suitability for olive mill wastewater (OMWW) disposal in the … Show more

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“…The GIS-based MCE technique has been used in several water resource studies such as hydropower potential site selection [26,27], erosion hotspot identification [28][29][30][31], irrigation suitable site assessment [32,33] and wastewater disposal site selection [34][35][36][37]. Similarly, there have been many studies conducted on the assessment of irrigable land potential [38][39][40][41] in the Ethiopian highlands.…”

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Evaluating land suitability and water availability for surface irrigation in the Abbay basin of Ethiopia

et al. 2022

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This study was conducted in the Abbay basin of Ethiopia to evaluate land suitability for irrigation considering both surface and groundwater sources using the analytic hierarchy process. Multiple factors which affect irrigated agriculture productivity were considered, and an 85% threshold was applied to identify irrigable land. The suitability result was validated using ground truth data from existing irrigation projects for surface water sources and depth to groundwater data for groundwater sources. The low flow potential of rivers, which is dependable for surface irrigation, was evaluated against suitable land considering the most dominant crops. The result showed that nearly 10% of the basin area (19 192 km 2 ) and 5.3% of the basin (10 364 km 2 ) were found suitable for surface irrigation from rivers and groundwater, respectively. South Gojam was found to be the most suitable sub-basin (approx. 3880 km 2 ) for surface irrigation, whereas Muger was found to be the most suitable sub-basin (approx. 2105 km 2 ) for surface irrigation from rivers and groundwater, respectively. Depth to groundwater was shallow for Muger as compared with other sub-basins. The validation result depicted more than 83% and 73% overlap for surface and groundwater sources, respectively. Land suitability and water availability assessment result in the Abbay basin shows a promising result for surface irrigation developments.

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Evaluating land suitability and water availability for surface irrigation in the Abbay basin of Ethiopia

et al. 2022

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Land suitability assessment for rapeseed potential cultivation in upper Tigris basin of Turkiye comparing fuzzy and boolean logic

Budak,

Kılıç,

Günal

et al. 2024

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Land Suitability Assessment for Olive Mill Wastewater Disposal by Integrating Multicriteria Decision Support Tools

Cited by 2 publications

References 28 publications

Evaluating land suitability and water availability for surface irrigation in the Abbay basin of Ethiopia

Evaluating land suitability and water availability for surface irrigation in the Abbay basin of Ethiopia

Land suitability assessment for rapeseed potential cultivation in upper Tigris basin of Turkiye comparing fuzzy and boolean logic

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