MODELING AND MAPPING OF THE ENVIRONMENTAL CARRYING CAPACITY OF THE SEBUKU AND SESAYAP WATERSHEDS BASED ON FOOD AND WATER PROVISION

A Sutrisno, E Wahyuni, Mw Agang and D Titing

African Journal of Food, Agriculture, Nutrition and Development (AJFAND), 2023, vol. 23, issue 5

Abstract: Agricultural practices and water availability are highly correlated with sustainable watershed management. The Sebuku and Sesayap watersheds have a role to play for water conservation and support for agricultural practices. The research aimed to investigate, assess and map the carrying capacity of the environment in the supply of fresh water and food. The method is carried out using a mathematical model, Simple Additive Weighting to calculate the area of each carrying capacity category using ArcGIS 10.7 programs. This ecosystem service approach is used to measure carrying capacity. The approach is based on the assumption that the higher the performance of ecosystem services, the higher the carrying capacity of the environment. Carrying capacity is the maximum number of populations that can be sustainably supported by a local ecosystem, meaning that it has a carrying capacity and assimilation capacity. The results show that the application of the Simple Additive Weighting model has advantages over the expert-based valuation method which has been widely used, which proves convenience in the investigation and assessment process. Investigations and assessments show that the function of the Sebuku and Sesayap watersheds as a food providers is dominated by high category areas (Iecc 3.41 – 4.20) with an area of 1,178,843.93 ha. Meanwhile, the Sebuku watershed is dominated by the medium category area (Iecc 2.61 - 3.40) with an area of 850,633.60 ha. In addition, the environmental carrying capacity of the downstream watershed area in providing fresh water tends to be low (Iecc 1.81 – 2.60) even though the environmental carrying capacity of the downstream area as a food provider is high (Iecc 3.41 – 4.20), because these areas are generally fluvial plains and coastal plains which are used as pond cultivation areas. Overall, watershed conditions tend to experience a decrease in carrying capacity, both in terms of providing food and fresh water. Therefore, to achieve sustainable watershed management, it is necessary to use a food commodity-based water conservation approach with the application of dry land agroforestry practices in the middle region, and silvofishery in the downstream area.

Keywords: Environmental Economics and Policy; Resource/Energy Economics and Policy (search for similar items in EconPapers)
Date: 2023
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Persistent link: https://EconPapers.repec.org/RePEc:ags:ajfand:340704

DOI: 10.22004/ag.econ.340704

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