2022 9 th International Conference on Energy Engineering and Environmental Engineering (9 th ICEEEE2022) 2022.12.9-10 Sanya, China

Putranto, Dinar DA and Muchtar, Zainuddin and Hadinata, Febrian (2023) 2022 9 th International Conference on Energy Engineering and Environmental Engineering (9 th ICEEEE2022) 2022.12.9-10 Sanya, China. In: Environmental Science and Engineering. Environmental Science and Engineering . Springer, Beijing, China, pp. 103-114. ISBN 978-3-031-30232-9

Text 978-3-031-30233-6_10 - Published Version Download (215kB)

Abstract

Land degradation is defined as a condition in which the quantity and quality of land resources needed to support ecosystem functions and services and increase food security continues to decline on a temporal and spatial scale under certain ecosystem conditions [1]. These changes, combined with population growth, have led to the conversion of agricultural land to developed land, high exploitation of natural and mineral resources, and urbanization, which usually leads to more significant land degradation [2]. Sub-watershed scale analysis re�lated to the distribution of degraded land by utilizing multi-temporal geospatial layers [3] helps provide a regionally consistent data set of required land distribu�tion. Therefore, it can support agendas aligned with sustainable development goals (SDGs)[4 ]. By utilizing scientific big earth data, which is periodically in�tegrated with terrestrial, aquatic, and hydrological data, it has the potential to as�sess degraded land as outlined in SDG's target point 15.3.1[5]. The Rawas sub�watershed is a river drainage area that originates at one of the peaks of Mount Kerinci. Geologically, the Rawas sub-watershed includes lowlands which are quarterly alluvial deposits from the Pleistocene to the present age. The availabil�ity of water in the Rawas watershed until 2020 is sufficient to serve the villages in the watershed. With the most significant water resource potential in November, December, and January to March, approximately 52 mm/month. Meanwhile, in other months, water availability in the Rawas watershed is below 3 mm/month and even close to 0 mm/month.

Item Type:	Book Section
Subjects:	T Technology > TA Engineering (General). Civil engineering (General) > TA170-171 Environmental engineering
Divisions:	03-Faculty of Engineering > 22101-Civil Engineering (S2)
Depositing User:	Dr. Ir. Dinar Dwi Anugerah Putranto
Date Deposited:	18 Aug 2023 11:45
Last Modified:	18 Aug 2023 11:45
URI:	http://repository.unsri.ac.id/id/eprint/120404

Actions (login required)

View Item