Multi-temporal Landsat imagery and MSAVI index for monitoring rangeland degradation in arid ecosystem, case study of Biskra (southeast Algeria)

The Algerian Saharan rangelands are an arid ecosystem characterized by limited soil, water, and vegetation resources, which make it very susceptible to degradation. This research focuses on the diachronic assessment and multi-temporal mapping of the degradation of steppe vegetation in the south of B...

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Veröffentlicht in:	Environmental monitoring and assessment 2023-06, Vol.195 (6), p.656-656, Article 656
Hauptverfasser:	Belhadj, Amina, Boulghobra, Nouar, Demnati Allache, Fatma
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Sprache:	eng
Schlagworte:	Algeria Aridity Atmospheric Protection/Air Quality Control/Air Pollution case studies Climate Degradation Drought Earth and Environmental Science Ecology Ecosystem Ecosystem degradation Ecosystems Ecotoxicology Environment Environmental Management Environmental monitoring Environmental Monitoring - methods Environmental science evolution Exploitation Land development Land use Landsat landscapes Livestock Monitoring/Environmental Analysis pastoralism Plant cover rangeland degradation Rangelands Remote sensing Satellite imagery Soil Soil water Soils Spatiotemporal data Steppes Vegetation Vegetation cover Water resources
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creator	Belhadj, Amina Boulghobra, Nouar Demnati Allache, Fatma
description	The Algerian Saharan rangelands are an arid ecosystem characterized by limited soil, water, and vegetation resources, which make it very susceptible to degradation. This research focuses on the diachronic assessment and multi-temporal mapping of the degradation of steppe vegetation in the south of Biskra during the period 1987–2019, using remote sensing data (MSAVI index), for extracting spatiotemporal data to monitor the rangeland vegetation dynamics. We examined demographic evolution, number of livestock, and land use from quantitative data. The results show that during this period, the landscape of the region changed considerably. The area of rangelands decreased from 19,939 ha (1987) to 3605 ha (2019), where 58% of the pre-existing vegetation was transformed into bare soil. This study confirmed that the rangeland vegetation health is closely related to climate, and its degradation is mainly due to the recurrence, duration, severity, and magnitude of drought events. Manmade activities were also a determinant factor of long-term degradation of the rangeland, such as the expansion of new land development areas that increased from 3754 ha (1987) to 24,410 ha (2019). This trend was found throughout the region, including predominantly pastoral regions such as Oumache and El Haouch, leading to overgrazing with a loss of about 2% of vegetation cover. All these factors have led to a severe and continuous degradation of pastoral resources in a vulnerable environment. The preservation of these limited resources requires appropriate management of the ecosystem and a rational exploitation of its vegetation, soil, and water resources.
doi_str_mv	10.1007/s10661-023-11191-z
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Manmade activities were also a determinant factor of long-term degradation of the rangeland, such as the expansion of new land development areas that increased from 3754 ha (1987) to 24,410 ha (2019). This trend was found throughout the region, including predominantly pastoral regions such as Oumache and El Haouch, leading to overgrazing with a loss of about 2% of vegetation cover. All these factors have led to a severe and continuous degradation of pastoral resources in a vulnerable environment. 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limited soil, water, and vegetation resources, which make it very susceptible to degradation. This research focuses on the diachronic assessment and multi-temporal mapping of the degradation of steppe vegetation in the south of Biskra during the period 1987–2019, using remote sensing data (MSAVI index), for extracting spatiotemporal data to monitor the rangeland vegetation dynamics. We examined demographic evolution, number of livestock, and land use from quantitative data. The results show that during this period, the landscape of the region changed considerably. The area of rangelands decreased from 19,939 ha (1987) to 3605 ha (2019), where 58% of the pre-existing vegetation was transformed into bare soil. This study confirmed that the rangeland vegetation health is closely related to climate, and its degradation is mainly due to the recurrence, duration, severity, and magnitude of drought events. Manmade activities were also a determinant factor of long-term degradation of the rangeland, such as the expansion of new land development areas that increased from 3754 ha (1987) to 24,410 ha (2019). This trend was found throughout the region, including predominantly pastoral regions such as Oumache and El Haouch, leading to overgrazing with a loss of about 2% of vegetation cover. All these factors have led to a severe and continuous degradation of pastoral resources in a vulnerable environment. 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subjects	Algeria Aridity Atmospheric Protection/Air Quality Control/Air Pollution case studies Climate Degradation Drought Earth and Environmental Science Ecology Ecosystem Ecosystem degradation Ecosystems Ecotoxicology Environment Environmental Management Environmental monitoring Environmental Monitoring - methods Environmental science evolution Exploitation Land development Land use Landsat landscapes Livestock Monitoring/Environmental Analysis pastoralism Plant cover rangeland degradation Rangelands Remote sensing Satellite imagery Soil Soil water Soils Spatiotemporal data Steppes Vegetation Vegetation cover Water resources
title	Multi-temporal Landsat imagery and MSAVI index for monitoring rangeland degradation in arid ecosystem, case study of Biskra (southeast Algeria)
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