Data-driven assessment of climate change and vegetative cover dynamics in traditional oases

Data-driven assessment of climate change and vegetative cover dynamics in traditional oases

Study region:: Abiod Valley, Aurès region, Algeria. Study focus:: This work focuses on the relation between climatic forcing and vegetation cover dynamics in traditional oases. This study pursues two main objectives: (1) estimate the vegetative surface cover of traditional oases from satellite image...

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Bibliographic Details
Main Authors: Elisa Baioni, Giulia Fiantanese, Giovanni Michele Porta
Format: Article
Language:English
Published: Elsevier 2025-06-01
Series:Journal of Hydrology: Regional Studies
Subjects:
Climate change
Satellite imagery analysis
Vegetation dynamics
Traditional oases
Time series modeling
Data driven models
Online Access:http://www.sciencedirect.com/science/article/pii/S2214581825000904
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Summary:Study region:: Abiod Valley, Aurès region, Algeria. Study focus:: This work focuses on the relation between climatic forcing and vegetation cover dynamics in traditional oases. This study pursues two main objectives: (1) estimate the vegetative surface cover of traditional oases from satellite images, (2) quantify the impact of climatic variables on vegetation dynamics and assess future scenarios. We propose a methodology that leverages satellite imagery and derived indices (NDVI, NDMI) to quantify vegetation cover and water stress events at the oasis spatial scale. We then assess the feedback between climate and vegetation cover at monthly and yearly scale through multivariate analyses based on vector autoregression (VAR) and vector error correction (VEC) models. New hydrological insights for the region:: Our findings reveal an appreciable decrease in vegetation cover over the last decade across three considered traditional oases in the study region. The monthly scale analysis suggests a lagged effect of climatic variables, especially cumulative precipitation, on vegetation water stress. The long term VEC prediction of climatic variables aligns with GDDP-CMIP6 climate projections, forecasting an increase in average temperature and potential evapo-transpiration. A significant decline in vegetative surface cover is predicted by 2050 from the analysis of yearly data, highlighting the critical need for water management interventions to safeguard oasis ecosystem and prevent desertification.
ISSN:2214-5818

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