Abstract
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Mangroves are highly susceptible to oil exposure. Oil spills cause long-lasting mangrove loss,threatening their conservation and ecosystem services worldwide. This study aimed to explore the impacts of the Gulf War oil spill, which occurred between August 1990 and February 1991, on mangrove vegetation in the Persian Gulf and Oman Sea regions (Nayband, Qheshm, Bandar-Abbas, Sirik, Jask, Gabrik and Govatre mangroves). We utilized remote sensing technologies to investigate the potential changes in mangrove area and health in response to the oil spill. The analysis of historical Landsat-derived Normalized Difference Vegetation Index (NDVI) data revealed significant degradation in the Nayband, Qheshm and Bandar Abbas mangrove, which were closest to the contamination source. Results indicated that the oil spill degrades the mangroves around 17.7 ha with poor or moderate greenness and health condition in Nayband mangrove site (Bidkhoon and
Basatin). The analysis in Qheshm mangroves revealed that the oil spill had a notable effect on mangroves in Classes 2 and 3, causing them to transition into Class 1, which represents weaker mangroves in terms of health and greenness. Also, the Bandar-Abbasmangrove area experienced a significant decline across all classes around 25%, or 129 hectares. These mangroves experienced greater reductions in overall area as well as declines in vegetation health. In contrast, the mangroves along the northern coast of the Oman Sea showed no evidence of area reduction due to oil contamination. Landward mangroves in Iran, which have lower NDVI values and higher oil concentrations in the sediment, are most susceptible to being lost due to oil spills. These mangroves have revealed their resilience and ability to undergo rapid recovery within 5 years after the Gulf war because the Iranian coastal mangrove areas were largely untouched and undeveloped, which provided a favorable environment. Additionally, the high temperatures and intense solar radiation i
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