Dynamic assessment and prediction of land use alterations influence on ecosystem service value: A pathway to environmental sustainability

• Published in: Environmental and sustainability indicators Vol. 21; p. 100319
• Main Authors: Roy, Sujit Kumar, Alam, Md. Tauhidul, Mojumder, Pratik, Mondal, Ismail, Kafy, Abdulla - Al, Dutta, Mithun, Ferdous, Md Nahid, Al Mamun, Md. Abdullah, Mahtab, Sania Binte
• Format: Journal Article
• Language: English
• Published: Elsevier Inc 01.02.2024; Elsevier
• Subjects: Ecosystem service value; Google earth engine; Green cover; Sustainable environment; Urbanization; Urbanization; Green cover; Ecosystem service value; Sustainable environment; Google earth engine
• ISSN: 2665-9727; 2665-9727
• DOI: 10.1016/j.indic.2023.100319

In the face of rapid urbanization, understanding and managing changes in Land Use and Land Cover (LULC) is crucial for the sustainability and resilience of urban ecosystems. Rapid urban growth resulting from changes in LULC, can lead to the fragmentation and degradation of Ecosystem Services (ES), including habitat provision, water regulation, and air purification. This study investigates LULC changes in Dhaka City, Bangladesh, from 2010 to 2021 and forecasts their future impacts on ES in 2030 and 2040. Landsat images were processed using the Google Earth Engine platform, and a cellular automata technique was integrated with an Artificial Neural Network (ANN) for LULC mapping and prediction. Results showed an increase in built-up areas from 31% to 42% between 2010 and 2021, with a projected decrease to 34% and 32% in 2030 and 2040, respectively. Water bodies, vegetation, and agricultural land declined from 2010 to 2021 but are expected to increase in 2030 and 2040. This trend indicates a growing awareness of the need for a sustainable environment and resilience in urban ecosystem development. The value of ES is predicted to drop from $172.66 to $160.23 over thirty years (2010–2040), primarily due to the degradation of water bodies ($7.64) and agricultural land ($6.89). However, the projected increase in water bodies, vegetation, and agricultural land by 2040 suggests a potential for recovery and enhancement of these ES values through sustainable practices. Future land use policies should promote sustainable agriculture and water resource management while fostering resilience against rapid urban growth. This approach will ensure the sustainable development of urban ecosystems. This study informs future land use strategies in Dhaka City, supporting sustainable natural resource management, urban ecosystem quality management decisions, and resilience planning. It underscores the importance of integrating sustainability and resilience into urban development policies for the benefit of both the environment and the city's inhabitants. •Built-up areas in Dhaka City increased from 31% to 42% in the last decade.•Total ecosystem service value is likely to decline from $172.66 million in 2010 to $160.23 million in 2040.•The loss of wetlands and agricultural land contributed most to the decline in ecosystem service value.•Study provides framework to assess land cover change impacts on ecosystem services.