The differential impacts of the spatiotemporal vertical and horizontal expansion of megacity Dhaka on ecosystem services

IF 3.7 Q2 ENVIRONMENTAL SCIENCES Current Research in Environmental Sustainability Pub Date : 2024-01-01 DOI:10.1016/j.crsust.2024.100252
Md. Alamgir Hossen Bhuiyan , Luis Inostroza , Takaaki Nihei , Marzia Sultana , Albertus S. Louw , Hitesh Supe , Xinyu Chen , Saleh Alsulamy , Ram Avtar
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Abstract

The relationship between ecosystem services (ES) and urbanization is crucial for sustainable development. Rapid urbanization threatens the natural capital of Dhaka city, affecting the delivery of ES through changes in land use and land cover. We used vertical growth (VG), nighttime light data (NTL), and population density (PD) as standard urbanization indicators alongside technomass, a three-dimensional indicator, to evaluate the degree of urbanization as a continuous spatial process. We modeled the spatiotemporal relationships between urbanization degrees and ES using the ecosystem service value (ESV) dataset applied in Dhaka, with regional modified value coefficients. Results from the geographically weighted regression (GWR) model showed that technomass emerged as a more appropriate indicator to analyze urbanization for ESV analysis (r > 0.61), followed by NTL (r > 0.56), and PD (r > 0.54) across all zones from 2000 to 2021. We observed a 68.34% decrease in net ESV, equivalent to $245.88 million (in 2021 USD), from 2000 to 2021. This decline was driven by the conversion of water bodies (−70.93%), agricultural land (−60.08%), forest and vegetation (−70.18%) into urban built-up areas and other uses. In contrast, net technomass increased by 243.11% due to the city's vertical growth. The digital building height (DBH) model revealed that the built-up area had expanded by 94.94% over the study period, with an average annual growth rate of 4.52%. Significant correlations (p < 0.05) were observed between ES and urbanization. The rural-urban fringe area exhibited the most significant increase in urbanization (r > 0.90), along with a 440.47% growth in technomass. Our results provide insights into the impact of urbanization on ES, particularly at the regional scale, and have highlighted the importance of integrating VG and technomass for urbanization analysis. These findings could be useful for environmental management, policymaking, spatial planning, and coordinating future ES protection and urban development.

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达卡特大城市纵向和横向的时空扩张对生态系统服务的不同影响
生态系统服务(ES)与城市化之间的关系对于可持续发展至关重要。快速城市化威胁着达卡市的自然资本,并通过土地利用和土地覆盖的变化影响生态系统服务的提供。我们将垂直增长(VG)、夜间光照数据(NTL)和人口密度(PD)作为标准的城市化指标,并使用三维指标技术量(technomass)来评估作为连续空间过程的城市化程度。我们利用应用于达卡的生态系统服务价值(ESV)数据集和区域修正价值系数,建立了城市化程度与生态系统服务价值之间的时空关系模型。地理加权回归(GWR)模型的结果表明,在 2000 年至 2021 年期间的所有区域中,技术量成为分析城市化与生态系统服务价值的更合适指标(r > 0.61),其次是 NTL(r > 0.56)和 PD(r > 0.54)。我们发现,从 2000 年到 2021 年,净 ESV 下降了 68.34%,相当于 2.4588 亿美元(按 2021 年美元计算)。这一下降主要是由于水体(-70.93%)、农业用地(-60.08%)、森林和植被(-70.18%)转化为城市建筑区和其他用途。相比之下,由于城市的垂直增长,净技术量增加了 243.11%。数字建筑物高度(DBH)模型显示,在研究期间,建成区面积扩大了 94.94%,年均增长率为 4.52%。ES 与城市化之间存在显著相关性(p < 0.05)。城乡边缘地区的城市化增长最为显著(r >0.90),技术量增长了 440.47%。我们的研究结果提供了城市化对环境经济影响的见解,尤其是在区域范围内,并强调了在城市化分析中整合脆弱性和技术量的重要性。这些发现对环境管理、政策制定、空间规划以及协调未来的环境质量保护和城市发展都很有帮助。
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来源期刊
Current Research in Environmental Sustainability
Current Research in Environmental Sustainability Environmental Science-General Environmental Science
CiteScore
7.50
自引率
9.10%
发文量
76
审稿时长
95 days
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