Shima, Mst. Urmi Akter and Hasan, Mohammad Monirul (2022): Temporal mapping of vegetation cover change in Gazipur district, Bangladesh: a framework for environmental sustainability.
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Abstract
This study investigates the intricate dynamics of land transformation and its correlation with rising surface temperatures in Gazipur District, Bangladesh, amid rapid urbanization and climate change. As urban areas attract more inhabitants, Gazipur experiences alarming rates of urbanization, contributing significantly to the Urban Heat Island (UHI) phenomenon. The depletion of water bodies exacerbates this effect, posing severe consequences for the regional climate and environment. Conducted as an integrated study utilizing Geographic Information System (GIS) and Remote Sensing (RS), this research spans the years 2000 to 2021. Landsat 7 & 8 satellite imagery products were employed to analyze land cover changes and recover Land Surface Temperature (LST). Remote sensing techniques enabled the examination of the impact of vegetation cover changes on surface temperature, revealing a strong correlation between LST and land cover classes. Results indicate a substantial reduction in water bodies, decreasing from 33% to 0.01%, and a parallel decline in vegetation cover. These areas are increasingly converted into built-up spaces, contributing to rising temperatures that fluctuate between 28℃ and 35℃. The findings underscore the significance of land cover classes in influencing surface temperature variations. The study not only adds depth to the understanding of Gazipur's evolving landscape but also contributes valuable insights into the intricate relationship between land transformation, urbanization, and climate change.
| Item Type: | MPRA Paper |
|---|---|
| Original Title: | Temporal mapping of vegetation cover change in Gazipur district, Bangladesh: a framework for environmental sustainability |
| Language: | English |
| Keywords: | Vegetation coverage, Land Surface Temperature, Environmental Sustainability, Climate Change, Urbanization |
| Subjects: | Q - Agricultural and Natural Resource Economics ; Environmental and Ecological Economics > Q2 - Renewable Resources and Conservation > Q23 - Forestry Q - Agricultural and Natural Resource Economics ; Environmental and Ecological Economics > Q2 - Renewable Resources and Conservation > Q24 - Land Q - Agricultural and Natural Resource Economics ; Environmental and Ecological Economics > Q2 - Renewable Resources and Conservation > Q25 - Water Q - Agricultural and Natural Resource Economics ; Environmental and Ecological Economics > Q5 - Environmental Economics > Q56 - Environment and Development ; Environment and Trade ; Sustainability ; Environmental Accounts and Accounting ; Environmental Equity ; Population Growth Q - Agricultural and Natural Resource Economics ; Environmental and Ecological Economics > Q5 - Environmental Economics > Q57 - Ecological Economics: Ecosystem Services ; Biodiversity Conservation ; Bioeconomics ; Industrial Ecology R - Urban, Rural, Regional, Real Estate, and Transportation Economics > R1 - General Regional Economics > R14 - Land Use Patterns R - Urban, Rural, Regional, Real Estate, and Transportation Economics > R5 - Regional Government Analysis > R52 - Land Use and Other Regulations |
| Item ID: | 119867 |
| Depositing User: | Dr. Mohammad Monirul Hasan |
| Date Deposited: | 24 Jan 2024 14:36 |
| Last Modified: | 24 Jan 2024 14:36 |
| References: | Ahmed, Bayes, Xuan Zhu, Shahinoor Rahman, and Keechoo Choi. (2013). Simulating Land Cover Changes and Their Impacts on Land Surface Temperature in Dhaka, Bangladesh.: 5969–98. Buriti, C. D. O., & Barbosa, H. A. (2022). Droughts and deforestation have accelerated land degradation in the Amazon in recent decades. Letras Ambientais, 1–7. https://doi.org/10.56462/2674-760x.v72024p1-7 Fazal S.A., Bhuiyan M.A.H., Chowdhury M.A.I. and Kabir M.M. (2015). Effects of Industrial Agglomeration on Land-Use Patterns and Surface. Water Quality in Konabari, BSCIC area at Gazipur, Bangladesh. International Research Journal of Environment Sciences, ISSN 2319–1414, 4(11), pp. 1-10. Ghaseminik, F., Aghamohammadi, H., & Azadbakht, M. (2021). Land cover mapping of urban environments using multispectral LiDAR data under data imbalance. Remote Sensing Applications: Society and Environment, 21, 100449. https://doi.org/10.1016/j.rsase.2020.100449 Hasan MM (2012). Agricultural Policy Reforms and Structural Adjustments in Bangladesh, MPRA Paper No. 46540, https://mpra.ub.uni-muenchen.de/46540/. Hasan, M. M. (2014). Climate Change Induced Marginality: Households’ Vulnerability in the Meal Consumption Frequencies. American Journal of Environmental Protection, 3(3), 103–112. http://article.sciencepublishinggroup.com/pdf/10.11648.j.ajep.20140303.11.pdf Hasan, M. M. (2014). Seasonality induced marginality: Vulnerability of wage earners’ food and nutrition security in southern Bangladesh. American Journal of Agriculture and Forestry, 2(4), 121–128. Doi: 11648.j.ajaf.20140204.14.pdf Hasan, M. M. (2015). Climate change induced vulnerability: an evidence from Bangladesh Assessment of vulnerability in southern Bangladesh and how does micro-finance help? - A quasi-experimental analysis. AV Akademikerverlag, ISBN 978-3-639-87623-9. He, J. F. et al. (2007). Assessing the Effect of Land Use/land Cover Change on the Change of Urban Heat Island Intensity. Theoretical and Applied Climatology, 90(3– 4): 217–26. Iovanna, R., & Vance, C. (2007). Modeling of continuous-time land cover change using satellite imagery: an application from North Carolina. Journal of Land Use Science, 2(3), 147–166. https://doi.org/10.1080/17474230701623013 Jianzhong, Yan, Zhang Yili, Liu Linshan, and Liu Yanhua. (2002). Land Use and Landscape Pattern Change: A Linkage to the Construction of the Qinghai- Xizang Highway. Journal of Geographical Sciences, 12(3): 253–65. Khamchiangta, D., & Dhakal, S. (2021). Future urban expansion and local climate zone changes in relation to land surface temperature: Case of Bangkok Metropolitan Administration, Thailand. Urban Climate, 37, 100835. https://doi.org/10.1016/j.uclim.2021.100835 Khan, N. I. (2000). temporal Mapping and Spatial Analysis of Land Transformation Due To Urbanization And Its Impact On Surface Water System: A Case From Dhaka Metropolitan Area, Bangladesh. International Archives of Photogrammetry and Remote Sensing, XXXIII, Part B7, pp 598-605. Levien, L. M., Roffers, P., Maurizi, B., Suero, J., Fischer, C., & Huang, X (1999), a Machine-Learning Approach to Change Detection Using Multi-Scale Imagery. American Society of Photogrammetry and Remote Sensing 1999 Annual Conference. Portland, Oregon: American Society of Photogrammetry and Remote Sensing. Lianqi, Z., Shunting, X., & Peiyun, C. (2004). Effects of grassland amelioration on terrestrial ecosystem nutrients: a case study in Jianou Niukenglong Grassland Ecosystem Experimental Station, Fujian Province. Journal of Geographical Sciences, 14(3), 313–322. https://doi.org/10.1007/BF02837412 Lindell, L., Åström, M., & Öberg, T. (2010). Land-use versus natural controls on soil fertility in the Subandean Amazon, Peru. Science of the Total Environment, 408(4), 965–975. https://doi.org/10.1016/j.scitotenv.2009.10.039 Lo, C P, and D A Quattrochi. (2003). Land-Use and Land-Cover Change, Urban Heat Island Phenomenon, and Health Implications: A Remote Sensing Approach. Photogrammetric Engineering and Remote Sensing, 69(9): 1053– 63. Mishra, P. K., Rai, A., Abdelrahman, K., Rai, S. C., & Tiwari, A. (2022). Land Degradation, Overland Flow, Soil Erosion, and Nutrient Loss in the Eastern Himalayas, India. Land, 11(2), 179. https://doi.org/10.3390/land11020179 Nduwayezu, G., Manirakiza, V., Mugabe, L., & Malonza, J. M. (2021). Urban Growth and Land Use/Land Cover Changes in the Post-Genocide Period, Kigali, Rwanda. Environment and Urbanization ASIA, 12(1_suppl), S127–S146. https://doi.org/10.1177/0975425321997971 Pimentel, D. (2008). Biofuel Impacts on World Food Supply: Use of Fossil Fuel, Land and Water Resources. Energies, 1(2), 41–78. https://doi.org/10.3390/en1020041 Rahman, M (2009), preserving green spaces in Dhaka City. The Daily Star. S.O, A., & B, R. A (2003), change Detection of Vegetation Cover, Using Multi Temporal Remote Sensing Data And GIS Techniquea. Retrieved August 18, 2010, from GISdevelopment.net. Son, N., Chen, C., & Chen, C. (2020). Urban expansion and its impacts on local temperature in San Salvador, El Salvador. Urban Climate, 32, 100617. https://doi.org/10.1016/j.uclim.2020.100617 Su, K., Ren, J., Cui, C., Hou, Y., & Wen, Y. (2022). Do Value Orientations and Beliefs Play a Positive Role in Shaping Personal Norms for Urban Green Space Conservation? Land, 11(2), 262. https://doi.org/10.3390/land11020262 Trenberth, K. E. (2004). Rural land-use change and climate. Nature, 427(6971), 213–213. https://doi.org/10.1038/427213a Yang, Y., Liu, Y., Li, Y., & Du, G. (2018). Quantifying spatio-temporal patterns of urban expansion in Beijing during 1985–2013 with rural-urban development transformation. Land Use Policy, 74, 220–230. https://doi.org/10.1016/j.landusepol.2017.07.004 Zhou, G., Zhang, J., Li, C., & Liu, Y. (2022). Spatial Pattern of Functional Urban Land Conversion and Expansion under Rapid Urbanization: A Case Study of Changchun, China. Land, 11(1), 119. https://doi.org/10.3390/land11010119 |
| URI: | https://mpra.ub.uni-muenchen.de/id/eprint/119867 |
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