Seasonal Waterlogging Variation in the Sylhet City Corporation Area, Bangladesh- an Integrated Geospatial Approach

https://doi.org/10.22146/jgise.72904

Ha-mim Ebne Alam(1*)

(1) Department of Oceanography, University of Chittagong, Chittagong-4331, Bangladesh
(*) Corresponding Author

Abstract


Waterlogging is considered a severe environmental hazard in the Sylhet city corporation (SCC) area of northeast Bangladesh adversely affects the local socio-economic development. The integrated geospatial approach presents a worthy alternative to the conventional mapping of waterlogged surface areas. The remote sensing-based water index technique was used for delineating pre-monsoon and post-monsoon waterlogged areas of SCC in 2020 and 2021. Seasonal deviations of the waterlogging were determined by overlaying the waterlogged sites emanated from the pre-monsoon and post-monsoon periods under the GIS environment. Results show that waterlogged areas for pre-monsoon and post-monsoon seasons in 2020 are 2.25 sq. km and 4.12 sq. km, respectively, whereas 2.22 sq. km and 3.90 sq. km in 2021. Hence, the seasonal variations in waterlogged areas in 2020 and 2021 are 1.87 sq. km and 1.68 sq. km, respectively. This analysis also demonstrates that waterlogging in SCC is utterly driven by the high seasonal variations that mainly depend on the amount of rainfall besides the local flood-prone geologic settings and climate change.

Keywords


Seasonal Waterlogging; Sylhet City Corporation; Geospatial Technique; Remote Sensing; Bangladesh

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References

Abbas, Z., & Jaber, H. S. (2020). Accuracy assessment of supervised classification methods for extraction land use maps using remote sensing and GIS techniques. IOP Conference Series: Materials Science and Engineering, 745(1), 012166.

Adewumi, J. R., Akomolafe, J. K., Ajibade, F. O., & Fabeku, B. B. (2016). Application of GIS and remote sensing technique to change detection in land use/land cover mapping of Igbokoda, Ondo State, Nigeria. Journal of Applied Science & Process Engineering, 3(1), 34–54.

Ahmed, R., & Kim, I.-K. (2003). Patterns of daily rainfall in Bangladesh during the summer monsoon season: Case studies at three stations. Physical Geography, 24(4), 295–318.

Ali, L. (2002). An integrated approach for the improvement of flood control and drainage schemes in the coastal belt of Bangladesh. Wageningen University and Research.

Awal, M., & Islam, A. (2020). Water Logging in south-western coastal region of Bangladesh: Causes and consequences and people’s response. Asian Journal of Geographical Research, 3(2), 9–28.

Ayyam, V., Palanivel, S., & Chandrakasan, S. (2019). Land and Water Conservation: Dealing with Agriculture and Aquaculture Conflicts. In V. Ayyam, S. Palanivel, & S. Chandrakasan, Coastal Ecosystems of the Tropics—Adaptive Management (pp. 391–406). Springer Singapore.

Bakker, D. M., Hamilton, G. J., Houlbrooke, D. J., Spann, C., & Burgel, A. V. (2007). Productivity of crops grown on raised beds on duplex soils prone to waterlogging in Western Australia. Australian Journal of Experimental Agriculture, 47(11), 1368.

BBS. (2011). District Statistics 2011. Bangladesh Bureau of Statistics, Ministry of Planning, Government of the People’s Republic of Bangladesh.

Bhuiyan, M. R. A., & Siddiqui, T. (2015). Migration in the Ganga-Brahmaputara-Meghna delta: A review of the literature (DECCMA Working Paper No. 107642; Vulnerability and Climate Change: Migration and Adaptation).

Bouwer, H., Dedrick, A. R., & Jaynes, D. B. (1990). Irrigation management for groundwater quality protection. Irrigation and Drainage Systems, 4(4), 375–383.

Choudhury, S. A., Terao, T., Murata, F., & Hayashi, T. (2012). Seasonal variations of temperature and rainfall characteristics in the northeastern part of Bangladesh around Sylhet. J Agrofor Environ, 6(2), 81–88.

Chowdary, V., Chandran, R. V., Neeti, N., Bothale, R., Srivastava, Y., Ingle, P., Ramakrishnan, D., Dutta, D., Jeyaram, A., & Sharma, J. (2008). Assessment of surface and sub-surface waterlogged areas in irrigation command areas of Bihar state using remote sensing and GIS. Agricultural Water Management, 95(7), 754–766.

Foody, G. M. (2020). Explaining the unsuitability of the kappa coefficient in the assessment and comparison of the accuracy of thematic maps obtained by image classification. Remote Sensing of Environment, 239, 111630.

FSC and Partners. (2014). Measuring the impact of waterlogging on household economies, Satkhira, Bangladesh (p. 34) [HEA Report].

Hossain, M. A., Mahiuddin, S., Ahmad, A. U., & Monzurul Mamun, A. (2022). Causes and Effects of Water Logging in Dhaka City. In Climate, Environment and Disaster in Developing Countries (pp. 153–171). Springer.

Hossain, M. A., & Uddin, S. N. (2011). Mechanisms of waterlogging tolerance in wheat: Morphological and metabolic adaptations under hypoxia or anoxia. Australian Journal of Crop Science, 5(9), 1094–1101.

Huda, N., Terao, T., Murayama, S., & Suenaga, Y. (2019). Detection of waterlogging floods in bengal mega-delta from people’s perception underpinned by hydrometeorological dataset. Journal of Recent Advances in Marine Science and Technology, 13, 60–78.

Iqbal, S. A. (2017). Municipal solid waste management in Sylhet City, Bangladesh. Proceedings of the WasteSafe 2017. 5th International Conference on Solid Waste Management in South Asian Countries, Khulna, Bangladesh.

Islam, A. R. Md. T., Rahman, Md. S., Khatun, R., & Hu, Z. (2020). Spatiotemporal trends in the frequency of daily rainfall in Bangladesh during 1975–2017. Theoretical and Applied Climatology, 141(3), 869–887.

Mahmud, I., Mia, A. J., Uddin, R., Rahman, M., & Rahman, M. H. (2017). Assessment on seasonal variations in waterlogging using remote sensing and GIS techniques in Satkhira District in Bangladesh. Barisal Univ. J. Part, 1, 4.

Mancuso, S., & Shabala, S. (Eds.). (2010). Waterlogging signalling and tolerance in plants. Springer.

McFeeters, S. K. (1996). The use of the Normalized Difference Water Index (NDWI) in the delineation of open water features. International Journal of Remote Sensing, 17(7).

Mirza, M. M. Q., & Ahmad, Q. K. (Eds.). (2005). Climate Change and Water Resources in South Asia (ed.). CRC Press.

Nchito, W. S. (2007). Flood risk in unplanned settlements in Lusaka. Environment and Urbanization, 19(2), 539–551.

Rahman, Md. N., & Shozib, S. H. (2021). Seasonal Variability of Waterlogging in Rangpur City Corporation Using GIS and Remote Sensing Techniques. Geosfera Indonesia, 6(2), 143.

Roy, E., Rahman, M. S., Nisha, N. S., & Majumder, A. (2022). Water vulnerability and sustainability scenario of a typical populus city of least developed country, Proceedings of the 5th International Conference on Civil Engineering for Sustainable Development. ICCESD 2020, Khulna University of Engineering & Technology, Bangladesh.

Santosa, P. B. (2016). Evaluation of satellite image correction methods caused by differential terrain illumination. Forum Geografi, vol 30 no 1. doi: 10.23917/forgeo.v30i1.1768

Sarker, A. A., & Rashid, A. K. M. M. (2013). Landslide and Flashflood in Bangladesh. In R. Shaw, F. Mallick, & A. Islam (Eds.), Disaster Risk Reduction Approaches in Bangladesh (pp. 165–189). Springer Japan.

Shaibur, M. R., Shamim, A. H. M., Rizvi, Md. M., Amara, U., & Sarwar, S. (2014). A Study on Moyna Basin Water-Logged Areas (India) Using Remote Sensing and GIS Methods and Their Contemporary Economic Significance. Geography Journal, 2014, 1–9.

Sharma, J., Bera, A., Dutta, D., Paithankar, Y., Agarwal, C., & Singh, R. (2009). Assessment of waterlogging and salt and/or alkaline affected soils in the commands of all major and medium irrigation projects in the country using satellite remote sensing’. Country Report. New Delhi. India.

Solaiman, Z., Colmer, T. D., Loss, S. P., Thomson, B. D., & Siddique, K. H. M. (2007). Growth responses of cool-season grain legumes to transient waterlogging. Australian Journal of Agricultural Research, 58(5), 406.

Sujatha, G., Dwivedi, R. S., Sreenivas, K., & Venkataratnam, L. (2000). Mapping and monitoring of degraded lands in part of Jaunpur district of Uttar Pradesh using temporal spaceborne multispectral data. International Journal of Remote Sensing, 21(3), 519–531.

Talukdar, S., Ghose, B., Shahfahad, Salam, R., Mahato, S., Pham, Q. B., Linh, N. T. T., Costache, R., & Avand, M. (2020). Flood susceptibility modeling in Teesta River basin, Bangladesh using novel ensembles of bagging algorithms. Stochastic Environmental Research and Risk Assessment, 34(12), 2277–2300.

Weiers, S., Bock, M., Wissen, M., & Rossner, G. (2004). Mapping and indicator approaches for the assessment of habitats at different scales using remote sensing and GIS methods. Landscape and Urban Planning, 67(1–4), 43–65.



DOI: https://doi.org/10.22146/jgise.72904

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