Review of coastal land transformation: Factors, impacts, adaptation strategies, and future scopes

Md. Abubakkor Siddik; Abu Reza Md. Towfiqul Islam

doi:10.1016/j.geosus.2024.01.010

Geography and Sustainability ›› 2024, Vol. 5 ›› Issue (2) :167 -178. DOI: 10.1016/j.geosus.2024.01.010

Review Article

review-article

Review of coastal land transformation: Factors, impacts, adaptation strategies, and future scopes

Md. Abubakkor Siddik ^a^,^b^,^*
, Abu Reza Md. Towfiqul Islam ^c^,^d^,^*

Author information +

History +

PDF

Abstract

Coastal land transformation has been identified as a topic of research in many countries around the world. Several studies have been conducted to determine the causes and impacts of land transformation. However, much less is understood about coupling change detection, factors, impacts, and adaptation strategies for coastal land transformation at a global scale. This review aims to present a systematic review of global coastal land transformation and its leading research areas. From 1,741 documents of Scopus and Web of Science, 60 studies have been selected using the PRISMA-2020 guideline. Results revealed that existing literature included four leading focus areas regarding coastal land transformation: change detection, driving factors, impacts, and adaptation measures. These focus areas were further analyzed, and it was found that more than 80% of studies used Landsat imagery to detect land transformation. Population growth and urbanization were among the major driving factors identified. This review further identified that about 37% of studies included impact analysis. These studies identified impacts on ecosystems, land surface temperature, migration, water quality, and occupational effects as significant impacts. However, only four studies included adaptation strategies. This review explored the scope of comprehensive research in coastal land transformation, addressing change detection, factor and impact analysis, and mitigation-adaptation strategies. The research also proposes a conceptual framework for comprehensive coastal land transformation analysis. The framework can provide potential decision-making guidance for future studies in coastal land transformation.

Keywords

Coastal land transformation / Land use and land cover / Landsat / Population / PRISMA

Cite this article

Download citation ▾

Md. Abubakkor Siddik, Abu Reza Md. Towfiqul Islam. Review of coastal land transformation: Factors, impacts, adaptation strategies, and future scopes. Geography and Sustainability, 2024, 5(2): 167-178 DOI:10.1016/j.geosus.2024.01.010

登录浏览全文

4963

注册一个新账户忘记密码

Declaration of competing interests

The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Supplementary materials

Supplementary material associated with this article can be found, in the online version, at doi:10.1016/j.geosus.2024.01.010.

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Akber, M. A., Khan, M. W. R., Islam, M. A., Rahman, M. M., Rahman, M. R., 2018. Impact of land use change on ecosystem services of southwest coastal Bangladesh. J. Land Use Sci., 13(3), 238-250.

[2]	Akhtar, M. P., Moniruzzaman, M, Siddik, M. A, Hoque, MA-.A., 2018. Vulnerability and coping strategy of female-headed households in a waterlogged area of Bangladesh. Jagannath Univ. J. Life Earth Sci., 4(1), 25-41.

[3]	Akter, R, Hasan, N, Reza, F, Asaduzzaman, M, Begum, K, Shammi, M., 2023. Hydrobiology of saline agriculture ecosystem: a review of scenario change in south-west region of Bangladesh. Hydrobiology 2(1), 162-180.

[4]	Anderson, J.R., Hardy, E.E., Roach, J.T., Witmer, R.E., 1976. A land use and land cover classification system for use with remote sensor data, Professional Paper. https://doi.org/10.3133/PP964.

[5]	Asante-Yeboah, E, Ashiagbor, G, Asubonteng, K, Sieber, S, Mensah, J. C., Fürst, C., 2022. Analyzing variations in size and intensities in land use dynamics for sustainable land use management: a case of the coastal landscapes of south-western Ghana. Land 11(6), 815.

[6]	Avelar, S, Tokarczyk, P., 2014. Analysis of land use and land cover change in a coastal area of Rio de Janeiro using high-resolution remotely sensed data. J. Appl. Remote Sens., 8(1), 083631.

[7]	Avitabile, V, Baccini, A, Friedl, M. A., Schmullius, C., 2012. Capabilities and limitations of landsat and land cover data for aboveground woody biomass estimation of Uganda. Remote Sens. Environ., 117, 366-380.

[8]	Badamfirooz, J, Mousazadeh, R., 2019. Quantitative assessment of land use/land cover changes on the value of ecosystem services in the coastal landscape of Anzali International Wetland. Environ. Monit. Assess., 191(11), 1-13.

[9]	Baśnou, C, Bagaria, G, Guardiola, M, Isern, R, Vicente, P, Pino, J., 2013. Spatial patterns of land use changes across a mediterranean metropolitan landscape: implications for biodiversity management. Environ. Manage., 52(4), 971-980.

[10]	Bell, S, Alves, S, de Oliveira, E. S., Zuin, A., 2010. Migration and land use change in Europe: a review. Living Rev. Landsc. Res., 4(1), 1-49.

[11]	Bhatta, B., 2010. Analysis of urban growth and sprawl from remote sensing data. Advances in Geographic Information Science, Springer Berlin Heidelberg, Berlin, Heidelberg

[12]	Bian, K, Tan, L, Shen, Y, Chen, X, Xu, J., 2023. Spatial pattern of land use along the terrain gradient of Qinghai Tibet Plateau: a case study of Qiangtang Plateau, China. Front. Environ. Sci., 11, 1217225.

[13]	Camacho-Valdez, V, Ruiz-Luna, A, Ghermandi, A, Berlanga-Robles, C. A., Nunes, P. A. L. D., 2014. Effects of land use changes on the ecosystem service values of coastal wetlands. Environ. Manage., 54(4), 852-864.

[14]	Campbell, J. B., 2007. Introduction to Remote Sensing, Fourth ed. The Guilford Press, New York, USA

[15]	Cetin, M, Musaoglu, N, Tanik, A., 2008. Multitemporal assessment of land-use change in a rapidly urbanizing coastal region in Turkey using remote sensing. Environ. Eng. Sci., 25(6), 917-928.

[16]	Chanu, C. S., Elango, L, Shankar, G. R., 2021. A geospatial approach for assessing the relation between changing land use/land cover and environmental parameters including land surface temperature of Chennai metropolitan city. India. Arab. J. Geosci., 14(2), 1-16.

[17]	Chen, C, Chen, H, Liao, W, Sui, X, Wang, L, Chen, J, Chu, Y., 2020. Dynamic monitoring and analysis of land-use and land-cover change using Landsat multitemporal data in the Zhoushan Archipelago, China. IEEE Access 8, 210360-210369.

[18]	Chen, D, Elhadj, A, Xu, H, Xu, X, Qiao, Z., 2020. A study on the relationship between land use change and water quality of the Mitidja watershed in Algeria based on GIS and RS. Sustainability 12(9), 3510.

[19]	Cinar, İ., 2015. Assessing the correlation between land cover conversion and temporal climate change—a pilot study in coastal Mediterranean city, Fethiye, Turkey. Atmosphere 6(8), 1102-1118.

[20]	Datta, D, Deb, S., 2012. Analysis of coastal land use/land cover changes in the Indian Sunderbans using remotely sensed data. Geo-spatial Inf. Sci., 15(4), 241-250.

[21]	Devi, A. B., Nair, A. M., 2021. Effects of urbanisation in a shallow coastal aquifer: an integrated GIS-based case study in Cochin, India. Groundw. Sustain. Dev., 15, 100656.

[22]	DFID, 1999. Sustainable livelihoods guidance sheets. DFID, London.

[23]	Domingo, D, Palka, G, Hersperger, A. M., 2021. Effect of zoning plans on urban land-use change: a multi-scenario simulation for supporting sustainable urban growth. Sustain. Cities Soc., 69, 102833.

[24]	Dong, R, Yu, L, Liu, G., 2008. Impact of tourism development on land-cover change in a matriarchal community in the Lugu Lake area. Int. J. Sustain. Dev. World Ecol., 15(1), 28-35.

[25]	Elmqvist, T., Alfsen, C., Colding, J., 2008. Urban systems. In: Jørgensen, S.E., Fath, B.D. (Eds.), Encyclopedia of Ecology, Five-Volume Set. Elsevier Inc., pp. 3665–3672.

[26]	Enaruvbe, G. O., Ige-Olumide, O., 2015. Geospatial analysis of land-use change processes in a densely populated coastal city: the case of Port Harcourt, south-east Nigeria. Geocarto Int., 30(4), 441-456.

[27]	Faruque, G, Sarwer, R. H., Karim, M, Phillips, M, Collis, W. J., Belton, B, Kassam, L., 2017. The evolution of aquatic agricultural systems in Southwest Bangladesh in response to salinity and other drivers of change. Int. J. Agric. Sustain., 15(2), 185-207.

[28]	Fuentes, R, León-Muñoz, J, Echeverría, C., 2017. Spatially explicit modelling of the impacts of land-use and land-cover change on nutrient inputs to an oligotrophic lake. Int. J. Remote Sens., 38(24), 7531-7550.

[29]	Gani, M. A., Sajib, A. M., Siddik, M. A., Moniruzzaman, M., 2023. Assessing the impact of land use and land cover on river water quality using water quality index and remote sensing techniques. Environ. Monit. Assess., 195(4), 1-23.

[30]	Garg, S., 2017. Impact of overpopulation on land use pattern. In: Singh, R.P., Singh, A., Srivastava, V. (Eds.), Environmental Issues Surrounding Human Overpopulation. IGI Global, pp. 137–154.

[31]	Gopalakrishnan, T, Hasan, M. K., Haque, A. T. M. S., Jayasinghe, S. L., Kumar, L., 2019. Sustainability of coastal agriculture under climate change. Sustainability 11(24), 7200.

[32]

Habiba, U, Abedin, M. A., Shaw, R, Hassan, A. W. R. 2013. Salinity-induced livelihood stress in coastal region of Bangladesh. M.A. Abedin, U. Habiba, R. Shaw (Eds.), Water Insecurity: A Social Dilemma (Community, Environment and Disaster Risk Management, 13, Emerald Group Publishing Limited, Leeds, pp.139-165.

[33]	Hanks, R. D., Baldwin, R. F., Folk, T. H., Wiggers, E. P., Coen, R. H., Gouin, M. L., Agha, A, Richter, D. D., Fields-Black, E. L., 2021. Mapping antebellum rice fields as a basis for understanding human and ecological consequences of the era of slavery. Land 10(8), 831.

[34]	Hartanto, I. S., Rachmawati, R., 2017. Assessing the spatial-temporal land use change and encroachment activities due to flood hazard in north coast of central Java, Indonesia. Indones. J. Geogr., 49(2), 165-176.

[35]	Hasnat, G. N. T., Siddik, M. A., Zaman, A. K. M. M. 2018. Land use changing pattern and challenges for agricultural activities: a study on Dumki Upazila, Patuakhali. J. Patuakhali Sci. Tech. Univ., 1–2, pp.67-76.

[36]	Havlíček, M, Chrudina, Z., 2013. Long-term land use changes in relation to selected relief characteristics in western Carpathians and western Pannonian basin - case study from Hodonín District (Czech Republic). Carpathian J. Earth Environ. Sci., 8(3), 231-244.

[37]	Hawash, E, El-Hassanin, A, Amer, W, El-Nahry, A, Effat, H., 2021. Change detection and urban expansion of Port Sudan, Red Sea, using remote sensing and GIS. Environ. Monit. Assess., 193(11), 723.

[38]	Hernández-Guzmán, R, Ruiz-Luna, A, González, C., 2019. Assessing and modeling the impact of land use and changes in land cover related to carbon storage in a western basin in Mexico. Remote Sens. Appl. Soc. Environ., 13, 318-327.

[39]	Hooke, R. L. B., Martín-Duque, J. F., Pedraza, J., 2012. Land transformation by humans: a review. GSA Today 22(12), 4-10.

[40]	Hoque, M. Z., Islam, I, Ahmed, M, Shamim Hasan, S, Ahmed Prodhan, F., 2022. Spatio-temporal changes of land use land cover and ecosystem service values in coastal Bangladesh. Egypt. J. Remote Sens. Sp. Sci., 25(1), 173-180.

[41]	Huang, C, Zhou, Z, Teng, M, Wu, C, Wang, P., 2020. Effects of climate, land use and land cover changes on soil loss in the Three Gorges Reservoir area, China. Geogr. Sustain., 1(3), 200-208.

[42]	Huang, J, Tu, Z, Lin, J., 2009. Land-use dynamics and landscape pattern change in a coastal gulf region, southeast China. Int. J. Sustain. Dev. World Ecol., 16(1), 61-66.

[43]	Hussein, K, Alkaabi, K, Ghebreyesus, D, Liaqat, M. U., Sharif, H. O., 2020. Land use/land cover change along the eastern coast of the UAE and its impact on flooding risk. Geomat. Nat. Haz. Risk 11(1), 112-130.

[44]	Idowu, T. E., Waswa, R. M., Lasisi, K, Nyadawa, M, Okumu, V., 2020. Object-based land use/land cover change detection of a coastal city using multi-source imagery: a case study of Lagos, Nigeria. S. Afr. J. Geomat., 9(2), 136-148.

[45]	Imran, H. M., Hossain, A, Islam, A. K. M. S., Rahman, A, Bhuiyan, M. A. E., Paul, S, Alam, A., 2021. Impact of land cover changes on land surface temperature and human thermal comfort in Dhaka City of Bangladesh. Earth Syst. Environ., 5(3), 667-693.

[46]	Kafy, A-A, Dey, N. N., Al Rakib, A, Rahaman, Z. A., Nasher, N. M. R., Bhatt, A., 2021. Modeling the relationship between land use/land cover and land surface temperature in Dhaka, Bangladesh using CA-ANN algorithm. Environ. Challenges 4, 100190.

[47]	Kaliraj, S, Chandrasekar, N, Ramachandran, K. K., Srinivas, Y, Saravanan, S., 2017. Coastal landuse and land cover change and transformations of Kanyakumari coast, India using remote sensing and GIS. Egypt. J. Remote Sens. Sp. Sci., 20(2), 169-185.

[48]	Kankam, S, Osman, A, Inkoom, J. N., Fürst, C., 2022. Implications of spatio-temporal land use/cover changes for ecosystem services supply in the coastal landscapes of southwestern Ghana, West Africa. Land 11(9), 1408.

[49]	Kara, B, Esbah, H, Deniz, B., 2013. Monitoring and analyzing land use/land cover changes in a developing coastal town: a case study of Kusadasi, Turkey. J. Coast. Res., 29(6), 1361-1372.

[50]	Kesgin, B, Nurlu, E., 2009. Land cover changes on the coastal zone of Candarli Bay, Turkey using remotely sensed data. Environ. Monit. Assess., 157(1–4), 89-96.

[51]	Kolios, S, Stylios, C. D., 2013. Identification of land cover/land use changes in the greater area of the Preveza peninsula in Greece using Landsat satellite data. Appl. Geogr., 40, 150-160.

[52]	Kuleli, T, Bayazıt, S., 2022. Land cover change detection in the Turkish coastal zone based on 28-year (1990–2018) Corine data. Environ. Monit. Assess., 194(12), 846.

[53]	Kurt, S., 2013. Land use changes in Istanbul's Black Sea coastal regions between 1987 and 2007. J. Geogr. Sci., 23(2), 271-279.

[54]

Lambin, E. F., Turner, B. L., Geist, H. J., Agbola, S. B., Angelsen, A, Bruce, J. W., Coomes, O. T., Dirzo, R, Fischer, G, Folke, C, George, P. S., Homewood, K, Imbernon, J, Leemans, R, Li, X, Moran, E. F., Mortimore, M, Ramakrishnan, P. S., Richards, J. F., Skånes, H, Steffen, W, Stone, G. D., Svedin, U, Veldkamp, T. A., Vogel, C, Xu, J., 2001. The causes of land-use and land-cover change: moving beyond the myths. Glob. Environ. Chang., 11(4), 261-269.

[55]	Li, Y, Long, H, Liu, Y., 2010. Industrial development and land use/cover change and their effects on local environment: a case study of Changshu in eastern coastal China. Front. Environ. Sci. Eng. China 4(4), 438-448.

[56]	Liang, S, Fang, H, Chen, M., 2001. Atmospheric correction of Landsat ETM+ land surface imagery-Part I: methods. IEEE Trans. Geosci. Remote Sens., 39(11), 2490-2498.

[57]	Liang, Y, Zeng, J, Li, S., 2022. Examining the spatial variations of land use change and its impact factors in a coastal area in Vietnam. Land 11(10), 1751.

[58]

Liberati, A, Altman, D. G., Tetzlaff, J, Mulrow, C, Gøtzsche, P. C., Ioannidis, J. P. A., Clarke, M, Devereaux, P. J., Kleijnen, J, Moher, D., 2009. The PRISMA statement for reporting systematic reviews and meta-analyses of studies that evaluate healthcare interventions: explanation and elaboration. PLoS Med., 6(7), e1000100.

[59]	Lin, L, Qiu, H., 2022. The changes and driving factors of coastal areas land use in time and space: a case study in Fujian Province, southeast China. Polish J. Environ. Stud., 31(3), 2695-2707.

[60]	Ma, T, Li, X, Bai, J, Ding, S, Zhou, F, Cui, B., 2019. Four decades’ dynamics of coastal blue carbon storage driven by land use/land cover transformation under natural and anthropogenic processes in the Yellow River Delta, China. Sci. Total Environ., 655, 741-750.

[61]	Maja, M. M., Ayano, S. F., 2021. The impact of population growth on natural resources and farmers’ capacity to adapt to climate change in low-income countries. Earth Syst. Environ., 5(2), 271-283.

[62]	Mousazadeh, R, Ghaffarzadeh, H, Nouri, J, Gharagozlou, A, Farahpour, M., 2015. Land use change detection and impact assessment in Anzali international coastal wetland using multi-temporal satellite images. Environ. Monit. Assess., 187(12), 1-11.

[63]	Muttitanon, W, Tripathi, N. K., 2005. Land use/land cover changes in the coastal zone of Ban Don Bay, Thailand using Landsat 5 TM data. Int. J. Remote Sens., 26(11), 2311-2323.

[64]	Nabiollahi, K, Golmohamadi, F, Taghizadeh-Mehrjardi, R, Kerry, R, Davari, M., 2018. Assessing the effects of slope gradient and land use change on soil quality degradation through digital mapping of soil quality indices and soil loss rate. Geoderma 318, 16-28.

[65]	NAS, A.d.Living, Ocean [WWW, Document]. UR, L https://science.nasa.gov/earth-science/oceanography/living-ocean (accessed 19 May 2023).

[66]	Nelson, S. A. C., Soranno, P. A., Qi, J., 2002. Land-cover change in upper Barataria Basin estuary, Louisiana, 1972–1992: increases in wetland area. Environ. Manage., 29(5), 716-727.

[67]	Ning, J, Gao, Z, Meng, R, Xu, F, Gao, M., 2018. Analysis of relationships between land surface temperature and land use changes in the Yellow River Delta. Front. Earth Sci., 12(2), 444-456.

[68]	Nosakhare, O. K., Aighewi, I. T., Chi, A. Y., Ishaque, A. B., Mbamalu, G., 2012. Land use–land cover changes in the lower eastern shore watersheds and coastal bays of Maryland: 1986–2006. J. Coast. Res., 278(1 A), 54-62.

[69]	Nuissl, H, Siedentop, S. 2021. Urbanisation and land use change. T. Weith, T. Barkmann, N. Gaasch, S. Rogga, C. Strauß, J. Zscheischler (Eds.), Sustainable Land Management in a European Context, Springer, Cham, pp.75-99.

[70]

Page, M. J., McKenzie, J. E., Bossuyt, P. M., Boutron, I, Hoffmann, T. C., Mulrow, C. D., Shamseer, L, Tetzlaff, J. M., Akl, E. A., Brennan, S. E., Chou, R, Glanville, J, Grimshaw, J. M., Hróbjartsson, A, Lalu, M. M., Li, T, Loder, E. W., Mayo-Wilson, E, McDonald, S, McGuinness, L. A., Stewart, L. A., Thomas, J, Tricco, A. C., Welch, V. A., Whiting, P, Moher, D., 2021. The PRISMA 2020 statement: an updated guideline for reporting systematic reviews. BMJ 372(71), PMC8005924.

[71]	Paudel, G. S., 2002. Coping with land scarcity. Farmers’ changing land-use and management practices in two mountain watersheds of Nepal. Nor. Geogr. Tidsskr., 56(1), 21-31.

[72]	Pham, T. T. M, Nguyen, T-.D, Tham, H. T. N., Truong, T. N. K., Lam-Dao, N, Nguyen-Huy, T., 2021. Specifying the relationship between land use/land cover change and dryness in central Vietnam from 2000 to 2019 using Google Earth Engine. J. Appl. Remote Sens., 15(2), 024503.

[73]	Rabbani, G., Munira, S., Saif, S., 2018. Coastal Community Adaptation to Climate Change-Induced Salinity Intrusion in Bangladesh. In: Kulshreshtha, S.N. (Ed.), Agricultural Economics - Current Issues. IntechOpen. https://doi.org/10.5772/INTECHOPEN.80418

[74]	Rahman, M. T., Aldosary, A. S., Mortoja, M. G., 2017. Modeling future land cover changes and their effects on the land surface temperatures in the Saudi Arabian eastern coastal city of Dammam. Land 6(2), 36.

[75]	Rahman, M. T. U., Esha, E. J., 2022. Prediction of land cover change based on CA-ANN model to assess its local impacts on Bagerhat, southwestern coastal Bangladesh. Geocarto Int., 37(9), 2604-2626.

[76]	Rahman, M. T. U., Ferdous, J., 2021. Spatio-temporal variation and prediction of land use based on CA-Markov of southwestern coastal district of Bangladesh. Remote Sens. Appl. Soc. Environ., 24, 100609.

[77]	Rahman, M. T. U., Tabassum, F, Rasheduzzaman, M, Saba, H, Sarkar, L, Ferdous, J, Uddin, S. Z., Zahedul Islam, A. Z. M., 2017. Temporal dynamics of land use/land cover change and its prediction using CA-ANN model for southwestern coastal Bangladesh. Environ. Monit. Assess., 189(11), 1-18.

[78]	Regasa, M. S., Nones, M, Adeba, D., 2021. A review on land use and land cover change in ethiopian basins. Land 10(6), 585.

[79]	Reichenbach, P, Busca, C, Mondini, A. C., Rossi, M., 2014. The influence of land use change on landslide susceptibility zonation: the Briga Catchment test site (Messina, Italy). Environ. Manage., 54(6), 1372-1384.

[80]	Reis, S., 2008. Analyzing land use/land cover changes using remote sensing and GIS in rize, north-east Turkey. Sensors 8(10), 6188-6202.

[81]	Sethi, R. R., SagarSahu, A, Srivastava, R. C., Das, M, Kumar, A, Tripathy, J. K., 2014. Monitoring land cover changes in coastal tract of Odisha using Landsat ETM+ imagery. Curr. World Environ., 9(2), 430-436.

[82]	Siddik, M. A., Akhtar, M. P., Moniruzzaman, M., 2018. Cyclone induced land transformation in the Bagerhat Coast of Bangladesh. Int. J. Innov. Res., 3(3), 68-72.

[83]	Siddik, M. A., Hasan, M. K., Islam, A. R. M. T., Islam, M. S., 2023. Coastal community valorisation through Patuakhali science and technology university: policy support and way forwards. J. Plan. Educ. Res. . doi: 10.1177/0739456x231195620.

[84]	Siddik, M. A., Rahman, M. A., 2022. Causes and impacts of rural land fragmentation in the coastal belt of Bangladesh. Indones. J. Geogr., 54(2), 206-212.

[85]	Siddik, M. A., Zaman, A. K. M. M., 2021. Land use and energy nexus. J. Energy - Energ., 70(3), 8-13.

[86]	Siddik, M. A., Zaman, A. K. M. M., Islam, M. R., Hridoy, S. K., Akhtar, M. P., 2017. Socio-economic impacts of river bank erosion: a case study on coastal island of Bangladesh. J. NOAMI 34(2), 73-84.

[87]	Singh, V. K., Singh, P, Karmakar, M, Leta, J, Mayr, P., 2021. The journal coverage of Web of Science, Scopus and dimensions: a comparative analysis. Scientometrics 126(6), 5113-5142.

[88]	Sönmez, N. K., Onur, I, Sari, M, Maktav, D., 2009. Monitoring changes in land cover/use by CORINE methodology using aerial photographs and IKONOS satellite images: a case study for Kemer, Antalya, Turkey. Int. J. Remote Sens., 30(7), 1771-1778.

[89]	Swartz, M. K., 2011. The PRISMA statement: a guideline for systematic reviews and meta-analyses. J. Pediatr. Heal. Care., 25(1), 1-2.

[90]	Tan, J, Yu, D, Li, Q, Tan, X, Zhou, W., 2020. Spatial relationship between land-use/land-cover change and land surface temperature in the Dongting Lake area, China. Sci. Rep., 10(1), 1-9.

[91]	Tiwari, S, Singh, C, Boudh, S, Rai, P. K., Gupta, V. K., Singh, J. S., 2019. Land use change: a key ecological disturbance declines soil microbial biomass in dry tropical uplands. J. Environ. Manage., 242, 1-10.

[92]	Tran, H, Campbell, J, Wynne, R, Shao, Y, Phan, S., 2019. Drought and human impacts on land use and land cover change in a Vietnamese coastal area. Remote Sens., 11(3), 333.

[93]	Tran, H, Tran, T, Kervyn, M., 2015. Dynamics of land cover/land use changes in the Mekong Delta, 1973–2011: a remote sensing analysis of the Tran Van Thoi District, Ca Mau Province, Vietnam. Remote Sens., 7(3), 2899-2925.

[94]	Tuan, N. T., 2022. Urbanization and land use change: a study in Vietnam. Environ. Socio-econ. Stud., 10(2), 19-29.

[95]	Wang, J, Liu, Y., 2013. Tourism-led land-use changes and their environmental effects in the southern coastal region of Hainan Island, China. J. Coast. Res., 29(5), 1118-1125.

[96]	Wardhani, M. K., Rosyid, D. M., Armono, H. D., 2022. Land use change of Mangrove Forest for eco-tourism in the south coastal, Bangkalan, east Java-Indonesia. GEM-Int. J. Geomath., 23(98), 136-146.

[97]	Weng, Q., 2002. Land use change analysis in the Zhujiang Delta of China using satellite remote sensing, GIS and stochastic modelling. J. Environ. Manage., 64(3), 273-284.

[98]	Wijedasa, L. S., Sloan, S, Michelakis, D. G., Clements, G. R., 2012. Overcoming limitations with Landsat imagery for mapping of peat swamp forests in Sundaland. Remote Sens., 4(9), 2595-2618.

[99]	Worldank, B., 2022. World Factbook: The Physical World. https://www.cia.gov/the-world-factbook/static/6c4d9b9a41b27707b6720720df7161d6/Physical_World.pdf.

[100]

Cai, Z, Lin, W, Gao, J, Li, L., 2022. Land use change and ecosystem health assessment on Shanghai–Hangzhou Bay, Eastern China. Land 11(6), 867.

[101]

Xystrakis, F, Psarras, T, Koutsias, N. 2017. A process-based land use/land cover change assessment on a mountainous area of Greece during 1945–2009: signs of socio-economic drivers. Sci. Total Environ., 587–588, pp.360-370.

[102]

Yagoub, M. M., Kolan, G. R., 2006. Monitoring coastal zone land use and land cover changes of Abu Dhabi using remote sensing. J. Indian Soc. Remote Sens., 34(1), 57-68.

[103]

Yılmaz, R., 2010. Monitoring land use/land cover changes using CORINE land cover data: a case study of Silivri coastal zone in Metropolitan Istanbul. Environ. Monit. Assess., 165(1–4), 603-615.

[104]

Yu, T, Mahe, L, Li, Y, Wei, X, Deng, X, Zhang, D., 2022. Benefits of crop rotation on climate resilience and its prospects in China. Agronomy 12(2), 436.

[105]

Zhan, Q, Zhao, W, Yang, M, Xiong, D., 2021. A long-term record (1995–2019) of the dynamics of land desertification in the middle reaches of Yarlung Zangbo River basin derived from Landsat data. Geogr. Sustain., 2(1), 12-21.

[106]

Zhao, Y, An, R, Xiong, N, Ou, D, Jiang, C., 2021. Spatio-temporal land-use/,land-cover change dynamics in coastal plains in Hangzhou Bay area, China from 2009 to 2020 using Google Earth engine. Land 10(11), 1149.

[107]

Zhu, G, Xu, X, Ma, Z, Xu, L, Porter, J. H., 2012. Spatial dynamics and zoning of coastal land-use change along Bohai Bay, China, during 1979–2008. J. Coast. Res., 28(5), 1196.