Analysis of Changes in the Area of Hamoon Wetlands and other Water Bodies in Sistan Region using Satellite Images

Document Type : Research Paper

Author

Department of Geography, Yazd university, Yazd, Iran

Abstract

 
Sistan region is one of the important regions whose life depends on the flow of Hirmand river. In this research, the trend of changes in the area of Hamoon wetlands and the factors affecting it, were investigated using satellite and meteorological data. For this purpose, the minimum, maximum, average temperature, precipitation and evaporation of Zabol station were used in the period of 1985-2018. Furthermore, satellite products include water bodies extracted from Landsat satellite images (JRC products 1985-2020), NDVI, PDSI, Sentinel 2 and GRACE satellite data used in the period of 2000-2022. The man-Kendall and Sen’s slope tests were used for evaluating time series trends of data. AWEI index was used to calculate the water areas of Sistan region. The results show a significant decrease the minimum, maximum, average temperature, precipitation, area of permanent water bodies, GRACE and PDSI. On the other hand, the changes in NDVI showed a significant increasing trend, which is caused by the quantitative development of agricultural lands in the Sistan plain. Also, the anthropogenic activities of Afghanistan have an impact on this river entering Iran. The results of the AWEI index showed that after the full exploitation of the Kamal Khan diversion dam, the natural flow of the Hirmand River has been diverted towards Gowdzereh in such a way that the area of water flowing in Gowdzereh is more than 34000 hectares and the area of water behind the Kamal-Khan dam is equal to 2899 hectares, which confirms the diversion effect of Kamal Khan Dam.

Keywords

References

Afzali, R., Kamran Dastjerdi, H., Zibasaz Khoshmanzareh, S., Zaki, Y., & Yazdanpanah Dero, Q (2022). Monitoring of water resources and vegetation in the Helmand Basin using satellite image time-series and border hydro-political challenges. Water Policy1246-1223,24.
https://doi.org/10.2166/wp.2022.280
Asghari, S., & Naderianfar, M (2014). Vulnerability of rural settlements from the sand dunes of the dry bed of Hamoon International Wetland in Hirmand county. Journal of Spatial Analysis of Environmental Hazards, 2(1), 17-30. [In Persian].
https://www.sid.ir/paper/264770/fa
Chambers, D.P (2006). Evaluation of new GRACE time‐variable gravity data over the ocean. Geophysical Research Letters, 33
 https://doi.org/10.1029/2006GL027296
Dalin, C., Wada, Y., Kastner, T., & Puma, M.J (2017). Groundwater depletion embedded in international food trade. Nature, 543, 700-704.
 DOI: 10.1038/nature21403
Deoli, V., & Kumar, D (2020). Analysis of groundwater fluctuation using GRACE satellite data. Indian Journal of Ecology, 47, 299-302.
 https://doi.org/10.3390/w15020282
Didan, K (2021). MODIS/Terra Vegetation Indices 16-Day L3 Global 500m SIN Grid V061 [Data set]. NASA EOSDIS Land Processes DAAC.
 https://ladsweb.modaps.eosdis.nasa.gov/missions-and-measurements/products/MOD13A1
Department of Environment (2014). Iran's Wetlands Protection Plan – Hamoon International Wetlands Comprehensive Management Plan. [In Persian].
  http://www.wetlandsproject.ir/publications/books/detail/Hamoun-International-Wetlands-Management-Plan-/1006/view
Ebrahimi-Khusfi, M., & Pourasghar-Sangachin, F (2017). Investigating the effects of neighboring countries' water regulation programs in transboundry basins on Iran. Development and Foresight Research Center. Research report [In Persian].
https://waterhouse.ir/news/1464
Feyisa, G.L., Meilby, H., Fensholt, R., & Proud, S.R (2014). Automated Water Extraction Index: A new technique for surface water mapping using Landsat imagery. Remote Sensing of Environment, 140, 23-35
https://doi.org/10.1016/j.rse.2013.08.029
Firouzi, F., Nikpour, N., Rakhshani, Z., Ghafarian-Malmiri, H., & Mahmoudi, M (2019). Monitoring the trend change of sand dunes with remote sensing approach (case study: Sistan plain). Geomorphology quantitative researches, 9(3), 255-239. [In Persian].
http://www.geomorphologyjournal.ir/article_122228.html
Ghorbani, K., Bararkhanpour, S., Valizadeh, E., & Mola-Arazi, A (2019). Regional analysis of trend and breaking point in SPEI drought index seasonal series in Iran, Journal of Water and Soil Protection Research, 27(4), 185-200. [In Persian].
https://jwsc.gau.ac.ir/article_5218.html
Haji Hosseini, M., Haji Hosseini, H., Shaygan, M., Morid, S., Vatanfeda, J., & Najafi, A (2012). Investigating land use changes in downstream of Kajki dam in Hirmand basin, Afghanistan using maximum liklihood classifier, decision tree and support vector machines. Iranian Journal of Remote Sensing and GIS, 5(4), 69-87. [In Persian]. 
https://gisj.sbu.ac.ir/article_95234.html
Iran Statistics Center (2019). Statistical calendar system. Statistical Yearbook of Sistan and Baluchistan Province.
https://nnt.sci.org.ir/sites/Apps/yearbook/Lists/year_book_req/Item/newifs.aspx
Islamic Council Research Center (2004). Water resources of the Sistan plain. Office of basic studies and legal studies. Subject code 410(7302).
 https://rc.majlis.ir/fa/report/show/734820
Hejazizadeh, Z., Naserzadeh, M.H., Hatami-Zarneh, D., & Rezaei, M (2013). The application of statistical methods and drought indices in the analysis of rainfall fluctuations, a case study: Kerman station. Geographical studies of dry regions, 5(17). 35-51. [In Persian].
 http://journals.hsu.ac.ir/jarhs/article-1-249-fa.html
Imani, R., Qazavi, R., & Ismaili, A (1400). Investigating the trend, analysis, modeling and prediction of monthly rainfall using stochastic models (case study of Ardabil station), geographical studies of dry areas, 11(44), 84-98. [In Persian].
 http://journals.hsu.ac.ir/jarhs/article-1-1687-fa.html
Karami, R., Rezaei, H., Salman-Mahini, A., & Ghorbani-Nasrabadi, Kh (2022). Assessment of climate changes in Hamoon International Wetland Basin using LARS-WG6 model, Journal of Natural Environmental Hazards, 11(31), 107-122. [In Persian].
 https://journals.usb.ac.ir/article_5948.html
Kendall, M (1975). Rank correlation measures, Vol. 202. Charles Griffin, London, 15
Landerer, F.W., & Swenson, S (2012). Accuracy of scaled GRACE terrestrial water storage estimates. Water resources research, 48.
 https://doi.org/10.1029/2011WR011453
Lettenmaier, D.P., Alsdorf, D., Dozier, J., Huffman, G.J., Pan, M., & Wood, E.F (2015). Inroads of remote sensing into hydrologic science during the WRR era. Water resources research, 51, 7309-7342.
 https://doi.org/10.1002/2015WR017616
Mann, H.B (1945). Nonparametric tests against trend. Econometrica: Journal of the econometric society, 245-259
McCabe, M.F., Rodell, M., Alsdorf, D.E., Miralles, D.G., Uijlenhoet, R., Wagner, W., Lucieer, A., Houborg, R., Verhoest, N.E., & Franz, T.E (2017). The future of Earth observation in hydrology. Hydrology and earth system sciences, 21, 3879-3914.
 doi: 10.5194/hess-21-3879-2017
Moiwo, J.P., Yang, Y., Li, H., Han, S., & Hu, Y (2009). Comparison of GRACE with in situ hydrological measurement data shows storage depletion in Hai River basin, Northern China. Water Sa, 35.
doi: 10.4314/wsa.v35i5.49192
Maleki, S., Koupaei, S.S., Soffianian, A., Saatchi, S., Pourmanafi, S., & Rahdari, V (2019). Human and climate effects on the Hamoun wetlands. Weather, Climate, and Society, 11, 609-622.
 DOI: 10.1175/WCAS-D-18-0070.1
Maleki, S., Rahdari, V., Baghdadi, N., & Pahlawanravi, A (2019). Using Sentinel-1 synthetic aperture radar data to study aquatic ecosystems. Iran's water resources research, 16(2), 259-270.
 http://www.iwrr.ir/article_113051.html
Management and Planning Organization of Sistan and Baluchistan Province (2021). Document on the development and spatial planning of the counties of Sistan and Baluchistan province - Zabol County, research project. [In Persian].
Mazidi, A., & BahauddinBegi, H (2021). Studying the trend of temperature, precipitation and wind speed in the northern and western regions of Kerman province using parametric and non-parametric tests. Geography and human relations. 4(14), 254-246.
 https://www.magiran.com/paper/2362495
Najafi, A., & Vatanfada, J (2011). Environmental challenges in trans-boundary waters, case study: Hamoon Hirmand Wetland (Iran and Afghanistan). International Journal of Water Resources and Arid Environments, 1, 16-24.
 https://www.psipw.org/attachments/article/300/IJWRAE_1(1)16-24.pdf
Omidvar, K., & Salari, H (2012). Studying the trend of heat and precipitation changes in the west and northwest of Iran using parametric and non-parametric methods. Geography, 11(37), 288-271. [In Persian].
https://www.sid.ir/paper/150411/fa
Parliament laws (1978). The law of the treaty regarding the water of the Hirmand River between the Government of Iran and the Government of Afghanistan. Law approved on 1978/08/20.
 https://rc.majlis.ir/fa/law/show/95041
Pekel, J.F., Cottam, A., Gorelick, N., & Belward, A.S (2016). High-resolution mapping of global surface water and its long-term changes. Nature, 540, 418-422.
 https://doi.org/10.1038/nature20584
Rahimi, M., Shokohi-razi, K., & Zolfaqari., A (2019). Investigating the trend of hydrological and meteorological variables in Hirmand Basin and its effect on land degradation in Sistan Plain, Journal of Water and Soil Protection Research, 27(3), 228-213. [In Persian].
 https://jwsc.gau.ac.ir/article_5143.html
Roudari, A., Hassanpour, F., Yaqubzadeh, M., & Delavar, H (2018). Investigating the relationship between meteorological and hydrological drought in the Sistan plain. Environmental Science and Technology, 21(85), 33-44. [In Persian].
 https://jest.srbiau.ac.ir/article_12146.html
Salighe, M (2011). The effect of Hamoon lake level changes on the local climate of Sistan. Proceedings of the Fourth International Congress of Geographers of the Islamic World. Zahedan. [In Persian].
https://civilica.com/doc/82832/
Salmi, T (2002). Detecting trends of annual values of atmospheric pollutants by the Mann-Kendall test and Sen's slope estimates-the Excel template application Makesens. Ilmatieteen laitos
https://www.scienceopen.com/document?vid=3d345849-152c-4d63-8c1a-c3159fa3563d
Sargazi, V (2021). The economic and social functions of the Hamoon lake in the life of the people of Sistan. Journal of Applied Studies in Social Sciences and Sociology, 2(15), 43-50. [In Persian].
 http://shij.ir/asscs/post.aspx?id=709
Shakeryari, M., Ehsani, A., Nasrabadi, T., & Mahmoudi, P (2015). Investigating the capability of Landsat sensor data to investigate land cover changes (case study: Hamoon International Wetland). Desert Ecosystem Engineering Journal, 5(10), 69-84. [In Persian].
  https://deej.kashanu.ac.ir/article-1-316-fa.html
Sharifi Kia, M (2011). Monitoring water level changes in Hamoon Lake, based on time series analysis of remote sensing images. Spatial Planning of Space, 14(3), 155-176. [In Persian].
 https://hsmsp.modares.ac.ir/article-21-6406-fa.html
Srivastava, A., & Saran, S (2017). Comprehensive study on AOD trends over the Indian subcontinent: a statistical approach. International Journal of Remote Sensing, 38, 5127-5149.
 https://doi.org/10.1080/01431161.2017.1323284
Swenson, S (2012). GRACE monthly land water mass grids Netcdf Release 5.0. Ver. 5.0. PO. DAAC
https://podaac.jpl.nasa.gov/dataset/TELLUS_LAND_NC_RL05
Tamiminia, H., Salehi, B., Mahdianpari, M., Quackenbush, L., Adeli, S., & Brisco, B (2020). Google Earth Engine for geo-big data applications: A meta-analysis and systematic review. ISPRS Journal of Photogrammetry and Remote Sensing, 164, 152-170.
 https://doi.org/10.1016/j.isprsjprs.2020.04.001
United Nations Environment Programme (2006). History of environmental change in the Sistan Basin: Based on satellite image analysis: 1976 – 2005.
https://wedocs.unep.org/20.500.11822/7690
UNEP-DHI, U (2016). Transboundary river basins: Status and trends. Nairobi, Kenya.
 https://www.unepdhi.org/transboundary-river-basins/
Van Dijk, A., & Renzullo, L.J (2011). Water resource monitoring systems and the role of satellite observations. Hydrology and earth system sciences, 15, 39-55.
 https://doi.org/10.5194/hess-15-39-2011
Vicente-Serrano, S.M., Beguería, S., & López-Moreno, J.I (2010). A multiscalar drought index sensitive to global warming: the standardized precipitation evapotranspiration index. Journal of climate, 23, 1696-1718.
 https://doi.org/10.1175/2009JCLI2909.1
Zhang, Y., Pan, M., & Wood, E.F (2016). On creating global gridded terrestrial water budget estimates from satellite remote sensing. Remote sensing and water resources (59-78): Springer.
 DOI: 10.1007/978-3-319-32449-4_4
 
 

Files

History

  • Receive Date: 01 May 2023
  • Accept Date: 01 May 2023

Share

How to cite

Statistics