Studying and Monitoring Changes in Horul Azim Wetland Using Landsat 8 Images

Document Type : Research Paper

Authors

1 Department of Geography, Faculty of Humanities and Social, Yazd University, yazd, Iran.

2 Associate professor in Climatalogy , Department of Geography, Yazd University

Abstract

Wetlands are one of the most important ecosystems and living areas in the world, one of the most obvious beauty and masterpieces of creation. As an essential part of the global ecosystem, these wetlands have played an important role in preventing or reducing the intensity of floods, feeding underground aquifers, providing a unique habitat for plants and animals, maintaining water quality, agricultural production, fisheries, saving floods, and controlling soil erosion. The current research aims to investigate the changes in water surface and water area as well as the changes in the land cover of Horul Azim Wetland for the statistical period of 2013 to 2022 using Landsat8 satellite images. In this study, maps of water areas and land cover were made using Landsat8 image integration techniques and by applying the AWEI spectral index and maximum likelihood algorithm in ENVI5.3, ArcGIS software. By checking the accuracy of the results of satellite image processing and classification (2013 Kappa coefficient equal to 95% and overall accuracy 96%, year 2022 Kappa coefficient equal to 90% and overall accuracy 92%) It was found that the supervised image classification, the maximum likelihood algorithm for the studied area is close to ground reality and has acceptable accuracy. Also, the maps related to the monitoring of changes in the water area of Horul Azim wetland (AWEI index) showed that the size of the wetland has been decreasing in the studied years, so in 2013 the area of the water area of the wetland was equal to 336 square kilometers. which has decreased to 147 square kilometers in 2022. The results of the classification of images in the studied years also indicate the decrease of water and plant covers and the increase of barren lands and salt marshes in the studied periods. There have been many influential factors, including environmental and human factors, on this process of changes in the studied periods.
 
Extended Abstract
1-Introduction
Wetlands are considered one of the most obvious beauties of nature, the most useful and at the same time the most challenging part of nature's ecosystems. These vital and diverse habitats are among life-giving systems that have absolutely no substitute. Recently, it has been estimated that global wetlands occupy about 6.2 to 6.7 percent of the earth's surface. With more than 251 large and small wetlands, Iran is of special importance in Southwest Asia due to its geographical location. Horul Azim Lagoon has changed its area and water level in the past decades due to various reasons. Considering the ecological importance of this wetland for the country, it is necessary to monitor and evaluate the changes in this wetland and study the consequences of these changes. The study of land cover changes has a very long history and coincides with the beginning of human life. Thus, after the formation of societies, the first humans began to change the cover of unused land to suitable land for agriculture and animal husbandry. Considering the importance and necessity of monitoring the change of Horul Azim wetland. We intend to use satellite images by applying the technique of integrating Landsat 8 satellite images during the period from 2013 to 2022. By applying the maximum likelihood classification method and AWEI spectral index, let's investigate the changing process of land cover and water areas of Horul Azim lagoon.
 
2-Materials and Methods
In this research, Landsat 8 multi-temporal satellite images (OLI meter) have been used. In total, 2 images were obtained from the US Geological Survey website and were used in the analysis of the research steps that will be described below. In total, 2 images were obtained from the US Geological Survey website and were used in the analysis of the research steps that will be described below. In total, 2 images were obtained from the US Geological Survey website and were used in the analysis of the research steps that will be described below. Radiometric (atmospheric) corrections were done for all the used images. In this study, to highlight the images and extract more information from the images from the false color combination, Landsat 8 and (5-4-3 near-infrared bands, red and green). To use different applications, the Gram, Schmidt and Pansharpring methods showed better sharpness of the features of the study area than other methods, so the combination of images was applied with this method. To identify the blue zone of the investigated area from the AWEI spectral index and to investigate land cover changes, the maximum likelihood classification method has been used.
 
3- Results and Discussion
In the present study, using ENVI 5.3 software in band calculations Spectral index, AWEI was selected and calculated for the years 2013 and 2022 to extract the water area of Horul Azim lagoon. the results showed that; the AWEI index has values greater than zero (positive values) indicating the water zone and smaller than zero (negative values) indicating the non-water zone (vegetation and soil). After performing the classification process, it is necessary to calculate the accuracy of this classification. To ensure the accuracy of the classification, the classification accuracy was evaluated, for this purpose, the Kappa coefficient and overall accuracy were calculated using the ground control points for each class separately in ENVI 5.3 software. The result of the accuracy evaluation is shown in the error matrix table. According to the available data, the spatial resolution of the images, and the researcher's knowledge, 4 educational classes, including water cover, vegetation cover, barren land, and saline land, have been selected for each image separately. The results obtained from the maximum likelihood classification method in the ENVI5.3 software environment were changed to vector format and the result was transferred to the GIS software environment in shape file format and land cover classes was determined.
 
4- Conclusion
The results of monitoring changes in the water area of Horul Azim lagoon (AWEI index) showed that the size of the wetland has been decreasing in the studied years it was also determined by checking the accuracy of the results of processing and classification of satellite images that the classification of images in a supervised manner, the maximum likelihood algorithm for the studied area is close to the ground realities and has acceptable accuracy. The results of the classification of images in the investigated years also indicate a decrease in water and vegetation cover and an increase in barren and salt marshlands in the investigated periods. There have been many influential factors, including environmental and human factors, on this process of changes in the investigated period, which include these cases: Successive droughts and the occurrence of harmful changes in the climate have caused changes in environmental conditions such as high salinity and inappropriate temperature. This means that significant changes in the ecosystem have reduced the number of aquatic species, animals, and plants, as well as people, which has led to a decrease in diversity indicators and an increase in dominance. The increase in pollution was caused by the entry of industrial, agricultural, and urban effluents into the rivers leading to the wetland. In addition, the construction of roads and embankments, in addition to cutting off the water connection of parts of the wetland, has turned them into salt marshes and dry land. The construction of the Karkheh dam and a result of not respecting the water rights of the lagoon, human encroachments, and occupations, including road construction, Oil activities, and encroachment on wetland lands have caused some parts of the wetland to dry up completely As a result of the fragmentation of the wetland and the increase of dry and salinity spots, the drying of the wetland is spreading. This trend states that the increase in human interventions will lead to an increase in the destruction process.

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References

Abpardazan Consultancy Engineering Company. (2013). revision of the studies of the first stage of organizing Horul Azim. Khuzestan Water and Electricity Organization Joint Stock Company. (In Persian).
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 Policy, 8 (24), 122- 246. doi: 10.2166/wp.2022.280.
Ahmadi Nedushan, M., Sufianian, A.R., & Khwaja-al-Din, S. J.D. (2009). Preparation of land cover map of Arak city using artificial neural network and maximum likelihood classification methods. Natural Geographical Researches, 41 (69), 83-98. https://jphgr. t.ac.ir/article_21515.html (In Persian)
Akbari, E., & Shikarabadi, A. (2013). Processing and extracting information from satellite data using ENVI software with applied examples in earth sciences, mapping, geography and enviro-nment. Geography and Environment, Tehran, Satellite Publishing. (In Persian).
Alavi-Panah, S. K. (2006). Thermal remote sensing and its application in earth sciences. Swco-nd edition, Tehran, Tehran University Press. (In Persian).
Alavi-Panah, S. K. (2012). Application of Remote Sensing in Earth Sciences (Soil Sciences). 4th edition, Tehran University Press. (In Persian).
Ali Bakshi,T., Azizi, Z., Vafainejad, A., & Aghamohammadi Zanjerabadi, H. (2019). Investiga-ting the changes in the area of the water areas of Shahid Abbasour dam catchment area due to the floods of 2019 using Google Earth Engine. Ecohydrology magazine, 7 (2), 345- 357. doi: 10.22059/IJE.2020.295785.1272 (In Persian).
Bagheri, M. H., Bagheri, A., & Sehouli, G. A. (2015). Analysis of changes in the water area of Bakhtegan Lake under the influence of natural and human factors. Iranian Journal of Water Resources Research, 12 (3), 1-11. https://www.iwrr.ir/article_41333.html (In Persian). 
Campos, J.C., Sillero, N., & Brito, J.C. (2012). Normalized difference water indexes have dissimilar performances in detecting seasonal and permanent water in the Sahara–Sahel transition zone. Journal of Hydrology, 1 (25), 438-446. doi: 10.1016/j.jhydrol.2012.07. 042.
Cheshm-Barah, F. (2013). the effect of land cover change on desertification using remote sens-ing (case study: Abarkoh Plain) Mokhtari. Faculty of Natural Resources and Desertology, Yazd University. (In Persian).
Deoli, V., & Kumar, D. (2020). Analysis of groundwater fluctuation using GRACE satellite data. Indian Journal of Ecology, 4 (96), 299-302.
Ebadi, M. (2018). The use of satellite images in the assessment of land use changes in the Horul Azim wetland and the impact of changes on the region's ecosystem. Master's thesis, Shahid Chamran University of Ahvaz, Faculty of Earth Sciences. (In Persian).
Ebrahimi Khosfi, M. (2023). Analysis of changes in the area of Hamon wetlands and other water areas in Sistan region using satellite images. Geography and Development, University of Sistan and Baluchistan, 21 (71), 139- 165. doi: 10.22111/GDIJ.2023.7598 (In Persian).
Faizizadeh, B. (2016). Comparison of pixel-based and object-oriented methods in the preparation of land cover maps (case study: eastern plain of Lake Urmia). Master's Thesis (RS & GIS), Faculty of Human Sciences and social of Tabriz University. (In Persian).
Fatemi, S.B., & Rezaei, Y. (2012). Remote Sensing Foundations. Basics of remote sensing. 4th edition, Azadeh Publishing House, Tehran. (In Persian).
Feyisa, G.L., Meilby, H., Fensholt, R., & Proud, S.R. (2014). Automated Water Extraction Index: A new techniquefor surface water mapping using Landsat imagery. Remote Sensing of Environment, 23 (140), 23-35. doi: 10.1016/j.rse.2013.08.029.
Foladvand, S., Sayad, Gh., Hammadi, K., & Moazed, H. (2013). investigation of quan-titative changes of water entering Horul Azim wetland due to the construction of Kark-heh reservoir dam. the first national conference on strategies to achieve sustainable agriculture, Payam Noor University, Khuzestan province, 36 (4), 1-8. doi: 20.1001.1.25885952.1392.36.4.1.8 (In Persian)
Ghorbani, R., Taghipour, A.A., & Mahmoudzadeh, H. (1990). Evaluation and analysis of land use changes in the area of Alagol, Almagol and Ajigol international wetlands of the Turkmen Sahara using multi-temporal satellite images. Geography and Environme-ntal Planning, 23 (4),168-186. https://gep.ui.ac.ir/article_18573.html (In Persian).
Khedmat‎ gozar dolati, M. (2013). preparation of land cover map using principal component analysis on satellite images (Shagarud region). Natural Resources Master's Thesis, Gilan University. (In Persian).
Khorramshahr University of Marine Sciences and Technology. (2018). Horul Azim Comprehensive Studies, Khuzestan Fisheries Directorate. (In Persian).
Khosravi, M. (2009). Temporal-spatial analysis of the stability of Hamon Lakes. Iran Water Resources Research Journal, 6 (3), 68-79. https://www.iwrr.ir/article_15984.html (In Persian).
Lorestani, Q., & Shahriar, A. (2018). Application of ENVI in Remote Sensing (Analysis and Interpretation of Satellite Images). Tehran University Publications. (In Persian).
Maleki, S., Koupaei, S.S., Soffianian, A., Saatchi, S., Pourmanafi, S., & Rahdari, V. (2019). H-uman and climate effects on the Hamoun wetlands. Weather, Climate, and Society, 3 (11), 609-622. doi: 10.1175/WCAS-D-18-0070.1.
Maleki, S., Sufianian, A.R., Soltani-Kopai, S., Pourmanafi, S., & Sheikh-ul-Islam, F. (2017). Analysis of changes in the water area of Hamon wetland during the annual water withdrawal period and changes in land use and land cover in the region. Research Journal Sources of Iran, 14 (1), 216- 225. (In Persian).
Meyer, W. B., & BL Turner, I. I.)1994(. Changes in land use and land cover: a global perspective Vol. 4. Cambridgemicroclimate and hydrology: a satellite perspective. Glo-bal and Planetary Change, 25 (11), 49-65. doi: 10.4236/oje.2021.117032.
Moghani-Rahimi, F., Mazidi, A., & Ghafarian-Malmiri, H. (2022). Investigating urban development and land cover changes in Abarkoh city using the integration of Landat 7 and 8 satellite image bands. Geographical Information Scientific Research Quarterly (Sapehr), 31) 121), 128- 141. doi: 10.22131/sepehr.2022.252773 (In Persian).
Mohamed, A. R. M., Hussain, N. A., Al-Noor, S. S., Mutlak, F. M., Al-Sudani, I. M., Mojer, A. M., Toman, A.J., & Abdad. M. A. (2008). Fish assemblage of restored AL-Hawizeh marsh, Southern Iraq. Ecohydrology & Hydrobiology, 4 (8), 1-20. doi: 10.2478/v10104-009-0029-5.
Mohammad Ismail, Zahra. (2010). monitoring land cover changes in Karaj using remote sensi-ng technique. Soil Research Journal (Science and Water), 24 (1), 81- 88. doi: 10.22092/IJSR.2010.126531 (In Persian).
Mozafari, Gh., & Narangi Fard, M. (2014). Investigating the amount of precipitation on the water level change of Maharlo lake using remote sensing data. Wetland Ecobiology Research Quarterly, Islamic Azad University Ahvaz Branch, 6 (1), 73-82. https://jweb. ahvaz.iau.ir/article-1-192-fa.html (In Persian).
NakhaiNajadfard, S., Gholami, H., Akbari, D., Telfer, M., & Rezaei, M. (2018). Evaluation of different image integration algorithms in the preparation of plant index maps. Geographical Information Scientific Research Quarterly (Sephehr), 28 (112), 199-2017. doi: 10.22131/sepehr.2020.38616 (In Persian).
Nandi, D., Chowdhury, R., Mohapatra, J., Mohanta, K., & Ray, D. (2018). Automatic delineat-ion of water bodies using multiple spectral indices. International Journal of Scientific Research in Science, Engineering and Technology, 4 (4), 498-510.
Nhu, V.H.,  Mohammadi, A., Shahabi, H., Shirzadi, A., Nadhir, A., Baharin Bin, A., Chen, W.,  Khodadadi, M., Ahmadi, M., Khosravi, K., Jaafari, A., & Nguyen, H. (2020). Monitoring and Assessment of Water Level Fluctuations of the Lake Urmia and Its Enviromental Consequences Using Multitamporal Landsat 7 ETM Image. Int J Environ Res Public Health, 8 (24). doi: 10.3390/ijerph17124210.
Niazi, Y., Ekhtasasi, M., Maleki-Nejad, H., & Hosseini, S. A.A. (2009). Comparison of two methods of maximum likelihood classification and artificial neural network in extracting land cover maps. Case study: Ilam Dam area. Geography and Development, 8 (20), 119-132. https://gdij.usb.ac.ir/article_633.html (In Persian).
Paphen Shoshtri, M. (2017). Horul Azim Wetland Management Master Plan. Shahid Chamran University of Ahvaz, General Department of Environmental Protection of Khuzestan Province. (In Persian).
Rasouli, A.A. (2008). Fundamentals of Applied Remote Sensing with Emphasis on Satellite Image Processing. Tabriz University Publications. (In Persian).
Rezaei Livari, V. (2012). Application of remote sensing and geographic information system in temporal changes of quantitative characteristics. Master's thesis on natural resources, Tarbiat Modares University. (In Persian).
Sarp, G., & Ozcelik, M. (2017). Water body extraction and change detection using time series: A case study of Lake Burdur, Turkey. Journal of Taibah University for Science, 3(11), 381-391. doi: 10.1016/j.jtusci.2016.04.005
Shwetank, JK., & Bhatia, K. (2010). Review of rice crop identification and classification using hyper-spectral image processing system. International Journal of Computer Science &Comm-unication, 1 (1), 253- 258.
Valerio, B., Raffaella, B., Donatella, D., & Fabio, R.I. (2012). Coastline Detection Using High Resolution Multispectral Satellite Images. Knowing to manage the territory, protect the enviro-nment, evaluate the cultural heritage Rome, Italy, 6 (10), 1-15.
Varol, C., Ercoskun, O., & Gurer. Y. (2010). Local participatory mechanisms and collective ac-tions for sustainable urban development in Turkey. Habitat International, 1 (35), 9- 16. doi: 10.1016/j.habitatint.2010.02.002.
Vittek, M., Brink, A., Donnay, F., Simonetti, D., & Desclée, B. (2014). Land Cover Change M-onitoring Using Landsat MSS/TM Satellite Image Data over West Africa between 1975 and 1990. Remote sensing, 6 (1), 658- 676. doi: 10.3390/rs6010658.
Xie, H., Luo, X., Xu, X., Pan, H., & Tong, X. (2016). Evaluation of Landsat 8 OLI imagery for unsupervised inland water extraction. International Journal of Remote Sensing, 37(8), 1826-1844. doi: 10.1080/01431161.2016.1168948.

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