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Monitoring of Groundwater Level Change with Geographical Information System (GIS), The Case of Konya Altınekin Basin

Yıl 2021, , 620 - 631, 30.06.2021
https://doi.org/10.35414/akufemubid.889321

Öz

Among the groundwater resources in Turkey, there are quite important basins with their agricultural land use characteristics and ecological characteristics. One of them, Konya Closed Basin (KCB), along with its sub-basins, has Turkey's grain reserves. However, over the last years, over-exploitation of groundwater resources, water-level reductions have become a threat to the ecological structure of the sinkholes and the basin. In order for this process to be analysed with all its causes and measures can be taken, it is necessary to monitor and record the changes that are experienced. In this context, Geographical Information System (GIS) is important as a system that can demonstrate the change in the basin. In this study, the change of groundwater level was investigated with the help of GIS, in order to protect the ecological balance in the KCB Altınekin Basin, where significant decreases in groundwater level have been experienced in recent years. The change in the data of 2015 and 2016, which was obtained from 10 water wells where the groundwater level in this basin was identified, was analysed with the aid of GIS. It has been found that the groundwater level in the basin changes with agricultural land use characteristics, daily use, and climatic changes.

Kaynakça

  • Almasri, M.N. and Kaluarachchi, J.J., 2004. Implications of on-ground Nitrogen Loading and soil Transformations on Ground Water Quality Management. Journal of the AmericanWater Resources Association, 40 (1), 165-186.
  • Anand, B., Karunanidhi, D., Subramani, T., Srinivasamoorthy, K. and Suresh, M., 2020. Long‑term trend detection and spatiotemporal analysis of groundwater levels using GIS techniques in Lower Bhavani River basin, Tamil Nadu, India. Environment, Development and Sustainability, 22, 2779-2800.
  • Arya, S., Vennila, G. and Subramani, T., 2018. Spatial and seasonal variation of groundwater levels in Vattamalaikarai River basin, Tamil Nadu, India – A study using GIS and GPS. Indian Journal of Geo Marine Sciences, 47 (9), 1749-1753.
  • Babiker, I.S., Mohamed, M.A.A., Terao, H., Kato, K. and Ohta, K., 2004. Assessment of Groundwater Contamination by Nitrate Leaching From Intensive Vegetable Cultivation Using Geographical İnformation System. Environment International, 29 (8), 1009– 1017.
  • Balasubramani, K., Gomathi, M. and Kumaraswamy, K., 2019. Evaluation of Groundwater Resources in Aiyar Basin: A GIS Approach for Agricultural Planning and Development. Geosfera Indonesia, 4 (3), 302-310.
  • Başçiftçi, F., Durduran, S.S. and Inal, C., 2013. Mapping Ground Water Level With Geographic Information System (GIS) in Konya Closed Basin. Electronic Journal of Map Technologies, 5 (2), 1-15.
  • Bozyiğit, R. and Tapur, T., 2009. The Affect of Groundwaters for Formation of Obruk in Konya Plain and Around. Selçuk University Journal of Social Sciences Institute, 21, 137-155.
  • Chandan, K.M. and Yashwant B.K., 2017. Optimization of Groundwater Level Monitoring Network Using GIS-based Geostatistical Method and Multi-parameter Analysis: A Case Study in Wainganga Sub-basin, India. Chinese Geographical Science, 27 (2), 201-215.
  • Chandra, S., Singh, P.K., Tiwari, A.K., Panigrahy, B.P. and Kumar, A., 2015. Evaluation of Hydrogeological Factor and Their Relationship with Seasonal Water Table Fluctuation in Dhanbad District, Jharkhand, India. ISH Journal of Hydraulic Engineering, 21 (2), 193–206.
  • Crisan, M.M. and Ioan, D., 2012. Current Status of Groundwater Monitoring and Its Future in Arad. Journal of Environmental Protection and Ecology, 13 (4), 2104–2111.
  • Çelik, M.A., Doğantürk, I.H. and Guney, I., 2016. Investıgation of Groundwater Level and Land Cover Changes Using Remote Sensing and GIS Plains in The South of Şanlıurfa. (UZAL-CBS 2016), Adana, 5-7 October, 381-391.
  • Çelik, R. and Hamidi, N., 2018. Determination of the groundwater potential of Ergani District Plain by Geographical Information System. DUEF Journal of Engineering, 9 (2), 999-1007.
  • Çıldır, M.A., Dikbaş, F., Güngör, M. and Koç, A.C., 2019. Spatial variation of groundwater levels in Denizli. Pamukkale University Journal of Engineering Sciences, 25 (8), 977-984.
  • Dinka, M.O., Loiskandl, W., Furst, J. and Ndambuki, J.M., 2013. Seasonal Behavior and Spatial Fluctuations of Groundwater Levels in Long-Term Irrigated Agriculture: the Case of a Sugar Estate. Polish Journal of Environmental Studies, 22 (5), 1325-1334.
  • Gossel, W., Ebraheem, A.M. and Wycisk, P., 2004. A Very Large Scale GIS-Based Groundwater Flow Model for The Nubian Sandstone Aquifer in Eastern Sahara (Egypt, northern Sudan and eastern Libya). Hydrogeology Journal, 12 (6), 698-713.
  • Jha, M.K., Chowdhury, A., Chowdary, V.M. and Peiffer, S., 2007. Groundwater Management and Development by Integrated Remote Sensing and Geographic Information Systems: Prospects and Constraints. Water Resour Manage, 21, 427-467.
  • Jha, M.K., Chowdary, W.M. and Chowdhury, A., 2010. Groundwater Assessment in Salboni Block, West Bengal (India) Using Remote Sensing, Geographical Information System and Multi-Criteria Decision Analysis Techniques. Hydrogeology Journal, 18, 1713–1728.
  • Krishnaraj, S., Kumar, S. and Elango, K.P., 2015. Spatial Analysis of Groundwater Quality Using Geographic Information System - A Case Study. IOSR Journal of Environmental Science, Toxicology and Food Technology (IOSR-JESTFT), 9 (2), 01-06.
  • Nas, B. and Berktay, A., 2010. Groundwater Quality Mapping in Urban Groundwater Using GIS. Environmental Monitoring and Assessment, 160, 215–227.
  • Okka, C.T., Bozdağ, A., Durduran, S.S. and Alkan, T., 2018. Monitoring of Groundwater Level Change with Geographical Information System, The Case of Konya Altınekin Basin.
  • Papatheodorou, K., Evangelidis, K. and Ntouros, K., 2017. Geomatics for Environmental Protection and Resource Management. Journal of Environmental Protection and Ecology, 18 (1), 168-180.
  • Singh, P., Tiwari A.K. and Singh, P.K., 2014. Hydrochemical Characteristic and Quality Assessment of Groundwater of Ranchi Township Area, Jharkhand, India. Current World Environment, 9, 804-813.
  • Şen, E. and Başaran, N., 2007. Changes and Trends in Some Climate Data of Konya Plain in Global Warming Process. International Global Conference on Climate Change and Environmental Impacts, Konya.
  • Tiwari, A.K., Singh, P.K., Chandra, S. and Ghosh, A., 2016. Assessment of groundwater level fluctuation by using remote sensing and GIS in West Bokaro coalfield, Jharkhand, India. ISH Journal of Hydraulic Engineering, 22, 59–67.
  • Tiwari, K., Nota, N., Marchionatti, F. and Maio, M.D., 2017. Groundwater-Level Risk Assessment By Using Statistical and Geographic Information System (GIS) Techniques: A Case Study in The Aosta Valley Region, Italy. Geomatics, Natural Hazards and Risk, 8 (2), 1396-1406.
  • Todd, D.K. and Mays, L.W., 2005. Groundwater hydrology. 3rd edition, John Wiley & Sons, 9-15.
  • Tsakiris, G., 2004. Water Resources Management Trends, Prospects and Limitations. Proceedings of the EWRA Symposium on Water Resources Management: Risks and Challenges for the 21st Century, Izmir, 2-4 September, 1-6.
  • Ustun, A., Tusat, E. and Abbak, R.A., 2007. Groundwater Withdrawal in Konya Closed Basin and Geodetic Monitoring of Possible Consequences. 3. Engineering Measurements Symposium, Konya, 24 ‐26 October, 52-61.
  • Verma, D.K., Bhunia, G.S., Shit, P.K., Kumar, S., Mandal, J. and Padbhushan, R., 2017. Spatial Variability of Groundwater Quality of Sabour block, Bhagalpur district (Bihar, India). Applied Water Science, 7 (4), 1997-2008.
  • WWAP (United Nations World Water Assessment Programme), 2015. The United Nations World Water Development Report 2015: Water for a Sustainable World. Paris: UNESCO.
  • Yılmaz, M., 2010. Environmental Problems Caused by Ground Water Level Changes Around Karapinar. Ankara University Journal of Environmental Sciences, 2 (2), 145-163.
  • Int. Rsc. 1- http://d2hawiim0tjbd8.cloudfront.net/downloads/konya_da_suyun_bugnu_raporu.pdf, (03.03.2018)
  • Int. Rsc. 2- http://www.cem.gov.tr/erozyon/Files/moduller/havza/turkiyedekisuhavzalari.pdf, (03.03.2018)
  • Int. Rsc. 3- http://corine.ormansu.gov.tr/corineportal/kapsam.html, (03.03.2018)

Yeraltı Suyu Seviyesi Değişikliğinin Coğrafi Bilgi Sistemi (CBS) ile İzlenmesi, Konya Altınekin Havzası Örneği

Yıl 2021, , 620 - 631, 30.06.2021
https://doi.org/10.35414/akufemubid.889321

Öz

Türkiye'deki yeraltı suyu kaynakları arasında tarımsal arazi kullanım özellikleri ve ekolojik özellikleri ile oldukça önemli havzalar bulunmaktadır. Bunlardan biri olan Konya Kapalı Havzası (KKH) alt havzalarıyla birlikte Türkiye'nin tahıl rezervlerine sahiptir. Bununla birlikte, son yıllarda yeraltı suyu kaynaklarının aşırı kullanımı, su seviyesinin düşürülmesi, obrukların ve havzanın ekolojik yapısı için bir tehdit haline geldi. Bu sürecin tüm nedenleri ile analiz edilebilmesi ve önlemlerin alınabilmesi için yaşanan değişimlerin izlenmesi ve kayıt altına alınması gerekmektedir. Bu bağlamda Coğrafi Bilgi Sistemi (CBS), havzadaki değişimi gösterebilen bir sistem olarak önemlidir. Bu çalışmada, son yıllarda yeraltı suyu seviyesinde önemli düşüşlerin yaşandığı KKH Altınekin Havzası'nda ekolojik dengenin korunması amacıyla yeraltı suyu seviyesinin değişimi CBS yardımı ile araştırılmıştır. Bu havzadaki yeraltı suyu seviyesinin tespit edildiği 10 adet su kuyusundan elde edilen 2015 ve 2016 verilerindeki değişim CBS yardımı ile analiz edilmiştir. Havzadaki yeraltı suyu seviyesinin tarımsal arazi kullanım özelliklerine, günlük kullanıma ve iklim değişikliklerine göre değiştiği tespit edilmiştir.

Kaynakça

  • Almasri, M.N. and Kaluarachchi, J.J., 2004. Implications of on-ground Nitrogen Loading and soil Transformations on Ground Water Quality Management. Journal of the AmericanWater Resources Association, 40 (1), 165-186.
  • Anand, B., Karunanidhi, D., Subramani, T., Srinivasamoorthy, K. and Suresh, M., 2020. Long‑term trend detection and spatiotemporal analysis of groundwater levels using GIS techniques in Lower Bhavani River basin, Tamil Nadu, India. Environment, Development and Sustainability, 22, 2779-2800.
  • Arya, S., Vennila, G. and Subramani, T., 2018. Spatial and seasonal variation of groundwater levels in Vattamalaikarai River basin, Tamil Nadu, India – A study using GIS and GPS. Indian Journal of Geo Marine Sciences, 47 (9), 1749-1753.
  • Babiker, I.S., Mohamed, M.A.A., Terao, H., Kato, K. and Ohta, K., 2004. Assessment of Groundwater Contamination by Nitrate Leaching From Intensive Vegetable Cultivation Using Geographical İnformation System. Environment International, 29 (8), 1009– 1017.
  • Balasubramani, K., Gomathi, M. and Kumaraswamy, K., 2019. Evaluation of Groundwater Resources in Aiyar Basin: A GIS Approach for Agricultural Planning and Development. Geosfera Indonesia, 4 (3), 302-310.
  • Başçiftçi, F., Durduran, S.S. and Inal, C., 2013. Mapping Ground Water Level With Geographic Information System (GIS) in Konya Closed Basin. Electronic Journal of Map Technologies, 5 (2), 1-15.
  • Bozyiğit, R. and Tapur, T., 2009. The Affect of Groundwaters for Formation of Obruk in Konya Plain and Around. Selçuk University Journal of Social Sciences Institute, 21, 137-155.
  • Chandan, K.M. and Yashwant B.K., 2017. Optimization of Groundwater Level Monitoring Network Using GIS-based Geostatistical Method and Multi-parameter Analysis: A Case Study in Wainganga Sub-basin, India. Chinese Geographical Science, 27 (2), 201-215.
  • Chandra, S., Singh, P.K., Tiwari, A.K., Panigrahy, B.P. and Kumar, A., 2015. Evaluation of Hydrogeological Factor and Their Relationship with Seasonal Water Table Fluctuation in Dhanbad District, Jharkhand, India. ISH Journal of Hydraulic Engineering, 21 (2), 193–206.
  • Crisan, M.M. and Ioan, D., 2012. Current Status of Groundwater Monitoring and Its Future in Arad. Journal of Environmental Protection and Ecology, 13 (4), 2104–2111.
  • Çelik, M.A., Doğantürk, I.H. and Guney, I., 2016. Investıgation of Groundwater Level and Land Cover Changes Using Remote Sensing and GIS Plains in The South of Şanlıurfa. (UZAL-CBS 2016), Adana, 5-7 October, 381-391.
  • Çelik, R. and Hamidi, N., 2018. Determination of the groundwater potential of Ergani District Plain by Geographical Information System. DUEF Journal of Engineering, 9 (2), 999-1007.
  • Çıldır, M.A., Dikbaş, F., Güngör, M. and Koç, A.C., 2019. Spatial variation of groundwater levels in Denizli. Pamukkale University Journal of Engineering Sciences, 25 (8), 977-984.
  • Dinka, M.O., Loiskandl, W., Furst, J. and Ndambuki, J.M., 2013. Seasonal Behavior and Spatial Fluctuations of Groundwater Levels in Long-Term Irrigated Agriculture: the Case of a Sugar Estate. Polish Journal of Environmental Studies, 22 (5), 1325-1334.
  • Gossel, W., Ebraheem, A.M. and Wycisk, P., 2004. A Very Large Scale GIS-Based Groundwater Flow Model for The Nubian Sandstone Aquifer in Eastern Sahara (Egypt, northern Sudan and eastern Libya). Hydrogeology Journal, 12 (6), 698-713.
  • Jha, M.K., Chowdhury, A., Chowdary, V.M. and Peiffer, S., 2007. Groundwater Management and Development by Integrated Remote Sensing and Geographic Information Systems: Prospects and Constraints. Water Resour Manage, 21, 427-467.
  • Jha, M.K., Chowdary, W.M. and Chowdhury, A., 2010. Groundwater Assessment in Salboni Block, West Bengal (India) Using Remote Sensing, Geographical Information System and Multi-Criteria Decision Analysis Techniques. Hydrogeology Journal, 18, 1713–1728.
  • Krishnaraj, S., Kumar, S. and Elango, K.P., 2015. Spatial Analysis of Groundwater Quality Using Geographic Information System - A Case Study. IOSR Journal of Environmental Science, Toxicology and Food Technology (IOSR-JESTFT), 9 (2), 01-06.
  • Nas, B. and Berktay, A., 2010. Groundwater Quality Mapping in Urban Groundwater Using GIS. Environmental Monitoring and Assessment, 160, 215–227.
  • Okka, C.T., Bozdağ, A., Durduran, S.S. and Alkan, T., 2018. Monitoring of Groundwater Level Change with Geographical Information System, The Case of Konya Altınekin Basin.
  • Papatheodorou, K., Evangelidis, K. and Ntouros, K., 2017. Geomatics for Environmental Protection and Resource Management. Journal of Environmental Protection and Ecology, 18 (1), 168-180.
  • Singh, P., Tiwari A.K. and Singh, P.K., 2014. Hydrochemical Characteristic and Quality Assessment of Groundwater of Ranchi Township Area, Jharkhand, India. Current World Environment, 9, 804-813.
  • Şen, E. and Başaran, N., 2007. Changes and Trends in Some Climate Data of Konya Plain in Global Warming Process. International Global Conference on Climate Change and Environmental Impacts, Konya.
  • Tiwari, A.K., Singh, P.K., Chandra, S. and Ghosh, A., 2016. Assessment of groundwater level fluctuation by using remote sensing and GIS in West Bokaro coalfield, Jharkhand, India. ISH Journal of Hydraulic Engineering, 22, 59–67.
  • Tiwari, K., Nota, N., Marchionatti, F. and Maio, M.D., 2017. Groundwater-Level Risk Assessment By Using Statistical and Geographic Information System (GIS) Techniques: A Case Study in The Aosta Valley Region, Italy. Geomatics, Natural Hazards and Risk, 8 (2), 1396-1406.
  • Todd, D.K. and Mays, L.W., 2005. Groundwater hydrology. 3rd edition, John Wiley & Sons, 9-15.
  • Tsakiris, G., 2004. Water Resources Management Trends, Prospects and Limitations. Proceedings of the EWRA Symposium on Water Resources Management: Risks and Challenges for the 21st Century, Izmir, 2-4 September, 1-6.
  • Ustun, A., Tusat, E. and Abbak, R.A., 2007. Groundwater Withdrawal in Konya Closed Basin and Geodetic Monitoring of Possible Consequences. 3. Engineering Measurements Symposium, Konya, 24 ‐26 October, 52-61.
  • Verma, D.K., Bhunia, G.S., Shit, P.K., Kumar, S., Mandal, J. and Padbhushan, R., 2017. Spatial Variability of Groundwater Quality of Sabour block, Bhagalpur district (Bihar, India). Applied Water Science, 7 (4), 1997-2008.
  • WWAP (United Nations World Water Assessment Programme), 2015. The United Nations World Water Development Report 2015: Water for a Sustainable World. Paris: UNESCO.
  • Yılmaz, M., 2010. Environmental Problems Caused by Ground Water Level Changes Around Karapinar. Ankara University Journal of Environmental Sciences, 2 (2), 145-163.
  • Int. Rsc. 1- http://d2hawiim0tjbd8.cloudfront.net/downloads/konya_da_suyun_bugnu_raporu.pdf, (03.03.2018)
  • Int. Rsc. 2- http://www.cem.gov.tr/erozyon/Files/moduller/havza/turkiyedekisuhavzalari.pdf, (03.03.2018)
  • Int. Rsc. 3- http://corine.ormansu.gov.tr/corineportal/kapsam.html, (03.03.2018)
Toplam 34 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Süleyman Savaş Durduran 0000-0003-0509-4037

Aslı Bozdağ 0000-0003-2178-6527

Cafer Tayyar Okka Bu kişi benim 0000-0001-8338-8431

Tansu Alkan 0000-0001-8293-2765

Yayımlanma Tarihi 30 Haziran 2021
Gönderilme Tarihi 2 Mart 2021
Yayımlandığı Sayı Yıl 2021

Kaynak Göster

APA Durduran, S. S., Bozdağ, A., Okka, C. T., Alkan, T. (2021). Monitoring of Groundwater Level Change with Geographical Information System (GIS), The Case of Konya Altınekin Basin. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi, 21(3), 620-631. https://doi.org/10.35414/akufemubid.889321
AMA Durduran SS, Bozdağ A, Okka CT, Alkan T. Monitoring of Groundwater Level Change with Geographical Information System (GIS), The Case of Konya Altınekin Basin. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi. Haziran 2021;21(3):620-631. doi:10.35414/akufemubid.889321
Chicago Durduran, Süleyman Savaş, Aslı Bozdağ, Cafer Tayyar Okka, ve Tansu Alkan. “Monitoring of Groundwater Level Change With Geographical Information System (GIS), The Case of Konya Altınekin Basin”. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi 21, sy. 3 (Haziran 2021): 620-31. https://doi.org/10.35414/akufemubid.889321.
EndNote Durduran SS, Bozdağ A, Okka CT, Alkan T (01 Haziran 2021) Monitoring of Groundwater Level Change with Geographical Information System (GIS), The Case of Konya Altınekin Basin. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi 21 3 620–631.
IEEE S. S. Durduran, A. Bozdağ, C. T. Okka, ve T. Alkan, “Monitoring of Groundwater Level Change with Geographical Information System (GIS), The Case of Konya Altınekin Basin”, Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi, c. 21, sy. 3, ss. 620–631, 2021, doi: 10.35414/akufemubid.889321.
ISNAD Durduran, Süleyman Savaş vd. “Monitoring of Groundwater Level Change With Geographical Information System (GIS), The Case of Konya Altınekin Basin”. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi 21/3 (Haziran 2021), 620-631. https://doi.org/10.35414/akufemubid.889321.
JAMA Durduran SS, Bozdağ A, Okka CT, Alkan T. Monitoring of Groundwater Level Change with Geographical Information System (GIS), The Case of Konya Altınekin Basin. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi. 2021;21:620–631.
MLA Durduran, Süleyman Savaş vd. “Monitoring of Groundwater Level Change With Geographical Information System (GIS), The Case of Konya Altınekin Basin”. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi, c. 21, sy. 3, 2021, ss. 620-31, doi:10.35414/akufemubid.889321.
Vancouver Durduran SS, Bozdağ A, Okka CT, Alkan T. Monitoring of Groundwater Level Change with Geographical Information System (GIS), The Case of Konya Altınekin Basin. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi. 2021;21(3):620-31.


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