Geografie 2024, 129, 233-263

https://doi.org/10.37040/geografie.2024.013

The status of artificial wetland areas in light of climate change using Geospatial systems: Case study Ain Zada Lake (Algeria)

Sofiane Bensefia1ID, Djamel Khoudour2ID, Amna Belayadi3ID, Semara Lounis1

1University Mohamed El Bachir El Ibrahimi of Bordj Bou Arreridj El-Anasser, Faculty of Life and Natural Sciences and of Earth and Universe Sciences, Department of Agricultural Sciences, Health and Environment Laboratory, Algeria
2University of Msila, Faculty of Sciences, Departement of Nature and Life Sciences, Laboratory of Biodiversity and Biotechnological Techniques for the Valuation of Plant Resources, M’Sila, Algeria
3University Mohamed El Bachir El Ibrahimi of Bordj Bou Arreridj El-Anasser, Faculty of Social and Human Sciences, Health and Environment Laboratory, Algeria

Received February 2024
Accepted September 2024

References

1. ABBASS, K., QASIM, M.Z., SONG, H. et al. (2022): A review of the global climate change impacts, adaptation, and sustainable mitigation measures. Environ Sci Pollut Res, 29, 42539−42559. <https://doi.org/10.1007/s11356-022-19718-6>
2. ABDELMAJEED, A.Y.A., ALBERT-SAIZ, M., RASTOGI, A., JUSZCZAK, R. (2023): Cloud-based remote sensing for wetland monitoring – A review. Remote Sensing, 15, 6, 1660. <https://doi.org/10.3390/rs15061660>
3. BELHADDAD, H. (2018): Modélisation des écoulements à travers la digue du barrage Ain Zada. Thesis, Université Mohamed Boudiaf – M’sila, Algeria, http://dspace.univ-msila.dz:8080/xmlui/handle/123456789/6732.
4. BENLAHARCHE, R. (2019): Ecologie de la Foulque macroule Fulica atra dans la région des Hautes Plaines de l’Est Algérien (Cas du barrage d’Ain-Zada et le lac d’El-Aria). Université Larbi Ben M’Hidi Oum-El-Bouaghi, Algérie.
5. BOUDIAF, B., ŞEN Z., BOUTAGHANE, H. (2021): Climate change impact on rainfall in northeastern Algeria using innovative trend analyses (ITA). Arabian Journal of Geosciences, 14, 6, 10−21. <https://doi.org/10.1007/s12517-021-06644-z>
6. BOULAHBAL, S. (2007): Bouslam Valley Basin: Water Resources and Uses. Faculty of Earth Sciences and Urban Planning. Constantine 1 university, Algeria.
7. BOULGUERAGUER, Z., CHAFFAI, H., LAKKAICHI, A., SAADANE D., BAHROUNE S. (2014): Contribution à la gestion intégrée des ressources en eau dans le sous bassin versant amont de l’oued Bousselam, Nord-est Algérie. J. Int. Sci. Tech. L’Eau L’Environnement, 1, 1737–6688, https://jistee.org/wp-content/uploads/2019/02/JournalISTEE-Volume1-Num%C3%A9ro1-Avril2014.pdf. (20. 06. 2024).
8. BUSKER, T., ROO, A.D., GELATI, E., SCHWATKE, CH., ADAMOVIC, M., BISSELINK, B., PEKEL, J.-F., COTTAM, A. (2019): A global lake and reservoir volume analysis using a surface water dataset and satellite altimetry. Journal Hydrol. Earth Syst. 23, 669−690. <https://doi.org/10.5194/hess-23-669-2019>
9. CHENG, Q., DANG, C.N. (2022): Using GIS remote sensing image data for wetland monitoring and environmental simulation. Computational Intelligence and Neuroscience, 7886358. <https://doi.org/10.1155/2022/7886358>
10. CHOURGHAL, N., LHOMME, J.P., HUARD F., ET AIDAOUI, A. (2016): Climate change in Algeria and its impact on durum wheat, Regional Environmental Change. <https://doi.org/10.1007/s10113-015-0889-8>
11. COTE, M. (1999): L’ALGERIE. Espace et société, Elsevier Masson, France.
12. DAHMANE, R. (2011): Bouslam-Wadi Basin: The Effects of Solids Loading on Water Resources. Earth Sciences and Urban Planning Faculty, Constantine 1 University, Algeria.
13. DEGU, A.M., HOSSAIN, F., NIYOG, D. PIELKE SR.R., SHEPHERD J.M., VOISIN N., CHRONIS, T. (2011): The influence of large dams on surrounding climate and precipitation patterns, Geophys. Res. Lett., 38, L04405. <https://doi.org/10.1029/2010GL046482>
14. EHSANI, N., VÖRÖSMARTY, C.J., FEKETE, B.M., STAKHIV, E.Z. (2017): Reservoir operations under climate change: Storage capacity options to mitigate risk. Journal of Hydrology, 555, 435−446. <https://doi.org/10.1016/j.jhydrol.2017.09.008>
15. EKPETERE, K., ABDELKADER, M., ISHAYA, S., MAKWE, E., EKPETERE, P. (2023): Integrating Satellite Imagery and Ground-Based Measurements with a Machine Learning Model for Monitoring Lake Dynamics over a Semi-Arid Region, Hydrology, 10, 78. <https://doi.org/10.3390/hydrology10040078>
16. GAAGAI, A., AOUISSI, H. A., KRAUKLIS, A. E., BURLAKOVS, J., ATHAMENA, A., ZEKKER, I., BOUDOUKHA, A., BENAABIDATE, L., CHENCHOUNI, H. (2022): Modeling and risk analysis of dam-break flooding in a semi-arid montane watershed: A case study of the Yabous Dam, Northeastern Algeria, Water, 14, 5, 767. <https://doi.org/10.3390/w14050767>
17. GARCÍA-RUIZ, JOSÉ M., LÓPEZ-MORENO, J.I., VICENTE-SERRANO, S., LASANTA, T., BEGUERÍA, S. (2011): Mediterranean Water Resources in a Global Change Scenario. EarthScience Reviews. 105. 121−139. <https://doi.org/10.1016/j.earscirev.2011.01.006>
18. GEORGE, P.P., IRELAND, G., BRIAN B. (2015): Surface Soil Moisture Retrievals from Remote Sensing: Current Status, Products & Future Trends, Physics and Chemistry of the Earth, Parts A/B/C. 83, 36−56. <https://doi.org/10.1016/j.pce.2015.02.009>
19. GIOSA, E., MAMMIDES, C., ZOTOS, S. (2018): The importance of artificial wetlands for birds: A case study from Cyprus, PLoS ONE 13,5, e0197286. <https://doi.org/10.1371/journal.pone.0197286>
20. HAMMANA, C., PEREÑA-ORTIZ, J.F., MEDDAD-HAMZA, A., HAMEL, T., SALVO-TIERRA, Á.E. (2024): The wetlands of northeastern Algeria (Guelma and Souk Ahras): Stakes for the conservation of regional biodiversity, Land, 13, 2, 210. <https://doi.org/10.3390/land13020210>
21. HEMALATHA, M. (2021): Water Feature Extraction, Enhancement and Change Detection of Multi-Temporal Satellite Images using MNDWI2-PCA, in IOP Conference Series: Materials Science and Engineering, IOP Publishing, 2021, 012005. <https://doi.org/10.1088/1757-899X/1049/1/012005>
22. JIAXIAN, LI., SHULEI, Z., OMARJAN, O., XINGJIE, LU., ZHONGWANG, W., HUA, Y., LU, L., JIANXIN, Z., DAWEN, Y., YONGJIU, D. (2023): Impact of Reservoirs on Local PrecipitationTemperature Coupling Relationships. Geophysical Research Letters, 50, 1−10. https://doi.org/10.1029/2023GL103453
23. LEBLANC, M., TWEED, S., VAN DIJK, A., TIMBAL, B. (2012): A review of historic and future hydrological changes in the Murray-Darling Basin, Global and Planetary Change, 81, 226−246. <https://doi.org/10.1016/j.gloplacha.2011.10.012>
24. LI, Y., ZHAO, G., SHAH, D., ZHAO, M., SARKAR, S., DEVADIGA, S., ZHAO, B., ZHANG, S., GAO, H. (2021): NASA’s MODIS/VIIRS Global Water Reservoir Product Suite from Moderate Resolution Remote Sensing Data, Remote Sens, 13, 4, 565. <https://doi.org/10.3390/rs13040565>
25. LIN, Y., LI, X., ZHANG, T., CHAO, N., YU, J., CAI, J., SNEEUW, N. (2020): Water Volume Variations Estimation and Analysis Using Multisource Satellite Data: A Case Study of Lake Victoria. Remote sensing. 12, 18, 1−21. <https://doi.org/10.3390/rs12183052>
26. LIU, X., SHEN, Y. (2018): Quantification of the impacts of climate change and human agricultural activities on oasis water requirements in an arid region: a case study of the Heihe River basin, China, Earth Syst, Dynam, 9, 211−225. <https://doi.org/10.5194/esd-9-211-2018>
27. MAROUF, N., REMINI, B. (2019): Impact study of Beni-Haroun dam on the environmental and socio-economic elements in Kébir-Rhumel basin, Algeria, Journal of Water and Land Development, 43, 120−132. <https://doi.org/10.2478/jwld-2019-0070>
28. MATOUŠKOVÁ, M., FRAINDOVÁ, K. (2023): Trends of hydroclimatic variables and outflow in the Athabasca River basin. Geografie, 128, 2, 127−152. <https://doi.org/10.37040/geografie.2023.007>
29. MEBARKIA, A. (2018): Pollution urbaine et industrielle des eaux d’oued Bousselam «caractèrisation et impact sur la qualité des eaux de l’Aquifère superficiel», Faculté des science de la terre, de la Géographie et de l’Aménagement du territoire. Alger, Algérie.
30. MEBARKIA, A., HAOUCHINE, A., BOUDOUKHA, A., NEDJAI, R. (2017): Assessment of nutrient contamination in surface water, case study of Ain Zada dam (North-East of Algeria), Journal of Fundamental and Applied Sciences, 9, 3, 1358−1377. <https://doi.org/10.4314/jfas.v9i3.8>
31. MINYAN, Z., FIACHRA, L. (2023): Mapping Irish Water Bodies: Comparison of Platforms, Indices and Water Body Type.15, 3677. <https://doi.org/10.3390/rs15143677>
32. MOUHOUBI, D. (2014): Contribution to the study of the biological diversity of vertebrate, insects and molluscs in ET invironment, Case oued bou sellam area, Ferhat Abasse University, Setif, Algeria.
33. OUAMANE, A. (2009): Dam engineering in Algeria: Progress, needs and prospects. Hydropower & Dams, 6, 16, 75−78, https://www.researchgate.net/publication/295164611_Dam_engineering_in_Algeria_Progress_needs_and_prospects.
34. PASHA, A., CHOWDHURY, A.H., HUSSAIN, A., RAHMAN, M., MOZUMDER, S., DELA, F.J.A. (2021): Identification of the ecosystem services and plant diversity in Ramna Park Dhaka, Science Progress and Research, 1, 4, 286−297. <https://doi.org/10.52152/spr/2021.141>
35. PHAM-DUCET, B., FRAPPART, F., TRAN-ANH, Q., SI, S.T., PHAN, H., QUOC, S.N., LE, A.P., VIET, B.D. (2022): Monitoring lake volume variation from space using satellite observations – A case study in Thac Mo Reservoir (Vietnam), Remote Sensing, 14, 24, 4023. <https://doi.org/10.3390/rs14164023>
36. REID, A.J., CARLSON, A.K., CREED, I.F., ELIASON, E.J., GELL, P.A., JOHNSON, P.T.J., KIDD, K.A., MAC CORMACK, T.J., OLDEN, J.D., ORMEROD, S.J., SMOL, J.P., TAYLOR, W.W., TOCKNER, K., VERMAIRE, J.C., DUDGEON, D., COOKE, S.J. (2019): Emerging threats and persistent conservation challenges for freshwater biodiversity. Biol Rev Camb Philos Soc, 94, 3, 849−873. <https://doi.org/10.1111/brv.12480>
37. ROUIBAH K., BELABBAS, M. (2022): Modelling and monitoring surface water dynamics in the context of climate changes using remote sensing data and techniques: case of Ain Zada Dam (North‑East Algeria). Arabian Journal of Geosciences,15, 807. <https://doi.org/10.1007/s12517-022-09910-w>
38. SAHNOUNE, F., BELHAMELA, M., ZELMATB, M., KERBACHIC, R. (2013): Climate Change in Algeria: Vulnerability and Strategy of Energy Procedia, 36, 1286−1294. <https://doi.org/10.1016/j.egypro.2013.07.145>
39. SCAVIA, D., ALLAN, J.D., AREND, K.K., BARTELL, S., BELETSKY, D., BOSCH, N.S., BRANDT, S.B., BRILAND, R.D., DALOĞLU, I., DEPINTO, J.V., DOLAN, D.M., EVANS, M.A., FARMER, T.M., GOTO, D., HAN, H., HÖÖK, T.O., KNIGHT, R., LUDSIN, S.A., MASON, D., MICHALAK, A.M., RICHARDS, R.P., ROBERTS, J.J., RUCINSKI, D.K., RUTHERFORD, E., SCHWAB, D.J., SESTERHENN, T.M., ZHANG, H., ZHOU, Y. (2014): Assessing and addressing the re-eutrophication of Lake Erie: Central basin hypoxia, Journal of Great Lakes Research, 40, 2, 226−246. <https://doi.org/10.1016/j.jglr.2014.02.004>
40. SINGH, S., KANHAIYA, S., KUMAR, S., YADAV, S.K. (2022): Spatial and temporal variation in NDVI and NDWI of the Ukhma River Basin, Central India, Journal of Scientific Research, 66, 3, 62−65. <https://doi.org/10.37398/JSR.2022.660309>
41. SOLTANI, A.A., OUKIL, A., BOUTAGHANE, H., BERMAD, A., BOULASSEL, M.-R. (2021): A new methodology for assessing water quality, based on data envelopment analysis: Application to Algerian dams. Ecological Indicators, 121, 106952. <https://doi.org/10.1016/j.ecolind.2020.106952>
42. SUDARSAN, J.S., JAIN, M. (2023): Nature-based wastewater treatment using artificial wetland technique for municipal wastewater and resource recovery. Resource Recovery in Municipal Waste Waters. <https://doi.org/10.1016/B978-0-323-99348-7.00011-4>
43. THORSLUND, J., JARSJÖ, J., JARAMILLO, F., JAWITZ, J., MANZONI, S., BASU, N., CHALOV, S., COHEN, M., CREED, I., GOLDENBERG, R., HYLIN, A., KALANTARI, Z., KOUSSIS, A., LYON, S., MAZI, K., MÅRD, J., PERSSON, K., PIETROŃ, J., PRIETO, C., DESTOUNI, G. (2017): Wetlands as large-scale nature-based solutions: Status and challenges for research, engineering and management. Ecological Engineering, 108. <https://doi.org/10.1016/j.ecoleng.2017.07.012>
44. TORTAJADA, C. (2014): Dams: An Essential Component of Development. Journal of Hydrologic Engineering, 20, 1, A4014005, 1−9. <https://doi.org/10.1061/(ASCE)HE.1943-5584.0000919>
45. TRAMBLAY, Y., LLASAT, M.C., RANDIN, C., COPPOLA, E. (2020): Climate change impacts on water resources in the Mediterranean. Reg Environ Change 20, 83. <https://doi.org/10.1007/s10113-020-01665-y>
46. TRENBERTH, K.E. (2011): Changes in precipitation with climate change, Clim Res 47, 123−138. <https://doi.org/10.3354/cr00953>
47. TURRAL, H., BURKE, J., FAURÈS, MARC, J. (2016): Climate change, water and food security, FAO, Viale delle Terme di Caracalla, Rome, Italy, https://www.fao.org/4/i2096e/i2096e.pdf (20. 06. 2024).
48. WANG, F.-M., HUANG, J., TANG Y., WANG, X. (2007): New Vegetation Index and Its Application in Estimating Leaf Area Index of Rice, Rice Science, 14, 3, 195−203. <https://doi.org/10.1016/S1672-6308(07)60027-4>
49. WANG, X., CHEN, Y., LI, Z., FANG, G., WANG, F., LIU, H. (2020): The impact of climate change and human activities on the Aral Sea Basin over the past 50 years, Atmospheric Research, 245, 105−125. <https://doi.org/10.1016/j.atmosres.2020.105125>
50. XU, H., WANG, M., SHI, T., GUAN, H., FANG, C., LIN, Z. (2018): Prediction of ecological effects of potential population and impervious surface increases using a remote sensing based ecological index (RSEI). Ecological Indicators, 93, 730−740. <https://doi.org/10.1016/j.ecolind.2018.05.055>
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