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Nas, B. (2009). Geostatistical approach to assessment of spatial distribution of groundwater quality. Polish J. of Environ. Stud., 18(6), 1073–1082.
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Zhaoyong*, Z., Abuduwaili, J., & Yimit, H. (2014). The occurrence, sources and spatial characteristics of soil salt and assessment of soil salinization risk in Yanqi Basin, Northwest China. PLoS ONE, 9(9), 106079.
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Karistineos, N., & Ioakim, C. (1989). Palaeoenvironmental and palaeoclimatic evolution of the serres basin (N. Greece) during the miocene. Palaeogeography, Palaeoclimatology, Palaeoecology, 70(1-3), 275–285.
Abstract: The palaeoenvironmental and palaeoclimatic evolution of the Serres basin from the end of mid-Miocene to the end of the Miocene is examined. Lignites were deposited over a thick sequence of conglomerates and sands. Fossils found in the lignites indicate a lacustrine environment with tropical-subtropical climatic conditions. The climate became progressively drier and only small lakes were reserved during the Messinian salinity crisis. Deposition of lake sediments finally ended with the world-wide Pliocene marine transgression. A correlation of the Serres basin with other lacustrine basins in the Aegean area is attempted.
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Tziritis, E. (2009). Groundwater and soil geochemistry of the Eastern Kopaida region (Beotia, central Greece). Open Geosciences, 1(2), 219–226.
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Seyedmohammadi*, J., Esmaeelnejad, L., & Shabanpour, M. (2016). Spatial variation modeling of groundwater electrical conductivity using geostatistics and GIS. Model. Earth Syst. Environ., 2, 169.
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