Water samples from precipitation, glacier melt, snow melt, glacial lake, streams and karst springs were collected across SE of Kashmir Valley, to understand the hydrogeochemical processes governing the evolution of the water in a natural and non-industrial area of western Himalayas. The time series data on solute chemistry suggest that the hydrochemical processes controlling the chemistry of spring waters is more complex than the surface water. This is attributed to more time available for infiltrating water to interact with the diverse host lithology. Total dissolved solids (TDS), in general, increases with decrease in altitude. However, high TDS of some streams at higher altitudes and low TDS of some springs at lower altitudes indicated contribution of high TDS waters from glacial lakes and low TDS waters from streams, respectively. The results show that some karst springs are recharged by surface water; Achabalnag by the Bringi stream and Andernag and Martandnag by the Liddar stream. Calcite dissolution, dedolomitization and silicate weathering were found to be the main processes controlling the chemistry of the spring waters and calcite dissolution as the dominant process in controlling the chemistry of the surface waters. The spring waters were undersaturated with respect to calcite and dolomite in most of the seasons except in November, which is attributed to the replenishment of the CO2 by recharging waters during most of the seasons.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Akdim B and Amyay M 1999 Environmental vulnerability and agriculture in the karstic domain: Landscape indicators and cases in the Atlas Highlands Morocco; Int. J. Speleol. 28B 119–138.
APHA, AWWA, WEF 2001 Standard methods for the examination of water and waste water (APHA-AWWA-WEF Washington).
Bonaccio 2004 Hazards caused by natural and anthropogenic changes of catchment area in karst; Nat. Hazards Earth Syst. Sci. 4 655–661.
Burri E, Castiglioni B and Sauro U 1999 Agriculture, landscape and human impact in some karst areas of Italy; Int. J. Speleol. 26 33–54.
Calò F and Parise M 2006 Evaluating the human disturbance on karst environments in Southern Italy; Acta Carsologica 35 47–56.
Christman M C and Culver D C 2001 The relationship between cave biodiversity and available habitat; J. Biogeogr. 28 367–380.
Coward J M H, Waltham A C and Bowser R J 1972 Karst springs in the Vale of Kashmir; J. Hydrol. 16 213–223.
Dalai T K, Krishnaswami S and Sarin M M 2002 Major ion chemistry in the headwaters of the Yamuna river system: Chemical weathering, its temperature dependence and CO2 consumption in the Himalaya; Geochim. Cosmochim. Acta 66 3397–3416.
Delle Rose M, Parise M and Andriani G F 2007 Evaluating the impact of quarrying on karst aquifers of Salento (southern Italy); In: Natural and Anthropogenic Hazard in Karst Areas (eds) Parise M and Gunn J; Geol. Soc. London 279 153–171.
De Waele J and Follesa R 2004 Human impact on karst: The example of Lusaka (Zambia); Int. J. Speleol. 32 71–84.
Drever J I 1988 The geochemistry of natural waters (Prentice Hall: New Jersey), 436p.
Edmunds W M and Smedley P L 2000 Residence time indicators in groundwater: The East Midlands Triassic sandstone aquifer; Appl. Geochem. 15 737–752.
Elliot T, Andrews J N and Edmunds W M 1999 Hydrochemical trends, paleorecharge and groundwater ages in the fissured Chalk aquifer of the London and Berkshire basins, UK; Appl. Geochem. 14 333–363.
Ford D and Williams P 2007 Karst geomorphology and hydrology (Unwin Hyman: London), 608p.
Frondini F 2008 Geochemistry of regional aquifer systems hosted by carbonate-evaporite formations in Umbria and southern Tuscany (central Italy); Appl. Geochem. 23 2091–2104.
Frumkin A 1999 Interaction between karst, water and agriculture over the climatic gradient of Israel; Int. J. Speleol. 28B 99–110.
Gams I, Nicod J, Julian M, Antony E and Sauro U 1993 Environmental change and human impacts on the Mediterranean karsts of France, Italy and the Dinaric region; Catena Suppl. 25 59–98.
Ginés A 1999 Agriculture, grazing and land use changes at the Serra de Tramuntanakarstic mountains; Int. J. Speleol. 28B 5–14.
GSI 1977 Geology and mineral resources of states of India, part X: Jammu and Kashmir State; Geol. Surv. India 30 1–70.
Gunn J 2007 Contributory zone definition for groundwater source protection and hazard mitigation in carbonate aquifers; In: Natural and anthropogenic hazards in karst areas (eds) Parise M and Gunn J, Geol. Soc. London, vol. 279.
Han G and Liu C Q 2004 Water geochemistry controlled by carbonate dissolution: A study of the river waters draining karst dominated terrain, Guizhou Province, China; Chem. Geol. 204 1–21.
Herczeg A L, Torgersen T, Chivas A R and Habermehl M A 1991 Geochemistry of groundwaters from the Great Artesian Basin, Australia; J. Hydrol. 126 225–245.
Hiscock K M 1993 The influence of pre-Devensian deposits on the hydrogeochemistry of the Chalk aquifer system of north Norfolk, UK; J. Hydrol. 144 335–369.
Hunkeler D and Mudry J 2007 Hydrochemical methods; In: Methods in karst hydrogeology (eds) Goldscheider N and Drew D, Taylor and Francis, pp. 93–121.
Jeelani G 2005 Chemical quality of the spring waters of Anantnag, Kashmir; J. Geol. Soc. India 66 453–462.
Jeelani G 2007 Hydrogeology of hard rock aquifer in Kashmir Valley: Complexities and uncertainties; In: Groundwater dynamics in hard rock aquifers – including sustainable management and optimal monitoring network design (eds) Ahmed S, Jayakumar R and Abdin S (Netherland: Springer Verlag) 265p.
Jeelani G 2008 Aquifer response to regional climate variability in a part of Kashmir Himalaya in India; Hydrogeol. J. 16 1625–1633.
Jeelani G and Shah A Q 2006 Geochemical characteristics of water and sediment from the Dal Lake, Kashmir Himalaya, India: Constraints on weathering and anthropogenic activity; Env. Geol. 50 12–23.
Juberthie C and Decu V (eds) 1994 Encyclopedia Biospeologia, Moulis France; Societe de Biospeologie, 834p.
Kacaroglu F 1999 Review of groundwater pollution and protection in karst areas; Water Air Soil Poll. 113 337–356.
Karim A and Veizer J 2000 Weathering processes in the Indus River Basin: Implications from riverine carbon, sulfur, oxygen, and strontium isotopes; Chem. Geol. 170 153–177.
Kimblin R T 1995 The chemistry and origin of groundwater in Triassic sandstone and Quaternary deposits, northwest England and some UK comparisons; J. Hydrol. 172 293–311.
Krishnaswami S, Singh S K and Dalai T K 1999 Silicate weathering in the Himalaya: Role in contributing to major ions and radiogenic Sr to the Bay of Bengal; In: Ocean Science, Trends and Future Directions (ed.) Somalyajulu B L K, Indian National Science Academy and Akademia International, New Delhi, pp. 23–51.
Latham A G, McKee J K and Tobias P V 2007 Bone breccias, bone dumps, and sedimentary sequences of the western Limeworks, Makapansgat, South Africa; J. Hum. Evol. 52 388–400.
Middlemiss C S 1910 Revision of Silurian-Trias sequence of Kashmir; Rec. Geol. Surv. India 40 206–260.
Middlemiss C S 1911 Sections in the PirPanjal range and Sindh Valley, Kashmir; Rec. Geol. Surv. India 41 115–144.
Milanovic P T 2001 Geological Engineering in Karst (Zebra Publishing: Belgrade) 347p.
Négrel P, Allègre C J, Dupré B and Lewin E 1993 Erosion sources determined by inversion of major and trace element ratios in river water: The Congo Basin case; Earth Planet. Sci. Lett. 120 59–76.
Nicod J, Julian M and Anthony E 1997 A historical review of man–karst relationships: Miscellaneous uses of karst and their impact; Riv. di. Geog. Ital. 103 289–338.
Palmer A N 1991 Origin and morphology of limestone caves; Geol. Soc. Am. Bull. 103 1–21.
Parise M and Pascali V 2003 Surface and subsurface environmental degradation in the karst of Apulia southern Italy; Env. Geol. 44 247–256.
Parise M and Gunn J 2007 Natural and anthropogenic hazards in karst areas; Geol. Soc. London, 279p.
Potter P E 1978 Petrology and chemistry of big river sands; J. Geology 86 423–449.
Quade J, English N and DeCelles P G 2003 Silicate versus carbonate weathering in the Himalaya: A comparison of the Arunand Seti River watersheds; Chem. Geol. 202 275–296.
Sarin M M, Krishnaswami S, Dilli K, Somayajulu B L K and Moore W S 1989 Major ion chemistry of the Ganga–Brahmaputra river system: Weathering processes and fluxes to the Bay of Bengal; Geochim. Cosmochim. Acta 53 997–1009.
Sasowsky I D 2007 Clastic sediments in caves – imperfect recorders of processes in karst; Acta Carsologica 36 143–149.
Sauro U 1993 Human impact on the karst of the Venetian Fore-Alps, Italy; Env. Geol. 21 115–121.
Sauro U 2006 Changes in the use of natural resources and human impact in the karst environment of the Venetian Prealps (Italy); Acta Carsologica 35 57–63.
Singh S K, Trivedi J R, Pande K, Ramesh R and Krishnaswami S 1998 Chemical and Sr, O, C, isotopic compositions of carbonates from the Lesser Himalaya: Implications to the Sr isotope composition of the source waters of the Ganga, Ghaghara and the Indus Rivers; Geochim. Cosmochim. Acta 62 743–755.
Singh S K, Sarin M M and France-Lanord C 2005 Chemical erosion in the eastern Himalaya: Major ion composition of the Brahmaputra and δ 13C of dissolved inorganic carbon; Geochim. Cosmochim. Acta 69 3573–3588.
Smith D I 1993 The nature of karst aquifers and their susceptibility to pollution; Catena Suppl. 25 41–58.
Spizzico M, Lopez N and Sciannamblo D 2005 Analysis of the potential contamination risk of groundwater resources circulating in areas with anthropogenic activities; Nat. Haz. Earth Syst. Sci. 5 109–116.
Urich P B 2002 Land use in karst terrain: Review of impacts of primary activities on temperate karst ecosystems; Sci. Conser. 198 5–60.
Wadia D N 1975 Geology of India (Tata McGraw Hill: New Delhi), 560p.
White W B 1988 Geomorphology and hydrology of karst terrains (Oxford University Press: New York), 462p.
White W B 2004 Paleoclimate records from speleothems in limestone caves; In: Studies of cave sediments: Physical and chemical records of paleoclimate (eds) Sasowsky I D and Mylroie J E (New York: Kluwer Publishers), pp. 135–176.
White W B 2007 Cave sediments and paleoclimate; J. Cav. Kar. Stud. 69 167–93.
Williams P 1993 Karst terrains, environmental changes and human impacts; Catena Suppl. 25 268p.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
JEELANI, G., BHAT, N.A., SHIVANNA, K. et al. Geochemical characterization of surface water and spring water in SE Kashmir Valley, western Himalaya: Implications to water–rock interaction. J Earth Syst Sci 120, 921–932 (2011). https://doi.org/10.1007/s12040-011-0107-0
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s12040-011-0107-0