Abstract
This present study provides an overview of the C/N ratio and organic matter (OM) contents in surface sediments of four lakes that occur in the Kashmir Valley. Valleys are depressed areas of land that influence climate and weather at both global and local scales. The oval-shaped intermontane valley is dotted with numerous freshwater lakes of various shapes and depths. These lakes represent the remnants of a substantial Karewa Lake body that extended across the valley floor currently occupied by the modern lakes. The study presented is based on analysis of the organic material deposited on the lake basin floors, transported via both natural and anthropogenic sources. The present deposition of terrestrial organic material in the lake sediments has apparently altered the trophic status of these lakes from oligo- to eutrophic conditions. Analysis of the C/N ratio in the Holocene lake sediments suggests that these lakes are dynamic ecosystems the accumulation of organic material being sources and depositional processes occurring within these lake basins. The report reviews the accumulation of organic material and the C/N ratio of the surface sediments, and discusses their potential value in palaeoclimatic interpretation of fossil sediments in these lake basins to serve as an analogue with older materials. The organic material deposited in these lakes is predominantly a function of climatic conditions in the valley. The organic and isotopic composition of the lake sediments can potentially provide important information of past lake nutrient dynamics, palaeoenvironmental changes and depositional sources influencing the basins through time.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Alam A, Ahmad S, Bhat MS, Ahmad B (2015) Tectonic evolution of Kashmir basin in Northwest Himalayas. Geomorphology 239:114–126
Babeesh C, Achyuthan H, Sajeesh TP, Ravichandran R (2016) Spatial distribution of diatoms and organic matter of surface lake sediments, Karlad, North Kerala. J Palaeontol Soc India 61:239–247
Babeesh C, Achyuthan H, Jaiswal MK, Lone A (2017) Late Quaternary loess-like paleosols and pedocomplexes, geochemistry, provenance and source area weathering, Manasbal, Kashmir Valley. India Geomorphol 284:191–205. https://doi.org/10.1016/j.geomorph.2017.01.004
Bagnolus F, Meher-Homji VM (1959) Bioclimatic types of South East Asia. Travaux de la Section Scientific at Technique Institut Franscis de Pondicherry, Pondicherry, p 227
Burone L, Muniz P, Pires-Vanin A, Maria S, Rodrigues M (2003) Spatial distribution of organic matter in the surface sediments of Ubatuba Bay (Southeastern-Brazil). Ann Braz Acad Sci 75:77–80
Dean WE (2006) Characterization of organic matter in lake sediments from Minnesota and Yellowstone National Park. U.S. Geological Survey. Open-File Report 2006-1053, pp 1–39
Ganaie MA, Parveen M, Balkhi MH (2015) Physico-chemical profile of three freshwater flood plain lakes of River Jhelum, Kashmir (India). Int J Multidiscip Res Dev 2:527–532
Ganjoo RK (2014) The Vale of Kashmir: landform evolution and processes. In: Landscapes and landforms of India, World geomorphological landscapes. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-8029-2_11
Gao XL, Chen CTA (2012) Heavy metal pollution status in surface sediments of the coastal Bohai Bay. Water Res 46:1901–1911
Hedges JI, Keil RG (1995) Sedimentary organic matter preservation: an assessment and speculative synthesis. Marine Chem 49:81–115
Hou D, He J, Lü C, Sun Y, Zhang F, Otgonbayar K (2013) Effects of environmental factors on nutrients release at sediment-water interface and assessment of trophic status for a typical Shallow Lake, Northwest China. Sci World J 2013:1–16
Hyne NJ (1978) The distribution and source of organic matter in reservoir sediments. Environ Geol 2:279–287
Jeelani G, Shah AQ (2006) Geochemical characteristics of water and sediment from the Dal Lake, Kashmir Himalaya: constraints on weathering and anthropogenic activity. Environ Geol 50:112–123
Khanday SA, Yousuf AR, Reshi ZA, Rashid I, Jehangir A, Romshoo SA (2016) Management of Nymphoides peltatum using water level fluctuations in freshwater lakes of Kashmir Himalaya. Limnology. https://doi.org/10.1007/s10201-016-0503-x
Ku HW, Chen YG, Chan PS, Liu HC, Lin CC (2007) Paleoenvironmental evolution as revealed by analysis of organic carbon and nitrogen: a case of coastal Taipei Basin in Northern Taiwan. Geochem J 41:111–120
Lamb LA, Vane HC, Wilson PG, Rees GJ, Moss-Hayes VL (2007) Assessing δ13C and C:N ratios from organic material in archived cores as Holocene sea level and palaeoenvironmental indicators in the Humber Estuary, UK. Mar Geol 244:109–128
Lone A, Babeesh C, Achyuthan H, Chandra R (2017) Evaluation of environmental status and geochemical assessment of sediments, Manasbal Lake, Kashmir, India. Arab J Geosci 10:1–18
Lone AM, Achyuthan H, Shah RA, Sangode SJ (2018a) Environmental magnetism and heavy metal assemblages in lake bottom sediments, Anchar Lake, Srinagar, NW Himalaya, India. Int J Environ Res. https://doi.org/10.1007/s41742-018-0108-9
Lone AM, Shah RA, Achyuthan H, Fousiya AA (2018b) Geochemistry, spatial distribution and environmental risk assessment of the surface sediments: Anchar Lake, Kashmir Valley, India. Environ Earth Sci 77(65). https://doi.org/10.1007/s12665-018-7242-8
Lone AM, Shah RA, Achyuthan H, Rafiq M (2018c) Source identification of organic matter using C/N ratio in freshwater lakes of Kashmir Valley, Western Himalaya, India. Himal Geol 39(1):101–114
Mahapatra DM, Chanakya HN, Ramachandra TV (2011) C:N ratio of sediments in a sewage fed Urban Lake. Int J Geol 3:86–92
Maqbool C, Khan AB (2013) Biomass and carbon content of emergent macrophytes in Lake Manasbal, Kashmir: implications for carbon capture and sequestration. Internat J Sci Res Publ 3:1–7
Meyers PA (1994) Preservation of elemental and isotopic source identification of sedimentary organic matter. Chem Geol 114:289–302
Meyers PA, Ishiwatari R (1993) Lacustrine organic geochemistry – an overview of indicators of organic matter sources and diagenesis in lake sediments. Org Geochem 20(7):867–900
Meyers PA, Lallier-Vergès E (1999) Lacustrine sedimentary organic matter records of Late Quaternary paleoclimates. J Paleolimnol 21:345–372
Meyers PA, Teranes JL (2001) Sediment organic matter. In: Last WM, Smol JP (eds) Tracking environmental changes using lake sediments, Vol. 2: Physical and geochemical methods. Kluwer Academic, Dordrecht
Pandit AK (2002) Trophic evolution of lakes in Kashmir Himalaya. In: Pandit AK (ed) Natural resources of Western Himalaya. Valley Book House, Srinagar
Rashid SA, Masoodi A, Khan FA (2013) Sediment-water interaction at higher altitudes: example from the geochemistry of Wular Lake sediments, Kashmir Valley, northern India. Proc Earth Planet Sci 7:786–789
Rumolo P, Barra M, Gherardi S, Marsella E, Sprovieri M (2011) Stable isotopes and C/N ratios in marine sediments as a tool for discriminating anthropogenic impact. J Environ Monit 13:3399–3408
Sarkar S, Prakasam M, Banerji US, Bhushan R, Gaury PK, Meena NK (2016) Rapid sedimentation history of Rewalsar Lake, Lesser Himalaya, India during the last fifty years – estimated using 137Cs and 210Pb dating techniques: a comparative study with other north-western Himalayan Lakes. Himal Geol 37:1):1–1):7
Shah RA, Achyuthan H, Lone A, Ravichandran R (2017) Diatoms, spatial distribution and physicochemical characteristics of the Wular Lake Sediments, Kashmir Valley, Jammu and Kashmir. J Geol Soc India 90:159–168
Vijayaraj R, Achyuthan H (2016) Organic matter source in the freshwater tropical lakes of southern India. Curr Sci 111:168–176
Vogel H, Wessels M, Albrecht C, Stich HB, Wagner B (2010) Spatial variability of recent sedimentation in Lake Ohrid (Albania/Macedonia) – a complex interplay of natural and anthropogenic factors and their possible impact on biodiversity patterns. Biogeosci Discuss 7:3911–3930
Wadia DN (1941) Pleistocene Ice Age deposits of Kashmir. Proc Natl Inst Sci India 7(1):49–59
Wadia DN (1976) Geology of India, 4th edn. Reprint 1976. Macmillan, London, p 508
Xiao J, Fan J, Zhou L, Zhai D, Wen R, Qin X (2013) A model for linking grain-size component to lake level status of a modern clastic lake. J Asian Earth Sci 69:149–158
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2020 Springer Nature Switzerland AG
About this chapter
Cite this chapter
Achyuthan, H., Lone, A.M., Shah, R.A., Fousiya, A.A. (2020). Climate, C/N Ratio and Organic Matter Accumulation: An Overview of Examples from Kashmir Himalayan Lakes. In: Dimri, A., Bookhagen, B., Stoffel, M., Yasunari, T. (eds) Himalayan Weather and Climate and their Impact on the Environment . Springer, Cham. https://doi.org/10.1007/978-3-030-29684-1_11
Download citation
DOI: https://doi.org/10.1007/978-3-030-29684-1_11
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-030-29683-4
Online ISBN: 978-3-030-29684-1
eBook Packages: Earth and Environmental ScienceEarth and Environmental Science (R0)