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Spatial and temporal dynamics of dissolved nutrients and factors affecting water quality of Chilika lagoon

  • Sadaf NazneenEmail author
  • N. Janardhana Raju
  • Sughosh Madhav
  • Arif Ahamad
Original Paper
  • 57 Downloads

Abstract

Water quality of Chilika lagoon was assessed for pre- and post-monsoon seasons. A marked spatial and temporal variability in the water quality was observed in this study. Principal component analysis (PCA) reveals the influence of salinity, anthropogenic factors, as well as vegetation on the water quality. The higher concentration of nitrate (NO3) and phosphate (PO43−) in certain pockets of the lagoon water was due to the prevalence of agricultural, municipal, and domestic waste. A positive correlation between PO43− and DSi indicates their terrigenous input from freshwater influx. Cyclone Phailin had profound impact on several water quality parameters. pH, dissolved oxygen (DO), and dissolved inorganic carbon (DIC) are governed largely by the presence of macrophytes. The impact of severe cyclone Phailin can be assessed from the very low salinity values persisting in the lagoon even 2.5 months after the cyclone hit Odisha coast. Some toxic heavy metals like Copper (Cu), Lead (Pb), Nickel (Ni), Cobalt (Co), Manganese (Mn), and Iron (Fe) exceeded the Environmental Protection Agency (EPA) standards at many locations in both the seasons. Non-conservative behavior of nutrients indicates well mixed nature of lagoon which is also indicative of good primary productivity. Northern sector (NS) of the lagoon is susceptible to eutrophication being riverine influenced region. Southern sector has more stable ion chemistry as a result of least freshwater discharge, constant supply of saline water, and lesser water renewal.

Keywords

Chilika lagoon Dissolved nutrients Phailin Macrophytes Non-conservative behavior 

References

  1. Balasubramanian CP, Pillai SM, Ravichandran P (2004) Zero-water exchange shrimp farming systems (extensive) in the periphery of Chilka lagoon, Orissa, India. Aquac Int 12:555–572CrossRefGoogle Scholar
  2. Barik SK, Muduli PR, Mohanty B, Behera AT, Mallick S, Das A, Samal RN, Rastogi G, Pattnaik AK (2018) Spatio-temporal variability and the impact of Phailin on water quality of Chilika lagoon. Cont Shelf Res 136:39–56CrossRefGoogle Scholar
  3. Barik SK, Muduli PR, Mohanty B, Rath P, Samanta S (2018) Spatial distribution and potential biological risk of some metals in relation to granulometric content in core sediments from Chilika Lake, India. Environ Sci Pollut Res 25:572–587CrossRefGoogle Scholar
  4. Bassi N, Kumar MD, Sharma A, Pardha-Saradhia P (2014) Status of wetlands in India: a review of extent, ecosystem benefits, threats and management strategies. J Hydrol Reg Stud 2:1–19CrossRefGoogle Scholar
  5. Beltrame MO, De Marco SG, Marcovecchio JE (2009) Dissolved and particulate heavy metals distribution in coastal lagoons. A case study from mar Chiquita lagoon, Argentina. Estuar Coast Shelf Sci 85:45–56CrossRefGoogle Scholar
  6. Beucher C, Tr ´e P, Corvaisier R, Hapette AM, Elskens M (2004) Production and dissolution of biosilica, and changing microphytoplankton dominance in the bay of Brest (France). Mar Ecol Progr Ser 267:57–69CrossRefGoogle Scholar
  7. Bose R, De A, Sen G, Mukherjee AD (2012) Comparative study of the Physico chemical parameters of the coastal waters in Rivers Matla and Saptamukhi: impacts of coastal water coastal pollution. Journal of Water Chemistry and Technology 34(5):246–251CrossRefGoogle Scholar
  8. Bouillon S, Dehairs F (2007) Biogeochemistry of the Tana estuary and delta (Northern Kenya). Limnol Oceanogr 52(1):46–59CrossRefGoogle Scholar
  9. Burford MA, Alongi DM, McKinnon AD, Trott LA (2008) Primary production and nutrients in a tropical macrotidal estuary, Darwin Harbour, Australia. Estuar Coast Shelf Sci 79:440–448CrossRefGoogle Scholar
  10. Chakrapani GJ, Subramanian V (1993) Heavy metal distribution and fractionation in sediments of the Mahanadi River basin, India. Environ Geol 22:80–87CrossRefGoogle Scholar
  11. Chauhan R, Ramanathan AL (2008) Evaluation of water quality of Bhitarkanika mangrove ecosystem, Orissa, east coast of India. Indian Journal of Marine Sciences 37(2):153–158Google Scholar
  12. Clark LB, Gobler CJ, Sanudo-Wilhelmy SA (2006) Spatial and temporal dynamics of dissolved trace metals, organic carbon, mineral nutrients, and phytoplankton in a coastal lagoon: great South Bay, New York. Estuar Coasts 29(5):841–854CrossRefGoogle Scholar
  13. Das SK, Routh J, Alakendra N, Roy Choudhury J, Klump V (2008) Major and trace element geochemistry in Zeekoevlei, South Africa: a lacustrine record of present and past processes. Appl Geochem 23:2496–2511CrossRefGoogle Scholar
  14. Fawzy MA, El-sayed BN, El-Khatib A, Abo-El-Kassem A (2012) Heavy metal biomonitoring and phytoremediation potentialities of aquatic macrophytes in River Nile. Environ Monit Assess 184:1753–1771.  https://doi.org/10.1007/s10661-011-2076-9 CrossRefGoogle Scholar
  15. Garali AB, Ouakad M, Gueddari M (2011) Geochemistry of Bizerte lagoon affluent water Northern Tunisia: principal component analysis. Arab J Geosci 4:475–481.  https://doi.org/10.1007/s12517-010-0128-z CrossRefGoogle Scholar
  16. Gardham S, Chariton AA, Hose GC (2015) Direct and indirect effects of copper-contaminated sediments on the functions of model freshwater ecosystems. Ecotoxicology 24:61–70.  https://doi.org/10.1007/s10646-014-1355-y CrossRefGoogle Scholar
  17. Ghosh AK, Pattnaik AK, Balatore TJ (2006) Chilika Lagoon: Restoring ecological balance and livelihoods through re-salinization. Lakes & Reservoirs: Research and Management. 11: 239–255Google Scholar
  18. Gouda R, Panigrahy RC (1992) Seasonal distribution and behavior of silicate in the Rushikulya estuary, east coast of India. Indian J Mar Sci 24:111–115Google Scholar
  19. Gupta GVM, Sarma VVSS, Robin RS, Raman AV, Kumar MJ, Rakesh M, Subramanian BR (2008) Influence of net ecosystem metabolism in transferring riverine organic carbon to atmospheric CO in a tropical coastal lagoon (Chilka Lake, India). Biogeochemistry 87:265–285CrossRefGoogle Scholar
  20. Henneman MC, Petrucio MM (2011) Spatial and temporal dynamic of trophic relevant parameters in a subtropical coastal lagoon in Brazil. Environ Monit Assess 181:347–361.  https://doi.org/10.1007/s10661-010-1833-5 CrossRefGoogle Scholar
  21. Jayakumar R, Steger K, Chandra TS, Seshadri S (2013) An assessment of temporal variations in physicochemical and microbiological properties of barmouths and lagoons in Chennai (southeast coast of India). Mar Pollut Bull 70(1–2):44–53.  https://doi.org/10.1016/j.marpolbul.2013.02.005 CrossRefGoogle Scholar
  22. Kaiser HF (1960) The application of electronic computers to factor analysis. Educ Psychol Measure 20:141–151CrossRefGoogle Scholar
  23. Kanuri VV, Muduli PR, Robin RS, Kumar BC, Lovaraju A, Ganguly D, Patra S, Rao GN, Raman AV, Subramanian BR (2013) Plankton metabolic processes and its significance on dissolved organic carbon pool in a tropical brackish water lagoon. Cont Shelf Res 61-62:52–61CrossRefGoogle Scholar
  24. Khandelwal A, Mohanti M, Garcı’a-Rodrı’guez F, Scharf BW (2008) Vegetation history and sea level variations during the last 13,500 years inferred from a pollen record at Chilika Lake, Orissa, India. Veget Hist Archaeobot 17:335–344.  https://doi.org/10.1007/s00334-007-0127-5 CrossRefGoogle Scholar
  25. Lara RJ, Dittmar T (1999) Nutrient dynamics in a mangrove creek (North Brazil) during the dry season. Mangrove Salt Marshes 3:185–195CrossRefGoogle Scholar
  26. Li RH, Liu SM, Li YW, Zhang GL, Ren JL, Zhang J (2014) Nutrient dynamics in tropical rivers, lagoons, and coastal ecosystems of eastern Hainan Island, South China Sea. Biogeoscience 11:481–506.  https://doi.org/10.5194/bg-11-481-2014 CrossRefGoogle Scholar
  27. Liu SM, Li RH, Zhang GL, Wang DR, Du JZ, Herbeck LS, Zhang J, Ren JL (2011) The impact of anthropogenic activities on nutrient dynamics in the tropical Wenchanghe and Wenjiaohe estuary and lagoon system in East Hainan, China. Mar Chem 125:49–68CrossRefGoogle Scholar
  28. Loska K, Wiechuła D (2003) Application of principal component analysis for the estimation of source of heavy metal contamination in surface sediments from the Rybnik reservoir. Chemosphere 51:723–733CrossRefGoogle Scholar
  29. Misra SP, Jena J (2015) Morphological reconstruction of southern Mahanadi Delta and Chilika lagoon, India – a critical study. Int J Adv Res 3(5):691–702Google Scholar
  30. Mohanty PK, Panda US (2009) Circulation and mixing processes in Chilika lagoon. Indian J Mar Sci 38(2):205–214Google Scholar
  31. Muduli PR, Kanuri VV, Robin RS, Kumar BC, Patra S, Raman AV, Rao GN, Subramanian BR (2012) Spatio-temporal variation of CO2 emission from Chilika Lake, a tropical coastal lagoon, on the east coast of India. Estuar Coast Shelf Sci 113:305–313CrossRefGoogle Scholar
  32. Muduli PR, Kanuri VV, Robin RS, CharanKumar B, Patra S, Raman AV, Rao GN, Subramanian BR (2013) Distribution of dissolved inorganic carbon and net ecosystem production in a tropical brackish water lagoon, India. Cont Shelf Res 64:75–87CrossRefGoogle Scholar
  33. Mustapha A, Aris AZ, Juahir H, Ramli MF (2013) Surface water quality contamination source apportionment and physicochemical characterization at the upper section of the Jakara Basin, Nigeria. Arab J Geosci 6:4903–4915.  https://doi.org/10.1007/s12517-012-0731-2 CrossRefGoogle Scholar
  34. Nayak L, Behera DP (2004) Seasonal variation of some physicochemical parameters of the Chilika lagoon (east coast of India) after opening the new mouth, near Sipakuda. Indian Journal of marine Sciences 33(2):206–208Google Scholar
  35. Nazneen S, Patel P (2016) Distribution and fractionation of heavy metals in surface sediments of Chilika lagoon, east coast of India. IOSR J Environ Sci Toxicol Food Technol 10(6):63–71Google Scholar
  36. Nazneen S, Raju NJ (2017) Distribution and sources of carbon, nitrogen, phosphorus and biogenic silica in the sediments of Chilika lagoon. J Earth Syst Sci:126–213.  https://doi.org/10.1007/s12040-016-0785-8
  37. Nazneen S, Singh S, Raju NJ (2018) Heavy metal fractionation in core sediments and potential biological risk assessment from Chilika lagoon, Odisha state. India. Quaternary International.  https://doi.org/10.1016/j.quaint.2018.05.011
  38. Newton A, Mudge SM (2005) Lagoon-sea exchanges, nutrient dynamics and water quality management of the Ria Formosa (Portugal). Estuar Coast Shelf Sci 62:405–414CrossRefGoogle Scholar
  39. Padmavathi D, Satyanarayana D (1999) Distribution of nutrients and major elements in riverine, estuarine and adjoining coastal waters of Godavri, Bay of Bengal. Indian J Mar Sci 28:345–354Google Scholar
  40. Panigrahi S, Chandra AB, Panigrahy RC, Nayak BK, Banarjee K, Sarkar SK (2007) Anthropogenic impact on water quality of Chilika lagoon RAMSAR site: a statistical approach. Wetlands Ecol Manage 15:113–126.  https://doi.org/10.1007/s11273-006-9017-3. CrossRefGoogle Scholar
  41. Panigrahi S, Wikner J, Panigrahy RC, Satapathy KK, Acharya BC (2009) Variability of nutrients and phytoplankton biomass in a shallow brackish water ecosystem (Chilika Lagoon, India). Limnology 10:73–85.  https://doi.org/10.1007/s10201-009-0262-z. CrossRefGoogle Scholar
  42. Prabu VA, Rajkumar M, Perumal P (2008) Seasonal variations in physico-chemical parameters in Uppanar estuary, Cuddalore (southeast coast of India). J Mar Biol Ass India 50(2):161–165Google Scholar
  43. Purushothaman A, Venugopalan VK (1972) Distribution of dissolved Silicon in the Vellar Estuary. Indian J Mar Sci 1:103–105Google Scholar
  44. Rai LB (1985) Sedimentology of Lake Chilka. M. Phil Dissertation, Jawaharlal Nehru UniversityGoogle Scholar
  45. Rajawat AS, Gupta M, Acharya BC, Nayak S (2007) Impact of new mouth opening on morphology and water quality of the Chilika Lagoon—a study based on Resourcesat-1 LISS-III and AWiFS and IRS-1D LISS-III data. Int J Remote Sens 28(5):905–923CrossRefGoogle Scholar
  46. Raju NJ, Ram P, Dey S (2009) Groundwater quality in the Lower Varuna River Basin, Varanasi District, Uttar Pradesh. J Geol Soc India 73:178–192CrossRefGoogle Scholar
  47. Raju NJ, Dey S, Gossel W, Wycisk P (2012) Fluoride hazard and assessment of groundwater quality in the semi-arid Upper Panda River basin, Sonbhadra district, Uttar Pradesh, India. Hydrological Sciences Journal. 57:7, 1433–1452.  https://doi.org/10.1080/02626667.2012.715748 CrossRefGoogle Scholar
  48. Raju NJ, Patel P, Reddy BCSR, Suresh U, Reddy TVK (2016) Identifying source and evaluation of hydrogeochemical processes in the hard rock aquifer system: geostatistical analysis and geochemical modeling techniques. Environ Earth Sci 75:1157CrossRefGoogle Scholar
  49. Ray AK (2011) Biogeochemical fluxes of carbon and nitrogen from Chilika Lake, East Coast of India. PhD Thesis, Anna University.Google Scholar
  50. Sahoo S, Baliarsingh SK, Lotliker AA, Sahu KC (2014) Imprint of cyclone Phailin on water quality of Chilika lagoon. Curr Sci 107(9)Google Scholar
  51. Sahu BK, Pati P, Panigrahy RC (2014) Environmental conditions of Chilika Lake during pre and post hydrological intervention: an overview. J Coast Conserv. 18:285–297.  https://doi.org/10.1007/s11852-014-0318-z CrossRefGoogle Scholar
  52. Sarkar SK, Mondal P, Biswas JK, Kwon EE, Ok YS, Rinklebe J (2017) Trace elements in surface sediments of the Hooghly (Ganges) estuary: distribution and contamination risk assessment. Env Geochem and Health.  https://doi.org/10.1007/s10653-017-9952-3 CrossRefGoogle Scholar
  53. Satapathy DR, Panda CR (2015) Spatio-temporal distribution of major and trace metals in estuarine sediments of Dhamra, Bay of Bengal, India—its environmental significance. EnvironMonit Assess. 187:4133.  https://doi.org/10.1007/s10661-014-4133-7
  54. Satpathy KK, Mohanty AK, Natesan U, Prasad MVR, Sarkar SK (2010a) Seasonal variation in physicochemical properties of coastal waters of Kalpakkam, east coast of India with special emphasis on nutrients. Environ Monit Assess 164:153–171.  https://doi.org/10.1007/s10661-009-0882-0 CrossRefGoogle Scholar
  55. Satpathy KK, Mohanty AK, Sahu G, Sarkar SK, Natesan U, Venkatesan R, Prasad MVR (2010b) Variations of physicochemical properties in Kalpakkam coastal waters, east coast of India, during southwest to northeastmonsoon transition period. EnvironMonit Assess 171:411–424.  https://doi.org/10.1007/s10661-009-1287-9 CrossRefGoogle Scholar
  56. Silva MAM, Eça GF, Santos DF, Guimarães AG, Lima MC (2013) Dissolved inorganic nutrients and chlorophyll a in an estuary receiving sewage treatment plant effluents: Cachoeira River estuary (NE Brazil). Environ Monit Assess:5387–5399.  https://doi.org/10.1007/s10661-012-2953-x- CrossRefGoogle Scholar
  57. Singh S, Raju NJ, Nazneen S (2015) Environmental risk of heavy metal pollution and contamination sources using multivariate analysis in the soils of Varanasi environs, India. Environ Monit Assess 187:345.  https://doi.org/10.1007/s10661-015-4577-4. CrossRefGoogle Scholar
  58. Srichandan S, Kim JY, Bhadury P, Barik SK, Muduli PR, Samal RN, Pattnaik AK, Rastogi G (2015a) Spatio temporal distribution and composition of phytoplankton assemblages in a coastal tropical lagoon: Chilika, India. Environ Monitoring Assess 187(47):1–17Google Scholar
  59. Srichandan S, Kim JY, Kumar A, Mishra DR, Bhadury P, Muduli PR, Pattnaik AK, Rastogi G (2015b) Interannual and cyclone-driven variability in phytoplankton communities of a tropical coastal lagoon. Sci Total Environment 101(1):39–52Google Scholar
  60. Sylaios G, Theocharis V (2002) Hydrology and nutrient enrichment at two coastal lagoon Systems in Northern Greece. Water Resour Manag 16:171–196CrossRefGoogle Scholar
  61. United States Environmental Protection Agency (EPA) (2009). http://www.epa.gov/scitech/swguidance/standards/current
  62. Wang K, Chen J, Jin H, Li H, Gao S, Jie X, Huang YLD, Hao Q, Weng H (2014) Summer nutrient dynamics and biological carbon uptake rate in the Changjiang River plume inferred using a three end-member mixing model. Cont Shelf Res 91:192–200CrossRefGoogle Scholar
  63. Wetlands International Report (2011) Chilika An Integrated Management Planning Framework for Conservation and Wise Use.Google Scholar
  64. Zachmann DW, Mohanti M, Treutler HC, Scharf B (2009) Assessment of element distribution and heavy metal contamination in Chilika Lake sediments (India). Lakes Reservoirs Res Manag 14:105–125CrossRefGoogle Scholar
  65. Zhang L, Du Y, Wu S, Yu C, Feng Q, Ban X, Ren X, Xue H (2014) Characteristics of nutrients in natural wetland in winter: a case study. Environ Monit Assess 184:5487–5495.  https://doi.org/10.1007/s10661-011-2355-5. CrossRefGoogle Scholar

Copyright information

© Saudi Society for Geosciences 2019

Authors and Affiliations

  • Sadaf Nazneen
    • 1
    Email author
  • N. Janardhana Raju
    • 1
  • Sughosh Madhav
    • 1
  • Arif Ahamad
    • 1
  1. 1.School of Environmental Sciences, Jawaharlal Nehru UniversityNew Delhi -110067India

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