Abstract
The distribution of Paraquat dichloride in different matrices of Warri River, Western Niger Delta, Nigeria was examined. The samplings and physicochemical parameters of the river were carried out during the dry and wet seasons, and stations were visited on monthly basis. The downstream stations had significant (p < 0.05) higher values than the control station. Seasonal variation revealed that, in water, the pesticide level was higher in the dry season than in wet season, and there was no significant difference between the seasons (p > 0.05). The reverse was the case for sediments and fish. The physicochemical parameters of the river’s water were within the recommended limits accepted by Federal Environmental Protection Agency, Nigeria. The observed Paraquat dichloride concentrations were above ecological bench, an observation that calls for regular monitoring and strict law enforcement to develop a strategy to manage environmental hazards and to improve environmental protection of this area
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abrantes N, Pereira R, Goncalves F (2010) Occurrence of pesticides in water, sediment, and fish tissues in a lake surrounded by agricultural lands: concerning risks to humans and ecological receptors. Water Air Soil Pollut 212(1–4):77–88
Adeyemi D, Ukpo G, Anyakora C, Unyimadu JP (2008) Organochlorine pesticide residues in fish samples from Lagos Lagoon, Nigeria. Am J Environ Sci 4(6):649–653
Badejo MA, Sosan MB (2005) Effects of pesticides on non-target organisms in Nigeria. Soc Environ Toxicol Chem 6(4):2–24
Bakre P, Misra V, Bhatnagar P (2005) Residues of organochlorine insecticides in fish from Mahala Water Reservoir, Jaipur, India. Bull Environ Contam Toxicol 45(3):394–398
Bauer C, Dial N (1995) Lethal effects of the consumption of field levels of paraquat-contaminated plants on frog tadpoles. Bull Environ Contam Toxicol 55:870–877
Blaustein A, Romansic R, Kiesecker M, Hatch C (2003) Ultraviolet radiation, toxic chemicals and amphibian population declines. Divers Distrib 9:123–140
Boone MD, Semlitsch RD (2002) Interactions of an insecticide with competition and pond drying in amphibian communities. Ecol Appl 12:307–316
Bridges CM (1999a) Effects of a pesticide on tadpole activity and predator avoidance behavior. J Herpetol 33:303–306
Bridges CM (2000) Long-term effects of pesticide exposure at various life stages of the southern leopard frog (Rana sphenocephala). Arch Environ Contam Toxicol 39:91–96
Caldas ED, Coelho R, Souza LK, Siba SC (1999) Organochlorine pesticides in water, sediment and fish of Paranoá Lake of Brasilia, Brazil. Bull Environ Contam Toxicol 62:199–206
Campbell D 1978 A review of the culture of Sarotherodon melanotheron in West Africa. FAO corporate Document Repository. Project RAF/82/009
Charles SW, Paul DC, Lisa HCN (2000) Organochlorine pesticides and PCBS in stream sediment and aquatic biota—initial results from the National Water-Quality Assessment Program, 1992–1995. Sacramento, California
Christin MS, Gendron A, Brousseau P, Menard L, Marcogliese J, David D, Cyr S, Fournier M (2003) Effects of agricultural pesticides on the immune system of Rana pipiens and on its resistance to parasitic infection. Environ Toxicol Chem 22:1127–1133
Dabrowski JM, Schulz R (2003) Predicted and measured levels of azinphosmethyl in the Lourens River, South Africa: comparison of runoff and spray drift. Environ Toxicol Chem 22:494–500
Daszak P, Cunningham AA, Hyatt D (2003) Infectious disease and amphibian population declines. Divers Distrib 9:141–150
Doong RA, Sun YC, Liao PL, Peng CK, Wu SC (2002) Distribution and fate of organochlorine pesticides residues in sediments from the selected river in Taiwan. Chemosphere 48:237–246
Edwards CA, Fusher SW (1991) The use of chlorinesterases measurements in assessing the impacts of pesticides on terrestrial and aquatic invertebrates. In: Mineau P (ed) Chlorinesterases inhibiting insecticides.their impact on wild and the environment. Elsevier, Amsterdam, pp 255–275
Elizabeta V, Momčula J, Trajče S, Marina S 2011 Study of organochlorine pesticide residues in water, sediment and fish tissue in Lake Ohrid (Macedonia/Albania); Macedonian Journal of Chemistry and Chemical Engineering, Vol. 30 No. 2 pp. 163–179 (2011) ISSN 1857–5552 UDC: 632.95.028(497.771:285)
EPA 1987 ParaquatFact Sheet No. 131
Ezemonye LIN (2005) Polychlorinated biphenyls (PCBs) levels and distribution in Warri and Benin Rivers of the Niger, Delta, surface water and sediment. Int J Environ Stud 65(5):491–504
Ezemonye LIN, Ikpesu EO, Tongo I (2010) Distribution of endosulfan in water, sediment and fish samples from Warri River, Niger Delta Nigeria. Afr J Ecol 16(4):67–80
Fallah AA, Saei-Dehkordi SS, Nematollahi A, Jafari F (2011) Comparative study of heavy metal and trace element accumulation in edible tissues of farmed and wild rainbow trout (Oncorhynchus mykiss) using ICP-OES technique. Microchem J 98(2):275–279
FEPA (1991) Guidelines and standards for environmental pollution control in Nigeria, vol 27. Federal Environmental Protection Agency, Nigeria, p 20
Gendron AD, Marcogliese DJ, Barbeau S, Christin MS, Brousseau MS, Ruby S, Cyr D, Fournier M (2003) Exposure of leopard frogs to a pesticide mixture affects life history characteristics of the lungworm Rhabdias ranae. Oecologia 135:469–476
Ghosh S, Das AK and Vass KK 2000 DDT, HCH and endosulfan residues in the lower stretches of river Ganga, Central Inland capture fisheries research institute, 27(4): 161–164
Gold- Bouchat GT, Silva-Herrera O, Zapata P (1995) Organochlorine pesticide residue concentrations in biota and sediments from Rio Palizada, Mexico. Bull Environ Contam Toxicol 54:554–556
Hoffman RS, Capel PD, Larson SJ (2000) Comparison of pesticides in eight U.S. urban streams. Environ Toxicol Chem 19:2249–2258
International Sorbent Technology (IST)1995 Guide to method development in solid phase extraction of water samples using Isolute® ENV+™SPE columns. International Sorbent Technology
Ize-Iyamu O K, Asia I O and Egwakhide PA 2007 Concentrations of residues from organochlorine pesticide in water and fish from some rivers in Edo State Nigeria. International Journal of Physical Sciences Vol. 2 (9), pp. 237–241, September, 2007. Available online at http://www.academicjournals.org/IJPS
Jablonowski ND, Schäffer A, Burauel P (2011) Still present after all these years: persistence plus potential toxicity raise questions about the use of atrazine. Environ Sci Poll Res 18(2):328–331
Kidwell JM, Phillips GF, Birchard GF (1990) Comparative analysis of contaminants levels in bottom feeding and predatory fish using the national contaminants bio-monitoring program data. Bull Environ Contam Toxicol 55(6):919–923
Liu J, Zhang XH, Tran H, Wang DQ, Zhu YN (2011) Heavy metal contamination and risk assessment in water, paddy soil, and rice around an electroplating plant. Environ Sci Poll Res 18(9):1623–1632
Marku E, Nuro A (2005) Chlorinated pesticides in the sediments and fish species of Shkodra Lake. J Environ Prot Ecol 6:539–549
Ossowska K, S’Mialowska M, Kuter K, Wieron’ska J, Zieba B, Wardas P, Nowak J, Dabrowska A, Bortel I, Biedka G, Schulze H (2006) Degeneration of dopaminergic mesocortical neurons and activation of compensatory processes induced by a long-term paraquat administration in rats: implications for Parkinson’s disease. Neuroscience 141(4):2155–2165
Rajendran RB, Imagewa T, Tao H, Ramesh D (2005) Distribution of PCBs, HCHs and DDTs and their eco toxicological implication in Bay of Bengal, India. Environ Int 31:503–512
Relyea RA, Mills N (2001) Predator-induced stress makes the pesticide carbaryl more deadly to gray treefrog tadpoles (Hyla versicolor). Proc Natl Acad Sci U S A 98:2491–2496
Rzezniczak TZ, Douglas LA, Watterson JH, Merritt TJS (2011) Paraquat administration in Drosophila for use in metabolic studies of oxidative stress. J Anal Biochem 419(2):345–347
Sankaramakrishna N, Kumar A, Sharma R, Sanghi E (2005) Organochlorine and organophosphorous pesticide residue in ground water and surface water of Kanpur, Uttar Pradesh, India. Environ Int 31:113–120
Shakoori AR, Aslam F, Sabir M (1992) Effect of prolonged administration of insecticide (cyhalothrin/karate) on the blood and liver of rabbits. Folia Biol 40:91–99
Shen X, Li Z, Wai OWH, Li Y (2000) Chemical partitioning of heavy metal contaminants in sediment of the Pearl River estuary. Chem Speciat Bioavailab 12(1):17–25
Singh KP, Malik A, Sinha S (2007) Persistent organochlorine pesticide residues in soil and surface water of Northern Indo-Gangetic alluvial plains. Environ Monit Assess 125:47–155
Sinha AK, Gopal RK, Krishna S (2001) Concentration of organochlorine pesticide residue in Ganga water in Bihar, India. Environ Ecol 19(2):35–356
Sodergren A (1997) Trends in water pollution, consequences for ecotoxicology. In: Zelikoff JT (ed) Ecotoxicology: responses, biomarkers and risk assessment, an OECD workshop. SOS Publications, Fair Haven, pp 15–23
Standard Organisation of Nigeria (SON) (2007) Drinking water quality guidelines, Nigeria. Department of Petroleum Resources, Federal Ministry of Environment, Nigeria
Tanner CM, Freya KG, Webster R, Jane A, Hoppin SM, Goldman M, Korell C, Marras GS (2011) Rotenone, paraquat and Parkinson’s disease. Environ Health Perspect 119(6):866–872
Tomlin CDS (1994) The Pesticide Manual, incorporating The Agrochemicals Handbook, 10th edn. British Crop Protection Council and the Royal Society of Chemistry, Farnham UK
Topi D, TrojaP, Koci K, Marku, Marku E, Nuro A 2006 Same experimental data about the levels of chlorinated pesticides and PCBs in the biota of Ohrid Lake, Proceedings on Conference on water observation and information system for decision support, Ohrid, Macedonia, (www.balwois.net)
Waichman AV, Rombke J, Ribeiro MOA, Nina NSC (2002) Use and fate of pesticides in the Amazon state, Brazil—risk to human health and the environment. Environ Sci Pollut Res 9(6):423–442
WHO 1991 International Programme on Chemical Safety, Paraquat Health and Safety Guide No. 51 Geneva
WHO 1996 University of Florida Co-operative Extension Service, http:edis.ifas.ufl.edu/Boby SS 297
WHO 2006 Guidelines for Drinking Water Quality Vol. 1 Geneva
Wilfred 1995 Pesticides in surface water. Distribution trends and governing factors. Pesticides in the Hydrologic System vol. S. Ann Arbor Press, Chelsea, M. I, USA
Acknowledgments
A very special appreciation goes to staff and members of the Department of Animal and Environmental Biology and Fisheries Department, University of Benin, Nigeria for their unalloyed support throughout the period of this research. They assisted in the analysis of most of the physicochemical parameters at a subsidized rate.
In the same vein, I would like to acknowledge the support of the Fisheries Department, Delta State Ministry of Agriculture and Natural Resources and the Ministry of Land and Survey for making the map of the Warri River available.
Author information
Authors and Affiliations
Corresponding author
Additional information
Responsible editor: Philippe Garrigues
Rights and permissions
About this article
Cite this article
Ikpesu, T.O. Assessment of occurrence and concentrations of paraquat dichloride in water, sediments and fish from Warri River Basin, Niger Delta, Nigeria. Environ Sci Pollut Res 22, 8517–8525 (2015). https://doi.org/10.1007/s11356-014-3993-2
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11356-014-3993-2