BEHAVIORAL CHANGES IN FRESH WATER BIVALVE, LAMELLIDENS MARGINALIS DUE TO ACUTE TOXIC EFFECT OF ORGANOTIN TRIBUTYLTIN CHLORIDE IN SUMMER SEASON

The bivalves have been used for many years to determine the pollution status of water. When freshwater bivalve, Lamellidens marginalis exposed to 3.55 ppm, 2.42 ppm, 1.79 ppm and 0.98 ppm LC50 concentration at 24 to 96 hrs of periods of intervals. Showed Different physiological and morphologically c...

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Main Author: Dr. J.T. Jagtap
Format: Text
Language:unknown
Published: Zenodo 2020
Subjects:
Lamellidens marginalis, Tributyltin chloride, Behavioral change, Acute toxicity, Summer Season.
10.5281/zenodo.3996434
Indian
Lamarck
Davidson
Fuller
Lester
Meier
Minnows
Crassostrea gigas
Online Access:https://dx.doi.org/10.5281/zenodo.3996434
https://zenodo.org/record/3996434
id ftdatacite:10.5281/zenodo.3996434
record_format openpolar
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language unknown
topic Lamellidens marginalis, Tributyltin chloride, Behavioral change, Acute toxicity, Summer Season.
10.5281/zenodo.3996434
spellingShingle Lamellidens marginalis, Tributyltin chloride, Behavioral change, Acute toxicity, Summer Season.
10.5281/zenodo.3996434
Dr. J.T. Jagtap
BEHAVIORAL CHANGES IN FRESH WATER BIVALVE, LAMELLIDENS MARGINALIS DUE TO ACUTE TOXIC EFFECT OF ORGANOTIN TRIBUTYLTIN CHLORIDE IN SUMMER SEASON
topic_facet Lamellidens marginalis, Tributyltin chloride, Behavioral change, Acute toxicity, Summer Season.
10.5281/zenodo.3996434
description The bivalves have been used for many years to determine the pollution status of water. When freshwater bivalve, Lamellidens marginalis exposed to 3.55 ppm, 2.42 ppm, 1.79 ppm and 0.98 ppm LC50 concentration at 24 to 96 hrs of periods of intervals. Showed Different physiological and morphologically changes were observed in tributyltin chloride exposed groups. There is no any kind of change observed in control groups of bivalves. From this study we concluded that toxicity of TBTCL was responsible for behavioral changes in L. marginalis. : {"references": ["Andhale, A., Pawar, H., & Zambare, S. (2011). The Evaluation of Nickel Toxicty on Lamellidens marginalis. Recent Research in Science and Technology, 3(5), 1-5.", "Ansari, A. M., & Singh, Y. (2014). Combining ability analysis for vegetative, physiological and yield components in brinjal (Solanum melongena L.). International Science Journal, 1(2), 53-59.", "Arome, D., & Chinedu, E. (2013). The importance of toxicity testing. Journal of Pharmaceutical and BioSciences, 4, 146-148.", "Azizi, G., Akodad, M., Baghour, M., Layachi, M., & Moumen, A. (2018). The use of Mytilus spp. mussels as bioindicators of heavy metal pollution in the coastal environment. A review. Journl of Mater Environment Science, 9(4), 1170-1181.", "Batley, G. (1996). The distribution and fate of tributyltin in the marine environment. Cambridge University Press, UK. pp. 139- 166.", "Bhamre, P., Lomte, V., & Pawar, K. (1996). Acute toxicity of some selected heavy metals to freshwater bivalve Parreysia favidens. Pollution Research, 15, 143-145.", "Brooks, R., & Rumsby, M. (1967). Studies on the uptake of cadmium by the oyster, Ostrea sinuata (Lamarck). Marine and Freshwater Research, 18(1), 53-62.", "Chaudhari, T., Jadhav, M., & Lomte, V. (1988). Acute toxicity of organophosphates to fresh water snails from Panzara River at Dhule, MS. Environment and ecology. Kalyani, 6(1), 244-245.", "Clark, E. A., Sterritt, R. M., & Lester, J. N. (1988). The fate of tributyltin in the aquatic environment. Environmental Science & Technology, 22(6), 600-604.", "Eisler, R. (1979). Behavioural responses of marine poikilotherms to pollutants. Philosophical Transactions of the Royal Society of London. B, Biological Sciences, 286(1015), 507-521.", "Eisler, R. (1989). Tin hazards to fish, wildlife, and invertebrates: a synoptic review: Fish and Wildlife Service, US Department of the Interior.", "Fent, K., & Meier, W. (1992). Tributyltin-induced effects on early life stages of minnows Phoxinus phoxinus. Archives of Environmental Contamination and Toxicology, 22(4), 428-438.", "Fuller, S. L. (1974). Clams and mussels (Mollusca: Bivalvia). Pollution Ecology of Freshwater Invertebrates, 215-273.", "Gibbs, P. E. (1996). TBT-induced imposex in neogastropod snails: masculinization to mass extinction. Tributyltin: case Study. Environmental Contaminant, 212-236.", "Holwerda, D., & Herwig, H. (1986). Accumulation and metabolic effects of di-n-butyltin dichloride in the freshwater clam, Anodonta anatina. Bulletin of Environmental Contamination and Toxicology, 36(1), 756-762.", "Humbe, A.D., Shejule, K. B., & Nikam, S. M. (2016). Seasonal study of acute toxicity of tributyltin oxide (TBTO) on the fresh water bivalve, Lamellidensmarginalis from Godavari river at Maharashtra, India. Indian Journal of Applied Research, 6(3), 229-231.", "Jadhav, S. M. (1993). Impact of pollutants on some physiological aspects of fresh water bivalve corbiculastraiatella. Ph.D. Thesis. Marathwada University, Aurangabad (M.S.) India.pp.1-220.", "Joshy, A., Niladevi, K. N., & Thomas, S. (2018). Assessing the impact of agricultural practices and pesticide usage on the water quality of Kuttanad Agroecosystem. Xaverian Research Journal, 15, 15 - 30.", "Kamble, S., & Kamble, N. (2014). Behavioural changes in freshwater snail Bellamya bengalensis due to acute toxicity of copper sulphate and Acacia sinuata. International Journal of Science, Environment and Technology, 3, 1090-1104.", "Kharat, P., Ghoble, L. B., Shejule, K., Kale, R., & Ghoble, B. (2009). Impact of TBTCl on total protein content in cresh water prawn, Macrobrachium kistnensis. Middle East Journal of Scientific Research, 4(3), 180-184.", "Laughlin, R. B., Thain, J., Davidson, B., Valkirs, A. O., & Newton, F. C. (1996). Experimental studies of chronic toxicity of tributyltin compounds Organotin. Environmental Fate and Effects, 191-217.", "Mane, U., & Muley, D. (1984). Acute toxicity of endosulfan 35EC to two freshwater bivalve molluscs from Godavari River at Maharashtra State, India. Toxicology Letters, 23(2), 147-155.", "Mohate, P. B. Effect of tributyltin oxide and copper sulphate on freshwater fish Rasbora daniconius. Thesis submitted to Dr. BabasahebAmbedkarMarathwada University, Aurangabad (MH) India, pp.1-150 .", "Mohd Lliyas, S. F. L., Quazi Salim, Sayri Abdula and Dama, S.B. (2012). Behavioral assessment of heavy freshwater crab, Barytelphus acunicularis. Bio Resources Bio Industries Economic Zoology, 1, 54-56.", "Romeril, M. (1971). The uptake and distribution of 65 Zn in oysters. Marine biology, 9(4), 347-354.", "Triebskorn, R., K\u00f6hler, H.-R., Flemming, J., Braunbeck, T., Negele, R.D., & Rahmann, H. (1994). Evaluation of bis (tri-n-butyltin) oxide (TBTO) neurotoxicity in rainbow trout (Oncorhynchus mykiss). I. Behaviour, weight increase, and tin content. Aquatic Toxicology, 30(3), 189-197.", "Sharma, M. (2019). Behavioural responses in effect to chemical stress in fish: A review. International Journal of Fisheries and Aquatic Studies., 7, 1-5.", "Shejule, K., Kharat, P., & Kale, R. (2006). Toxicity of organotin tributyltin chloride to freshwater prawn, Macrobrachium kistensis, Journal of Aquaculture.7(1),141-144.", "Muley DV and Mane UH. (1988). Seasonal variation in the toxicity of folithion and ledaycid to a freshwater gastropods. Viviparus bengalensis (lam) from Godavari river. MS. India. Advanced Biosciences, 1(7), 37-46.", "Vasanthi, N., Muthukumaravel, K., Sathick, O., & Sugumaran, J. (2019). Toxic effect of Mercury the freshwater fish Oreochromis mossambicus. Research Journal of Life Sciences, Bioinformatics, Pharmaceutical's and Chemical Sciences., 5(3), 364-376.", "Waldock, M., & Thain, J. (1983). Shell thickening in Crassostrea gigas: organotin antifouling or sediment induced? Marine Pollution Bulletin, 14(11), 411-415.", "WHO. (1990). International programme on chemical safety environmental health criteria for tributyltin. World Health Organization (ICS/EHC/89.29), Geneva, Switzerland, pp.1-229.", "Wu, L., Chen, Z., Zhu, J., Hu, L., Huang, X., & Shi, H. (2014). Developmental toxicity of organotin compounds in animals. Frontiers in Marine Science, 1, 39. https://doi.org/10.3389/fmars.2014.00039"]}
format Text
author Dr. J.T. Jagtap
author_facet Dr. J.T. Jagtap
author_sort Dr. J.T. Jagtap
title BEHAVIORAL CHANGES IN FRESH WATER BIVALVE, LAMELLIDENS MARGINALIS DUE TO ACUTE TOXIC EFFECT OF ORGANOTIN TRIBUTYLTIN CHLORIDE IN SUMMER SEASON
title_short BEHAVIORAL CHANGES IN FRESH WATER BIVALVE, LAMELLIDENS MARGINALIS DUE TO ACUTE TOXIC EFFECT OF ORGANOTIN TRIBUTYLTIN CHLORIDE IN SUMMER SEASON
title_full BEHAVIORAL CHANGES IN FRESH WATER BIVALVE, LAMELLIDENS MARGINALIS DUE TO ACUTE TOXIC EFFECT OF ORGANOTIN TRIBUTYLTIN CHLORIDE IN SUMMER SEASON
title_fullStr BEHAVIORAL CHANGES IN FRESH WATER BIVALVE, LAMELLIDENS MARGINALIS DUE TO ACUTE TOXIC EFFECT OF ORGANOTIN TRIBUTYLTIN CHLORIDE IN SUMMER SEASON
title_full_unstemmed BEHAVIORAL CHANGES IN FRESH WATER BIVALVE, LAMELLIDENS MARGINALIS DUE TO ACUTE TOXIC EFFECT OF ORGANOTIN TRIBUTYLTIN CHLORIDE IN SUMMER SEASON
title_sort behavioral changes in fresh water bivalve, lamellidens marginalis due to acute toxic effect of organotin tributyltin chloride in summer season
publisher Zenodo
publishDate 2020
url https://dx.doi.org/10.5281/zenodo.3996434
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genre Crassostrea gigas
genre_facet Crassostrea gigas
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spelling ftdatacite:10.5281/zenodo.3996434 2023-05-15T15:59:14+02:00 BEHAVIORAL CHANGES IN FRESH WATER BIVALVE, LAMELLIDENS MARGINALIS DUE TO ACUTE TOXIC EFFECT OF ORGANOTIN TRIBUTYLTIN CHLORIDE IN SUMMER SEASON Dr. J.T. Jagtap 2020 https://dx.doi.org/10.5281/zenodo.3996434 https://zenodo.org/record/3996434 unknown Zenodo https://dx.doi.org/10.5281/zenodo.3996433 Open Access Creative Commons Attribution 4.0 International https://creativecommons.org/licenses/by/4.0/legalcode cc-by-4.0 info:eu-repo/semantics/openAccess CC-BY Lamellidens marginalis, Tributyltin chloride, Behavioral change, Acute toxicity, Summer Season. 10.5281/zenodo.3996434 Text Journal article article-journal ScholarlyArticle 2020 ftdatacite https://doi.org/10.5281/zenodo.3996434 https://doi.org/10.5281/zenodo.3996433 2021-11-05T12:55:41Z The bivalves have been used for many years to determine the pollution status of water. When freshwater bivalve, Lamellidens marginalis exposed to 3.55 ppm, 2.42 ppm, 1.79 ppm and 0.98 ppm LC50 concentration at 24 to 96 hrs of periods of intervals. Showed Different physiological and morphologically changes were observed in tributyltin chloride exposed groups. There is no any kind of change observed in control groups of bivalves. From this study we concluded that toxicity of TBTCL was responsible for behavioral changes in L. marginalis. : {"references": ["Andhale, A., Pawar, H., & Zambare, S. (2011). The Evaluation of Nickel Toxicty on Lamellidens marginalis. Recent Research in Science and Technology, 3(5), 1-5.", "Ansari, A. M., & Singh, Y. (2014). Combining ability analysis for vegetative, physiological and yield components in brinjal (Solanum melongena L.). International Science Journal, 1(2), 53-59.", "Arome, D., & Chinedu, E. (2013). The importance of toxicity testing. Journal of Pharmaceutical and BioSciences, 4, 146-148.", "Azizi, G., Akodad, M., Baghour, M., Layachi, M., & Moumen, A. (2018). The use of Mytilus spp. mussels as bioindicators of heavy metal pollution in the coastal environment. A review. Journl of Mater Environment Science, 9(4), 1170-1181.", "Batley, G. (1996). The distribution and fate of tributyltin in the marine environment. Cambridge University Press, UK. pp. 139- 166.", "Bhamre, P., Lomte, V., & Pawar, K. (1996). Acute toxicity of some selected heavy metals to freshwater bivalve Parreysia favidens. Pollution Research, 15, 143-145.", "Brooks, R., & Rumsby, M. (1967). Studies on the uptake of cadmium by the oyster, Ostrea sinuata (Lamarck). Marine and Freshwater Research, 18(1), 53-62.", "Chaudhari, T., Jadhav, M., & Lomte, V. (1988). Acute toxicity of organophosphates to fresh water snails from Panzara River at Dhule, MS. Environment and ecology. Kalyani, 6(1), 244-245.", "Clark, E. A., Sterritt, R. M., & Lester, J. N. (1988). The fate of tributyltin in the aquatic environment. Environmental Science & Technology, 22(6), 600-604.", "Eisler, R. (1979). Behavioural responses of marine poikilotherms to pollutants. Philosophical Transactions of the Royal Society of London. B, Biological Sciences, 286(1015), 507-521.", "Eisler, R. (1989). Tin hazards to fish, wildlife, and invertebrates: a synoptic review: Fish and Wildlife Service, US Department of the Interior.", "Fent, K., & Meier, W. (1992). Tributyltin-induced effects on early life stages of minnows Phoxinus phoxinus. Archives of Environmental Contamination and Toxicology, 22(4), 428-438.", "Fuller, S. L. (1974). Clams and mussels (Mollusca: Bivalvia). Pollution Ecology of Freshwater Invertebrates, 215-273.", "Gibbs, P. E. (1996). TBT-induced imposex in neogastropod snails: masculinization to mass extinction. Tributyltin: case Study. Environmental Contaminant, 212-236.", "Holwerda, D., & Herwig, H. (1986). Accumulation and metabolic effects of di-n-butyltin dichloride in the freshwater clam, Anodonta anatina. Bulletin of Environmental Contamination and Toxicology, 36(1), 756-762.", "Humbe, A.D., Shejule, K. B., & Nikam, S. M. (2016). Seasonal study of acute toxicity of tributyltin oxide (TBTO) on the fresh water bivalve, Lamellidensmarginalis from Godavari river at Maharashtra, India. Indian Journal of Applied Research, 6(3), 229-231.", "Jadhav, S. M. (1993). Impact of pollutants on some physiological aspects of fresh water bivalve corbiculastraiatella. Ph.D. Thesis. Marathwada University, Aurangabad (M.S.) India.pp.1-220.", "Joshy, A., Niladevi, K. N., & Thomas, S. (2018). Assessing the impact of agricultural practices and pesticide usage on the water quality of Kuttanad Agroecosystem. Xaverian Research Journal, 15, 15 - 30.", "Kamble, S., & Kamble, N. (2014). Behavioural changes in freshwater snail Bellamya bengalensis due to acute toxicity of copper sulphate and Acacia sinuata. International Journal of Science, Environment and Technology, 3, 1090-1104.", "Kharat, P., Ghoble, L. B., Shejule, K., Kale, R., & Ghoble, B. (2009). Impact of TBTCl on total protein content in cresh water prawn, Macrobrachium kistnensis. Middle East Journal of Scientific Research, 4(3), 180-184.", "Laughlin, R. B., Thain, J., Davidson, B., Valkirs, A. O., & Newton, F. C. (1996). Experimental studies of chronic toxicity of tributyltin compounds Organotin. Environmental Fate and Effects, 191-217.", "Mane, U., & Muley, D. (1984). Acute toxicity of endosulfan 35EC to two freshwater bivalve molluscs from Godavari River at Maharashtra State, India. Toxicology Letters, 23(2), 147-155.", "Mohate, P. B. Effect of tributyltin oxide and copper sulphate on freshwater fish Rasbora daniconius. Thesis submitted to Dr. BabasahebAmbedkarMarathwada University, Aurangabad (MH) India, pp.1-150 .", "Mohd Lliyas, S. F. L., Quazi Salim, Sayri Abdula and Dama, S.B. (2012). Behavioral assessment of heavy freshwater crab, Barytelphus acunicularis. Bio Resources Bio Industries Economic Zoology, 1, 54-56.", "Romeril, M. (1971). The uptake and distribution of 65 Zn in oysters. Marine biology, 9(4), 347-354.", "Triebskorn, R., K\u00f6hler, H.-R., Flemming, J., Braunbeck, T., Negele, R.D., & Rahmann, H. (1994). Evaluation of bis (tri-n-butyltin) oxide (TBTO) neurotoxicity in rainbow trout (Oncorhynchus mykiss). I. Behaviour, weight increase, and tin content. Aquatic Toxicology, 30(3), 189-197.", "Sharma, M. (2019). Behavioural responses in effect to chemical stress in fish: A review. International Journal of Fisheries and Aquatic Studies., 7, 1-5.", "Shejule, K., Kharat, P., & Kale, R. (2006). Toxicity of organotin tributyltin chloride to freshwater prawn, Macrobrachium kistensis, Journal of Aquaculture.7(1),141-144.", "Muley DV and Mane UH. (1988). Seasonal variation in the toxicity of folithion and ledaycid to a freshwater gastropods. Viviparus bengalensis (lam) from Godavari river. MS. India. Advanced Biosciences, 1(7), 37-46.", "Vasanthi, N., Muthukumaravel, K., Sathick, O., & Sugumaran, J. (2019). Toxic effect of Mercury the freshwater fish Oreochromis mossambicus. Research Journal of Life Sciences, Bioinformatics, Pharmaceutical's and Chemical Sciences., 5(3), 364-376.", "Waldock, M., & Thain, J. (1983). Shell thickening in Crassostrea gigas: organotin antifouling or sediment induced? Marine Pollution Bulletin, 14(11), 411-415.", "WHO. (1990). International programme on chemical safety environmental health criteria for tributyltin. World Health Organization (ICS/EHC/89.29), Geneva, Switzerland, pp.1-229.", "Wu, L., Chen, Z., Zhu, J., Hu, L., Huang, X., & Shi, H. (2014). Developmental toxicity of organotin compounds in animals. Frontiers in Marine Science, 1, 39. https://doi.org/10.3389/fmars.2014.00039"]} Text Crassostrea gigas DataCite Metadata Store (German National Library of Science and Technology) Indian Lamarck ENVELOPE(140.027,140.027,-66.666,-66.666) Davidson ENVELOPE(-44.766,-44.766,-60.766,-60.766) Fuller ENVELOPE(162.350,162.350,-77.867,-77.867) Lester ENVELOPE(-62.583,-62.583,-64.900,-64.900) Meier ENVELOPE(-45.900,-45.900,-60.633,-60.633) Minnows ENVELOPE(-65.359,-65.359,-66.027,-66.027)

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