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Characteristics of acute toxicity dynamics of selected toxicants on aquatic crustaceans

Identyfikatory
Warianty tytułu
PL
Charakterystyka dynamiki toksyczności ostrej wybranych toksykantów na wodnych skorupiakach
Języki publikacji
EN
Abstrakty
EN
Determining the value of a half-effective or half-life concentration or dose of toxicant is the main purpose of acute toxicity studies, and this is also the most commonly used value in the toxicity characteristics of substances. By conducting tests that meet the criteria and requirements for the determination of acute toxicity, due to the use of appropriate mathematical tools and concentrations resulting in complete lethal effects in the studied groups, considerably more important values can be achieved, which give a possibility for the analysis of the entire process’s dynamics, as well as determining the threshold values of the effect time and toxicant concentration. This was the purpose of our research, in which the research species were Daphnia magna and Cypris pubera. The effect of the conducted research allowed to determine and compare the two toxicants: ammonium and copper(II) ions by it’s: concentration limit values (Cth), internal toxicity of the receptor-ligand complex (α), apparent, constant disintegration of this complex (Kapp) and different time values of the effect (Tt, Tin, MLT), which, along with concentration, is equally important determinant of the development of a toxic effect.
Rocznik
Strony
397--408
Opis fizyczny
Bibliogr. 27 poz., wykr., tab.
Twórcy
autor
  • Institute of Biotechnology and Molecular Biology, University of Opole, ul. kard. B. Kominka 6a, 45-032 Opole, Poland, phone +48 77 401 60 50
  • Institute of Biotechnology and Molecular Biology, University of Opole, ul. kard. B. Kominka 6a, 45-032 Opole, Poland, phone +48 77 401 60 50
  • Institute of Biotechnology and Molecular Biology, University of Opole, ul. kard. B. Kominka 6a, 45-032 Opole, Poland, phone +48 77 401 60 50
Bibliografia
  • [1] Walker CH, Sibly RM, Hopkin SP, Peakall DB. Principles of Ecotoxicology. 4th Ed. Boca Raton: CRC Press; 2012. ISBN: 9781439862667 - CAT# K12907.
  • [2] Bosch AC, O’Neill B, Sigge GO, Kerwath SE, Hoffman LC. Heavy metals in marine fish meat and consumer health: a review. J Sci Food Agric. 2016;96(1):32-48. DOI: 10.1002/jsfa.7360.
  • [3] Adams WJ, Blust R, Borgmann U, Brix KV, DeForest DK, Green AS, et al. Utility of tissue residues for predicting effects of metals on aquatic organisms. Integr Environ Assess Manage. Special Issue: Tissue Residue Approach Special Series. 2011;7(1):75-98. DOI: 10.1002/ieam.108.
  • [4] Cheng S. Heavy metal pollution in China: origin, pattern and control. Environ Sci Pollut Res. 2003;3:192-198. DOI: 10.1065/espr2002.11.141.1.
  • [5] Atli G, Canli M. Alterations in ion levels of freshwater fish Oreochromis niloticus following acute and chronic exposures to five heavy metals. Turk J Zool. 2010;35:725-736. DOI: 10.3906/zoo-1001-31.
  • [6] Atli G, Canli M. Essential metal (Cu, Zn) exposures alter the activity of ATPases in gill, kidney and muscle of Tilapia Oreochromis niloticus. Ecotoxicology. 2011; 20(8):1861-1869. DOI: 10.1007/s10646-011-0724-z.
  • [7] Basha PS, Rani AU. Cadmium-induced antioxidant defense mechanism in freshwater teleost Oreochromis mossambicus (Tilapia). Ecotox Environ Safety. 2003;56:218-221. DOI: 10.1016/S0147-6513(03)00028-9.
  • [8] Philips S, Laanbroek HJ, Verstraete W. Origin, causes and effects of increased nitrite concentrations in aquatic environments. Rev Environ Sci Bio/Technol. 2002;1(2):115-141. DOI: 10.1023/A:1020892826575.
  • [9] Hoffman DJ, Rattner BA, Burton GA Jr, Cairns J Jr. Handbook of Ecotoxicology. 2nd Ed. Boca Raton: CRC Press; 2003. ISBN: 9781566705462 - CAT# L1546.
  • [10] Traudt EM, Ranville JF, Smith SA, Meyer JS. A test of the additivity of acute toxicity of binary-metal mixtures of Ni with Cd, Cu, and Zn to Daphnia magna, using the inflection point of the concentration -response curves. Environ Toxicol Chem. 2016;35:1843-1851. DOI: 10.1002/etc.3342.
  • [11] Cui R, Kwak JI, An YJ. Comparative study of the sensitivity of Daphnia galeata and Daphnia magna to heavy metals. Ecotox Environ Safety. 2018;162:63-70. DOI: 10.1016/j.ecoenv.2018.06.054.
  • [12] Santore RC, Di Toro DM, Paquin PR, Allen HE, Meyer JS. Biotic ligand model of the acute toxicity of metals. 2. Application to acute copper toxicity in freshwater fish and Daphnia. Environ Toxicol Chem. 2001;20:2397-2402. DOI: 10.1002/etc.5620201035.
  • [13] Wang N, Ingersoll CG, Hardesty DK, Ivey CD, Kunz JL, May TW, et al. Acute toxicity of copper, ammonia, and chlorine to glochidia and juveniles of freshwater mussels (Unionidae). Environ Toxicol Chem. 2007;26(10):2036-2047. DOI: 10.1016/j.aquatox.2008.04.003.
  • [14] OECD Test Guidelines for the Chemicals. https://www.oecd.org/env/ehs/testing/oecdguidelinesforthetestingofchemicals.htm.
  • [15] Zinkovsky VG, Zhuk OV, Oloś G, Zhuk M. Dynamic modelling of xenobiotic action on organism using parameters of lethal toxic effect. Proc XVI National Conf Applications Mathematics Biology Medicine. Krynica, Sept 14-16, 2010; 111-116. ISBN: 9788374643344.
  • [16] Zinkovskyy YG, Zhuk OV, Oloś G, Zhuk M, Jabłecki R. Opracowanie regresyjnych metod obliczania zasadniczych parametrów alternatywnych toksycznych efektów ksenobiotyków. Chem Didact Ecol Metrol. 2011;16(1-2):29-34. https://drive.google.com/file/d/19IXQtn5nEtoz1uLqBgP_Nz2F0Teq5tMQ/view.
  • [17] Potrohov AS, Zinkovsky OG, Zinkovsky VG, Oloś G. Dynamika efektów toksycznych różnych stężeń jonów amonu u ryb. (Dynamics of toxic effects of different amonium ions concentrations on fish.) Chem Didact Ecol Metrol. 2010;15(1):29-38. https://drive.google.com/file/d/18kBfpmL45xcmLrUyY0qu8ycgDu2tnB-A/view.
  • [18] Henry RP, Lucu Č, Onken H, Weihrauch D. Multiple functions of the crustacean gill: osmotic/ionic regulation, acid-base balance, ammonia excretion, and bioaccumulation of toxic metals. Front Physiol. 2012;3:431. DOI: 10.3389/fphys.2012.00431.
  • [19] Atli G, Canli M. Enzymatic responses to metal exposures in a freshwater fish Oreochromis niloticus. Comp Biochem Physiol. 2007;145:282-287. DOI: 10.1016/j.cbpc.2006.12.012
  • [20] Mackay D, Celsie AK, Parnis JM, McCarty LS, Arnot JA, Powell DE. The chemical exposure toxicity space (CETS) model: Displaying exposure time, aqueous and organic concentration, activity, and onset of toxicity. Environ Toxicol Chem. 2017;36(5):1389-1396. DOI: 10.1002/etc.3668.
  • [21] Kim S, Samanta P, Yoo J, Kim WK, Jung J. Time-dependent toxicity responses in Daphnia magna exposed to CuO and ZnO nanoparticles. Bull Environ Contam Toxicol. 2017;98(4):502-507. DOI: 10.1007/s00128-016-2022-1
  • [22] Murray L, Daly F, Little M, Cadogan M. Toxicology Handbook. Lismore: Elsevier; 2015. ISBN: 9780729579391.
  • [23] Wang HJ, Xiao XC, Wang HZ, Li Y, Yu Q, Liang XM, et al. Effects of high ammonia concentrations on three cyprinid fish: Acute and whole-ecosystem chronic tests. Sci Total Environ. 2017;598:900-909. DOI: 10.1016/j.scitotenv.2017.04.070
  • [24] Laskowski R. Some good reasons to ban the use of NOEC, LOEC and related concepts in ecotoxicology. Oikos. 1995;1:140-144. DOI: 10.2307/3545738.
  • [25] Hamilton MA, Russo RC, Thurston RV. Trimmed Spearman-Karber method for estimating median lethal concentrations in toxicity bioassays. Environ Sci Technol. 1977;11(7):714-719. DOI: 10.1021/es60130a004.
  • [26] Principles and Methods of Toxicology. 5th Ed. Boca Raton: CRC Press; 2007. DOI: 10.1201/b14258.
  • [27] De Laender F, De Schamphelaere KA, Vanrolleghem PA, Janssen CR. Comparison of different toxic effect sub-models in ecosystem modelling used for ecological effect assessments and water quality standard setting. Ecotoxicol Environ Safety. 2008;69(1):13-23. DOI: 10.1016/j.ecoenv.2007.08.020.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e1610c39-d776-4511-85b1-8d453e6f49d2
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