一种基于蚯蚓学习行为的神经毒性实验方法研究
An Experimental Method of Neurotoxicity Based on Earthworm Learning Behavior
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摘要: 土壤生物的学习行为是一种综合性的神经高级活动,对土壤中的神经毒性污染物生态风险监测具有重要价值。本研究设计了一套试验装置,基于蚯蚓对白光刺激的厌恶本性,通过振动-白光配对刺激,对蚯蚓进行学习训练,使蚯蚓领会借助加速移动阻止白光刺激的策略,通过蚯蚓到达移动位移阈值的时间测定,对蚯蚓的学习行为进行测试,建立了蚯蚓的学习行为测试方法。采用建立的测试方法,对土壤中东莨菪碱和毒死蜱诱导下蚯蚓的学习行为进行了测试,结果表明,1~3 mg·kg-1东莨菪碱与4~12 mg·kg-1毒死蜱污染处理均对蚯蚓的学习能力造成了损伤,污染浓度越高,蚯蚓的学习能力损伤越严重。该测试方法可以快速有效地检测土壤污染导致的蚯蚓学习行为变化,有望用于低浓度神经毒性农药污染土壤的神经毒性快速诊断。Abstract: The learning behavior of soil organisms is a kind of comprehensive neural higher activity, which is of great value to the ecological risk monitoring of neurotoxic pollutants in soil. In order to establish learning behavior test method of earthworm, a set of test apparatus was designed in this paper based on earthworm' dislike of white light stimulation. Earthworms were trained to understand the strategy of preventing white light stimulation with fast moving through the vibration-white light pairing stimulus. Earthworm learning behavior was tested by determination of the time of earthworm arriving movement displacement threshold. Using the established test method, earthworms' learning behavior was tested under the influence of scopolamine and chlorpyrifos in soil. The results showed that the learning ability of earthworms was damaged by 1~3 mg·kg-1 scopolamine and 4~12 mg·kg-1 chlorpyrifos in soil. The higher the pollution concentration was, the more serious the learning ability of earthworms was damaged. This test method could quickly and effectively detect the change of earthworm learning behavior caused by soil pollution, and was expected to be used for the rapid diagnosis of neurotoxicity of low-concentration neurotoxic pesticides in contaminated soil.
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Key words:
- soil pollution /
- earthworm /
- neurotoxicity /
- learning behavior /
- soil environmental quality /
- diagnosis method
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Bednarska A J, Choczyński M, Laskowski R, et al. Combined effects of chlorpyriphos, copper and temperature on acetylcholinesterase activity and toxicokinetics of the chemicals in the earthworm Eisenia fetida[J]. Environmental Pollution, 2017, 220(Pt A):567-576 Calisi A, Lionetto M G, Schettino T. Biomarker response in the earthworm Lumbricus terrestris exposed to chemical pollutants[J]. Science of the Total Environment, 2011, 409(20):4456-4464 Pelosi C, Barot S, Capowiez Y, et al. Pesticides and earthworms. A review[J]. Agronomy for Sustainable Development, 2014, 34(1):199-228 Schreck E, Gontier L, Dumat C, et al. Ecological and physiological effects of soil management practices on earthworm communities in French vineyards[J]. European Journal of Soil Biology, 2012, 52:8-15 Nusair S D, Abu Zarour Y S, Altarifi A A. Effects of dibenzo-p-dioxins/dibenzofurans on acetylcholinesterase activity and histopathology of the body wall of earthworm Eisenia andrei:A potential biomarker for ecotoxicity monitoring[J]. Water, Air, & Soil Pollution, 2017, 228(7):1-11 Shiryaev N, Jouroukhin Y, Gozes I. 3R tau expression modifies behavior in transgenic mice[J]. Journal of Neuroscience Research, 2010, 88(12):2727-2735 Yerkes R M. The intelligence of earthworms[J]. Journal of Animal Behavior, 1912, 2:322-352 Datta L E. Learning in the earthworm, Lumbricus terrestris[J]. The American Journal of Psychology, 1962, 75:531-553 Abramson C I, Buckbee D A. Pseudoconditioning in earthworms (Lumbricus terrestris):Support for nonassociative explanations of classical conditioning phenomena through an olfactory paradigm[J]. Journal of Comparative Psychology, 1995, 109:390-397 Kladt N, Hanslik U, Heinzel H-G. Teaching basic neurophysiology using intact earthworms[J]. The Journal of Undergraduate Neuroscience Education, 2010, 9:20-35 李力, 潘雷. 蚯蚓(Eisenia foetida)学习行为的研究[J]. 陕西师范大学学报:自然科学版, 2008, 36(1):65-67 Li L, Pan L. Studies on the learning behavior of earthworm Eisenia foetida[J]. Journal of Shaanxi Normal University:Natural Science Edition, 2008, 36(1):65-67(in Chinese)
Rosenkoetter J S, Boice R. Earthworm pheromones and T-maze performance[J]. Journal of Comparative and Physiological Psychology,1975,88:904-910 Wilson W J, Ferrara N C, Blaker A L, et al. Escape and avoidance learning in the earthworm Eisenia hortensis[J]. PeerJ, 2014, 2:e250 Jackson J J, Soliman M R. Effects of tacrine (THA) on spatial reference memory and cholinergic enzymes in specific rat brain regions[J]. Life Sciences, 1996, 58(1):47-54 Kumar V, Bhat Z A, Kumar D. Animal models of anxiety:A comprehensive review[J].Journal of Pharmacological and Toxicological Methods, 2013, 68(2):175-183 Haller J, Aliczki M, Gyimesine Pelczer K. Classical and novel approaches to the preclinical testing of anxiolytics:A critical evaluation[J]. Neuroscience and Biobehavioral Reviews, 2013, 37(10 Pt 1):2318-2330 宗绍波, 魏盛, 苏云祥, 等. 焦虑大鼠模型高架十字迷宫实验的复测信度检验及参数相关性分析[J]. 中国医药导报, 2011, 8(30):5-7 Zong S B, Wei S, Su Y X, et al. Retest reliability test and parameter correlation analysis of elevated plus maze experiment for anxious rat model[J]. China Medical Herald, 2011, 8(30):5-7(in Chinese)
孙世光, 孙蓉. 高架十字迷宫实验:昆明小鼠状态焦虑动物模型的重测信度研究[J]. 中华行为医学与脑科学杂志, 2016, 25(9):784-790 Sun S G, Sun R. Elevated plus maze as an animal model of state anxiety in Kunming mice:Test-retest reliability[J]. Chinese Journal of Behavioral Medicine and Brain Science, 2016, 25(9):784-790(in Chinese)
Milner L C, Crabbe J C. Three murine anxiety models:Results from multiple inbred strain comparisons[J]. Genes, Brain, and Behavior, 2008, 7(4):496-505 Horwood M A. Rapid degradation of termiticides under field conditions[J]. Australian Journal of Entomology, 2007, 46:75-78 Singh B K, Walker A, Morgan J A, et al. Effects of soil pH on the biodegradation of chlorpyrifos and isolation of a chlorpyrifos-degrading bacterium[J]. Applied and Environmental Microbiology, 2003, 69(9):5198-5206 杨益军. 2018年中国(全球)毒死蜱市场现状及预测[J]. 农药科学与管理, 2019, 40(1):18-24 Yang Y J. China's (global) chlorpyrifos market status and forecast in 2018[J]. Pesticide Science and Administration, 2019, 40(1):18-24(in Chinese)
Singh N. Factors affecting triadimefon degradation in soils[J]. Journal of Agricultural and Food Chemistry, 2005, 53(1):70-75 Gultekin F, Karakoyun I, Sutcu R, et al. Chlorpyrifos increases the levels of hippocampal NMDA receptor subunits NR2A and NR2B in juvenile and adult rats[J]. The International Journal of Neuroscience, 2007, 117(1):47-62 -
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