Miscellaneous Chlorinated Hydrocarbon Pesticides

J. Bus, A. Leber
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In contrast the herbicide 2,4D contains carbon, hydrogen, chlorine, and oxygen, and is a widely used herbicide with environmental and toxicological properties distinctly different from the organochlorine insecticides. \n \n \n \nThe organochlorine insecticides represent the first group of synthetic compounds to have a significant impact on the control of infectious diseases transmitted via insect vectors. These insecticides were used extensively in the United States and other Western countries, and are still used in Third World regions as both agricultural insecticides and agents to combat such vectorborne diseases as malaria, typhus, plague, Chagas' disease, yellow fever, dengue, encephalitis, filariasis, and African trypanosomiasis (sleeping sickness). Of these insecticides, DDT (dichlorodiphenyltrichloroethane) is credited as the primary compound that, for the first time in history, brought epidemics of malaria, typhus, and plague to a complete stop. DDT was introduced in 1943, with related insecticides following shortly thereafter. This chemical is still used extensively in tropical regions to combat malarial mosquitoes, and substitution of this pesticide with others such as malathion would be most expensive. \n \n \n \nOne attribute that contributes to the effectiveness of this chemical class is its persistence in the environment, providing not only an immediate impact on insect populations but also a prolonged insecticidal presence extending well beyond the time of application. This persistence is now generally considered an undesirable feature owing to findings suggesting delayed adverse impacts on nontarget populations of insects as well as birds. In addition, increased cancer risks for humans are alleged to result from exposures to these chemicals such as those resulting from pesticide applications and ingestion of contaminated fish and other food species. Although the actual balance of risks versus benefits associated with the use of these insecticides is debated, regulatory action has virtually eliminated their use in the United States and other western countries. Summarizes the regulatory status of these products. \n \n \n \nThe persistence of these insecticides in the environment and their prolonged activity against pests following application can be attributed to a combination of their insolubility in water and high solubility in fats, absorption and adsorption onto particulate matter, and resistance to chemical, physical, and microbiological degradation. From target crops and surrounding soil and water, these compounds have entered the food chains of mammals, birds, fishes, and other animal species. DDT in particular was implicated in inducing acute and perhaps chronic insecticide intoxications in fish and birds as a result of bioaccumulation. \n \n \n \nSmith discusses the fact that the primary acute toxicity noted in animals and humans following excessive exposures to chlorinated insecticides is neurological hyperactivity. With DDT and related compounds, the effects progress gradually from mild tremors to convulsions, whereas convulsions are the first sign of intoxication for compounds such as lindane, aldrin, dieldrin, endrin, toxaphene, and related materials. The latter can produce incoordination, weakness, and an ataxic state that is not associated with tremor, discriminating the intoxication induced by these substances from that of DDT. In general, the acute effects have not been shown to pose significant hazards to exposed populations, and current concern over the toxicities of these compounds is linked primarily to chronic low-level exposures discussed below. \n \n \n \nAs mentioned above, because of reported environmental effects of these pesticides plus their classifications in the early 1970s as “potential human carcinogens,” the use of most organochlorine pesticides was discontinued or markedly curtailed in the United States, Canada, and most European countries. The alleged human hazard, cancer, was based on observations of tumor induction in laboratory animals, primarily in mice, in which these compounds produced benign and malignant liver cell tumors. \n \n \n \nOne reason for this debate is that few chemicals that induce rodent tumors appear to induce activity in humans. \n \n \n \nFrank and undisputed injury to the liver or other human organs has not been reported in the United States, Canadian, and Western European literature. To the best of our knowledge the organochlorine insecticides (individually and in combination) that have been ingested with home- and restaurant-prepared food and drink by the U.S. population for more than 35 years (DDT was introduced in 1943), followed by a period of greatly reduced intake, have caused no recognized or clearly defined harmful effects. The significance of rodent liver tumors as indicators of human cancer risks continues to be debated in scientific circles. \n \n \n \nParenthetically, although the organochlorine insecticides are considered potential human carcinogens. \n \n \n \nAlthough liver cancer death rates have declined, the incidence of human breast cancer has increased. 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引用次数: 1

Abstract

This chapter presents information on two structurally and toxicologically different classes of chlorinated pesticides: the organochlorine insecticides and the herbicide 2,4-dichlorophenoxyacetic acid (2,4D). The first group described, the chlorinated hydrocarbon insecticides, belong to a structural class containing only carbon, hydrogen and chlorine. This pesticide group has dramatically decreased in use and fallen into regulatory disfavor because, in general, its structural properties promote both persistence in the environment and bioaccumulation within the food chain. In contrast the herbicide 2,4D contains carbon, hydrogen, chlorine, and oxygen, and is a widely used herbicide with environmental and toxicological properties distinctly different from the organochlorine insecticides. The organochlorine insecticides represent the first group of synthetic compounds to have a significant impact on the control of infectious diseases transmitted via insect vectors. These insecticides were used extensively in the United States and other Western countries, and are still used in Third World regions as both agricultural insecticides and agents to combat such vectorborne diseases as malaria, typhus, plague, Chagas' disease, yellow fever, dengue, encephalitis, filariasis, and African trypanosomiasis (sleeping sickness). Of these insecticides, DDT (dichlorodiphenyltrichloroethane) is credited as the primary compound that, for the first time in history, brought epidemics of malaria, typhus, and plague to a complete stop. DDT was introduced in 1943, with related insecticides following shortly thereafter. This chemical is still used extensively in tropical regions to combat malarial mosquitoes, and substitution of this pesticide with others such as malathion would be most expensive. One attribute that contributes to the effectiveness of this chemical class is its persistence in the environment, providing not only an immediate impact on insect populations but also a prolonged insecticidal presence extending well beyond the time of application. This persistence is now generally considered an undesirable feature owing to findings suggesting delayed adverse impacts on nontarget populations of insects as well as birds. In addition, increased cancer risks for humans are alleged to result from exposures to these chemicals such as those resulting from pesticide applications and ingestion of contaminated fish and other food species. Although the actual balance of risks versus benefits associated with the use of these insecticides is debated, regulatory action has virtually eliminated their use in the United States and other western countries. Summarizes the regulatory status of these products. The persistence of these insecticides in the environment and their prolonged activity against pests following application can be attributed to a combination of their insolubility in water and high solubility in fats, absorption and adsorption onto particulate matter, and resistance to chemical, physical, and microbiological degradation. From target crops and surrounding soil and water, these compounds have entered the food chains of mammals, birds, fishes, and other animal species. DDT in particular was implicated in inducing acute and perhaps chronic insecticide intoxications in fish and birds as a result of bioaccumulation. Smith discusses the fact that the primary acute toxicity noted in animals and humans following excessive exposures to chlorinated insecticides is neurological hyperactivity. With DDT and related compounds, the effects progress gradually from mild tremors to convulsions, whereas convulsions are the first sign of intoxication for compounds such as lindane, aldrin, dieldrin, endrin, toxaphene, and related materials. The latter can produce incoordination, weakness, and an ataxic state that is not associated with tremor, discriminating the intoxication induced by these substances from that of DDT. In general, the acute effects have not been shown to pose significant hazards to exposed populations, and current concern over the toxicities of these compounds is linked primarily to chronic low-level exposures discussed below. As mentioned above, because of reported environmental effects of these pesticides plus their classifications in the early 1970s as “potential human carcinogens,” the use of most organochlorine pesticides was discontinued or markedly curtailed in the United States, Canada, and most European countries. The alleged human hazard, cancer, was based on observations of tumor induction in laboratory animals, primarily in mice, in which these compounds produced benign and malignant liver cell tumors. One reason for this debate is that few chemicals that induce rodent tumors appear to induce activity in humans. Frank and undisputed injury to the liver or other human organs has not been reported in the United States, Canadian, and Western European literature. To the best of our knowledge the organochlorine insecticides (individually and in combination) that have been ingested with home- and restaurant-prepared food and drink by the U.S. population for more than 35 years (DDT was introduced in 1943), followed by a period of greatly reduced intake, have caused no recognized or clearly defined harmful effects. The significance of rodent liver tumors as indicators of human cancer risks continues to be debated in scientific circles. Parenthetically, although the organochlorine insecticides are considered potential human carcinogens. Although liver cancer death rates have declined, the incidence of human breast cancer has increased. This increased incidence of breast cancer was largely attributed to more frequent use of mammography and other screening techniques, as well as other changes in other risk factors such as prevalence of certain reproductive variables. Keywords: Pesticides; DDT; DDE; Aldrin; Chlordane; Dieldrin; 2,4-D; Heptachlor; Kepone; Herbicides; Infectious diseases; Persistence in environment
杂类氯代烃杀虫剂
本章介绍了两种结构和毒性不同的氯化农药:有机氯杀虫剂和除草剂2,4-二氯苯氧乙酸(2,4d)。描述的第一组,氯化烃杀虫剂,属于只含有碳、氢和氯的结构类。这类农药的使用急剧减少,并受到监管部门的反对,因为总的来说,它的结构特性促进了环境中的持久性和食物链中的生物积累。相比之下,除草剂2,4d含有碳、氢、氯、氧,是一种广泛使用的除草剂,其环境和毒理学性质与有机氯杀虫剂明显不同。有机氯杀虫剂是对控制通过昆虫媒介传播的传染病产生重大影响的第一组合成化合物。这些杀虫剂在美国和其他西方国家广泛使用,在第三世界地区仍被用作农业杀虫剂和防治病媒传播疾病的药剂,如疟疾、斑疹伤寒、鼠疫、南美锥虫病、黄热病、登革热、脑炎、丝虫病和非洲锥虫病(昏睡病)。在这些杀虫剂中,滴滴涕(二氯二苯三氯乙烷)被认为是历史上第一次完全制止疟疾、斑疹伤寒和鼠疫流行的主要化合物。滴滴涕于1943年引入,此后不久又引入了相关的杀虫剂。这种化学品仍在热带地区广泛使用,以对抗疟疾蚊子,用马拉硫磷等其他农药替代这种农药将是最昂贵的。这类化学物质有效的一个特点是它在环境中的持久性,不仅对昆虫种群有直接的影响,而且在施用时间之后还能有长期的杀虫作用。由于研究结果表明对非目标种群的昆虫和鸟类的延迟不利影响,这种持久性现在普遍被认为是不可取的特征。此外,人类癌症风险的增加据称是由于接触这些化学物质造成的,例如农药的使用和摄入受污染的鱼类和其他食物。尽管使用这些杀虫剂的风险与收益之间的实际平衡存在争议,但在美国和其他西方国家,监管行动实际上已经消除了它们的使用。总结了这些产品的监管现状。这些杀虫剂在环境中的持久性及其在施用后对害虫的持久活性可归因于它们在水中的不溶性和在脂肪中的高溶解度,对颗粒物质的吸收和吸附以及对化学,物理和微生物降解的抵抗力。从目标作物和周围的土壤和水,这些化合物已经进入哺乳动物、鸟类、鱼类和其他动物物种的食物链。滴滴涕尤其与鱼类和鸟类因生物积累而引起急性甚至可能是慢性杀虫剂中毒有关。史密斯讨论了这样一个事实,即动物和人类在过度暴露于氯化杀虫剂后的主要急性毒性是神经功能亢进。对于滴滴涕和相关化合物,其影响从轻微震颤逐渐发展到抽搐,而抽搐是林丹、艾氏、狄氏、恩德林、毒杀芬和相关物质等化合物中毒的第一个迹象。后者可产生不协调、虚弱和与震颤无关的共济失调状态,将这些物质引起的中毒与滴滴涕引起的中毒区别开来。一般来说,急性效应尚未显示对暴露人群构成重大危害,目前对这些化合物毒性的关注主要与下文讨论的慢性低水平暴露有关。如上所述,由于这些农药对环境的影响,加上它们在20世纪70年代初被列为“潜在的人类致癌物”,在美国、加拿大和大多数欧洲国家,大多数有机氯农药的使用已被停止或显著减少。所谓的人类危害,癌症,是基于对实验室动物(主要是小鼠)肿瘤诱导的观察,这些化合物产生了良性和恶性的肝细胞肿瘤。争论的一个原因是,很少有化学物质能诱导啮齿动物的肿瘤在人类身上产生活性。在美国、加拿大和西欧文献中,没有报道过对肝脏或其他人体器官的直接和无可争议的损伤。 据我们所知,美国人在家庭和餐馆准备的食物和饮料中摄入有机氯杀虫剂(单独或组合使用)已经超过35年(DDT于1943年引入),随后摄入量大幅减少,没有造成公认的或明确定义的有害影响。啮齿动物肝脏肿瘤作为人类癌症风险指标的重要性在科学界仍存在争议。顺便说一句,虽然有机氯杀虫剂被认为是潜在的人类致癌物。虽然肝癌死亡率有所下降,但人类乳腺癌的发病率却有所上升。乳腺癌发病率的增加在很大程度上归因于乳房x光检查和其他筛查技术的更频繁使用,以及其他风险因素的其他变化,如某些生殖变量的流行。关键词:农药;滴滴涕;DDE;奥尔德林;氯丹;狄氏剂;2,4 - d;七氯;开蓬;除草剂;传染病;环境持久性
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