Population responses to contaminant exposure in marine animals: influences of genetic diversity measured as allozyme polymorphism.

A J Hawkins
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引用次数: 6

Abstract

Current understanding of the genetic and metabolic basis of relations between heterozygosity and animal performance under non-polluted conditions is relevent to interpreting apparently inconsistent findings concerning the relative advantage of allozyme polymorphism during contaminant exposure. Many interrelated factors which may influence and even compromise those relations include species (lifestyle, reproductive behaviour etc), lifestage, environmental influences and a variety of background genetic effects (limited parentage, null alleles, aneuploidy, genomic imprinting etc). Nevertheless, there is some promise that single-locus responses may be diagnostic for specific pollutants. In addition, limited evidence to date supports the a priori expectation that reduced energy requirements for maintenance metabolism may facilitate longer survival of multiple-locus heterozygotes during exposure to contaminants with toxic effects that result either in the reduced acquisition or availability of metabolizable energy, and/or a reduction in the efficiency with which metabolizable energy is used to fuel metabolic processes. More work is required to fully establish this trend in response to specific contaminant types, to assess any direct consequences of underlying differences in protein metabolism, and to resolve the interactive effects of contaminant mixtures. But the functional value of genetic variation within populations is confirmed. Reduced genetic diversity may not only compromise the capacity of an impacted population for genetic adaptation in the face of further environmental challenge, but may also result in increased energy requirements, lower production efficiency and reduced reproductive output. These metabolic consequences of reduced genetic polymorphism would further lower that population's potential for survival under lethal conditions of contaminant exposure, and also affect the genetic makeup of populations through differential reproduction under conditions of sublethal stress.

海洋动物对污染物暴露的种群反应:等位酶多态性测量的遗传多样性的影响。
目前对非污染条件下杂合性与动物生产性能之间关系的遗传和代谢基础的理解,与解释在污染暴露期间等位酶多态性相对优势的明显不一致的发现有关。可能影响甚至损害这些关系的许多相互关联的因素包括物种(生活方式、生殖行为等)、生命阶段、环境影响和各种背景遗传效应(有限的亲缘关系、无等位基因、非整倍体、基因组印记等)。然而,单位点反应有可能诊断特定的污染物。此外,迄今为止有限的证据支持一种先验的预期,即在暴露于具有毒性影响的污染物时,维持代谢所需能量的减少可能促进多位点杂合子更长的生存,这些毒性影响要么导致代谢能的获取或可用性减少,要么导致代谢能用于促进代谢过程的效率降低。需要做更多的工作来充分确定这一趋势,以应对特定的污染物类型,评估蛋白质代谢潜在差异的任何直接后果,并解决污染物混合物的相互作用。但遗传变异在群体内的功能价值已得到证实。遗传多样性的减少不仅可能损害受影响种群在面对进一步环境挑战时的遗传适应能力,还可能导致能量需求增加、生产效率降低和生殖产量减少。遗传多态性减少的这些代谢后果将进一步降低该种群在接触污染物致死条件下的生存潜力,并通过亚致死应激条件下的差异繁殖影响种群的遗传组成。
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