Effects and mechanisms of PCB ecotoxicity in food chains: Algae  fish  seal  polar bear1

Abstract

Wildlife populations are adversely affected in polluted environments. Nevertheless, a cause‐and‐effect relationship between excessive exposure to chlorinated hydrocarbons and induction of pathologic disorders in animals, is difficult to demonstrate without verification from experiments following the rationale of Koch's postulates. Deleterious effects of chlorinated chemicals such as DDT on songbird reproduction, as demonstrated by the clutch size of eggs in a nest, however, is an example, where exposure and causation are apparent. With amelioration of DDT pollution, clutch size increases, and the cause‐and‐effect relationship is established. Similar examples of exposure to DDT and PCBs inducing reproductive disorders and endocrine disruption among marine mammals have been documented in industrialized nations of northern Europe and in the upper latitudes of the Northern Hemisphere. Population declines in ringed, grey and harbor seals are apparently due to a rapid decrease in their rates of reproduction¹. These latter observations are best interpreted in light of experiments conducted by Reijnders². Reijnders exposed harbor seals to relatively high dietary levels of PCBs and induced PCB‐blood‐lipids among seals to an average of 25 mg/kg compared to 10 mg/kg among controls. The treated seals had a significantly reduced reproductive rate. A relationship between increased PCB‐blood‐levels in vivo and the decrease in reproductive rates in this experiment is highly instructive for interpreting the decline of fertility in seal populations in polluted Baltic Sea waters. These linked observations are dependent upon demonstration of pathologic mechanisms associated with occlusion and stenosis of the uterine lumen among affected females in seal populations. PCB congeners apparently disrupt endocrine‐system‐functions leading to, or associated with, increases in endometriosis, fetal abortion, glomerulonephropathies and osteoporosis. This observation is further highlighted by Reijnders experiment, which closely replicated the range of PCB concentrations found in seal populations living in a variety of PCB polluted waters. Various PCB congeners differentially accumulate in brain, liver and adipose tissues in young and old seals. Further research of PCB toxic effects on organ systems of these animals and other species is thus indicated. This report, then, examines the process of PCB bioaccumulation within the marine food chain from fish to seals, whales, other marine mammals and to polar bears. Environmental toxic pollutants affect animals within the food chain in different ways but ultimately they affect humans as well.