Biomagnification of DDT through the benthic and pelagic food webs of Lake Malawi, East Africa: Importance of trophic level and carbon source

Lake Malawi, an East African Rift Valley lake, is internationally renowned for having the highest diversity of fish species in the world, and these ci chlids a re highly specialized in their dietary habits. In this lake, tissu e stable carbon (delta C-13) and nitrogen (delta N-15) isotopes can be used over several trophic levels to distinguish those consumers relying upon ca rbon fixed by either benthic or pelagic primary producers. As such, it was possible to contrast the biomagnification of persistent organochlorines thr ough the benthic and pelagic food webs. In 1996 and 1997, food-web organism s were collected from Lake Malawi and analyzed for organochlorines, delta C -13 and delta N-15 to determine the factors that affect the biomagnificatio n of contaminants in a tropical lake. The pesticide DDT was the most predom inant pollutant in the biota from Lake Malawi and was found at the highest concentrations in the largest and fattiest fish species. As observed in tem perate systems, log transformed Sigma DDT concentrations in food-web organi sms were significantly predicted by delta N-15 or log lipid (r(2) = 0.32 an d 0.40, respectively). In addition, the slope of the regression of log Sigm a DDT versus delta N-15 was significantly higher in the pelagic than the be nthic food web. These results indicate that pelagic organisms are at greate r risk of accumulating these pollutants than biota relying upon benthic pri mary production.