DDT Levels In Antarctic Penquins Presents a Complex Mystery

The use of DDT peaked several decades ago at more than 36,000 metric tons per year (t/yr). Today, less than 1000 t of the organochlorine pesticide—banned in most countries since the 1980s—is applied annually for mosquito control and farming, mainly in the Southern Hemisphere. Despite this drop, Adélie penguins in the Antarctic continue to have the same levels of total DDT in their bodies as they did 30 years ago. New research published in ES&T (DOI: 10.1021/es702919n) identifies Antarctic meltwater as the continued source of total DDT, and possibly other pollutants, in the southern continent's ecosystems.


HEIDI GEISZ
DDT metabolites continue to accumulate in the fatty deposits of Adélie penguins in the Antarctic. Researchers say melting snow and ice could be releasing decades-old DDT and its derivatives into South Pole ecosystems.DDT and other persistent organic pollutants (POPs) follow atmospheric paths to the Antarctic and the Arctic and eventually are deposited there in snow and ice. Animals at both poles sequester the derivatives p,p′-DDT and p,p′-DDE in their fat. But while Arctic-dwelling creatures such as birds, whales, and seals have shown a dramatic drop in total DDT levels during the past decade, levels in Adélie penguins in the Antarctic have remained steady, according to the new results.

Adélie penguins, which are protected under international conservation rules, live across the continent and overwinter there. The birds' stationary behavior makes them apt subjects for studying Antarctic sources of DDT and possibly other POPs; migratory birds such as skuas, which winter in South America or closer to the equator, could pick up these chemicals on their travels.

Focusing on DDT, Heidi Geisz of the Virginia Institute of Marine Science and her colleagues sampled dead Adélie penguins and abandoned eggs from two different populations. They measured total DDT in the breastplate fat sac of each bird as well as in the addled or frozen eggs. The researchers compared their findings with past measurements reported in the literature as far back as 1964. They found that the ratio of p,p′-DDT to p,p′-DDE declined over time; this shift indicates that the birds are exposed to the remnants of older DDT deposition, not new sources.

To pinpoint where the older DDT might be coming from, the researchers used measurements of glacial outwash taken in the past few years. (Directly measuring ice and snow remains technically difficult.) From those data, they estimated that melted snow and ice could be providing about 1–4 kilograms per year of DDT to offshore Antarctic ecosystems.


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