Environment: Toxic effects

Journal name:
Nature
Volume:
483,
Pages:
363–365
Date published:
DOI:
doi:10.1038/nj7389-363a
Published online

Environmental concerns and more stringent laws are providing opportunities for environmental toxicologists.

When oil began gushing into the Gulf of Mexico after BP's Deepwater Horizon drilling rig exploded in April 2010, politicians and the public were braced for the worst. Oil lapped up on hundreds of kilometres of beach and coastal sands stretching from Florida to Texas, and threatened Louisiana's ecologically sensitive wetlands. Although the wetlands and shorelines faced substantial damage, these regions were spared the brunt of the disaster, the largest marine spill in US history. Instead, much of the oil and gas — and between 2 and 3 million litres of dispersant that BP used to help break up the oil — drifted through the sea in deep underwater plumes, exposing marine organisms, many of which were in the vulnerable reproductive stages of their life cycles, to pollutants for several months.

Many scientists were alarmed by the unprecedented use of dispersants in the deep ocean. Little was known about how the dispersants and oil would interact, how toxic they were to many marine organisms, how long they would persist in the deep-water environment at potentially damaging concentrations and what affect this would have on the growth and reproduction of the Gulf of Mexico's myriad organisms.

ANDREW HOLBROOKE/CORBIS

Toxicologists working for government agencies, local universities and private consultants — along with fisheries biologists, oceanographers and ecologists — set to work to find the answer. “It's like CSI meets [Jacques] Cousteau,” says Susan Shaw, a marine toxicologist and director of the Marine Environmental Research Institute, a non-profit institution based in Blue Hill, Maine.

During the gulf spill, which took nearly three months to contain, Shaw helped to analyse the effects of the oil and dispersants on marine animals. Later she took part in a scientific working group, assembled by the US Department of the Interior, that was tasked with assessing the effects of the spill on fisheries, wildlife and human health, and with making policy recommendations. This real-world application of her work is what drew Shaw to environmental toxicology 30 years ago. She still finds it deeply gratifying.

Environmental toxicologists aim to understand the effects of chemicals and physical agents — such as dust, mould, cigarette smoke, vehicle exhaust, pesticides, radiation and heavy metals — on both human health and ecosystems. Some work in risk assessment, relying heavily on statistical computations and mathematical modelling to determine whether an agent is likely to be hazardous at a certain level of exposure. Others are mainly chemists or biologists who tackle issues such as how pollutants travel and disperse in air and water, and how these agents affect humans, animals and ecosystems. “It takes the team of those people to put the whole picture together,” says Jennifer Field, an environmental chemist at Oregon State University in Corvallis, who traces pharmaceutical products and illicit drugs in wastewater systems as an alternative indicator of drug-use trends.

MICHAEL NEWMAN

Beijing's Forbidden City surrounded by smog at midday.

In the 1970s and 1980s, the field of environmental toxicology expanded rapidly, especially in the United States, triggered mainly by the 1962 publication of Rachel Carson's Silent Spring — an exposé of the path that pollutants, particularly pesticides, take through the environment — and by the establishment of the US Clean Water Act and an array of air-quality laws. Although the field has not been immune to the economic depression of the past few years, toxicologists are in demand in government, academia, private industry and consultancies across the United States and internationally. In the United States, toxicologists held around 117,000 jobs in 2010, up 3.5% from 2008, according to an analysis of US Bureau of Labor Statistics by members of the Society of Toxicology in Reston, Virginia, an organization representing scientists from academia, business and government, and presented as a poster at the their 2011 Annual Meeting. The analysis predicts that the number of US toxicologists will grow to some 153,000 by 2018.

“Toxicologists are in demand in government, academia, private industry and consulting”

New legislation could fuel a greater demand. In the European Union, for example, the Registration, Evaluation, Authorisation and Restriction of Chemical Substances (REACH) law took effect in June 2007. Phased in over 11 years, REACH aims to create a standardized, rigorous approach to testing and evaluating chemicals before they reach the market. The law will create jobs for toxicologists across all sectors, including academia, government, business and consulting firms that will require a blend of technical and managerial skills, says Mark Crane, an environmental toxicologist and founder of WCA Environment, an environmental consultancy based in Faringdon, UK. They will be needed to help to find efficient and effective ways to meet the often complex requirements of REACH, says Crane. Knowledge of how the chemical industry and its supply chains work will be a big advantage. “You need to be able to speak knowledgeably to a client, to give them strategic as well as tactical advice,” he says. For instance, to help a client meet REACH mandates, it is important to be able to understand the company's specific needs, such as whether the regulations require animal testing — which can be a lengthy and costly process — or if there is a more efficient method to satisfy the regulations.

In fact, there may not be enough well-trained toxicologists to fulfil the demands of REACH in the public and private sector in Europe in the coming years, says Alan Boobis, a toxicologist at Imperial College London. Others have suggested the same, including in a 2007 European Commission report (see go.nature.com/zbtkdi), which noted the lack of toxicology training programmes. The problem, says Boobis, is that toxicologists with the integrated training required for risk assessment are close to retirement. Furthermore, many universities in Europe offer programmes that do not provide the broader scope of training needed for the applied science of toxicology. “With greater specialization, we are losing this expertise in Europe, and without an adequate career track there is little incentive to pursue such a career.”

There are, however, some notable exceptions, including Britain's Cranfield University, which provides tailored postgraduate programmes that allow students to combine policy and applied work, says Crane. He also points to the University of Insubria in Varese, Italy, which offers a doctoral programme in environmental chemistry and ecotoxicology. The Netherlands has a handful of universities that offer good toxicology programmes, including Wageningen University and Utrecht University.

Toxicologists generally acquire expertise in one or two areas, focusing on, for instance, mathematical modelling and biostatistics, epidemiology, molecular biology, environmental chemistry or pharmacology. Most toxicology jobs require PhD training, although there are opportunities for master's students in government and elsewhere. Some of the most important skills that graduates entering the field can bring are social: understanding their clients' needs and collaborating with other experts. “The people who are going to be successful are people who have that deep expertise in their own field yet have the professional capabilities to collaborate, and to open their mind and to really listen,” says Dave Stone, director of the US National Pesticide Information Center, a cooperative between the Oregon State University and the US Environmental Protection Agency in Washington DC.

The United States has at least 125 toxicology programmes, some of which concentrate on a specific subfield such as ecotoxicology, inhalation toxicology, metals toxicology or policy. Indiana University in Indianapolis, for example, is a centre of ecotoxicology and chemical carcinogenesis; Michigan State University in East Lansing focuses on food toxicology; and The University of Rochester in New York specializes in the effects of toxic chemicals on bones. George Gray, a risk analyst at George Washington University in Washington DC, says that the university's programme emphasizes policy, producing competitive graduates. “It makes them attractive to organizations when they understand not just the science but how it ends up being used,” says Gray. A great toxicology programme will “allow students to work with professors in a laboratory setting, have the opportunity to contribute to publications as co-authors, and take a wide range of courses in toxicology, pharmacology, chemistry and ecotoxicology,” says Margaret Whittaker, managing director and chief toxicologist at ToxServices, a consulting firm based in Washington DC that assesses health risks from chemicals.

Real-world problems

In Europe, REACH puts the burden of proof-of-safety for chemicals on the chemical industry itself; this is not the case in the United States, where advocates have been fighting for an overhaul of existing US legislation for years. The US Toxic Substances Control Act of 1976 is widely viewed as outdated and fractured, even by members of the chemical industry.

MICHAEL NEWMAN

Erica Holloman is hoping to make a difference.

“The US law currently takes the view that chemicals are innocent until proven guilty and REACH takes the opposite view — that chemicals are suspect unless the companies making them and using them can prove that they're safe,” says Monica Becker, a sustainability consultant based in Rochester, New York. If the burden of proof were to shift, says Becker, more chemical testing and expert interpretation of toxicity data would be required, which would create a demand for toxicologists. But California is already preparing to implement regulations that will require consumer product manufacturers to investigate whether their products contain 'chemicals of concern', and suggest substitutes. Whittaker expects these regulations to create many private-sector jobs for toxicologists.

Legislation adopted in China in 2010, known as China REACH, is similar to that in Europe and will drive the country's demand for toxicologists, says Kenneth Leung, an aquatic toxicologist at the University of Hong Kong. He says that the number of industry and academic postgraduate and postdoctoral jobs in the field is growing and this is likely to continue as China attempts to meet demands for efficiency, cleaner air and water, and action on addressing climate change.

“North America confronted decades ago the problems now emerging in Asia, so individuals trained in environmental toxicology can make a substantial contribution in Asia,” says Michael Newman, an ecotoxicologist at the Virginia Institute of Marine Science in Gloucester Point. China has a number of well-known training programmes, including a programme at the Guangzhou Institute of Geochemistry of the Chinese Academy of Sciences, known for its monitoring of environmental pollution, and the Research Center for Eco-Environmental Sciences, also part of the Chinese Academy of Sciences in Beijing, which is working to develop an early-warning system for environmental contamination.

Globally, the field is moving away from a focus on individual chemicals and towards understanding the cocktail of chemicals that pervade the environment, says Linda Birnbaum, head of both the National Institute of Environmental Health Sciences in Research Triangle Park, North Carolina and the US National Toxicology Program, a federal interagency programme. “People are finally beginning to realize that nobody is exposed to one chemical at a time,” says Birnbaum. “We live in a soup. We've got to go beyond looking at one chemical or one exposure at a time and start looking in a more integrated fashion.” In the future, toxicologists will need to consider cumulative effects of many exposures and work as part of multidisciplinary research teams.

Most environmental toxicologists say they are highly satisfied with their work, partly because they can apply their expertise to pressing, real-world problems. Erica Holloman, who recently completed her PhD in toxicology at the Virginia Institute of Marine Science, is building on her doctoral work, assessing the effects of mercury in seafood and other pollutants in a low-income community in Newport, Virginia, through a community grant from the US Environmental Protection Agency. “I wanted to see my work make a difference in everyday life,” says Holloman. “I found this was a way that my passion for science and the research could lead to something that was dear to my heart, and that I could really have an impact in.”

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  1. Amanda Mascarelli is a freelance writer based in Denver, Colorado.

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