The Conversation
Wildlife exposed to more pollution than previously thought
November 29, 2019
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Sometimes, pollution is blatantly obvious: the iridescent slick of an oil spill, goopy algae washing up on a beach or black smoke belching from a smokestack. But, more often than not, pollution is more inconspicuous.
Our air, water, land and wildlife are tainted with thousands of chemicals that we cannot see, smell or touch. It may not come as a surprise then, that this unnoticed pollution isn’t considered the important threat to wildlife that it should be.
The , according to scientists, and Canada is not immune. More than half of Canada’s , and between 1970 and 2014, the more than 500 mammal populations monitored in Canada .
But the assessments that evaluate species to determine those that are at risk of extinction are . The good news is that my colleagues and I think we have come up with a potential solution to this problem.
So many chemicals, so much pollution
Globally, tens of thousands of chemicals exist in commerce today. The . These chemicals are used in all facets of our daily lives, from pharmaceuticals and fertilizers to pesticides and flame retardants.
Here in Canada, about . More than 150 billion litres of sewage is discharged yearly into Canadian waters.
Close to over the past decade have led to the release of natural gas, crude oil and other substances into the air, soil and water. More than 23,000 federal contaminated sites — such as abandoned mines, airports, and military bases — are known or suspected to be .
In a nutshell: The current process
Expert opinion is an essential and invaluable part of .
This process relies on scientists to estimate the proportion of a species’ population that may potentially be affected by a pollution source — this is called scope. A small team of scientists with expertise on the species considers scope along with the potential severity of the impact to determine the threat from pollution, along with 10 other potential threats.
However, the breadth of expertise of the team assessing a particular species , and based on our experience, ecotoxicologists — the scientists who study the fate and effects of environmental contaminants — are often underrepresented on these committees.
My colleagues and I suspected the committees might be underestimating pollution as a threat to species, and so we set out to find out if this was the case — or not.
What did we do and what did we find out?
We began by mapping all the point sources of pollution in Canada we could find from existing, publicly accessible databases. This included household sewage and urban waste water, industrial and military effluents, agricultural and forestry effluents, among others. We used the same pollution categories as COSEWIC, but we compiled a large database of geospatial information on all known pollution sources.
Next, we secured information on locations of almost 500 terrestrial and freshwater species — including everything from mosses and lichens to birds and mammals — from , a non-profit organization that compiles data on species occurrence across North America.
We put these two sources of information — that is, pollution sources and species occurrence — together onto one map, so we could calculate the percentage of the species’ habitat that was covered by pollution. Then, we compared our calculations to those determined by expert opinion in the COSEWIC process.
We found two important things.
First, we found that, on average, more than half of every species’ habitat is polluted in some way. The species that had pollution in most, if not all, of the places they live include the prothonotary warbler, gypsy cuckoo bumblebee, copper redhorse fish, a freshwater mussel called the round hickorynut and several perennial plants, including the American columbo, green dragon and phantom orchid.
Second, we found a very weak relationship between the scope of pollution for a species that we calculated and the scope of pollution scored by expert opinion in the COSEWIC process.
In other words, scientists scoring threats were not particularly good at identifying sources of pollution that may be having negative effects on the species at risk they are trying to protect. Scientists sometimes identified exposure to pollution as negligible even for species whose entire ranges overlapped with pollution sources. This was especially true for vascular plants and terrestrial mammals.
We haven’t yet assessed whether the type of pollution found within the species’ habitat was a known threat to that species. But that is a logical next step for future research.
The path forward
Our work represents a major first step toward a more objective and rigorous assessment of the role of pollution in the decline of species-at-risk in Canada — one that we hope will be adopted.
More broadly, it points to the need for a more holistic approach to protecting wildlife species and their habitats.
The Trudeau government has pledged to prevent wildlife species from becoming extinct by securing the necessary actions for their recovery, . Yet the high prevalence of pollution we found in the homes of many wildlife species in Canada is a reminder that the government must take a much more proactive approach to the regulation of chemicals in the environment if we are to truly protect Canada’s biodiversity.
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The Conversation is seeking new academic contributors. Researchers wishing to write articles should contact Melinda Knox, Associate Director, Research Profile and Initiatives, at knoxm@queensu.ca.
is an Assistant Professor in the Department of Biology and the School of Environmental Studies, and the Queen’s National Scholar in Aquatic Ecotoxicology.
This article is republished from under a Creative Commons license. Read the .
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