Plastic waste—particularly from smoking– still dominates litter collected from B.C. coastlines, a recent study from the University of British Columbia has found.

New NOAA-led research has found that the temperature of a wildfire is a better predictor of what’s in the smoke than the type of fuel being burned - a surprising result that will advance a wildfire smoke-modeling tool currently under development.

Groundwater contamination is increasingly recognized as a widespread environmental problem. The most important course of action often involves long-term monitoring. But what is the most cost-effective way to monitor when the contaminant plumes are large, complex, and long-term, or an unexpected event such as a storm could cause sudden changes in contaminant levels that may be missed by periodic sampling?

University of Toronto researchers say they have conducted the most comprehensive monitoring of airborne mercury ever in the Greater Toronto Area (GTA), finding that although mercury concentrations continue to be low, emission levels officially reported to the government are often inaccurate.

As marine mammals evolved to make water their primary habitat, they lost the ability to make a protein that defends humans and other land-dwelling mammals from the neurotoxic effects of a popular man-made pesticide, according to new research from the University of Pittsburgh School of Medicine.

The implications of this discovery, announced today in Science, led researchers to call for monitoring our waterways to learn more about the impact of pesticides and agricultural run-off on marine mammals, such as dolphins, manatees, seals and whales. The research also may shed further light on the function of the gene encoding this protein in humans.

“We need to determine if marine mammals are, indeed, at an elevated risk of serious neurological damage from these pesticides because they biologically lack the ability to break them down, or if they’ve somehow adapted to avoid such damage in an as-yet undiscovered way,” said senior author Nathan L. Clark, Ph.D., associate professor in Pitt’s Department of Computational and Systems Biology, and the Pittsburgh Center for Evolutionary Biology and Medicine. “Either way, this is the kind of serendipitous finding that results from curiosity-driven scientific research. It is helping us to understand what our genes are doing and the impact the environment can have on them.”

Continue reading at UPMC

Image via R. Bonde, USGS

Several greenhouse gases are emitted as common plastics degrade in the environment, according to researchers from the University of Hawaiʻi at Mānoa School of Ocean and Earth Science and Technology (SOEST).

Mass production of plastics started nearly 70 years ago, and the production rate is expected to double over the next two decades. While serving many applications because of their durability, stability and low cost, plastics have a negative impact on the environment. Plastic is known to release a variety of chemicals during degradation, some of which negatively affect organisms and ecosystems.

The study, published in PLOS One, reports the unexpected discovery of the universal production of greenhouse gases methane and ethylene by the most common plastics when exposed to sunlight. The SOEST team tested polycarbonate, acrylic, polypropylene, polyethylene terephthalate, polystyrene, high-density polyethylene and low-density polyethylene (LDPE)—materials used to make food storage, textiles, construction materials and various plastic goods. Polyethylene, used in shopping bags, is the most produced and discarded synthetic polymer globally, and was found to be the most prolific emitter of both gases.

The team found that the emission rate of the gases from virgin pellets of LDPE increased during a 212-day experiment, and that LDPE debris found in the ocean also emitted greenhouse gases when exposed to sunlight. Once exposed to solar radiation, the emission of these gases continued in the dark.

Continue reading at University of Hawaii Manoa

Image via University of Hawaii Manoa

The federal Clean Air Act and associated environmental regulations have driven steep declines in air pollution emissions over the past several decades, even as U.S. manufacturers increased production, a study by two University of California, Berkeley, economists has shown.

One by one, Dr. Chris Opio and Chandehl Morgan carefully remove trees from one-gallon buckets.

Injecting particles into the atmosphere to cool the planet and counter the warming effects of climate change would do nothing to offset the crop damage from rising global temperatures, according to a new analysis by University of California, Berkeley, researchers.

Trying to tackle climate change by replacing forests with crops for bioenergy power stations that capture carbon dioxide (CO2) could instead increase the amount of CO2 in the atmosphere, scientists say.