Climate warming to increase carbon loss in Canadian peatland by 103 per cent

                                                       PHYS ORG

A "zombie" (peat) fire in the Arctic. Photo by Western Arctic National Parklands.

 

Carbon loss in Canadian peatland is projected to increase by 103 percent under a high emission scenario, according to new research led by scientists from the University of Waterloo. Story here.

Lake habitats are disappearing as the climate changes

Leibniz 

Forschungsverbund

Berlin .V.

A PinP photo.

Global warming is increasing the temperatures of lakes worldwide – are species finding the temperatures they need to survive? Details here.

Takin’ it to the bank

The National Observer

Trouble’s brewing for RBC. Canada’s climate movement is converging on the bank as its common target for pressure campaigns. Details here.

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After Big Oil's very bad week, the message for Alberta is clear.

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Oil pipe sits on a railway siding in SW Manitoba. A PinP photo.

If Alberta’s policy-makers don’t plan for a managed fossil fuel decline, financial and other institutions will make the decision for them.  Story here.

World’s soils ‘under great pressure’, says UN pollution report

The Guardian

A  seeder at work in Manitoba, CA. A PinP photo.

Soils provide 95% of all food but are damaged by industrial, farming, mining and urban pollution. 

Story here.

Serious declines in oxygen levels are recorded in the world's temperate lakes.

Nature

Clear Lake, Manitoba, CA. A PinP photo.

Widespread, long-term declines in temperate lake oxygen levels have been reported in Nature this week. This trend, calculated for nearly 400 lakes within an 80-year period, may be linked to warming temperatures and decreasing water clarity. The declines could threaten essential lake ecosystems.

The concentration of dissolved oxygen in aquatic systems can affect the balance of nutrients, biodiversity, the quality of drinking water and greenhouse gas emissions. While oxygen loss in oceans has been documented, the changes in dissolved oxygen concentrations in lakes are less well understood, in part owing to a lack of long-term and large-scale studies.

Kevin Rose and authors measured temperature and dissolved oxygen levels for almost 400 lakes (mostly in Europe and the United States) between 1941 and 2017. Declines in dissolved oxygen are up to nine times greater than those observed in the oceans. 

Increased water temperatures are associated with reduced oxygen concentration in surface waters. And lower oxygen levels in deeper waters are linked to the formation of distinct thermal layers at different depths, along with reduced water clarity.  

There were some exceptions to these trends; for example, a large subset of 87 lakes exhibited increases in both water temperature and dissolved oxygen concentration. However, this anomaly could be attributed to algal blooms, which may increase concentrations at the surface, but reduce oxygen solubility lower down.

Human activity and warming temperatures are expected to continue to drive future losses in lake dissolved oxygen. 

As the authors conclude, ongoing, rigorous efforts will be needed to counter these effects.

The Fate of the Canadian Rockies May Rest on This Decision

The Tyee

                                Bighorn country, eastern slopes, AB. Photo by Aerin Jacob

Approving the Grassy Mountain Coal Project will surely spell nothing less than the industrialization of Alberta’s sensitive eastern slopes. Story here.