At the North American Leaders Summit on Wednesday, Mexico, Canada and the United States pledged to generate 50 percent of their energy from clean sources by 2025. The joint commitment by the three countries, according to White House Adviser Brian Deese, is “an aggressive goal” but one that is “achievable continent-wide.”
“The Paris Agreement was a turning point for our planet, representing unprecedented accord on the urgent need to take action to combat climate change through innovation and deployment of low-carbon solutions,” the leaders said in a statement. “North America has the capacity, resources and the moral imperative to show strong leadership building on the Paris Agreement and promoting its early entry into force. We recognize that our highly integrated economies and energy systems afford a tremendous opportunity to harness growth in our continuing transition to a clean energy economy. Our actions to align climate and energy policies will protect human health and help level the playing field for our businesses, households, and workers.”
Last year, 32 percent of North America’s overall power came from clean energy sources. The White House cited renewable energy, nuclear plants, and carbon capture and storage technology as possible avenues to achieving the 50 percent goal in the next nine years. In addition, measures will be taken to reduce greenhouse gases in the economies of the three countries through deployment of clean vehicles in government fleets, conduct research to accelerate clean energy innovation, support cross-border transmission projects, and examine adding more renewables to the power grid with a joint study of renewables opportunities and impacts
Mexico will join Canada and the United States in reducing methane emissions by 40 to 45 percent by 2025. Reduction strategies are planned for the agricultural and waste management sectors.
Could Brexit Complicate EU Effort on Paris Agreement?
Although the full effects of the United Kingdom’s decision, last week, to leave the European Union (EU)—the so-called Brexit—are still unclear, some think it could have far-reaching effects on Europe’s commitment to last year’s landmark Paris climate agreement to hold the global average temperature increase to “well below” 2 degrees Celsius above pre-industrial levels. The impending departure of the EU’s second largest emitter and a leading advocate of increased EU ambition ahead of the Paris Agreement complicates Brussels’ plan to divide up the EU’s pledge to cut emissions at least 40 percent compared with 1990 levels by 2030 (subscription). The United Kingdom would have contributed significantly to meeting that pledge—under a 2008 domestic law it is on a pathway to cut its emissions 57 percent by 2030.
Assuming the United Kingdom stays in the Paris Agreement, its contribution would likely be based on its Climate Change Act. To abandon its current emissions reductions commitments would mean repealing the act.
For now, the United Kingdom remains a supporter of the Paris Agreement, and in the short term no changes are slated in its domestic emissions reduction targets for 2030 and 2050. But the United Nations says that, once the United Kingdom leaves the EU, a “recalibration” of the Paris Agreement will be necessary.
“While I think the U.K’s role in dealing with a warming planet may have been made harder by the decision last Thursday, our commitment to dealing with it has not gone away,” said Amber Rudd, Britain’s Energy Secretary. “Climate change has not been downgraded as a threat. It remains one of the most serious long-term risks to our economic and national security.”
Studies Find Pink Snow Contributing to Climate Change; Humans Changing Vegetation Growth
A study in the journal Nature Communications links the pink-hued snow in higher altitudes in the Arctic to climate-change-related increases in algae blooms that are causing melting in the region at an unprecedented pace. The presence of red algae reduces the snow’s ability to reflect light instead of absorbing it as heat (albedo), reducing albedo by as much as 13 percent in one season.
“The algae need liquid water in order to bloom,” said the University of Leeds’ Stefanie Lutz, lead author of the study. “Therefore the melting of snow and ice surfaces controls the abundance of the algae. The more melting, the more algae. With temperatures rising globally, the snow algae phenomenon will likely also increase leading to an even higher bio-albedo effect.”
It is unclear how widespread these algae blooms can become, but based on her observations, Lutz said “a conservative estimate would be 50 percent of the snow surface on a glacier [will be covered by the algae] at the end of a melt season.”
A separate study by NASA, which analyzed more than 87,000 satellite images, found extensive greening of land in Canada and Alaska while these area’s Boreal regions were browning as a result of climate change.
“Whereas temperature limited tundra regions have almost ubiquitously increased productivity with warming temperatures … trees in the boreal system do not respond well to high temperatures,” said Scott Goetz, deputy director and senior scientist at the Woods Hole Research Center. “It’s not what most people typically think of as drought, related to soil moisture, but the effect is the same. Boreal trees are like living organisms anywhere, they will do what they need to do to survive… It’s all finely tuned by centuries of evolutionary adaptation.”
“Our findings reveal that the observed greening record is consistent with an assumption of anthropogenic forcings, where greenhouse gases play a dominant role, but is not consistent with simulations that include only natural forcings and internal climate variability,” the authors write.
The Climate Post offers a rundown of the week in climate and energy news. It is produced each Thursday by Duke University’s Nicholas Institute for Environmental Policy Solutions.