14 January 2016, Yale Connections. Activist’s ‘Long-Haul’ Climate Campaign. A veteran reporter on climate issues provides a glimpse into a corporate responsibility activist’s efforts during the recent Paris climate conference. the Paris climate conference got under way last December, Jesse Bragg introduced himself to me on a crowded shuttle bus between the converted airplane hangers where negotiators were meeting. He’d read my ID badge and noticed that I was from Boston. He said that he worked at Corporate Accountability International’s headquarters in downtown Boston. We soon realized we live just miles apart. Each of the nearly 200 national delegations needed many staff members. The number of delegates registered from the US – including four cabinet secretaries and more than a dozen senators – filled four pages of the official roster.I’d never heard of Corporate Accountability International, nor of its mission – to make private corporations answerable to public institutions. But the encounter gave me the chance to satisfy a curiosity. With more than 30,000 visitors expected at the conference and sitting through nearly 3,000 meetings and drinking some 71,000 cups of coffee – what were they all doing? Even tiny Haiti, among the world’s poorest nations, listed 15 delegates. All told, governments had sent 19,200 representatives to Paris. Altogether, media organizations had dispatched nearly 2,800 journalists. I understood roughly why these people were there. But what about the 8,300 “observers,” including industry and nongovernmental organization representatives? Jesse was one of them, and I asked about his plans in the coming 10 days. We agreed to meet the following morning. Job description: Expose transnationals’ ‘abuses’. Read More here
Yearly Archives: 2016
14 January 2016, Climate News Network. Science opens routes to energy recycling. From turning carbon dioxide into a fuel to enabling cars to run on water, scientific researchers worldwide are unlocking the potential of new energy sources. Molecular biology has been used by scientists in the US to make a catalyst that can split water into hydrogen and oxygen. It means that a truly renewable biotechnological material could be used to help cars run on water. In China, chemists have announced a nanofabric – a catalyst put together atoms at a time – that could begin the process of turning the greenhouse gas carbon dioxide back into fuel. And with what seems like perfect timing, a new technological venture in Switzerland hopes to be the first commercial plant to harvest carbon dioxide from the air. The first two propositions are still in the laboratory stage, and the third has yet to prove its viability. But the laboratory advances keep alive the hopes of the ultimate in energy recycling. In the first process, water provides the energy for a chemical reaction that propels a vehicle, and then ends up again as water from the exhaust pipe of a car. And in the second, a gas released as emissions from fossil fuel could get turned back into fuel. Read more here
14 January 2016, Energy Post, The oil pricequake will doom the global political order. Given the centrality of oil and oil revenues in the global power equation, it is inevitable that depressed oil prices will doom the current global political order, writes Michael T. Klare, a professor of peace and world security studies at Hampshire College. Political turmoil is already raging across the oil heartlands of the planet – and the tremors from the oil pricequake have yet to reach their full magnitude, notes Klare. As 2015 drew to a close, many in the global energy industry were praying that the price of oil would bounce back from the abyss, restoring the petroleum-centric world of the past half-century. All evidence, however, points to a continuing depression in oil prices in 2016 – one that may, in fact, stretch into the 2020s and beyond. Given the centrality of oil (and oil revenues) in the global power equation, this is bound to translate into a profound shakeup in the political order, with petroleum-producing states from Saudi Arabia to Russia losing both prominence and geopolitical clout. To put things in perspective, it was not so long ago – in June 2014, to be exact – that Brent crude, the global benchmark for oil, was selling at $115 per barrel. Energy analysts then generally assumed that the price of oil would remain well over $100 deep into the future, and might gradually rise to even more stratospheric levels. Such predictions inspired the giant energy companies to invest hundreds of billions of dollars in what were then termed “unconventional” reserves: Arctic oil, Canadian tar sands, deep offshore reserves, and dense shale formations. It seemed obvious then that whatever the problems with, and the cost of extracting, such energy reserves, sooner or later handsome profits would be made. It mattered little that the cost of exploiting such reserves might reach $50 or more a barrel. Read More here
14 January 2016, Science Daily, Study finds high melt rates on Antarctica’s most stable ice shelf. Melting rates found to be 25 times higher than expected. A new Scripps Institution of Oceanography at UC San Diego-led study measured a melt rate that is 25 times higher than expected on one part of the Ross Ice Shelf. The study suggests that high, localized melt rates such as this one on Antarctica’s largest and most stable ice shelf are normal and keep Antarctica’s ice sheets in balance. The Ross Ice Shelf, a floating body of land ice the size of France jutting out from the Antarctic mainland, continuously melts and grows in response to changes to both the ice sheet feeding it and the warmer Southern Ocean waters beneath it. For six weeks the researchers collected radar data to map changes in ice shelf thickness to understand the processes that contribute to melting at its base. The findings revealed dramatic changes in melt rate within less than a mile. The highest melting rates of more than 20 meters (66 feet) per year are thought to contribute to the rapid formation of channels at the base of the ice shelf, which can result from fresh water flowing out from lakes under the West Antarctica ice sheet. Shifts in subglacial drainage patterns change the location of these basal channels, which could impact the ice shelf’s stability by unevenly distributing the melting at the base. “The highest melt rates are all clustered at the start of a developing ice shelf channel,” said Scripps alumnus Oliver Marsh, a postdoctoral researcher at the University of Canterbury and lead author of the study. “The location of the melting strengthens the idea that freshwater from the local subglacial drainage system is responsible for the evolving ice shelf features.” Read more here