5 September 2016, The Conversation, US-China ratification of Paris Agreement ramps up the pressure on Australia. When President Barack Obama and President Xi Jinping announced their countries’ ratification of the Paris climate agreement ahead of last weekend’s G20 meeting in Hangzhou, they boosted its chances of coming into force by the end of this year, some 12 months after the deal was brokered last December. To enter into force, the Paris Agreement requires ratification by at least 55 nations which together account for at least 55% of global greenhouse emissions. It will then become legally binding on those parties that have both signed and ratified it. These thresholds ensure that the deal has broad legitimacy among states, but are also low enough to limit the opportunities for blocking by states that may oppose its progress. Aside from China and the United States – the world’s two largest emitters, which together produce 39% of the world’s emissions – another 24 countries have ratified the agreement. To get over the threshold, it now only needs the support of a handful of major emitters like the European Union (a bloc of 27 countries producing some 10% of global emissions), India, Russia or Brazil. Ratification by countries such as Australia, South Africa and the United Kingdom (each of which contributes about 1.5% of emissions) would also contribute significantly to this momentum. Read more here
Monthly Archives: September 2016
5 September 2016: THE CLIMATE CHANGE AUTHORITY’S SPECIAL REVIEW ON AUSTRALIA’S CLIMATE GOALS AND POLICIES: TOWARDS A CLIMATE POLICY TOOLKIT MINORITY REPORT Professor Clive Hamilton AM Professor David Karoly 1. Introduction 1. As Members of the Climate Change Authority who have participated fully in the processes of the Special Review, we have reached the conclusion that the majority report does not respond adequately to the Review’s terms of reference and has not followed the principles set out on the Climate Change Authority Act (Section 12). We also disagree with several, but not all, of the major recommendations and conclusions of the majority report. We find the analysis used to defend some of the report’s recommendations inadequate. Overall, we view the majority report as a recipe for further delay in responding to the urgent need to reduce Australia’s greenhouse gas emissions. 2. We regret that a consensus report has not been possible but feel that in good conscience we cannot lend our names to the majority report. After consideration, we have therefore decided to write a minority report. Access full minority report here Access Climate change Authority’s Special Review here
5 September 2016, DESMOG, Climate Impacts: Melting Glaciers, Shifting Biomes and Dying Trees in US National Parks. Trees are dying across Yosemite and Yellowstone national parks. Glaciers are melting in Glacier Bay National Park and Preserve in Alaska. Corals are bleaching in Virgin Islands National Park. Published field research conducted in U.S. national parks has detected these changes and shown that human climate change – carbon pollution from our power plants, cars and other human activities – is the cause. As principal climate change scientist of the U.S. National Park Service, I conduct research on how climate change has already altered the national parks and could further change them in the future. I also analyze how ecosystems in the national parks can naturally reduce climate change by storing carbon. I then help national park staff to use the scientific results to adjust management actions for potential future conditions. Research in U.S. national parks contributes in important ways to global scientific understanding of climate change. National parks are unique places where it is easier to tell if human climate change is the main cause of changes that we observe in the field, because many parks have been protected from urbanization, timber harvesting, grazing and other non climate factors. The results of this research highlight how urgently we need to reduce carbon pollution to protect the future of the national parks. Melting Glaciers, Dying Trees Human-caused climate change has altered landscapes, water, plants and animals in our national parks. Research in the parks has used two scientific procedures to show that this is occurring: detection and attribution. Detection is the finding of statistically significant changes over time. Attribution is the analysis of the different causes of the changes. Around the world and in U.S. national parks, snow and ice are melting. Glaciers in numerous national parks have contributed to the global database of 168 000 glaciers that the Intergovernmental Panel on Climate Change (IPCC) has used to show that human climate change is melting glaciers. Field measurements and repeat photography show that Muir Glacier in Glacier Bay National Park and Preserve in Alaska lost 640 meters to melting from 1948 to 2000. Read More here
5 September 2016, CSIRO ECOS, Wired woodlands signal stress as climate dries. In 2015, the normal ‘breathing’ pattern of the Great Western Woodlands in south-western Australia became erratic. In response to lack of rain, the old-growth woodland started to ‘breathe in’ oxygen and ‘breathe out’ carbon dioxide – the opposite of what occurs in normal plant photosynthesis, and a sign the trees were ailing. Lift your eyes above the orange- and gold-hued gimlets and salmon gums that characterise these woodlands and you can see the key to understanding this reversal of nature; a 36m tower equipped with highly sensitive instrumentation.It’s the technology in that tower that has been tracking the trees’ struggle for survival; collecting data on the activity of the woodland by the second and updating daily CSIRO researchers based in Perth. The tower, run by CSIRO researchers Dr Suzanne Prober and Dr Craig Macfarlane, is a part of Australia’sTerrestrial Ecosystem Research Network (TERN) OzFlux Facility. A series of 24 OzFlux towers and 10 associated Supersites have been established as sentinels of change across the country. Toward the TERN goal of creating a national ecosystem observatory, each monitors changes in carbon, water and biodiversity in a nationally significant landscape. Read More here