4 December 2016, University of Melbourne – Pursuit, A long climatic affair. The first extensive retrospective of our climate history has traced the human fingerprint on record-breaking hot temperatures as far back as the 1930s. In recent years climate scientists have been examining what role climate change has played in unusual extreme weather events such as Australia’s hottest summer in 2012-13 and recent heatwaves. But before now, no-one had looked at how far back in time we could go and still link weird weather and record-breaking climate extremes to our influence. Our study, published in Geophysical Research Letters, addresses the question of when exactly climate change started altering the influence of record hot years and summers in a way we can detect. We looked at five regions of the world, as well as the whole globe. Human-made climate change has been influencing heat extremes for decades, with many past records directly attributable to the effect we have had on the climate. We found the last 16 record-breaking hot years globally up to 2014 were made more likely because of climate change (we didn’t include 2015 – the current holder of the hottest year record – because we performed our analysis before the end of last year). Read More here
Category Archives: The Science
29 November 2016, Carbon Brief, Guest post: Misleading media coverage of Antarctic sea ice paper. Dr Jonathan Day is a polar climate scientist at the University of Reading. His work focuses on understanding and predicting changes in sea ice in the Arctic and Antarctic. Last week, my colleague Tom Edinburgh and I published an article estimating the extent of Antarctic sea ice in the early 1900s, using sea ice observations recorded by explorers of the time. It received an overwhelming amount of coverage in the media. This was largely because it combined a human-interest story about the conditions faced by the early Antarctic explorers with an illuminating result regarding the thorny issue of Antarctic sea ice trends. Despite significant increases in global average temperature, sea ice in the Antarctic has been slightly increasing in extent over recent decades (1979 – present). Although much of the coverage was very well reported, there were other examples of the results being wrongfully interpreted, perhaps wilfully so. Some of the errors led to confusion, such as conflating sea ice with land ice. Others attempted to cast doubt on the link between greenhouse gases and global mean temperature, which was inappropriate and misleading. Read More here
22 November 2016, Renew Economy, Climate conspiracy grips Senate as Coalition attacks latte-sipping opponents of coal. The influence of president-elect Donald Trump’s attack on “elites” is taking hold in the Australian parliament, with the Coalition attacking “latte-sipping” opponents of coal mining and joining enthusiastically in a debate questioning climate science in the Senate. Frydenberg was asked in question time by Greens MP Adam Bandt about a US government report delivered in at the Marrakech climate talks that warned, amongst other things, of a 1.5m rise in sea levels by 2050 if greenhouse emissions continued at current levels. Frydenberg responded by claiming that Australia had an “ambitious” climate target for 2030 and had been praised “for innovation” and its work on carbon capture and storage at the recent climate talks in Marrakech. A few hours later, Canada announced it would phase out traditional coal fired generation by 2030 as part of its “vision for a clean growth economy”. The UK is phasing out coal by 2023, and France is phasing out coal too, although it has taken a rain check on that idea because one third of its nuclear fleet are sidelined by safety concerns.“It it is okay for the member for Melbourne to put his sandals up on the seat, sip his soy latte, sit in the streets of Brunswick and say that it is the end of coal,” but coal would continue to be part of the mix for decades to come, Frydenberg said. Read More here
17 November 2016, Environmental Research Letters Research priorities for negative emissions. ABSTRACT: Carbon dioxide removal from the atmosphere (CDR)—also known as ‘negative emissions’—features prominently in most 2 °C scenarios and has been under increased scrutiny by scientists, citizens, and policymakers. Critics argue that ‘negative emission technologies’ (NETs) are insufficiently mature to rely on them for climate stabilization. Some even argue that 2 °C is no longer feasible or might have unacceptable social and environmental costs. Nonetheless, the Paris Agreement endorsed an aspirational goal of limiting global warming to even lower levels, arguing that climate impacts—especially for vulnerable nations such as small island states—will be unacceptably severe in a 2 °C world. While there are few pathways to 2 °C that do not rely on negative emissions, 1.5 °C scenarios are barely conceivable without them. Building on previous assessments of NETs, we identify some urgent research needs to provide a more complete picture for reaching ambitious climate targets, and the role that NETs can play in reaching them. Read More here