28/10/2016

Australia Experiencing More Extreme Fire Weather, Hotter Days As Climate Changes

Fairfax - Peter Hannam

Australia is already experiencing an increase in extreme conditions from climate change and more sophisticated modelling is allowing scientists to pinpoint humans' contribution to the wilder weather, the Bureau of Meteorology and CSIRO said.
The fourth State of the Climate report found Australia's mean surface temperature has risen by about 1 degree since 1910, rainfall patterns are shifting away from the nation's south, and there is a marked increase in heatwaves and extreme fire weather days.

The state of our climate in 2016: Australia is already experiencing an increase in extreme conditions from climate change - and it's projected to get worse.

"Climate change is happening now and it's having a tangible impact on Australia," Karl Braganza, manager of the bureau's climate monitoring, said.
The fire season is now extending "by a matter of weeks on average", as warmer conditions arrive sooner and last longer over much of the country, he said.
In the future, as rising greenhouse gas levels drive increases in surface temperatures, the frequency of hot days including those bearing extreme fire weather will rise further, Dr Braganza said.
The biennial report adds to the growing body of evidence Australia's climate is changing, and comes days after CSIRO told Fairfax Media that levels of carbon dioxide – the most potent greenhouse gas – are rising at a record annual rate.

Warming waters
While surface temperatures fluctuate sharply – driven by the El Nino-La Nina cycle – the report focuses on the increasing proof that the oceans are heating up.
"The oceans really provide us with the most reliable indicator of how the globe as a whole is warming," said Steve Rintoul, interim director of the Climate Science Centre at the CSIRO.
More frequent, more prolonged and more intensive heatwaves are already being recorded across Australia as the climate warms. Photo: Leigh Henningham 
Oceans have taken up taken up more than 90 per cent of the extra heat trapped by the rising levels of greenhouse gases since 1960.

Most of the heat the earth has gained has gone into the oceans. Photo: Peter Rae
Even so, the trend for surface temperatures is also clear.
The chances of very warm monthly maximum temperatures have risen more than five-fold for the 2001-15 period compared with the baseline 1951-80 period, with a similar rise in abnormal minimum temperatures. See chart below.)
"In the last one-two decades, as that distribution shifts further to the right ... you have a noticeable increase in extremes," Dr Braganza said.
The changes of extreme heat events – often accompanied by worsening fire weather – have also increased markedly in recent decades.
For instance, 2013 – the nation's hottest year on record – had 28 days that were in the top 1 per cent for mean temperatures for their respective month. The bureau counted that many extreme heat days over the entire first 31 years of its existence. (See chart below).
An innovation from previous reports is the evidence that humans' contribution to extreme weather can now be quantified.
Researchers used climate and weather models to examine the extremely warm October-November 2014 period, when daytime temperature anomalies were almost 2.5 degrees above average. Using 1960-like levels of greenhouse gases, Australia would have been warm but not record breaking.
"We know that climate change changes the odds of these extreme events, and what is new is the ability quantify the contribution to a particular event from human-driven climate change," Dr Rintoul said.
A similar study of September 2013, another record breaker, found global warming's contributed 15 per cent.
Recent research has added to the understanding of other trends, such as the drying out of southern Australia during the growing season.
South-west Western Australia, for instance, has seen its May-July rainfall drop almost 20 per cent since 1970, as storm tracks shift southwards, taking the rain with them.
For south-eastern Australia, the drop is less pronounced – at 11 per cent over the April-October period – but still leading to a sharp slide in stream flows.
"Areas of southern Australia will probably spend more time in drought [in the future]", Dr Braganza said. "But when the rain does fall, it's likely to be heavier than it was in the past."
Tropical cyclones are reducing in frequency – a trend that is likely to continue – although their intensity is expected to rise later this century.
While wind speed is one issue, rising sea levels and heavier deluges mean the impact of the tropical tempests is likely to worsen even if they don't strengthen, Dr Braganza said.

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Australia Climate Report Predicts More Hot Days and Harsher Fire Seasons

New York Times - Michelle Innis

Drought-affected farmland in New South Wales, Australia, last year. Credit David Gray/Reuters
SYDNEY, Australia — Australia will have more extremely hot days and a longer and fiercer fire season, and parts of the continent will spend more time in drought as rainfall decreases, according to a report by top government scientists released on Thursday.
Surface temperature has increased about 1 degree Celsius since 1910, the report said, and rainfall through the growing season for winter crops has dropped almost 20 percent in some regions. Sea levels are also rising as ocean temperatures warm, leading to higher chances of inundation and coastal flooding. Oceans absorb large amounts of the world's excess heat.
Extreme weather events are increasingly common, said Steve Rintoul, interim director of Australia's climate science center at the Commonwealth Scientific and Industrial Research Organization and an author of the report. And that trend will continue.
"Although a 1-degree-Celsius rise in air temperatures seems small, it is enough to shift base-line averages," Dr. Rintoul said, referring to an increase equal to 1.8 degrees Fahrenheit.
He added, "It increases the odds those events will happen."
The biennial report, by scientists at Csiro and the Australian Bureau of Meteorology, draws on data collected at Cape Grim, Tasmania, where greenhouse gases caught in the atmosphere are measured, and from a program called Argo that tracks temperatures and other conditions in the world's oceans.
Australia is viewed as a leading example of a developed country being hit hard by climate change, and the report hints at the complex effects the rest of the world may face as climate change alters weather patterns.
"The whole globe is subject to change," said Karl Braganza, of the Bureau of Meteorology, another author of the report. "It is sobering to look at other countries, countries like Bangladesh, or African nations, where their ability to deal with drought is much more reduced than ours."
Up to 75 percent of ocean warming occurred in the Southern Hemisphere, the report said. As oceans absorb carbon dioxide and water temperatures increase, they expand, contributing to a rise in sea levels. Warmer oceans have also prompted a shift in large-scale weather patterns, which in turn affects rainfall. Although precipitation across Australia varies year to year, Csiro said the recent drying out of southern Australia was the strongest recorded large-scale change in rainfall since national records began in 1900. Years with lower-than-average growing-season rain would be more frequent in some regions, the report said.
Rainfall in the southwest reached such lows that Perth, the capital of Western Australia, mostly relied on water from desalination plants, Dr. Rintoul said. Long-term averages have declined 19 percent since 1970, but that has accelerated to 25 percent since 1996. Perth, an isolated city on the far western coast, has a population of about two million.
Water that flows through streams and rivers also declined sharply. In the food-growing Murray-Darling Basin, in southern New South Wales and Victoria, stream flows were 41 percent lower than average, and in some parts of Victoria, they declined more than 70 percent.
The report also said that since 1993, sea levels to the north, west and southeast of Australia surpassed the global average. Ocean warming contributed to about a third of that rise, of about 20 centimeters, or 7.8 inches, since the late 1800s. The remainder was attributed to melting sea ice and changes to water stored on land.
The scientists, who said carbon dioxide emissions were largely because of the burning of fossil fuels like coal, refrained from urging the government to increase its commitment to lowering pollution targets. Australia has yet to ratify the Paris accord on climate change.
In August 2015, Australia agreed to an emissions cut of between 26 and 28 percent from 2005 levels by 2030. But state authorities have pushed ahead with plans for an immense coal mine in Queensland, inland from the Great Barrier Reef.
For almost a decade, Australia has fought bitterly over efforts to curb polluters. Two years ago, the country repealed carbon laws requiring large companies to pay for greenhouse gas emissions, a measure intended to penalize hundreds of its biggest producers of carbon emissions. During his successful campaign for prime minister a year earlier, Tony Abbott, then the leader of the Liberal Party, said the tax pushed up electricity prices for consumers. That claim contributed to his party's win. The emission targets that he put in place, derided as too low by environmental groups, remain in effect under his successor, Malcolm Turnbull.
Dr. Rintoul said historical emissions meant temperatures in Australia would continue to rise. Temperatures in the spring hit highs for three consecutive years starting in 2013, he noted. And agreements reached in Paris would not limit global warming to 2 degrees Celsius, he said, adding that carbon emissions were at peak levels in 2015 and would rise.
"We have to go further," he said.

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State of the Climate 2016: Bureau of Meteorology and CSIRO

The Conversation | 

The Australian Bureau of Meteorology and CSIRO have released their fourth biennial State of the Climate Report.
Australia’s oceans are heating up. Richard Rydge/Flickr, CC BY-NC-ND
State of the Climate 2016 provides an update on the changes and long-term trends in Australia’s climate. The report’s observations are based on the extensive climate monitoring capability and programs of CSIRO and the Bureau, which provide a detailed picture of variability and trends in Australia’s marine and terrestrial climates. The science underpinning State of the Climate informs impact assessment and planning across all sectors of the economy and the environment.
One of the report’s key observations is carbon dioxide concentrations in the atmosphere. A key component of global CO₂ monitoring is the joint Bureau and CSIRO atmospheric monitoring station in Cape Grim, Tasmania, one of three premier global baseline monitoring stations in the world, along with Mauna Loa in Hawaii and Alert in Nunavut, Canada.
CO₂ concentrations at Cape Grim passed through 400 parts per million for the first time in May 2016, and global concentrations are now at their highest levels in the past two million years.
It takes time for the climate system to warm in response to increases in greenhouse gases, and the historical emissions over the past century have locked in some warming over the next two decades, regardless of any changes we might make to global emissions in that period. Current and future global emissions will, however, make a difference to the rate and degree of climate change in the second half of the 21st century.
State of the Climate focuses on current climate trends that are likely to continue into the near future. This acknowledges that climate change is happening now, and that we will be required to adapt to changes during the next 30 years.
While natural variability continues to play a large role in Australia’s climate, some long-term trends are apparent. The terrestrial climate has warmed by around 1℃ since 1910, with an accompanying increase in the duration, frequency and intensity of extreme heat events across large parts of Australia. There has been an increase in extreme fire weather, and a lengthening of the fire season in most fire-prone regions since the 1970s.
Annual mean temperature changes across Australia since 1910. State of the Climate 2016

Trends from 1974 to 2015 in annual 90th percentile of daily Forest Fire Danger Index (FFDI) at 38 climate reference locations. Trends are in FFDI points per decade and larger circles represent larger trends. Filled circles represent statistically significant trends. Trends are upward (in red), except for Brisbane airport (in blue). State of the Climate 2016
Observations also show that atmospheric circulation changes in the Southern Hemisphere have led to an average reduction in rainfall across parts of southern Australia.
In particular, May–July rainfall has reduced by around 19% since 1970 in the southwest of Australia. There has been a decline of around 11% since the mid-1990s in April–October rainfall in the continental southeast. Southeast Australia has had below-average rainfall in 16 of the April–October periods since 1997.
Australia’s oceans have also warmed, with sea surface temperature increases closely matching those experienced on land. This warming affects both the marine environment and Australia’s terrestrial climate, due to the large influence of surrounding oceans on our weather systems. Sea levels have risen around Australia, which has the potential to amplify the effects of high tides and storm surges.
Trends in sea surface temperature in the Australian region from 1950 to 2015. State of the Climate 2016
Estimates of the change in ocean heat content over the full ocean depth, from 1960 to present. Shading provides an indication of the confidence range of the estimate. State of the Climate 2016
The report has new findings compared to State of the Climate 2014.
Significantly, we report that warming in the global oceans now extends to at least 2,000 metres below the surface. These observations are made possible by the Argo array of global floats that has been monitoring ocean temperatures over the past decade. When we talk about the climate system continuing to warm in response to historical greenhouse gas emissions, that is almost entirely due to ongoing ocean warming, which these observations show is now steadily in train.
The other new inclusion is the science of extreme event attribution.
In the past five years, an increasing number of studies, using both statistical and modelling techniques, have quantified the role of global warming in individual extreme events. This complements previous science which partly attributes a change in the frequency of extreme weather, such as an increase in the number of heatwaves, to global warming.
In Australia, this includes studies that used the Bureau’s Predictive Ocean Atmosphere Model for Australia (POAMA) to essentially predict observed extreme events in a modelled climate with and without an enhanced greenhouse effect.
In particular, studies of record heat experienced during Spring in 2013 and 2014 have shown that the observed high temperatures received an extra contribution from background global warming.
These studies are an initial step towards understanding how climate change could affect the dynamics of the climate and weather system. In turn, this work provides greater intelligence for those managing climate risks.

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Great Barrier Reef: Most Coral Now Dead North Of Port Douglas Off Far North Queensland, Scientists Say

ABC NewsBen Millington

A return trip to the same reefs this month show most of that coral was now dead. (Justin Marshall/coralwatch.org - file photo)
What is coral bleaching?
  • Occurs when abnormal environmental conditions cause coral to expel tiny photosynthetic algae, called zooxanthellae
  • Loss of colourful algae causes coral to turn white and "bleach"
  • Bleached coral can recover if the temperature drops and zooxanthellae are able to recolonise them, otherwise it may die
Source: ARC Centre of Excellence
Eighty to 100 per cent of coral reefs surrounding Lizard Island off far north Queensland are now dead as a result of coral bleaching, scientists say.
The ARC Centre of Excellence for Coral Reef Studies at James Cook University visited 83 reefs stretching from Townsville to the Torres Strait earlier this year and revealed the worst recorded mass bleaching event in the reef's history.
Professor Andrew Baird said researchers conducted the same survey this month and had already visited the first 50 reefs between Townsville and Lizard Island.
He said the results were confronting.
"What we're seeing now is lots and lots of dead corals," he said.
"On most of the sites around Lizard Island between 80 to 100 per cent of corals are gone — there's not much coral at all, north of Port Douglas".
Professor Baird said there was a slim chance the northern third of the Great Barrier Reef could rejuvenate, but it would depend on the health of the southern sections.
"There's still a lot of reef here which could supply the propagules for the reef up north to recover, but it's likely to take a very long time because the scale of the event around Lizard Island and further north was so large," he said.
"It will also depend on it not bleaching again, particularly in those areas that are still in good condition."
However, Professor Baird said most of the reefs surveyed off the coast of Townsville and further south were only lightly bleached and now in reasonably good condition.
"That's a positive, but with the current trajectories of carbon dioxide and ocean temperatures, there's nothing to say that those areas might not bleach as soon as next year," he said.
The researchers said the final death toll from the bleaching in the north would not be known until all surveys were completed in mid-November.
They said it was already clear that this event was much more severe than the two previous bleachings in 2002 and 1998.

Links
Bleak report card delivered for Great Barrier Reef
Damselfish relocate to adapt to rising temperatures on Great Barrier Reef: study
Only 7pc of Great Barrier Reef escapes bleaching: survey