31/07/2019

The Terrible Truth Of Climate Change

The Monthly - Joëlle Gergis

The latest science is alarming, even for climate scientists 

Joëlle Gergis
Dr Joëlle Gergis is an award-winning climate scientist and writer from the Australian National University.
She is an internationally recognised expert in Australian and Southern Hemisphere climate variability and change based in the Australian Research Council (ARC) Centre of Excellence for Climate Extremes.
Her research focuses on providing a long-term historical context for assessing recently observed climate variability and extremes.
In August 2018 she was appointed to the Climate Council, Australia's leading independent body providing expert advice to the Australian public on climate change and policy.
Her book, Sunburnt Country: The future and history of climate change in Australia, is now available through Melbourne University Publishing.
In June, I delivered a keynote presentation on Australia’s vulnerability to climate change and our policy challenges at the annual meeting of the Australian Meteorological and Oceanographic Society, the main conference for those working in the climate science community. I saw it as an opportunity to summarise the post-election political and scientific reality we now face.
As one of the dozen or so Australian lead authors on the United Nations Intergovernmental Panel on Climate Change’s (IPCC) sixth assessment report, currently underway, I have a deep appreciation of the speed and severity of climate change unfolding across the planet. Last year I was also appointed as one of the scientific advisers to the Climate Council, Australia’s leading independent body providing expert advice to the public on climate science and policy. In short, I am in the confronting position of being one of the few Australians who sees the terrifying reality of the climate crisis.
Preparing for this talk I experienced something gut-wrenching. It was the realisation that there is now nowhere to hide from the terrible truth.
The last time this happened to me, I was visiting my father in hospital following emergency surgery for a massive brain haemorrhage. As he lay unconscious in intensive care, I examined his CT scan with one of the attending surgeons who gently explained that the dark patch covering nearly a quarter of the image of his brain was a pool of blood. Although they had done their best to drain the area and stem the bleeding, the catastrophic nature of the damage was undeniable. The brutality of the evidence was clear – the full weight of it sent my stomach into freefall.
The results coming out of the climate science community at the moment are, even for experts, similarly alarming.
One common metric used to investigate the effects of global warming is known as “equilibrium climate sensitivity”, defined as the full amount of global surface warming that will eventually occur in response to a doubling of atmospheric CO2 concentrations compared to pre-industrial times. It’s sometimes referred to as the holy grail of climate science because it helps quantify the specific risks posed to human society as the planet continues to warm.
We know that CO2 concentrations have risen from pre-industrial levels of 280 parts per million (ppm) to approximately 410 ppm today, the highest recorded in at least three million years. Without major mitigation efforts, we are likely to reach 560 ppm by around 2060.
When the IPCC’s fifth assessment report was published in 2013, it estimated that such a doubling of CO2 was likely to produce warming within the range of 1.5 to 4.5°C as the Earth reaches a new equilibrium. However, preliminary estimates calculated from the latest global climate models (being used in the current IPCC assessment, due out in 2021) are far higher than with the previous generation of models. Early reports are predicting that a doubling of CO2 may in fact produce between 2.8 and 5.8°C of warming. Incredibly, at least eight of the latest models produced by leading research centres in the United States, the United Kingdom, Canada and France are showing climate sensitivity of 5°C or warmer.
When these results were first released at a climate modelling workshop in March this year, a flurry of panicked emails from my IPCC colleagues flooded my inbox. What if the models are right? Has the Earth already crossed some kind of tipping point? Are we experiencing abrupt climate change right now?
The model runs aren’t all available yet, but when many of the most advanced models in the world are independently reproducing the same disturbing results, it’s hard not to worry.
When the UN’s Paris Agreement was adopted in December 2015, it defined a specific goal: to keep global warming to well below 2°C and as close as possible to 1.5°C above pre-industrial levels (defined as the climate conditions experienced during the 1850–1900 period). While admirable in intent, the agreement did not impose legally binding limits on signatory nations and contained no enforcement mechanisms. Instead, each country committed to publicly disclosed Nationally Determined Contributions (NDCs) to reduce emissions. In essence, it is up to each nation to act in the public interest.
Even achieving the most ambitious goal of 1.5°C will see the further destruction of between 70 and 90 per cent of reef-building corals compared to today, according to the IPCC’s “Special Report on Global Warming of 1.5°C”, released last October. With 2°C of warming, a staggering 99 per cent of tropical coral reefs disappear. An entire component of the Earth’s biosphere – our planetary life support system – would be eliminated. The knock-on effects on the 25 per cent of all marine life that depends on coral reefs would be profound and immeasurable.
So how is the Paris Agreement actually panning out?
In 2017, we reached 1°C of warming above global pre-industrial conditions. According to the UN Environment Programme’s “Emissions Gap Report”, released in November 2018, current unconditional NDCs will see global average temperature rise by 2.9 to 3.4°C above pre-industrial levels by the end of this century.
To restrict warming to 2°C above pre-industrial levels, the world needs to triple its current emission reduction pledges. If that’s not bad enough, to restrict global warming to 1.5°C, global ambition needs to increase fivefold.
Meanwhile, the Australian federal government has a target of reducing emissions by 26 to 28 per cent below 2005 levels by 2030, which experts believe is more aligned with global warming of 3 to 4°C. Despite Prime Minister Scott Morrison’s claim that we will meet our Paris Agreement commitments “in a canter”, the UNEP report clearly identifies Australia as one of the G20 nations that will fall short of achieving its already inadequate NDCs by 2030.
Even with the 1°C of warming we’ve already experienced, 50 per cent of the Great Barrier Reef is dead. We are witnessing catastrophic ecosystem collapse of the largest living organism on the planet. As I share this horrifying information with audiences around the country, I often pause to allow people to try and really take that information in.
Increasingly after my speaking events, I catch myself unexpectedly weeping in my hotel room or on flights home. Every now and then, the reality of what the science is saying manages to thaw the emotionally frozen part of myself I need to maintain to do my job. In those moments, what surfaces is pure grief. It’s the only feeling that comes close to the pain I felt processing the severity of my dad’s brain injury. Being willing to acknowledge the arrival of the point of no return is an act of bravery.
But these days my grief is rapidly being superseded by rage. Volcanically explosive rage. Because in the very same IPCC report that outlines the details of the impending apocalypse, the climate science community clearly stated that limiting warming to 1.5°C is geophysically possible.
Past emissions alone are unlikely to raise global average temperatures to 1.5°C above pre-industrial levels. The IPCC report states that any further warming beyond the 1°C already recorded would likely be less than 0.5°C over the next 20 to 30 years, if all anthropogenic greenhouse gas emissions were reduced to zero immediately. That is, if we act urgently, it is technically feasible to turn things around. The only thing missing is strong global policy.
Although the very foundation of human civilisation is at stake, the world is on track to seriously overshoot our UN targets. Worse still, global carbon emissions are still rising. In response, scientists are prioritising research on how the planet has responded during other warm periods in the Earth’s history.
The most comprehensive summary of conditions experienced during past warm periods in the Earth’s recent history was published in June 2018 in one of our leading journals, Nature Geoscience, by 59 leading experts from 17 countries. The report concluded that warming of between 1.5 and 2°C in the past was enough to see significant shifts in climate zones, and land and aquatic ecosystems “spatially reorganize”.
These changes triggered substantial long-term melting of ice in Greenland and Antarctica, unleashing 6 to 13 metres of global sea-level rise lasting thousands of years.
Examining the Earth’s climatic past tells us that even between 1.5 and 2°C of warming sees the world reconfigure in ways that people don’t yet appreciate. All bets are off between 3 and 4°C, where we are currently headed. Parts of Australia will become uninhabitable, as other areas of our country become increasingly ravaged by extreme weather events.
This year the Australian Meteorological and Oceanographic Society’s annual conference was held in Darwin, where the infamous Cyclone Tracy struck on Christmas Day in 1974, virtually demolishing the entire city. More than 70 per cent of the city’s buildings, including 80 per cent of its houses, were destroyed. Seventy-one people were killed and most of the 48,000 residents made homeless. Conditions were so dire that around 36,000 people were evacuated, many by military aircraft. It was a disaster of monumental proportions.
As I collated this information for my presentation, it became clear to me that Cyclone Tracy is a warning. Without major action, we will see tropical cyclones drifting into areas on the southern edge of current cyclone zones, into places such as south-east Queensland and northern New South Wales, where infrastructure is not ready to cope with cyclonic conditions.
These areas currently house more than 3.6 million people; we simply aren’t prepared for what is upon us.
There is a very rational reason why Australian schoolkids are now taking to the streets – the immensity of what is at stake is truly staggering. Staying silent about this planetary emergency no longer feels like an option for me either. Given how disconnected policy is from scientific reality in this country, an urgent and pragmatic national conversation is now essential. Other-wise, living on a destabilised planet is the terrible truth that we will all face.
As a climate scientist at this fraught point in our history, the most helpful thing I can offer is the same professionalism that the doctor displayed late that night in Dad’s intensive-care ward. A clear-eyed and compassionate look at the facts.
We still have time to try and avert the scale of the disaster, but we must respond as we would in an emergency. The question is, can we muster the best of our humanity in time?

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Cities Need Trees, But Which Ones Will Survive Climate Change?

ABC tripleJNkayla Afshariyan


So we've got less than 12 years to save the planet.
Actually, we've got less than that, depending on which scientific research you believe more and how much of an existential crisis you want to have today.
Either way, there's no denying the planet is warming at alarming rates, it's never been hotter, and we need to start thinking of ways to help.
Thankfully, Australian researchers are doing just that.
The Which Plant Where project is currently looking at what Australian plant species will be able to survive the oncoming changes in climate.
The project is a collaborative effort between Macquarie University, Western Sydney University, Hort Innovation and the NSW Department of Environment and Heritage.
The team is looking at what plants, in particular what type of common trees, can be planted in different urban spaces across Australia.
Leigh Staas, project manager for Which Plant Where, told Hack the project will span the next five years and look at three different time slices.
"We're looking at 2030, 2050 and 2070. At the end of the project, we're developing an online plant selector tool that will help growers and practitioners choose particular species that will survive in urban landscapes," she said.

Stress testing trees
The team recently published a study which analysed 176 of the most common tree species planted across our cities. The research found more than 70 per cent of those trees will experience harsher climate conditions by 2070.
Although the project is looking at what trees will survive in urban areas, Leigh said the research can be applied to what trees you can plant in your backyard.
The team are testing what plants will survive in different environments using a range of techniques, so they can be confident in which trees will survive in the future.
"We're using bioclimatic models, so climate modeling, to see how species will survive," Leigh said.
Rows of native trees being tested for the Which Plant Where project. Supplied: Which Plant Where
"We're also using glasshouse modules, where we test species in a glasshouse by putting them under drought and high temperatures to see if they survive.
"And we're putting some of the plants in the field."
Leigh said the multiple approaches will allow future planning for which trees will be fine, which will need extra care, and which will absolutely not survive.

Location, location location
Location plays an important role in what trees can be planted too.
"Different plants have different bioclimatic ranges - what that means is some plants like cooler temperatures, some like hotter temperatures, and they live within a bioclimatic envelope," Leigh said.
Essentially, trees are picky, and knowing where they'll thrive the best is important for future environmental planning.
Leigh says the bioclimatic envelope trees live in is shifting southwards, meaning "our areas are getting hotter by one kilometre each year".
Trees are "long-term assets", so while they can live up to 120 years, rising temperatures may mean "those trees might not survive in increasing temperatures in the next 20 to 50 years".
The researchers say some trees, like the golden wattle or the prickly paperbark, might not make it in northern, warmer cities.
Species like the native frangipani or the tuckeroo will probably be suited in southern cities
It goes without saying that trees are vital. And in urban spaces, they provide shade and cool suburbs during heatwaves.
"It's a much better shade provider than a sail or man-made structure," Leigh said.
Now is a really good time to plant trees, giving them enough time to become established before summer.
Check in with your local council to see if there are any community activities planned or free trees you can pick up to plant at home.
And if you're not sure what you can plant or where to plant it, local nurseries are usually a good place to start.

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Australian Insurance Companies Abandon Thermal Coal Industry

RenewEconomy




The coal industry will no longer be able to obtain investment or insurance from any Australian-based insurance providers, following confirmation by Brisbane-based Suncorp Group that from 2025 it will no longer do business with the coal industry,.
and that it will phase-out its investments and insurance exposure to the coal industry by 2025.
Suncorp’s announcement that it will phase out its investments and insurance exposure to thermal coal by 2025 means that all of the Australian based insurance companies have now effectively committed to removing coal from their investment portfolios.
It also represents a complete exclusion on the offer of insurance or underwriting products to the coal sector, an achievement welcomed by fossil fuel divestment campaigners Market Forces.
“Suncorp’s dumping of coal means there is now not one single major Australian insurer willing to provide insurance for new, climate-wrecking thermal coal projects,” Market Forces campaigner Pablo Brait said.
The exclusion comes at a crucial moment for the future of Australia’s coal sector, with the mammoth Adani Carmichael coal mine on the verge of commencing construction and with at least six additional projects in the pipeline, threatening an explosion in coal extraction, and greenhouse gas emissions, in the Galilee Basin.
Suncorp’s commitment follows the filling of two shareholder resolutions by Market Forces, which is seeking to compel the Queensland insurance firm to establish a set of targets for reducing the company’s exposure to fossil fuel projects, including coal, gas and oil extraction projects and fossil-fuelled power stations.
The motions would require the company to publish a set of short, medium and long term targets to reduce the company’s investments and underwriting exposure to oil, gas and coal assets and the company would need to ensure these targets are in line with international commitments under the Paris Agreement.
A spokesperson for Suncorp confirmed the company would no longer do business with the coal sector, saying that the coal industry does not represent a significant portion of Suncorp’s business. Not only will Suncorp not enter into any new deals with coal projects but that it will also divest itself of its existing investments and deals with coal projects by 2025.
“Suncorp’s exposure to the fossil fuels industry is not material, being less than 0.5% in the insurance business and investment portfolio, and a negligible proportion of our commercial lending portfolio. Suncorp doesn’t finance fossil fuel projects as it doesn’t have an institutional bank,” a Suncorp spokesperson said.
“Through our Responsible Investment Policy, which was implemented in 2017, we apply a shadow carbon price to reduce financial risk, which we review annually. The practical outcome of this is that we have materially reduced our investment in fossil fuels including thermal coal.”
“As a result of these policies, we do not directly invest in, finance or underwrite new thermal coal mining extraction projects, or new thermal coal electricity generation, and we will phase out of these exposures by 2025. We will seek to increase exposure to businesses that have a positive environmental impact, including renewable energy generation and technology.”
Suncorp’s coal exclusion follows a similar commitment by QBE insurance, with the company announcing in May that it would also no longer do business with coal projects and would seek to divest its existing business with coal projects by 2030.
Multi-national insurance company Allianz, which has a strong presence in the Australian market, has also committed to limit its involvement in the fossil fuel sector, having previously announced it would not invest in companies that derive more than 30% of their revenues through the production or use of coal.
The Insurance Australia Group (IAG) is not currently providing any insurance products to the coal sector.
Between the firms, there are no longer any Australian based insurance firms willing to do new business with the thermal coal industry.
Banks and insurance companies have come under mounting pressure to reduce their exposure to fossil projects and stop the financing of new fossil fuel projects, both from climate change campaigners, as well as investors concerned about the impacts that climate change poses to companies that are heavily involved in fossil fuel industries.
The ability to secure finance and insurance is a crucial step in the development of large-scale resources projects, helping to de-risk the project for developers, and failure to secure insurance can often cripple a project.
Campaigners have targeted Australian insurance companies to make commitments not to underwrite new fossil fuel projects, and by depriving projects of access to insurance products, campaigners can raise the potential that new fossil fuel projects may not progress at all.
Investors have also called on insurance firms to assess and disclose their level of exposure to climate-related risks, seeing investments in fossil fuels as not just a risk to the environment, but also represents a substantial risk to their investments.
“Any company wanting to run a coal-burning power station past 2030 will now be unable to get an Australian insurer to back it. AGL and Origin might want to take note,” Brait added.
“While Suncorp’s progress on thermal coal is exciting, the fossil fuel sector is far broader and without action on oil and gas, there is a risk that Suncorp ends up trading one massive climate risk for another over time.”
“The impacts of climate change pose severe risks to humanity and those risks are already showing up on the balance sheets of insurance companies. Shareholders and investors need assurance that Suncorp is doing everything possible to minimise the risks of climate change,” Brait added.
Market Forces last week lodged a shareholder resolution with AGL, calling on the company to set targets for reducing greenhouse gas emissions in line with the goals of the Paris Agreement, and would necessitate AGL bringing forward the retirement all of its coal power plants as early as 2030.
In light of the confirmation it will exit the coal industry, Market Forces will still progress the shareholder resolutions at the Suncorp AGM, believing it is crucial that Suncorp set targets to withdraw from all fossil fuel industries, including gas and oil.

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