Australia is the world’s third largest fossil fuel exporter, after only Russia and the US. Though often ignored in political discussions, these exports make up a whopping 80% of Australia’s global pollution. And who is responsible for all of those greenhouse gas emissions? A handful of Australian oil and gas companies.
What impact do Australian oil and gas companies have on greenhouse gas emissions?
Australia is a signatory to the Paris Agreement, a legally binding international treaty on climate change. In other words, we have committed to doing our bit to limit the increase in global average temperatures. As part of this commitment, Australia must report regularly on its emissions and how it’s tracking towards reducing them. But critically, Australia is not required to include the emissions from its fossil fuel exports in these figures. That pollution is attributed to the country where the fossil fuels are burned.
In reality, it’s just another way for Australian oil and gas companies to dodge responsibility for the pollution they create. Because while progress is being made to reduce domestic emissions, the federal government continues to support the expansion of the fossil fuel export industry.
It doesn’t matter where the fossil fuels are burned. Whether it’s here or in another country, these fossil fuels produce greenhouse gasses that are warming our planet and causing more frequent and severe disasters around the world. Climate change knows no borders.
Despite what Australian oil and gas companies want you to think, climate change is not an individual problem
There are worthwhile actions we can all take to tackle climate change. But have you ever tried to calculate your own carbon footprint, only to feel guilty and confused about how you alone will solve this crisis? You have a fossil fuel company to thank for that sentiment, too. In the early 2000s, it was none other than British Petroleum that came up with the idea to shift the blame for climate change onto the individual with its ubiquitous carbon footprint PR campaign. This is a common tactic from the fossil fuel industry, which has been running ads to deny, seed doubt about, and shirk responsibility for climate change since the 1980s.
To put it in perspective, Woodside’s Burrup Hub project alone would emit over 73 times the annual emissions of all of New Zealand (and most of the gas Woodside extracts will be exported). In other words, it’s not you, babe – it’s them.
Protest of Woodside and Drill Rig Valaris at Scarborough Gas Field in Western Australia
We all pay the price (unless you’re an oil and gas company)
Pacific Island nations account for only 0.03% of global pollution but are getting hit harder every year by cyclones, hurricanes, floods, droughts, and extreme temperatures – all made worse by climate change, driven by the burning of fossil fuels. Category 4 and 5 cyclones have doubled in the West Pacific since the 1970’s. The rise of sea levels in the Pacific is already threatening to destroy homes, communities, and culture.
Impacts of the Tropical Cyclone Donna in Port Vila
People in Australia are feeling the impacts of climate change, too. Catastrophic bushfires, floods, and devastating storms are now annual events. On top of the unquantifiable personal and community cost of losing a loved one, a home, or a sacred place, there is an enormous economic cost for repair. New data from the Insurance Council of Australia shows that the impact of extreme weather on the Australian economy has more than tripled over the last 30 years.
Residents Shelter from Bushfires in Eden, Australia
But while everyday people, governments, and insurers bear the cost, Australian oil and gas companies continue to make massive profits from exporting fossil fuels, while paying almost zero tax. Chevron Australia made $12.5 billion in 2020-2021 while paying $30 dollars in company tax. Poor old Woodside made a measly $6.7 billion in this period while paying $0 in company tax. Does that seem fair to you?
What can the Australian Government do to reduce greenhouse gas emissions?
So what is the Australian Government doing to push oil, gas and coal companies to cut their emissions? Nowhere near enough. They’re still approving new coal and gas projects. And while talking a big game about reducing emissions at home, the government has given no indication its planning to do the obvious: wind back fossil fuel exports and ramp up clean energy exports instead. This isn’t climate action, it’s pouring fuel on the fire.
The good news is we know what to do, and we have the people power to make it happen. We must continue pressuring the Australian Government to commit to a fair, fast and funded fossil fuel phase out. (Hint hint, that means stop approving new coal projects and reject Woodside’s gas expansion plans!) And we need to put the onus back on the polluters to pay for the damage they’ve caused and clean up their mess.
Get started by signing our petition demanding the Australian Government stop new coal, oil and gas projects now.
No new fossil fuels
Sign the petition to demand the Australian Government stop new coal, oil and gas projects now.
Australian coal, oil and gas companies are making climate change worse
American farmers are drowning in health insurance costs, while their German counterparts never worry about medical bills. The difference may help determine which country’s small farms are better prepared for a changing climate.
Samantha Kemnah looked out the foggy window of her home in New Berlin, New York, at the 150-acre dairy farm she and her husband, Chris, bought last year. This winter, an unprecedented cold front brought snowstorms and ice to the region.
On the Farm, the Hidden Climate Cost of the Broken U.S. Health Care System
Climate Change
A Little-Used Maneuver Could Mean More Drilling and Mining in Southern Utah’s Redrock Country
Two Utah Congress members have introduced a resolution that could end protections for Grand Staircase-Escalante National Monument. Conservation groups worry similar maneuvers on other federal lands will follow.
Lawmakers from Utah have commandeered an obscure law to unravel protections for the Grand Staircase-Escalante National Monument, potentially delivering on a Trump administration goal of undoing protections for public conservation lands across the country.
A Little-Used Maneuver Could Mean More Drilling and Mining in Southern Utah’s Redrock Country
Drought and heatwaves occurring together – known as “compound” events – have “surged” across the world since the early 2000s, a new study shows.
Compound drought and heat events (CDHEs) can have devastating effects, creating the ideal conditions for intense wildfires, such as Australia’s “Black Summer” of 2019-20 where bushfires burned 24m hectares and killed 33 people.
The research, published in Science Advances, finds that the increase in CDHEs is predominantly being driven by events that start with a heatwave.
The global area affected by such “heatwave-led” compound events has more than doubled between 1980-2001 and 2002-23, the study says.
The rapid increase in these events over the last 23 years cannot be explained solely by global warming, the authors note.
Since the late 1990s, feedbacks between the land and the atmosphere have become stronger, making heatwaves more likely to trigger drought conditions, they explain.
One of the study authors tells Carbon Brief that societies must pay greater attention to compound events, which can “cause severe impacts on ecosystems, agriculture and society”.
Compound events
CDHEs are extreme weather events where drought and heatwave conditions occur simultaneously – or shortly after each other – in the same region.
These events are often triggered by large-scale weather patterns, such as “blocking” highs, which can produce “prolonged” hot and dry conditions, according to the study.
Prof Sang-Wook Yeh is one of the study authors and a professor at the Ewha Womans University in South Korea. He tells Carbon Brief:
“When heatwaves and droughts occur together, the two hazards reinforce each other through land-atmosphere interactions. This amplifies surface heating and soil moisture deficits, making compound events more intense and damaging than single hazards.”
CDHEs can begin with either a heatwave or a drought.
The sequence of these extremes is important, the study says, as they have different drivers and impacts.
For example, in a CDHE where the heatwave was the precursor, increased direct sunshine causes more moisture loss from soils and plants, leading to a drought.
Conversely, in an event where the drought was the precursor, the lack of soil moisture means that less of the sun’s energy goes into evaporation and more goes into warming the Earth’s surface. This produces favourable conditions for heatwaves.
The study shows that the majority of CDHEs globally start out as a drought.
In recent years, there has been increasing focus on these events due to the devastating impact they have on agriculture, ecosystems and public health.
In Russia in the summer of 2010, a compound drought-heatwave event – and the associated wildfires – caused the death of nearly 55,000 people, the study notes.
The record-breaking Pacific north-west “heat dome” in 2021 triggered extreme drought conditions that caused “significant declines” in wheat yields, as well as in barley, canola and fruit production in British Columbia and Alberta, Canada, says the study.
Increasing events
To assess how CDHEs are changing, the researchers use daily reanalysis data to identify droughts and heatwaves events. (Reanalysis data combines past observations with climate models to create a historical climate record.) Then, using an algorithm, they analyse how these events overlap in both time and space.
The study covers the period from 1980 to 2023 and the world’s land surface, excluding polar regions where CDHEs are rare.
The research finds that the area of land affected by CDHEs has “increased substantially” since the early 2000s.
Heatwave-led events have been the main contributor to this increase, the study says, with their spatial extent rising 110% between 1980-2001 and 2002-23, compared to a 59% increase for drought-led events.
The map below shows the global distribution of CDHEs over 1980-2023. The charts show the percentage of the land surface affected by a heatwave-led CDHE (red) or a drought-led CDHE (yellow) in a given year (left) and relative increase in each CDHE type (right).
The study finds that CDHEs have occurred most frequently in northern South America, the southern US, eastern Europe, central Africa and south Asia.
Threshold passed
The authors explain that the increase in heatwave-led CDHEs is related to rising global temperatures, but that this does not tell the whole story.
In the earlier 22-year period of 1980-2001, the study finds that the spatial extent of heatwave-led CDHEs rises by 1.6% per 1C of global temperature rise. For the more-recent period of 2022-23, this increases “nearly eightfold” to 13.1%.
The change suggests that the rapid increase in the heatwave-led CDHEs occurred after the global average temperature “surpasse[d] a certain temperature threshold”, the paper says.
This threshold is an absolute global average temperature of 14.3C, the authors estimate (based on an 11-year average), which the world passed around the year 2000.
Investigating the recent surge in heatwave-leading CDHEs further, the researchers find a “regime shift” in land-atmosphere dynamics “toward a persistently intensified state after the late 1990s”.
In other words, the way that drier soils drive higher surface temperatures, and vice versa, is becoming stronger, resulting in more heatwave-led compound events.
Daily data
The research has some advantages over other previous studies, Yeh says. For instance, the new work uses daily estimations of CDHEs, compared to monthly data used in past research. This is “important for capturing the detailed occurrence” of these events, says Yeh.
He adds that another advantage of their study is that it distinguishes the sequence of droughts and heatwaves, which allows them to “better understand the differences” in the characteristics of CDHEs.
Dr Meryem Tanarhte is a climate scientist at the University Hassan II in Morocco, and Dr Ruth Cerezo Mota is a climatologist and a researcher at the National Autonomous University of Mexico. Both scientists, who were not involved in the study, agree that the daily estimations give a clearer picture of how CDHEs are changing.
Cerezo-Mota adds that another major contribution of the study is its global focus. She tells Carbon Brief that in some regions, such as Mexico and Africa, there is a lack of studies on CDHEs:
“Not because the events do not occur, but perhaps because [these regions] do not have all the data or the expertise to do so.”
However, she notes that the reanalysis data used by the study does have limitations with how it represents rainfall in some parts of the world.
Compound impacts
The study notes that if CDHEs continue to intensify – particularly events where heatwaves are the precursors – they could drive declining crop productivity, increased wildfire frequency and severe public health crises.
These impacts could be “much more rapid and severe as global warming continues”, Yeh tells Carbon Brief.
Tanarhte notes that these events can be forecasted up to 10 days ahead in many regions. Furthermore, she says, the strongest impacts can be prevented “through preparedness and adaptation”, including through “water management for agriculture, heatwave mitigation measures and wildfire mitigation”.
The study recommends reassessing current risk management strategies for these compound events. It also suggests incorporating the sequences of drought and heatwaves into compound event analysis frameworks “to enhance climate risk management”.
Cerezo-Mota says that it is clear that the world needs to be prepared for the increased occurrence of these events. She tells Carbon Brief:
“These [risk assessments and strategies] need to be carried out at the local level to understand the complexities of each region.”
The post Heatwaves driving recent ‘surge’ in compound drought and heat extremes appeared first on Carbon Brief.
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