09/11/2021

(AU The Guardian) Australia’s Emissions From Land Clearing Likely Far Higher Than Claimed, Analysis Indicates

The Guardian | 

High-profile experts cast doubt over the bulk of the country’s touted reductions in greenhouse pollution

Land clearing in northern New South Wales. Expert analysis of satellite imagery has called into question the Australian government’s claims of a reduction in carbon emissions. Photograph: Mike Bowers/The Guardian

Australia is likely to be releasing more emissions from deforestation than reported to the United Nations, new analysis indicates, stoking calls for an independent review of the sector that has delivered the bulk of the country’s claimed reductions in greenhouse gas pollution in recent decades.

An assessment of satellite imagery of more than 50 properties in Queensland by Martin Taylor, an adjunct senior lecturer at the University of Queensland, has identified significant discrepancies between what is treated as cleared land by Australia’s National Carbon Accounting System (NCAS) and the Statewide Landcover and Trees Study (Slats) used by the state government.

“It flummoxes me – what’s going on in their models when they are missing such obvious land clearing,” Taylor said. “How can you possibly say that’s still forest … it’s so glaringly obvious something is wrong.”

How countries have treated emissions from the land sector – clumsily known as Land Use, Land Use Change and Forestry (LuluCF) – has been contentious for decades, partly because of the challenges of accurately measuring and monitoring what can be subtle changes in vegetation even between seasons and periods of drought and wet spells.

The Australian government has relied on its reporting of falls in land-clearing rates for almost all the reductions that allow it to claim the country’s emissions have fallen by about one-fifth since 2005, and that Australia has “over-achieved” on its pledged cuts under the Kyoto protocol.

Martin Taylor compared how the federal government and the Queensland government assessed vegetation changes of more than 50 properties of at least 100 hectares in size. NCAS (left) says there was forest 2017-20 but Slats (right) shows what was cleared by the winter of 2018.

An accurate estimate of changing vegetation cover also underpins the veracity of carbon offsets, with the majority of claimed cuts paid for through the federal government’s emissions reduction fund going to the land sector. Its new long-term emission reduction plan to reach net zero by 2050 also relies heavily on it.

“Emissions from [LuluCF] have fallen by 114m tonnes of carbon dioxide-equivalent since 2005, and in 2019 the sector represented a 25 Mt CO₂-e sink for Australia,” the government’s net zero plan report states. Australia reports annual emissions of about 500m tonnes.

Martin Taylor says he is ‘flummoxed’ that models are missing obvious vegetation change.
Deforestation has featured at Cop26 the climate summit in Glasgow, with Australia among the 105 nations to sign a pledge to reduce forest loss by 2030.

Accounting rules agreed to under the UN framework convention on climate change help countries minimise loss of their forests. Under those rules, tree crown cover needs to amount for only 10% to 30% of an area of less than one hectare for it to be treated as a forest. Australia takes the mid-point of the range at 20%.

Before and after images of land clearing north of Injune, Queensland, in 2017 and 2018. NCAS (left) claims there is forest from 2017-20 but Slats (right) picks up the clearing by winter 2018.

Taylor said the 20% estimate was “a fundamental issue” that meant NCAS “just completely misses” land clearing.

“Where forest tree cover gets reduced down from 100% to 30% or 20%, to them it’s still a forest and nothing’s changed,” he said. “That’s huge.”

Taylor and other researchers said even 20% coverage could be understating actual clearing because the models used are less accurate than the Slats detection used by Queensland and other states, including NSW.

Before and after images of land clearing north-east of St George, Queensland, in 2017 and 2018. NCAS (left) shows the area as still forested 2017-20 but Slats (right) picks up land clearing by the winter of 2018.


It isn’t clear what land-clearing is

Questions over the reliability of Australia’s land sector emissions accounting are not new.

As far back as 2007, Andrew Macintosh of the Australian National University law school called for an independent review of NCAS, without which the “federal government’s claims about Australia’s performance against its Kyoto target should be treated with scepticism”.

Glenn Walker, then with the Wilderness Society, also compiled a report highlighting how Queensland’s land clearing rates rocketed after the LNP under Campbell Newman came to power in 2012, yet Australia’s emissions continued to fall during that period.

Excluding the years from 2007 to 2012, the National Carbon Accounting System has underestimated land clearing in Queensland compared with the Statewide Landcover and Trees Study (Slats) compiled by the state government.

Excluding land use, national emissions had risen by more than 5% since 2005 – the base year picked by the Abbott government for Australia’s Paris climate goal – before Covid-19 lockdowns began. Carbon pollution in other rich economies fell in that timeframe.

When land use emissions are removed, Australia’s carbon pollution path shows a rise, unlike many other major developed economies.

Researchers say there are “millions of anecdotes” to illustrate areas where land-clearing has been picked up by Slats, but not by NCAS. One case involved NCAS identifying a dam as a forest because of its dark colour.

Don Butler, an ecologist formerly at the Queensland Herbarium and now a professor at ANU, worked with the Slats program for years. He said NCAS used Landsat imagery at 25m to detect vegetation and alterations, while Slats used 10m pixels.

“Just that change alone will change the estimate of the area cleared,” he said.

Stuart Phinn, a professor at the University of Queensland specialising in the use of remote sensing to measure environmental changes, said Newman’s policies “did have a large impact on clearing” that were picked up by Slats.

Reports at the time estimated Queensland landholders were clearing 10 sq km a day in 2015-16. The environment minister, Steven Miles, estimated carbon emissions at 45m tonnes over that year.

Slats doesn’t itself calculate emissions. As with NCAS, the emissions are inferred by the vegetation change identified in satellite images that is assessed using complex algorithms. The next Slats report for 2018-19 will be released on November 30.

Despite the revival of land clearing in Queensland after 2012 and a rise in NSW in recent years, Australia has continued to book falls in emissions from the land sector since 2007. From the June quarter of 2015, the sector has been negative, implying more sequestration than emissions.

Butler said: “The reason Slats is more accurate is that a human looks at every bit of clearing that’s reported and decides that it is clearing, and that’s not something that NCAS is resourced to do.”

Phinn, Butler and other researchers do not suggest there is any intent by NCAS to mislead on emissions, but stress the need for more transparency.

“It would be good to go more public with their modelling validation,” Phinn said. “I don’t think it’s open enough.”

The emissions reduction minister, Angus Taylor, passed a request for comment to the energy department, which said any suggestion that the Australian government had underestimated land clearing was “misplaced”.

“The Australian government prepares the national greenhouse accounts in accordance with Intergovernmental Panel on Climate Change guidelines,” a department spokesperson said, citing the approach detailed in the national inventory report.

“The methods and data are reviewed every year by teams of international experts assembled by the UNFCCC secretariat in Bonn. The international architecture that governs the National Greenhouse Accounts is designed to give confidence that the data are accurate, comparable and time-series consistent.”

‘It’s hard to understand and it’s hard to explain’

Martine Maron, professor of environmental management at the University of Queensland, said the complexity of the processes was one reason emissions from land clearing had not drawn as much public scrutiny.
“It’s a huge issue in Australia,” Maron said. “It’s been a problem for a long time. It’s really, really hard to understand and it’s hard to explain.”

“Essentially [NCAS and Slats] are using the same input data but they’re classifying change in different way,” she added. “I’ve spent years trying to get my head around it.”

Why Australia is accused of cheating during climate talks 4min 24sec

Butler said there were reasons to question the accounting even after recent revisions, including the increasing area assessed to be regrowth on previously cleared land.

“It’s now worth about 10-12m tonnes [of CO2] of sequestration a year,” he said. “That’s the bit … I have the least faith in I suppose, and it is a significant part of the story.”

Head of consulting at Ndevr Environmental, Matt Drum, and also formerly with the federal department of climate change, said land use changes were not reliably calculated, so his firm focused on tracking carbon emissions by the rest of the economy.

“It’s not a bit of a black box, it’s a massive black box,” Drum says. “It’s at the point where you report without LuluCF – it’s much more reliable.”

The Greens leader, Adam Bandt, said Scott Morrison “boasts of meeting and beating terrible targets, but his claimed 20% emissions cuts [since 2005] rely on accounting changes that the experts now question”.

“Take out the land sector and it’s unstable greenhouse accounting and the Liberals haven’t reduced emissions since 2005 at all,” Bandt said.

Phinn and Butler said space-based remote sensing was rapidly advancing and systems would soon be available that more precisely detected height and density of vegetation, so that regrowth of grass, for instance, was not treated as if it were more woody plants. Whether governments use the technology to adjust and even reinterpret past data is another matter.

With the land sector also accounting for more than 60% of Australian carbon credits and more than three-quarters of contracted abatement under the ERF, potentially billions of dollars of offsets and sequestration claims are riding on good data.

Will Steffen, a researcher at ANU, helped advise the Labor government under Julia Gillard on how to nudge companies to reduce their emissions rather than rely on offsets to do their work.

“[We wanted] to make sure that there wasn’t a get out of jail free card by using land offsets in place of actually reducing fossil fuel emissions,” Steffen said. “The land sector screamed up and down that that wasn’t fair because then as now there are companies in those industries who make money off offsets.”

Steffen said: “I think we need a really thorough review of the entire land clearing process. That’s not just accounting, but how we use land carbon vis-a-vis fossil fuel emissions.”

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(AU New Daily) Alan Kohler: Politicians Must Stop Lying About The Cost Of Climate Change

New DailyAlan Kohler

World leaders must be honest about the cost of climate change, writes Alan Kohler. Photo: TND/AAP

Author
Alan Kohler writes twice a week for The New Daily. He is also editor in chief of Eureka Report and finance presenter on ABC news.
The name of the climate change conference in Glasgow betrays its failure: COP26.

It’s the 26th of them.

The United Nations Framework Convention on Climate Change (UNFCCC) has been plugging away since 1995, and the only declines in greenhouse gas emissions over that time have been during recessions, oil shocks and the collapse of the Soviet Union – nothing to do with the COP(out)s.

Maybe No.26 will be the one, but you’d have to be an incurable optimist or a politician, or have not paid close attention to what’s been going on in Glasgow, to think that.

The International Energy Agency’s executive director, Fatih Birol, says the pledges made over the past week will bring global warming to below 2 degrees for the first time, which seems to be an achievement.


But apart from the sheer inadequacy of it, Dr Birol is confused about the meaning of “pledge”, as is everybody else at the meeting.

The dictionary describes a pledge as a binding promise, but these promises are not binding, and we have learnt over 26 years that they barely qualify as promises at all.

“Best efforts”, or “let’s see how we go” would be a better description.

Since 1995, there have been five American presidents, six British prime ministers, seven Indian PMs and eight Australian PMs.

It simply isn’t possible for them to make a binding long-term promise, or rather they only make long-term promises that are likely to win them short-term votes.

And making the sort of binding promise necessary to achieve 1.5 degrees of warming would be guaranteed to lose any election.

According to a study by the Peterson Institute for International Economics, the global cost of carbon must rise from roughly $10 a tonne globally now to $60 a tonne immediately, and $75 a tonne by 2030 in order to hit the Paris Agreement targets (or 2 degrees and “preferably” 1.5).

PIIE goes on: “The impact of such a shock is familiar because it resembles the oil shocks of the 1970s, when a previously under-priced resource was suddenly revalued.”

“If priced at $75 a tonne, the aggregate value of the 36.4 gigatonnes of carbon emissions in 2019 would amount to 3.1 percentage points of 2019 world GDP,” the study says.

“[T]he 1974 oil shock resulted in the repricing of 19.7 billion barrels of oil from $3.3 to $11.6/barrel; the corresponding shock amounted to 3.6 percentage points of the 1973 global GDP.”

Can we imagine any national leader saying: “Right, everyone, what we need now is another oil shock”?

The IMF wrote in June that carbon pricing is needed and would have to be supported by measures to enhance its effectiveness and acceptability, including public investment in clean technology networks (like grid upgrades to accommodate renewables) and measures to assist vulnerable households, workers, and regions.

It says these things would be equivalent to a carbon price of $US75 a tonne.

And finally, the Bank of England has published what it called a “2021 Climate Biennial Exploratory Scenario”, in which it went much further, and much scarier.

“In the Early Action scenario, carbon prices increase from roughly $US30 per tonne of carbon dioxide-equivalent today, to just under $US900 by 2050 in the UK and EU (abstracting from general inflation over the time period).

“In the Late Action scenario, carbon prices remain at $US30 until 2030, and then rise steeply to over $US1000 in 2050.”

Even in today’s money, that sort of carbon price would make the oil shocks of the 1970s seem like a picnic.

So the capitalists, not the politicians, will have to save the planet, and that is starting to happen.

Private sector leading the way

Last Wednesday a press release was issued in Glasgow with this first paragraph: “Today, through the Glasgow Financial Alliance for Net Zero (GFANZ) over $US130 trillion of private capital is committed to transforming the economy for net zero. These commitments, from over 450 firms across 45 countries, can deliver the estimated $100 trillion of finance needed for net zero over the next three decades.”

But that is not money sitting in a fund ready to invest in clean energy.

It refers to the total assets managed by members of the Glasgow Financial Alliance for Net Zero, which is a group of concerned banks and financial institutions.

Banks account for roughly half the $US130 trillion ($174 trillion).

Their assets are mostly loans to people and businesses, which can’t be used by the banks to invest in renewable energy. They can decide not to lend money for new coal mines, which they have already done, but they can’t tell their customers what to do.

Also, banks count single assets several times through chains of loans, which are deposited and lent again.

Investment management also involves double-counting by subcontracting other managers to look after some of the money, and both are counted.

So the double-counting means it’s actually less than $US130 trillion ($174 trillion).

That press release was just another piece of COP26 puffery. But it is fair to say that the investment and business world are trying to pick up leadership of the fight against global warming.

That’s because investors have a longer-term focus than politicians, and are genuinely worried about what happens in 2050. Most CEOs are like politicians, of course, but their shareholders are calling the shots.

But can investors and businesses do this on their own? Absolutely not.

There has to be a global price on carbon if 1.5 degrees is to be achieved.

There is a very active voluntary carbon market of companies and investors trying to do the right thing, which pushed the spot price of Australian Carbon Credit Units to a record high of $36.75 on Friday and has lifted other carbon prices around the world, but it’s not enough.

If it stays voluntary with just a few emissions trading schemes dotted around the world, then the companies and households choosing not to cut or offset their emissions will be able to freeload, and the cost of the climate change project would not be equally shared.

That’s why it has always broken down – if everyone is not sharing the burden, it can’t work.

So the only way global warming will be defeated is if political leaders are prepared to come clean on the cost of it and oppositions don’t use that as a platform to lie their way into office.

Like the Coalition did in Australia.

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Green Hydrogen: How Half The Water Flushing A Toilet Could Power Your Home For Days

Euronews - Doloresz Katanich


Winner of the Earthshot Prize for Fix the climate   -   Copyright  Earthshot

Emission-free hydrogen could, one day, entirely replace fossil fuels - and a start up in Germany believes it has the key ingredient to make it accessible to all.

Born in a climate-change affected South Pacific Island, Vaitea Cowan believes deeply in green hydrogen technology. She co-founded Enapter more than three years ago.

"I wanted to replace all the diesel generators in New Caledonia and all the remote areas that didn't need to rely on dirty diesel, " she says.

"But then realising the potential for green hydrogen to replace fossil fuels, I wanted to be part of this change."
Green solutions will only be adopted if they are the most economically attractive. And that's our mission at Enapter to make green hydrogen cost-competitive with fossil fuels.
Vaitea Cowan Co-founder, Enapter
With headquarters in Germany, the company has deployed its ion exchange membrane electrolysers in over 100 projects across 33 countries. The technology turns renewable electricity into emission-free hydrogen gas.

Developed more quickly and cheaply than once thought possible, the AEM electrolyser already fuels cars and planes, powers industry and heats homes.

Enapter's hydrogen generators have recently won Prince William’s Earthshot Prize in the 'Fix Our Climate' category.

What is green hydrogen?

Much of the planet's hydrogen is locked up in water. So-called 'green' hydrogen is an emission-free way of extracting it. This extraction relies on renewable energy, which is used to power electrolysis. Electrolysis is the chemical process needed to separate the hydrogen and oxygen atoms in the water.

Extracting hydrogen this way has been facing criticism, because of its low efficiency and high cost. Enapter says, however, that their AEM Electrolyser solves these problems and provides a quick and easy way to produce green energy, even at home.

Half of the water used to flush a toilet can power a home for days

Enapter says its electrolyser uses about 2.4 litres of water to generate enough hydrogen for a couple's home for several days.

However, the exact number of days depends on the power storage capacity. This amount of water is equal to half of the water used for flushing a toilet once (5 litres), and eight times less than the water consumption of a dishwasher (20 litres).

The Earthshot Prize will help Enapter to start mass production.

"The production site, we started to build six weeks ago, will go into mass production at the beginning of 2023", says Vaitea.

By 2050, Enapter’s hopes to produce 10% of the world’s hydrogen.

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