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Leaving EU will make it harder for UK to tackle climate change, says minister
Climate and energy secretary says while decision to leave will make UK’s role harder, the government’s commitment remains the same
Brexit will make it harder for Britain to play its role in tackling climate change, the UK energy and climate secretary has said.
But Amber Rudd said that the UK remained committed to action on global warming and Whitehall sources have told the Guardian that on Thursday she will approve a world-leading carbon target for 2032.
Continue reading...After 6 years of working on climate at Harvard, I implore it to show the courage to divest
Despite pressure from students and staff, Harvard leaders have refused to divest
One morning in the summer of 2014, I found myself in the city of Tacloban in the Philippines. The city and surrounding area had been devastated less than a year earlier by Super Typhoon Yolanda. Thousands had been killed; bodies were found for months afterwards.
As part of an international research collaboration, I was interviewing government officials and others throughout the Philippines to assess how to improve preparedness for and response to climate-related disasters. I had already interviewed survivors in cities and villages across the country about the impacts of extreme weather. (And, incidentally, a few weeks later, I would contract dengue and chikungunya—two mosquito-borne diseases aided by climate change in their ongoing spread.) With my prior experience, I thought I was prepared for what I would hear that morning, but I wasn’t.
Continue reading...‘Devastated’: scientists too late to captive breed mammal lost to climate change
Australian conservationists spent five months obtaining permissions and planning for a captive breeding programme for the Bramble Cay melomys. But when they arrived on the rodent’s tiny, low-lying island, they discovered they were too late.
The Bramble Cay melomys has become more famous in extinction than it ever was in life. A mouse-like rodent, the melomys amazingly survived on a 3.6 hectare grass-covered cay (a low-lying island in a coral reef) in Australia’s Great Barrier Reef like a ratty Robinson Crusoe for thousands of years. There, it thrived off just a few plant species until human-caused climate change—in the form of rising sea levels and increasing inundations of sea water on the low-lying island—wiped it off the planet.
But, while the extinction has been reported widely, articles have missed an important point: the scientists who uncovered the rodent’s fate had planned to capture individuals and bring them back to the Australian mainland to start a captive breeding programme. They were just too late.
Tragic lack of leadership puts red hot climate change out in the cold
Environment and climate groups publish final scorecards rating main political parties as Australians prepare to vote
If ever there was going to be a climate change election, surely this was going to be it.
As May came and the election date was announced, the implications of the global Paris agreement between more than 190 countries just months earlier were still resonating – the world was moving away from fossil fuels and the challenge to keep global warming well below 2C was agreed.
Continue reading...UK light pollution 'causing spring to come a week earlier'
Report is the first to examine the impact of artificial night-lighting on the seasonal behaviour of plants on a national scale
Light pollution is causing spring to come at least a week earlier in the UK, a new study has revealed.
The report, published in the journal Proceedings of the Royal Society B, found that budburst in trees occurs up to 7.5 days earlier in brighter areas, with later-budding species being more affected.
The heifers are in their new quarters
St Dominic, Tamar Valley A handsome South Devon bull has now joined them, so the cycle will continue
A herd of South Devon cattle again graces the fields opposite home. For 30 years the land, with distinctive beech trees on a hedge and an old, freestanding oak, was used mainly for a succession of cereal crops, with annual and ever dearer costs of ploughing, sowing, spraying to control weeds and moulds, and harvesting by combine and straw baler. Marauding pigeons from nearby woods were shot and once there was a mysterious double corn circle that caused consternation and wonder.
Over the past few years the new tenant has resown the former arable fields with grasses that have thickened up with regular topping (cutting) and sheep grazing. This year, strong post-and-wire fences have been reinstated against the hedge-banks, and a cattle crush or pen has been installed for sorting the animals and for the obligatory TB tests.
Continue reading...So what will the Coalition, Labor and the Greens do about climate change? A video explainer
Lenore Taylor explains what each of the major parties plan to tackle the problem of greenhouse emissions. While the Coalition is planning to review its plans after Saturday’s general election, Labor is promising two new emissions trading schemes and the Greens have are advocating that Australia source 90% of its power from renewable sources by 2030
Continue reading...Treasure from trash: how mining waste can be mined a second time
Mines typically follow a set path from prospecting, to development, to extraction and finally closure as the finite resources are exhausted. But does that really need to be the end of the mine’s productive life?
All mines generate waste, one type of which is known as “tailings”. Often these solid wastes are stored at or near the mine site itself. Mine site rehabilitation can be expensive, and often the burden falls on the taxpayer rather than the mining company.
However, this burden could be minimised if mining companies change their perception and start to view these disused materials not as waste, but as potential resources. Tailings dumps can be gold mines – literally, in some cases.
The opportunitySociety’s appetite for commodities is shifting in favour of critical or strategic metals such as lithium, indium and cobalt. These metals are vital to support the rapidly diversifying electronics industry.
For example, earlier this year the Indian government announced an ambitious plan for all vehicles to be electric by 2030. Hitting this target will require a lot of lithium – a crucial component of batteries.
Australia is currently the world’s top lithium producer, offering a much-needed boost to Western Australia’s mining sector in particular. But maintaining this position is tough, because building new mines can cost anything between A$150 million and A$2 billion, on top of exploration costs.
But you don’t necessarily need a brand-new mine to get lithium, thanks to new techniques that allow lithium to be recovered from much lower-grade materials. Instead of being simply dumped, mine tailings can be re-mined. Through this process, characterisation of these wastes will allow for tailor-made, environmentally conscientious management strategies to be developed to handle the lower-value byproducts.
This can also help protect the environment from these often toxic wastes. Many of Australia’s 50,000 abandoned mines contain reactive sulphide minerals such as pyrite. These can leach acid into the environment in a process known as acid mine drainage (AMD), potentially costing more than A$100,000 per hectare to clean up.
Acid mine drainage in Western Tasmania. Anita Parbhakar-FoxRevisiting mine tailings can not only increase the working life of existing mines, it can also potentially breathe new life into long-abandoned mine sites.
There are two main reasons why this might be preferable to developing new mines. First, mining costs are reduced, as these materials have already been extracted from the ground. Second, the older the mine, the greater the proportion of the target commodity that is likely to be left over, because many older mining techniques had lower recovery rates than today’s technology.
For example, the historic Baal Gammon mine in northern Queensland once produced copper, tin and silver, but acid drainage from the disused site now poses a risk to the nearby Jamie Creek and Walsh River. But analysis of the waste boulders shows that they are rich in tin and indium, both of which can be recovered using today’s metallurgical techniques. This would have the added benefit of removing the sulphide compounds that threaten the local waterways.
Similarly, Tasmania’s Zeehan lead-zinc field contains more than 100 legacy mine sites, many of which – such as the Silver Spray mine – are affected by AMD. Again, characterisation of the waste rocks that contain AMD-forming sulphides shows that they also contain significant amounts of indium.
In neither of these cases has a mining project been established to recover these metals – surely a missed opportunity.
Queensland’s abandoned Croydon mines contain sulphide-bearing waste rocks. Anita Parbhakar-FoxThere are signs that re-mining tailings could make more financial and environmental sense than other rehabilitation options. One example is Tasmania’s Old Tailings Dam, which contains mine waste piled more than 30 metres deep between 1962 and 1982.
While many rehabilitation options have been considered, including flooding the tailings or covering them with vegetation, the technical challenges have been considered too great. Yet the pyrite-rich tailings also contain up to 3% cobalt, which is worth well over US$23,000 per tonne.
It may even be possible to retrieve almost all of the cobalt by using bacterial oxidation. This process was initially developed to release gold from pyritic rocks, and is regarded as a greener processing technique.
Elsewhere in Tasmania, a similar project is under way to recover gold, and another is proposed to recover tin from mine tailings. Overseas, mine tailings reprocessing projects are planned as far afield as South Africa and Bolivia.
With technology improving just as the mining sector’s economic fortunes dip, firms have more incentive than ever to comb through their trash in search of treasure. Treating waste as a potential resource could help the industry rise from the ashes of the downturn, while helping the environment too.
Anita Parbhakar-Fox receives funding from The ARC Transforming the Mining Value Chain Industrial Transformation Research Hub.
Scientists hail Zika vaccine success
The next solar revolution could replace fossil fuels in mining
Recently Sandfire Resources, a gold and copper producer based in Western Australia, announced its new solar power plant will soon start powering its DeGrussa mine. By replacing diesel power, the 10-megawatt power station, with 34,000 panels and lithium storage batteries, is expected to reduce the mine’s carbon emissions by 15%.
This is an exciting development because it realises an important potential that has long been recognised but not exploited. Two of Australia’s greatest resources – solar energy and minerals – are, as luck would have it, both highly concentrated in the same parts of Australia.
In this case, solar energy is being used to power the mine, but there is also great potential for solar energy to be used to convert the minerals to chemicals and metals.
In metal production, most greenhouse gases are generated when carbon (often coal) is used to produce metal from the rocky ore. Some of this carbon is used in the actual chemical reactions, but a large proportion is just providing energy for the process.
Replacing the carbon energy source with renewable or other lower-emission energy has the potential to dramatically lower the greenhouse gases associated with metal production.
For example, in iron production, more than 400kg of coke and coal is use to make every tonne of iron. Using renewable energy as a heat source could reduce this carbon input by up to 30%.
The next revolutionCurrently, Australia’s use of solar energy is largely limited to homes, for hot water and solar-powered electricity. But solar energy has great potential for regional Australia too.
Mines are often isolated. There is typically limited natural gas and electricity supply, and in remote areas energy supply is limited to liquid fossil fuels. This is exactly the potential being exploited by Sandfire Resources at its mine facility 900km north of Perth.
Recent studies by CSIRO have identified the potential to use solar in high-temperature processing of ores such as bauxite, copper and iron ore. This process would use concentrated solar thermal (CST) energy as a heat supply. This heat can also be converted to electricity, known as concentrated solar power (CSP).
This is different to the solar photovoltaic technology used in Sandfire’s solar power plant (and rooftop solar panels), which converts sunlight directly to electricity.
Solar thermal energy works best at temperatures between 800℃ and 1,600℃ – which can be achieved with existing technology that concentrates the sun’s heat. This is currently too hot for converting the heat to electricity, which generally operates below 600℃.
But processing minerals can make use of these high temperatures, because the heat is used directly for chemical conversion, rather than first being converted to electricity.
It is this rationale that is driving research, at the University of Adelaide, into producing alumina using concentrated solar energy and, at Swinburne University, into producing iron from ore.
We have tested a range of temperatures and mineral mixes, and have produced iron products similar to commercial-grade iron products. We envisage a solar iron-making plant operating in Western Australia and value-adding to our iron reserves before being shipped overseas.
We expect this could reduce energy and emissions by 20-30% compared to current iron-making processes, by replacing carbon-based fossil fuels with solar energy, although carbon would still be used in the chemical processes.
Whether this is cost-effective will depend on the manufacturer, as the saving in energy and carbon will need to compensate for the high capital cost associated with high solar fluxes.
Concentrated solar energy is still relatively expensive. The Australian Solar Institute estimated in 2012 that the cost of electricity from concentrated solar was approximately double the current cost for conventional energy, reflecting largely the high capital cost of solar systems.
This gap can reasonably be expected to close with increases in the scale of operations (lowering manufacturing costs) and in regulatory pressure on conventional power sources.
It may be a way off, but the small step by Sandfire Resources could be the start of a revolution in the Australian minerals industry.
Geoffrey Brooks and his co-workers have received funding from ARENA for work into solar thermal processing and Cartwheel Resources for evaluating the potential of solar thermal processing of iron ores.
Millions exposed to dangerous lead levels in US drinking water, report finds
New report says Flint water crisis is not an anomaly, as analysis reveals 5,363 water systems – providing drinking water to 18 million – breached federal laws
More than 18 million Americans are served drinking water by providers that have violated federal laws concerning lead in water, with only a tiny proportion of offenses resulting in any penalty, a new report has found.
The toxic water crisis in Flint, Michigan, is “not anomalous”, the Natural Resources Defense Council (NRDC) report states, with widespread violations of national rules designed to protect people from lead, a known neurotoxin that is harmful even in small doses.
Continue reading...UK ministers to approve world-leading carbon emissions target
Fears had been raised that EU referendum would result in deadline being missed but sources say carbon budget will be agreed
Ministers will this week approve a world-leading carbon emissions reduction target for the early 2030s, the Guardian understands.
Fears had been raised by green groups and industry that the EU referendum would cause the UK government to miss a deadline on Thursday for accepting carbon targets from its statutory climate advisers.
Continue reading...Nasa tests its most powerful booster yet
World class science 'will endure' in UK after Brexit
Atkins Ciwem environmental photographer of the year 2016 - the winners in pictures
The overall awards winners have been announced in the 2016 Atkins Ciwem environmental photographer of the year competition, an annual international showcase for thought-provoking photography and video that tackles a wide range of environmental themes. A shortlist of 60 images has also been chosen from more than 10,000 entries for an exhibition that will run at the Royal Geographical Society, London, from 29 June to 22 August 2016.
Continue reading...Ancient birds' wings preserved in amber
UN climate chief urges Britain to remain a global warming leader
Christiana Figueres tells business leaders that Brexit vote is not an obstacle to continued cooperation between Britain and the EU on global warming
Britain must continue to be a world leader when it comes to acting on global warming despite the EU referendum result last week, the UN’s climate chief has urged.
Christiana Figueres warned that should article 50 be triggered it would bring uncertainty for two years but cooperation on climate change could be one area of continuity between the UK and EU.
Siemens freezes new UK wind power investment following Brexit vote
German energy firm will not make fresh plans until the UK’s European relationship becomes clearer, but existing manufacturing will not be affected
Siemens is putting new wind power investment plans in the UK on hold due to uncertainty caused by last week’s Brexit vote, the Germany energy company has told the Guardian.
A £310m manufacturing hub in Hull that employs 1,000 people will not be affected by the decision, and should still begin producing blades and assembling turbines next year.
Continue reading...Engie's Hazelwood super profits highlight our tangled web of energy policy
Has there ever been better times for our electricity utilities?
Sunday is typically pretty subdued in terms of electricity demand. Consequently Sunday market prices are at the low-end of the weekly range, even with the extra demands of a chilly winter day.
Since the beginning of 2008, the Sunday market price in Victoria averages about $23 per megawatt hour, factoring out the carbon tax component. That is about half the average weekday price of $43.
Victorian wholesale electricity pricing for Sundays from 2008 on. Note the extraordinary nature of Sunday 26th, 2016. Data from AEMO’s half hour price and demand datasets. Coloured solid lines show Sunday averages. Coloured dashed lines show the volume weighted price for working week-days. Black line shows Sunday 26th 2016. Colour distinguishes carbon pricing (blue) and non carbon pricing (red) intervals. Data sourced from AEMO.Sunday prices do vary across the year rising slightly in the winter months. Between 2008 and 2015, June Sunday prices have averaged about $31 with a high of $50 on Sunday June 1, 2008.
So what can we make of the last Sunday (26th June 2016), when the volume averaged price in Victoria was a staggering $120, almost four times the average?
It’s not a once off, as the Victorian price for every Sunday this last June has topped $75 - more than 50 per cent higher than any previous June Sunday in the last 8 years.
And Victoria isn’t alone. Right across the National Electricity Market (or NEM), prices have been stratospheric. Last Sunday, South Australia topped the class at $158, closely followed by New South Wales at $133.
As pointed out in my post a week ago, in historical terms these prices are simply staggering, and it’s not very obvious why.
If these prices remain, they will have widespread consequences. So it is important to get to grips with what is going on.
Last Sunday was Melbourne’s coldest morning of the year, with several coldest-day records set across Victoria. So we might expect some extra heating was stretching the power system, helping drive up prices.
However, while the Victorian demand was higher than average for a Sunday, it was about 10 per cent lower than the Victorian average weekday demand. So we really can’t pin Sunday’s extreme prices on unusual demand. Moreover, last Sunday net Victorian exports amounted to about 15 per cent of its electricity production (see note 1). So there was no shortage of supply to meet local demand.
Victorian average Sunday electricity demand in megawatts, from 2008 on. Note while last Sunday (June 26 2016) demand was above the Sunday average, it was substantially lower than the weekday average. Coloured solid lines show Sunday averages. Coloured dashed lines show weekday averages. Black line shows Sunday 26th 2016. Colour fills distinguish carbon pricing (blue) and non carbon pricing (red) intervals. Data from AEMO’s half hour price and demand datasets.
Why are prices so high?Rather than originating locally, the reasons for the strange pricing events on Sunday morning in Victoria, seem to reside elsewhere on the NEM. They point to the emerging issue of the inter-regional coupling, the tangle of energy policies across the NEM and other energy sectors, and the power of industry incumbents.
In comparison to Victoria, Queensland demand last Sunday morning was significantly above expectation, slightly exceeding even the weekday demand average. Demand has been growing strongly in Queensland, partly because of the commissioning of its gas export processing plants. Still, at not much more than the weekday average, it is hard to understand why last Sunday’s demand in Queensland would be sufficient to drive prices to $115. At the time coal generation was running at around 75 per cent capacity.
Queensland average Sunday electricity demand (grid-based) in megawatts, since the beginning of 2008. Data from AEMO’s half hour price and demand datasets. Coloured solid lines show medians for this period. Colours dashed lines show the average for all times of the week. Black line shows Sunday 26th 2016. Colour distinguishes carbon pricing and non-carbon pricing days. Queensland wholesale Sunday pricing since the beginning of 2008. Data from AEMO’s half hour price and demand datasets. Coloured solid lines show medians for this period. Colours dashed lines show the volume weighted price for all times of the week. Black line shows the morning of Sunday 26th 2016. Colour distinguishes carbon pricing and non carbon pricing days.As with Queensland, New South Wales demand was close to the highest recorded for a Sunday. But while New South Wales was importing furiously, paying what would seem to be over the odds prices, its coal generators were only running at 68 per cent capacity. Why?
In South Australia demand was not exceptional in terms of recent history, but the recent closure of Northern coal-fired power plant has significantly tightened supply settings there and made it more sensitive to the cost of marginal gas generators. Meanwhile its cleanest, most efficient, and one of its largest gas generators, Pelican Point, sits idle. Why?
Sunday was not only cold in South Australia, but it was also not very windy. As a consequence output from wind generation averaged only about 25 per cent of installed capacity. With only modest wind output, and with no coal, South Australia generation was dominated by gas, with consumption augmented by Victorian imports.
South Australian dispatch in megawatts for Sunday 26th 2016, showing the dominant role played by gas generators. In addition to local generation, imports from Victoria averaged around 300 megawatts over the day (see note 1).The important point is that, for whatever reason, prices are being signalled right across the NEM, from Queensland and South Australia through to Tasmania.
This price signalling is having some paradoxical effects. Just last week, the Office of the Tasmanian Economic Regulator approved an increase in retail prices of 3.43 per cent, effective this Saturday, on the back of the high market prices in Victoria. The surprise is that Tasmania has just emerged from its own energy crisis with recent rains together with the re-connection of Basslink allowing exports for the first time in almost 10 months. Just as supply constraints relaxed for the time being and security restored though Basslink, long-suffering Tasmanian consumers are the first to be hit with price-hikes.
And in Victoria, where prices are responding to distant drivers, brown coal generators must be laughing at their good fortune.
Hazelwood’s super-profitsAcross the last 4 weeks, prices in Victoria have averaged $98 per megawatt hour when weighted by volume. In Victorian market terms the total value of dispatch was worth about $370 million. That is almost three times higher than the equivalent period last year, when prices averaged $35.
Victorian price by 5-minute intervals, for the last 4 weeks. red line shown the average prices weighted by volume. Note how regularly 5-minute prices have risen to $300 per megawatt hour as indicated by the dashed line. As with the above figure, for the equivalent period in 2015.It is boom times for the owners of Victoria’s brown coal stations, like the French energy utility Engie that operates the Hazelwood power station.
In Victorian market terms, the value of Hazelwood’s dispatch over the last 4 weeks is around $70 million.
Total value of Hazelwood dispatch in terms of Victorian market prices, for the 4 week period from May 29 - June 25. Carbon tax contribution calculated using emissions intensity of 1.56 tonnes CO2 per megawatt hour. Costs of $2.50 per megawatt hour are from AEMO estimates(http://www.aemo.com.au/Electricity/Planning/Related-Information/Planning-Assumptions).
That compares with the market value of $17 million in June last year, and around $10 million in June 2014 when the carbon tax liability is factored out.
On an annualised basis, Hazelwood’s latest returns amount to around $900 million, a truly phenomenal turn-around from 2013 when the Commonwealth Bank valued its 8.3 per cent stake at just $1 million, before selling for an undisclosed sum (see note 2).
Hazelwood is Australia’s most contentious power station - a proverbial lightning rod for the debate about our energy system. As Victoria’s oldest, most emission intensive coal fired power station it has been plagued by community concern. At around 1.56 tonnes per megawatt hour it produces about three times the CO2 of a modern gas plant such as the super efficient combined cycle Pelican Point gas plant in South Australia,Engie’s other main asset in Australia. Already it is some 10 years over its use by date.
But, in terms of its balance sheet, Hazelwood has probably never had such good times as the last few months. Meanwhile Engie reportedly disputes liability for the $18 million costs incurred by the Country Fire Authority for fighting a month long fire in Hazelwood’s mine in early 2014.
While Engie enjoys remarkable “super-profits” from Hazelwood, should we ask at what cost. With Victorian electricity exports to South Australia and New South Wales averaging around 1000 megawatts, Hazelwood arguably exists to underwrite those exports (see note 1). Meanwhile Engie’s Pelican Point Power Plant in South Australia sits idle, its gas contracts reputedly on sold presumably to the export market. If Engie were to fire up Pelican Point, it would reduce our national emissions by several million tonnes each year, and arguably put downward pressures on South Australian prices that would then be signalled across the country.
But perhaps that is exactly why. Oh what a tangled web our national energy policy is.
The headache for next SundayI doubt next Sunday, on the morning after the federal election, many will be watching the electricity prices. But some will, hoping the electricity market magically returns some normality. After all, it will not just be the first day of the new government, it is also the start of a new financial year.
Could it be that the current market prices are being manipulated by our electricity oligarchs to improve their bottom lines before the end of the financial year? Or will the high prices persist, reflective a fundamental shift in market dynamics, as the various threads of national energy policy tangle more tightly.
Surely we can understand that it is just not right to let the market dynamics encourage the likes of Engie to operate in Australia as if there is no tomorrow, rewarding it handsomely to dump some 15 million tonnes of CO2 into our atmosphere each year leaving Pelican Point idle. Would Engie be given license to do that in France. I doubt so, so why here?
But it is not so much Engie that is the problem, or any other player, as it is the whole tangled web of our national energy policy that is tightening at each turn. Either way, next Sunday will present the new government with the massive headache of untangling this web. We are in desperate need of a bipartisan approach with a sharp focus on how we rebuild our energy system fit for the challenges ahead, adding environmental concerns as an equal to the existing priorities of security and affordability. After all, last Sunday highlights that our existing energy system is not looking particularly affordable. And, like Hazelwood, much of it is beyond its use-by-date, so probably it is not that secure. And for sure it is an environmental disaster.
Notes[1] The exceptional electricity pricing on Sunday 26th June 2016 is illustrated by the morning period between 8am and 9 am. Electricity consumption (TOT.DEMAND), production (DISPATCH.GEN), interchanges (NETINTERCHANGE) and prices (VWP) by the NEM regions. NETINTERCHANGE are +ve for export. Flows between the regions are coloured by the exporting region, and labelled by INTERCONNECTOR. Note that Victoria was exporting over 1160 megawatts, 380 megawatts to South Australian and 880 megawatts to New South Wales. In turn Victoria was importing 200 megawatts from Tasmania. The difference is essentially equivalent to the output of Hazelwood.
[2] Hazelwood Power Station was purchased by a consortium led by International Power in 1996 for $2.35 billion, before merging with GDF Suez, now Engie. In 2010, CBA revealed had written down its 8 per cent share to $1 million “The Hazelwood power station probably wasn’t the best investment the bank made,” CBA chairman David Turner said at the time. CBA sold that share to GDF Suez for an undisclosed amount in 2013.
DisclosureMike Sandiford receives funding from the Australian Research Council for geological research.
Can virtual reality emerge as a tool for conservation?
New advances in technology are sparking efforts to use virtual reality to help people gain a deeper appreciation of environmental challenges, reports Yale environment 360
Could virtual reality (VR) — immersive digital experiences that mimic reality — save the environment?
Well, that may be a bit of a stretch. But researchers say that it could perhaps promote better understanding of nature and give people empathetic insight into environmental challenges.
Continue reading...