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Geologists search for Anthropocene 'golden spike'
South Africa’s traditional fishers buoyed by data-logging app
Small-scale fishers hope technology will convince ministers that there are enough stocks to feed communities sustainably
A smartphone app that logs data on fish catches is giving small-scale fishers in South Africa hope they can persuade the government to allocate them more of what they regard as their traditional fishing rights.
Abalobi, the app which is named for the isiXhosa phrase abalobi bentlanzi, meaning “someone who fishes”, aims to give small-scale fishers the data to empower themselves and convince others.
Continue reading...Victoria to ban fracking and CSG
An official welcome to the Anthropocene epoch – but who gets to decide it's here?
It’s literally epoch-defining news. A group of experts tasked with considering the question of whether we have officially entered the Anthropocene – the geological age characterised by humans' influence on the planet – has delivered its answer: yes.
The British-led Working Group on the Anthropocene (WGA) told a geology conference in Cape Town that, in its considered opinion, the Anthropocene epoch began in 1950 – the start of the era of nuclear bomb tests, disposable plastics and the human population boom.
The Anthropocene has fast become an academic buzzword and has achieved a degree of public visibility in recent years. But the more the term is used, the more confusion reigns, at least for those not versed in the niceties of the underpinning science.
Roughly translated, the Anthropocene means the “age of humans”. Geologists examine layers of rock called “strata”, which tell a story of changes to the functioning of Earth’s surface and near-surface processes, be these oceanic, biological, terrestrial, riverine, atmospheric, tectonic or chemical.
When geologists identify boundaries between layers that appear to be global, those boundaries become candidates for formal recognition by the International Commission on Stratigraphy (ICS). The commission produces the International Chronostratigraphic Chart, which delimits verified changes during the planet’s 4.5 billion-year evolution.
Earth’s history, spiralling towards the present. USGS/Wikimedia CommonsThe chart features a hierarchy of terms like “system” and “stage”; generally, the suffix “-cene” refers to a geologically brief stretch of time and sits at the bottom of the hierarchy. We have spent the past 11,500 years or so living in the so-called Holocene epoch, the interglacial period during which Homo sapiens has flourished.
If the Holocene has now truly given way to the Anthropocene, it’s because a single species – us – has significantly altered the character of the entire hydrosphere, cryosphere, biosphere, lithosphere and atmosphere.
The end of an era?Making this call is not straightforward, because the Anthropocene proposition is being investigated in different areas of science, using different methods and criteria for assessing the evidence. Despite its geological ring, the term Anthropocene was coined not by a geologist, but by the Nobel Prize-winning atmospheric chemist Paul Crutzen in 2000.
He and his colleagues in the International Geosphere-Biosphere Program have amassed considerable evidence about changes to everything from nutrient cycles to ocean acidity to levels of biodiversity across the planet.
Comparing these changes to those occurring during the Holocene, they concluded that we humans have made an indelible mark on our one and only home. We have altered the Earth system qualitatively, in ways that call into question our very survival over the coming few centuries.
Crutzen’s group talks of the post-1950 period as the “Great Acceleration”, when a range of factors – from human population numbers, to disposable plastics, to nitrogen fertiliser – began to increase exponentially. But their benchmark for identifying this as a significant change has nothing to do with geological stratigraphy. Instead, they ask whether the present period is qualitatively different to the situation during the Holocene.
Rocking outMeanwhile, a small group of geologists has been investigating the stratigraphic evidence for the Anthropocene. A few years ago a subcommission of the ICS set up the Anthropocene working group, which has now suggested that human activity has left an indelible mark on the stratigraphic record.
The major problem with this approach is that any signal is not yet captured in rock. Humans have not been around long enough for any planet-wide impacts to be evident in Earth’s geology itself. This means that any evidence for a Holocene-Anthropocene boundary would necessarily be found in less permanent media like ice sheets, soil layers or ocean sediments.
The ICS has always considered evidence for boundaries that pertain to the past, usually the deep past. The WGA is thus working against convention by looking for present-day stratigraphic markers that might demonstrate humans’ planetary impact. Only in thousands of years' time might future geologists (if there are any) confirm that these markers are geologically significant.
In the meantime, the group must be content to identify specific calendar years when significant human impacts have been evident. For example, one is 1945, when the Trinity atomic device was detonated in New Mexico. This and subsequent bomb tests have left global markers of radioactivity that ought still to be evident in 10,000 years.
Alternatively, geographers Simon Lewis and Mark Maslin have suggested that 1610 might be a better candidate for a crucial human-induced step change. That was the year when atmospheric carbon dioxide dipped markedly, suggesting a human fingerprint linked to the New World colonists' impact on indigenous American agriculture, although this idea is contested.
Decision timeThe fact that the WGA has picked a more recent date, 1950, suggests that it agrees with the idea of defining the Great Acceleration of the latter half of the 20th century as the moment we stepped into the Anthropocene.
It’s not a decision that is taken lightly. The ICS is extremely scrupulous about amending the International Chronostratigraphic Chart. The WGA’s suggestion will face a rigorous evaluation before it can be scientifically accepted by the commission. It may be many years before it is formally ratified.
Elsewhere, the term is fast becoming a widely used description of how people now relate to our planet, rather like the Iron Age or the Renaissance. These words describe real changes in history and enjoy widespread use in academia and beyond, without the need for rigorously defined “boundary markers” to delimit them from prior periods.
Does any of this really matter? Should we care that the jury is still out in geology, while other scientists feel confident that humans are altering the entire Earth system?
Writing on The Conversation, geologist James Scourse suggests not. He feels that the geological debate is “manufactured” and that humans' impact on Earth is sufficiently well recognised that we have no need of a new term to describe it.
Clearly, many scientists beg to differ. A key reason, arguably, is the failure of virtually every society on the planet to acknowledge the sheer magnitude of the human impact on Earth. Only last year did we finally negotiate a truly global treaty to confront climate change.
In this light, the Anthropocene allows scientists to assemble a set of large-scale human impacts under one graphic conceptual banner. Its scientific status therefore matters a great deal if people worldwide are at long last to wake up to the environmental effects of their collective actions.
Gaining tractionBut the scientific credibility of the Anthropocene proposition is likely to be called into question the more that scientists use the term informally or otherwise. Here the recent history of climate science in the public domain is instructive.
Even more than the concept of global warming, the Anthropocene is provocative because it implies that our current way of life, especially in wealthy parts of the world, is utterly unsustainable. Large companies who make profits from environmental despoliation – oil multinationals, chemical companies, car makers and countless others – have much to lose if the concept becomes linked with political agendas devoted to things like degrowth and decarbonisation. When one considers the organised attacks on climate science in the United States and elsewhere, it seems likely that Anthropocene science will be challenged on ostensibly scientific grounds by non-scientists who dislike its implications.
Sadly, such attacks are likely to succeed. In geology, the AWG’s unconventional proclamation potentially leaves any ICS definition open to challenge. If accepted, it also means that all indicators of the Holocene would now have to be referred to as things of the past, despite evidence that the transition to a human-shaped world is not quite complete in some places.
Some climate contrarians still refuse to accept that researchers can truly distinguish a human signature in the climate. Similarly, scientists who address themselves to the Anthropocene will doubtless face questions about how much these changes to the planet are really beyond the range of natural variability.
If “Anthropocene sceptics” gain the same momentum as climate deniers have enjoyed, they will sow seeds of confusion into what ought to be a mature public debate about how humans can transform their relationship with the Earth. But we can resist this confusion by recognising that we don’t need the ICS’s imprimatur to appreciate that we are indeed waving goodbye to Earth as we have known it throughout human civilisation.
We can also recognise that Earth system science is not as precise as nuclear physics or geometry. This lack of precision does not mean that the Anthropocene is pure scientific speculation. It means that science knows enough to sound the alarm, without knowing all the details about the unfolding emergency.
The Anthropocene deserves to become part of our lexicon – a way we understand who we are, what we’re doing and what our responsibilities are as a species – so long as we remember that not all humans are equal contributors to our planetary maladies, with many being victims.
Noel Castree does not work for, consult, own shares in or receive funding from any company or organization that would benefit from this article, and has disclosed no relevant affiliations beyond the academic appointment above.
Timor-Leste takes Australia to the Hague over sea boundaries
India Ganges floods 'break previous records'
UK air quality shows little improvement over past 20 years, says study
Academics say planners are concentrating on reducing road deaths and promoting growth at expense of environment
There has been little improvement in air quality over the past 20 years as transport planners focus on preventing road deaths, according to a study.
Two university academics set out to try to understand why there has been little improvement in air pollution concentrations from road transport since the UK signed up to international air quality standards in 1995, as part of the Environment Act.
Continue reading...Cutting ARENA would devastate clean energy research
This week’s first sitting of the 45th Parliament of Australia is considering a A$6.5 billion “omnibus savings bill”, including a proposed cut of A$1.3 billion to the Australian Renewable Energy Agency (ARENA). If adopted, it would effectively mean the end of ARENA and would devastate clean energy research in Australia.
From driving innovation and economic growth, to creating jobs, to addressing climate change and ensuring a reliable and affordable energy system for the future, ARENA plays a critical role. Most perversely, by reducing Australia’s role in the booming global clean energy industry, closing ARENA would likely reduce Australia’s capacity to balance its budget in years to come.
What is ARENA?ARENA, an independent Commonwealth agency, has driven most of Australia’s innovative renewable energy projects in recent years. This includes Australia’s world-leading solar photovaltaics research centre at UNSW, the Carnegie wave energy pilot in Perth, AGL’s virtual power station trial and UTS’s own research into local electricity trading and network opportunity mapping.
ARENA has funded 60 completed projects and is managing a further 200. Many more are in the pipeline. It has also leveraged A$1.30 in private-sector R&D funding for every dollar of government funding – a fact that is often overlooked amid talk of budget savings.
Without ARENA’s grants and leveraged co-funding, very few of these projects would have happened. While its sister organisation, the Clean Energy Finance Corporation, plays an important role in helping to finance established renewable projects and technologies, only ARENA can provide the research grant co-funding to develop these technologies in the first place.
ARENA was formed in 2012 as part of the Gillard government’s Clean Energy Future package. It drew together a range of clean energy programs and funds such as the Solar Flagships, the Australian Solar Institute and some, such as the Low Emissions Technology Demonstration Fund, which the Howard government established. ARENA was given the twin goals of:
Improving the competitiveness of renewable energy technologies
Increasing the supply of renewable energy in Australia.
ARENA was one of five key elements of the Clean Energy Future package slated for abolition by the Abbott government. While the carbon price and Climate Commission were cut, ARENA, the CEFC and the Climate Change Authority were saved by opposition and crossbench support, albeit with a A$435 million cut to ARENA’s original budget.
Now, three years on, the Turnbull government has chosen to keep the CEFC but its plan to slash ARENA’s budget remains. The Labor opposition has yet to announce its position on the proposed cut. Meanwhile, clean energy researchers across Australia are calling on all parties to support the agency.
ARENA’s innovation roleThe process of energy technology innovation can be thought of as having a series of phases, which have different funding needs (see below).
The first phase is typically fundamental research and development. Two examples are the world-leading research programs at UNSW Australia and ANU, which have developed the world’s most efficient solar photovoltaic and solar thermal technologies. Both are ARENA-funded; neither could have been effectively funded by loans.
Technologies then need to be piloted in the real world – as in the case of the Carnegie Wave Energy project in Perth. This stage is often still too risky for most commercial lenders, so some public grant funding remains critical.
Next comes the large-scale demonstration phase – bringing technologies down the cost curve by developing viable business models and supply chains, with the aim of making them cost-competitive. Here, a mix of loan and grant funding is needed.
Australia’s large-scale solar industry is an example of a sector in this stage of development. In 2015, ARENA realised that despite having 1.5 million solar roofs and plenty of sunshine, Australia had a dearth of large-scale solar projects (only four operating and four in development). As such, it has committed A$100 million to help build more solar farms.
Finally, there are commercial renewable technologies that are already cost-competitive with other energy sources. Wind energy is the prime example of this, which is precisely why ARENA has not funded wind projects.
Our changing energy systemInnovation is not purely about technology development; it is also about addressing complex challenges such as how to manage the changing nature of our energy system. On a cents per kilowatt-hour basis, wind energy is now cheaper than new-build coal and solar power is cheaper than grid electricity. These two trends will continue, but our energy market is struggling to adapt to the new technology mix.
ARENA has a crucial role to play here. For example, it has funded the Institute of Sustainable Futures (ISF) at UTS to develop a set of Network Opportunity Maps. These show locations in the grid where demand management and decentralised generation (solar, storage etc) can help avoid costly grid upgrades.
ARENA has also funded ISF’s research into local energy trading (also known as peer-to-peer energy or virtual net metering). This is aimed at avoiding the predicted “energy death spiral”, by encouraging consumers and power companies to compromise in making the most of existing infrastructure, reducing consumers' bills and supporting local power generation.
Meeting our climate targetsFinally, and perhaps most importantly, ARENA is helping to meet Australia’s greenhouse gas emissions target, which calls for a 26-28% cut relative to 2005 levels by 2030.
The electricity sector is Australia’s largest carbon emissions source. ARENA has a vital role in delivering cost-effective emissions reductions. There are two main mechanisms to decarbonise the sector: increasing energy productivity and efficiency, and switching from fossil fuels to renewables. As outlined above, ARENA is a key player in the latter process and is primed to play a leading role in the former.
It would be a tragic error to cut funding to an agency that is making such an important and successful contribution to fulfilling Australia’s obligations under the Paris climate agreement, as well as driving innovation and energy affordability. No other agency combines all of these facets.
More renewable policy instability?In a 2010 speech on low-carbon energy, Prime Minister Malcolm Turnbull acknowledged the role of government in supporting clean energy innovation, saying:
Government support for innovation and investment in clean stationary energy is important, particularly at the early stages.
The need for this support is not going to go away. If ARENA and its research grant funding is abolished, a similar organisation will doubtless soon need to be re-established. In the meantime, millions of dollars in opportunities would have been wasted and irreplaceable industry and research expertise lost.
After years of policy instability around renewable energy, which has held back the domestic development of one of the world’s fastest-growing industries, do we really want to embrace even more uncertainty?
To paraphrase former Harvard University president Derek Bok, if you think research is expensive, try ignorance.
Nicky Ison is a Senior Research Consultant at the Institute for Sustainable Futures (ISF) at the University of Technology Sydney and a Founding Director of Community Power Agency. ISF undertakes paid sustainability research for a wide range of government, corporate and NGO clients. ISF has received several grants from ARENA which have helped to co-fund projects in clean energy research. Without ARENA co-funding, these projects would have been unlikely to proceed. For more information about these projects, please see: www.isf.uts.edu.au. Community Power Agency is a not-for-profit organisation working to grow a vibrant community energy sector. Community Power Agency is in regular contact with ARENA about how to best support the emerging Australian community energy sector.
Chris Dunstan is a Research Director at the Institute for Sustainable Futures (ISF) at the University of Technology Sydney. ISF undertakes paid sustainability research for a wide range of government, corporate and NGO clients. ISF has received several grants from ARENA which have helped to co-fund projects in clean energy research. Without ARENA co-funding, these projects would have been unlikely to proceed. For more information about these projects, please see: www.isf.uts.edu.au
Beneath the lily leaf hides a tiny water snail
Rutland Water, Rutland Ram’s-horns are very successful animals and are found in just about every permanent still water body in the UK
Secluded by sallow bushes and clumps of great willow herb is a small pond. In the natural surroundings it looks a little contrived, being a raised wooden structure, bench height and pentagonal. Nevertheless it provides a quiet haven after a day of solid talking at the British bird fair.
The heavy warm air is now cooling and the clouds darkening. With casual curiosity I lift a white water-lily leaf the size of a dinner plate from the pond surface and peer underneath. Adhering to the underside, looking like a dark brown shirt button, is a tight coil of a ram’s-horn snail.
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