DYI biohacking rears its ugly head in Australia?

Gene Ethics, 8 September 2016:

DIY biohack threat

US biohacker Ellen Jorgensen, of Genspace New York, toured Australia in Science Week to promote DIY gene hacking, in informal labs, and to encourage untrained nerds to do genetic manipulation. The OGTR promised to tell her audiences that Australian GM laws require training, contained labs and expert supervision, but did not. The OGTR has also failed to define new 'gene editing' techniques and their products as GM, so they remain unregulated. We advocate tough laws banning any DIY genetic manipulation of living things. Humans invented computer programs but they fail, are hacked and virus infected for fun. Untrained, risk-takers, aspiring to be the next bio-Gates or Jobs, must be stopped.

University of Sydney, Faculty of Science:

Biohacking events at Sydney Science Festival

Get down with DNA
10 am, Thursday 18 August, Royal Botanic Garden Sydney
Stage 6 biology students and their teachers will meet Dr Ellen Jorgensen and spend the day exploring exciting DIY bio techniques and the amazing things biohackers do. The DIY bio movement gives bio-entrepreneurs low-cost access to facilities for proof-of-concept experiments. Hands-on science workshops will be delivered by Sydney’s leading science organisations including the Royal Botanic Garden, Taronga Conservation Society, UTS Centre for Forensic Science and the Australian Centre for Wildlife Genomics. Students will also experience a behind the scenes tour of the Royal Botanic Garden’s Plant Pathology laboratory to look at gel electrophoresis, a DNA transilluminator and participate in an interactive demonstration of plant DNA extraction.

The Global Biohack Revolution
6pm, Thursday 18 August, ATP innovations
Meet the biohackers from Australia and around the world who are leading the global biotechnology revolution! This all-star panel of biohackers will discuss the challenges and opportunities in democratisation of science through biohacking with a focus on education and the commercialisation of research. Dr Ellen Jorgensen will be joined by JJ Hastings (BioQuisitive, London Biohackspace), Meow-Meow Ludo (Biohack Sydney, BioFoundry), Andrew Gray (Biohack Melbourne, BioQuisitive) and Oron Catts (SymbioticA Perth).

DNA groundswell
10 am, Friday 19 August, Royal Botanic Garden Sydney
This session is an opportunity for science communicators and scientists across Sydney to think about how they can incorporate exciting open access programs into their work. Learn how Genspace uses biohacking to engage the community through courses, cultural events, educational outreach and experiences for students and the public. Meet the people behind BioFoundry, Australia’s first open access lab that also runs courses for enthusiasts and curious amateurs. Discover how biohacking is democratising science around the world by lowering the financial and technological entry barriers to science education and research training. International guests Dr Ellen Jorgensen will be joined by local biohacker Meow-Ludo Meow-Meow, Co-founder of Sydney's BioFoundry.

Biohacking: why should we care?
6 pm, Friday 19 August, University of Technology Sydney
How is biohacking changing the world? Should we be concerned about safety? Can DIY labs ferment a revolution? What are the opportunities? Can they create a culture of start-ups and entrepreneurs? In this public lecture, Dr Ellen Jorgensen will provide insights into biohacking, novel applications it has produced and how it can serve as a useful education tool. This will be followed by a panel discussion featuring Dr Sheila Donnelly, Prof Peter Ralph and Prof Michael Wallach from the University of Technology Sydney (UTS).

Jackie Randles is Manager Inspiring Australia (NSW). Dr Ellen Jorgensen’s Sydney visit is part of a national tour supported by Inspiring Australia for National Science Week 2016.

Inverse, 8 September 2015:

Biological research and experimentation is no longer the sole realm of Ph.D-having, grant-backed, hypothesis-wielding scientists. As science moves into more and more complex territory, it is also — somewhat paradoxically — becoming more and more accessible to those who lack the bonafide to wear a white coat. In Australia, Biofoundry is at the heart of the movement to democratize experimentation. Biohacker Meow-Ludo Meow-Meow (his real name; an homage to the 2001 cult classic Super Troopers) founded the lab, the first of its kind on the continent, last November. And he says he’s thinking about building a chain

Inverse caught up with Biofoundry’s Meow-Ludo Meow-Meow (his real name; an homage to the 2001 cult classic Super Troopers) and picked his brain about what the lab is up to and what it hopes to achieve.

How did you get interested in biohacking and creating a place like Biofoundry?

I was halfway through my molecular biology degree. My job prospects weren’t very good. In Australia, we pretty much have no innovation and technology work. Basically, molecular biology graduates are fucked in this country. In New South Wales, which has about 6 million people, we only have about 12 jobs for biotech.

So I started to get concerned, because I wasn’t a grade-A student or anything. I looked around, and I found BioCurious [in California] and Genspace [in New York City]. But in Australia, nothing like this was happening. So I figured it was on the burden of me to get things happening.

I had a meeting with a group of people about 4.5 years ago. We had a huge group that shrunk down to about 12, and we continued to meet for four years. That culminated in a few of us just saying, “Fuck, let’s set up a lab. It’s been too long, let’s make this happen.”

NOAA/NASA reports leave Australian Communications and Media Authority with egg on its face

This is the National Oceanic and Atmospheric Administration (NOAA) and NASA’s Goddard Institute for Space Studies’ Annual Global Analysis for 2014: 2014 was Warmest Year on Record, published January 2015:

Global Highlights

The year 2014 was the warmest year across global land and ocean surfaces since records began in 1880.* The annually-averaged temperature was 0.69°C (1.24°F) above the 20th century average of 13.9°C (57.0°F), easily breaking the previous records of 2005 and 2010 by 0.04°C (0.07°F). This also marks the 38th consecutive year (since 1977) that the yearly global temperature was above average. Including 2014, 9 of the 10 warmest years in the 135-year period of record have occurred in the 21st century. 1998 currently ranks as the fourth warmest year on record.

The 2014 global average ocean temperature was also record high, at 0.57°C (1.03°F) above the 20th century average of 16.1°C (60.9°F), breaking the previous records of 1998 and 2003 by 0.05°C (0.09°F). Notably, ENSO-neutral conditions were present during all of 2014.

The 2014 global average land surface temperature was 1.00°C (1.80°F) above the 20th century average of 8.5°C (47.3°F), the fourth highest annual value on record….

In January 2016 the following year National Oceanic and Atmospheric Administration (NOAA) and NASA’s Goddard Institute for Space Studies published Annual Global Analysis for 2015: 2015 was by far the warmest year in the record:

Earth’s 2015 surface temperatures were the warmest since modern record keeping began in 1880, according to independent analyses by NASA and the National Oceanic and Atmospheric Administration (NOAA).

Globally-averaged temperatures in 2015 shattered the previous mark set in 2014 by 0.23 degrees Fahrenheit (0.13 Celsius).* Only once before, in 1998, has the new record been greater than the old record by this much.

The 2015 temperatures continue a long-term warming trend, according to analyses by scientists at NASA’s Goddard Institute for Space Studies (GISS) in New York (GISTEMP). NOAA scientists concur with the finding that 2015 was the warmest year on record based on separate, independent analyses of the data. Because weather station locations and measurements change over time, there is some uncertainty in the individual values in the GISTEMP index. Taking this into account, NASA analysis estimates 2015 was the warmest year with 94 percent certainty…..

While this was the Australian Communications and Media Authority (ACMA) ruling in Investigation report no. BI-185 on 8 July 2016:

In April 2016, the Australian Communications and Media Authority (the ACMA) commenced an investigation under section 170 of the Broadcasting Services Act 1992 (the BSA) into a segment on The Bolt Report broadcast on Southern Cross Ten by Southern Cross Communications Pty Limited (the licensee) on 8 November 2015.

The ACMA received a complaint alleging that a statement about the interpretation of a graph broadcast during a segment on global warming was inaccurate and misleading.

The ACMA has investigated the licensee’s compliance against clause 4.3.1 of the Commercial Television Industry Code of Practice 2010 (the Code)…..

Despite some contestability about this issue[1], Mr Bolt’s specific comment about there being no real warming of the atmosphere over the last 18 years is consistent with the surface air temperature records for this period referred to in the 2013 IPCC report and by Remote Sensing Systems*…..

Current affairs programs such as The Bolt Report are not precluded from taking a position on any matter and are not required to be balanced or to include all information about a particular issue.

It was clear from the excerpts of the comments of environmentalists, scientists and political leaders in the segment that Mr Bolt’s opinions were contentious and the evidence provided to support his views was selective. However, of itself, the factual material was accurate.*

The ACMA therefore finds that, in the context of the segment in its entirety, Mr Bolt’s statement about there being no real warming of the atmosphere over the last 18 years, and the graph used to support that statement, comply with the code.

Accordingly, the licensee did not breach clause 4.3.1 of the Code. 

* My red bolding

---

[1] http://www.noaanews.noaa.gov/stories2015/noaa-analysis-journal-science-no-slowdown-in-global-warming-in-recent-years.html accessed 27 June 2016.

Australia faces an era of mass extinctions

For decades international scientists have been warning Australia that this island continent would feel the worst environmental impacts of global warming first.

And for just as many decades (with the exception of the years between 2007 and 2013), as both governments and the governed, this country has been ignoring these warnings.

The end result is that Australia now lists 83 species of higher plants, 23 mammal species, 22 species of birds and at least 4 frogs species as having been driven into extinction since 1788. 

There are many hundreds more threatened species and ecological communities. See: C'wealth EPBC Act List of Threatened Fauna.

While we as a nation and people have not yet achieved 100 per cent extinction in certain flora and fauna groups, climate change has arrived to assist in turning this unique landmass and its coastal waters into a barren wasteland. 

This year alone has seen 93 per cent of The Great Barrier Reef experience coral bleaching and 700 kilometres of the Gulf of Carpentaria suffer widespread mangrove dieback with saltmash loss, while the Great Southern Reef lost 100 kms of its giant kelp forests in 2011 leading to the functional extinction of 370sq km of rocky cool-climate reefs, extending down the coast from Kalbarri, about 570km north of Perth, Western Australia. 

Now reputable institutions and senior scientists are giving us another urgent warning about extinctions to come if Australia doesn't stop acting as if the natural environment hasn't changed for the worse in the last 200 years.

SCIENTISTS’DECLARATION: ACCELERATING FOREST, WOODLAND AND GRASSLAND DESTRUCTION IN AUSTRALIA

Australia’s land clearing rate is once again among the highest in the world.

Remaining forests and woodlands are critical for much of our wildlife, for the health and productivity of our lands and waters, and for the character of our nation. Beginning in the 1990s, governments gradually increased protection of these remaining forests and woodlands.

However, those laws are now being wound back.

The State of Queensland has suffered the greatest loss of forests and woodlands. But while stronger laws by the mid-2000s achieved dramatic reductions of forest and woodland loss, recent weakening of laws reversed the trend. Loss of rtinture forest has more than trebled since 2009. In Victoria, home to four of Australia’s five most heavily cleared bioregions, land clearing controls were weakened in 2013, and in New South Wales, proposed biodiversity laws provide increased opportunities for habitat destruction.

Of the eleven world regions highlighted as global deforestation fronts, eastern Australia is the only one in a developed country. This problem threatens much of Australia’s extraordinary biodiversity and, if not redressed, will blight the environmental legacy we leave future generations.

Australia’s wildlife at risk

Already, Australia’s environment has suffered substantial damage from clearing of forests, woodlands and grasslands, including serious declines in woodland birds and reptiles.  Vast numbers of animals are killed by forest and woodland destruction. For example, between 1998 and 2005 an estimated 100 million native birds, reptiles and mammals were killed because of destruction of their habitat in NSW; in Queensland, the estimate was 100 million native animals dying each year between 1997 and 1999. As land clearing once again escalates, so too will these losses of wildlife.

The loss of habitat is among the greatest of threats to Australia’s unique threatened species, imperiling 60% of Australia’s more than 1,700 threatened species. Habitat protection is essential for preventing more species from becoming threatened in the future, adding to our burgeoning threatened species lists. Habitat removal eliminates the plants and animals that lived in it; increases risks to wildlife from introduced predators; impacts surface and groundwater-dependent ecosystems, and fragments habitat so that individuals are unable to move through the landscape. It also reduces the ability of species to move in response to climate change.

The societal costs of forest and woodland destruction

Forest and woodland destruction also causes long-term costs to farmers, governments and society. Removal of native vegetation:

·         Hastens erosion and reduces fertility of Australia’s ancient and fragile soils 

·         Increases the risk of soils becoming saline 

·         Exacerbates drought 

·         Reduces numbers of native pollinators and many wildlife species (such as woodland birds and insectivorous bats) that control agricultural pests 

·         Reduces shade for livestock from heat and wind.

Continued and increasing removal of forests, woodlands and grasslands increases the cost of restoring landscapes and reduces the chance of success. For example, the Australian Government has committed to plant 20 million trees by 2020. Yet many more than 20 million trees are cleared every year in Queensland alone.

Forest and woodland destruction increases the threat to some of Australia’s most iconic environmental assets. Coral health on The Great Barrier Reef has declined precipitously from the effects of high temperatures associated with climate change, poor water quality, and the flow-on impacts it triggers (such as crown-of-thorns outbreaks). Native vegetation removal from catchments that flow into the Great Barrier Reef liberates topsoil and contaminants, reducing water quality and threatening the health and resilience of the Great Barrier Reef. Governments have already spent hundreds of millions of dollars on this problem, with estimates of the full cost of restoring water quality as high as AUD$10 billion.

Native vegetation is a major carbon sink. Forest and woodland destruction is the fastest-growing contributor to Australia’s carbon emissions, as it transfers the carbon that was stored in the vegetation to the atmosphere. Hence, Australia’s increasing forest and woodland destruction threatens its ability to meet its commitments under four major international treaties: the Convention on Biological Diversity, the World Heritage Convention, the Convention to Combat Desertification, and the Framework Convention on Climate Change.

Urgently-needed solutions

·         Develop and implement a strategy to end net loss of native vegetation, and restore over-cleared landscapes

·         Recognise all biodiversity, not just threatened species, in policy and legislation for the management of native vegetation

·         Establish clear, transparent and repeatable national reporting of clearing of native vegetation

·         Use rigorous biodiversity assessment methods for assessing clearing requests, accounting for all potential impacts, including cumulative and indirect impacts

·         Identify habitats that are of high conservation value for complete protection

·         For unavoidable losses of native vegetation, require robust and transparent offsets that meet the highest standards and improve biodiversity outcomes

Thirteen years ago, scientists from across the world expressed their grave concern about ongoing high rates of land forest and woodland destruction in the Australian State of Queensland. For a while, the warning was heeded, and the Queensland state government acted to bring land clearing to historically low levels.

The progress made then is now being undone. Forest and woodland destruction has resumed at increasingly high rates. This return of large-scale deforestation to Australia risks further irreversible environmental consequences of international significance.

Today, scientists from across the world (including those listed), in conjunction with scientific societies and the delegates of the Society for Conservation Biology (Oceania) Conference, call upon Australian governments and parliaments, especially those of Queensland and New South Wales, to take action. We call for the prevention of a return to the damaging past of high rates of woodland and forest destruction, in order to protect the unique biodiversity and marine environments of which Australia is sole custodian.

Signatories

Scientific Societies

·         The Society for Conservation Biology Oceania

·         The Ecological Society of Australia

·         The Royal Zoological Society of New South Wales

·         The Australian Wildlife Management Society

And 200 senior scientists from Australia, New Zealand, Papua New Guinea, Solomon Islands, Fiji, Malaysia, Sweden, Denmark, United Kingdom, and United States of America whose names can be found here.

8 July 2016

Australian Federal Election 2016: another one for the FFS! file

An article in the Brisbane Times on 8 March 2016 clearly indicates that climate change denying right-wing nutters still rule the Liberal Party of Australia and they want to spend the Turnbull Government to spend taxpayer dollars chasing their delusions:

The NSW Liberals have formally called on the Turnbull government to conduct public debates about climate change - including whether the science is settled - in a stark reminder of the deep divisions within the party over the issue.

A motion passed at the party's state council calls on the government to "arrange and hold public debates/discussions" between scientists from the Intergovernmental Panel on Climate Change and "independent climate scientists".

The motion says the events should cover "the global warming/climate change debate"; "the claims by the IPCC"; and the statement "is all the science settled".

It proposes the first debate be held in Sydney, the second in Melbourne and "the others to take place one in each state".

Fairfax Media understands the motion passed with support of more than 70 per cent of delegates at the state council meeting held on the Central Coast last weekend.

A second motion called on the Turnbull government to hold an inquiry into Australia's engagement with the United Nations on climate change and report back to the party by mid-year.

But an amendment by NSW MLC Catherine Cusack, supported by left faction powerbroker Michael Photios, ensured the motion was sent off to the party's platform committee for consideration at a later stage.

The motions - which were debated after Prime Minister Malcolm Turnbull had left the room following his speech - reveal the level of climate change scepticism among the Liberal base in NSW.……

An examination by Dr. Sophie Lewis of Tony Abbott's climate change denialism first as a shadow minister, then as Opposition Leader and finally (albeit briefly) as Prime Minister

In addition to showing that the perception-based understanding of climate change and extremes adopted by Abbott (i.e., the Natural Variability Concept) is not fully consistent with the observed time series, I also show that it cannot be internally consistent….

It should however, be noted, that I have taken a subset of representative quotes by Prime Minister Abbott to constitute a simplified mental model of climate change, and Mr Abbott has provided many opinions of the physical science behind climate change in addition to the small selection of quotes used here.

[Lewis, S.C., Can public perceptions of Australian climate extremes be reconciled with the statistics of climate change? Weather and Climate Extremes (2015), http://dx.doi.org/10.1016/j.wace.2015.11.008i]

Some of the Abbott quotes discussed at length in the study and set out briefly here:

* During the record-breaking spring temperatures in Australia in 2013, Abbott said, "… the thing is that at some point in the future, every record will be broken, but that doesn't prove anything about climate change. It just proves that the longer the period of time, the more possibility of extreme events". Other public comments by Prime Minister Abbott about climate change and variability include that the argument behind human-caused climate change is "absolute crap", that "there doesn't appear to have been any appreciable warming since the late 1990s" and that the link between climate change and extreme Australian climate events is "complete hogwash" (Readfearn, 2014). 

Former Prime Minister Abbott's understandings of climate change and variability are not unique. Rather, these provide an encapsulation of a widely held view that the longer the period of time under consideration, the greater the possibility of extreme events. Abbott's comments are selected here for exploration as they demonstrate a widespread mental model of understanding and are capable of being highly influential. These personal understandings of climate change arise from several causes. First, the manifestation of climate change in weather and climate is typically poorly understood (Trenberth, 2011). In general, people have difficulty perceiving changes in the physicals climate system above the natural variability of local climate (Myers et al., 2012)…..

* On October 30 2013, Prime Minister Abbott stated, "… the thing is that at some point in the future, every record will be broken, but that doesn′t prove anything about climate change. It just proves that the longer the period of time, the more possibility of extreme events". 

A statistical interpretation of this statement is that the sequence of observed temperatures fails to satisfy the assumption of being identically distributed and independent. If the assumption of IID were the case, then the "possibility" of an extreme would be less likely in 2013, and in 2014, than in the early part of the observed sequence…..

* In October 2009 Prime Minister Abbott stated that the argument behind human-caused climate change was "absolute crap." Later in December 2009, Abbott stated that "there doesn't appear to have been any appreciable warming since the late 1990s" and in July 2007 that "there may even have been a slight decrease in global temperatures (the measurement data differs on this point) over the past decade". 

That is, in these statements Abbott rejected that an increasing trend in temperatures has occurred in the sequence of observations in recent years. Hence, these particular statements by Prime Minister Abbott are in apparent contradiction in terms of explaining the increase in record-breaking in the later part of the observational record. If climate change is "absolute crap" and "there doesn't appear to have been any appreciable warming" then the probability of recent record breaking should be lower with an increasing length of temperature time series.

* Prime Minister Abbott concluded in October 2013 that the link between extremes (in this case bushfires) and climate change was "complete hogwash" and that "I'm not one of those people who runs around and says every time there's a fire or a flood, that proves climate change is getting worse. Australia has had fires and floods since the beginning of time. We've had much bigger floods and fires than the ones we've recently experienced. You can hardly say they were the result of anthropic [sic] global warming." 

Hence, to hold an internally consistent viewpoint within the Natural Variability Concept, the increase in the rate of record-breaking requires either a change in the shape of the temperature probability distribution with time that can be attributed to natural climate mechanisms, or requires that record-breaking rates have increased because temperatures are auto-correlated due to natural physical climate mechanisms such as thermal feedbacks between the ocean and atmosphere, sunspots and volcanic activity (Bassett, 1992).

* This does not, however, suggest that understandings developed under the Natural Variability Concept can be readily changed by simply viewing this conceptualisation as a deficit of knowledge. For example, former Prime Minister Abbott said in July 2009 that he was "…hugely unconvinced by the so-called settled science on climate change". 

Hence, this mismatch between an individual's perceptions of the climate change and extremes, and the physical evidence of the observed and modelled climate system, is undoubtedly complex and cannot be resolved simply with a singular approach…..

Interested readers can go to http://www.sciencedirect.com/science/article/pii/S2212094715300293 and view or download an open access full copy of the 10 page study with diagrams.

What the author¹ said about this study in The Guardian on 23 January 2016:

The first way to understand Abbott's claim is that in any system, the longer you wait, the more often you will see records fall. 

But Lewis points out that the exact opposite is true. 

In a system without any sort of trend, such as a random string of temperatures, the first one will be a record-breaker, by default. 

The second one will have a 50% chance of being a record-breaker. 

The third has a one in three chance of being a record breaker … and so on. 

In a very long temperature series, you should see very few records being broken, and they will break less often over time.

Unless, of course, there is a warming or cooling trend.

Alternatively, Abbott might simply have meant there was no connection between extreme heat records and climate change. 

Instead, natural variability might be to blame: natural variability includes things such as the El Niño phenomenon, which push temperature around year-to-year.

To test if that might be the case, Lewis ran a series of climate models in which the greenhouse effect was removed – so all that was left was natural variability. Unsurprisingly, in those models, high temperature records were less common than they are in reality. In other words, the record-breaking that we have seen cannot be explained by natural variation.

"It drives me mental that these sorts of statements go unaddressed," Lewis says. 

She says scientific literature generally tries to simply explain what is happening, ignoring misunderstandings in the public sphere.

"This was an attempt to bridge that gap."

1. Dr. Sophie Lewis is Research Fellow in the Geophysical Fluid Dynamics group at the Research School of Earth Sciences, as part of the ARC Centre of Excellence for Climate System Science. From 2011-2014, she was a Research Fellow at the University of Melbourne. Her PhD was awarded in 2011 from the Australian National University, this investigated long-term changes in the Australian monsoon system.

Tony Abbott and his attempts to degrade scientific research in Australia

It is well known that Australian Prime Minister Tony Abbott believes that climate change science is absolute crap, but even he has exceeded expectations of what his passive-aggressive brand of climate change denialism will bring forth when he appointed self-described climate policy sceptic, Bjørn Lomborg*, as an adviser to federal government on foreign aid delivery and arranged for the Australian taxpayer to fund Lomborg to the tune of $4 million now that the Danish Government has defunded his pseudo-scientific approach to research and American donors are not enthusiastically supporting this 'homeless' think tank the Copenhagen Consensus Center Inc.

BRIEF BACKGROUND

Excerpt from one of the Lomborg Errors documents:

3. The Working Party's reproduction of the professional published critique of "The Skeptical Environmentalist" prior to the complaints to DCSD

"The Skeptical Environmentalist" has given rise to extensive public discussion and debate, both in Denmark and internationally. There have been enthusiastic reviews in some of the world's top newspapers such as the Washington Post and the New York Times, and in The Economist.

The magazine Scientific American asked four leading experts to assess Bjørn Lomborg's treatment of their own fields: global warming, energy, population and biodiversity, devoting 11 pages to this in January 2002.

Stephen Schneider: "Global Warming, Neglecting the Complexities"

Schneider is a particularly respected researcher who has been discussing these problems for 30 years with thousands of fellow scientists and policy analysts in myriad articles and formal meetings.

Most of Bjørn Lomborg's quotes allude to secondary literature and media articles. Bjørn Lomborg uses peer-reviewed articles only when they support his rose-coloured point of view. By contrast, the authors on the Intergovernmental Panel on Climate Change (IPCC) were subjected to three rounds of audits by hundreds of external experts.

Bjørn Lomborg employs no clear and discrete distinction between various forms of probabilities. He makes frequent use of the word "plausible" but, strangely for a statistician, he never attaches any probability to what is "plausible". IPCC gives a large "range" for the majority of projections, but Bjørn Lomborg selects the least serious outcomes.

Stephen Schneider then provides a specific criticism of Bjørn Lomborg's four main arguments:

1. Climate Science: Bjørn Lomborg quotes an article in Nature (from the Hadley Center, 1989), uncritically and without the authors' caveats. BL quotes Lindzen's controversial "iris effect" as evidence that IPCC's climate range needs to be reduced by a factor of almost three. BL either fails to understand this mechanism or else omits to state that the data stem from only a few years' data in a small part of a single ocean. Extrapolating this sample to the entire globe is wrong. Similarly, he quotes a controversial Danish paper claiming that solar magnetic events can modulate cosmic radiation and produce a clear connection between global low-level cloud cover and incoming cosmic rays as an alternative to CO2 in order to explain climate change. The reason IPCC discounts this theory is "that its advocates have not demonstrated any radiative forcing sufficient to match that of much more parsimonious theories, such as anthropogenic forcing."

2. Emissions scenarios: Bjørn Lomborg assumes that over the next several decades, improved solar machines and other new technologies will crowd fossil fuels off the market, which will be done so efficiently that the IPCC scenarios vastly overestimate the chance of major increases in CO2. This is not so much analysis as wishful thinking contingent on policies capable of reinforcing the incentives for such development, and BL is opposed to such policies. No credible analyst can just assert that a fossil-fuel-intensive scenario is not "plausible" and, typically, BL gives no probability that this might occur.

3. Cost-benefit calculations: Bjørn Lomborg's most egregious distortions and feeblest analyses are his citations of cost-benefit calculations. First, he chides the governments that modified the penultimate draft of the IPCC report. But there was a reason for that modification, which downgraded aggregate cost-benefit studies: these studies fail to consider so many categories of damage held to be important by political leaders, and it is therefore not the "total cost-benefit" analysis that Bjørn Lomborg wants. Again, BL cites only a single value for climate damage - 5 trillion dollars - although the same articles indicate that climate change can vary from benefits to catastrophic losses. It is precisely because the responsible scientific community cannot rule out catastrophic outcomes at a high level of confidence that climate mitigation policies are seriously proposed. For some inexplicable reasons, BL fails to provide a range of climate damage avoided, only a range for climate policy costs. This estimate is based solely on the economics literature but ignores the findings of engineers and does not take into account pre-existing market imperfections such as energy-inefficient machinery, houses and processes. Thus, five US Dept. of Energy laboratories have suggested that such a substitution can actually reduce some emissions at below-zero costs.

4. The Kyoto Protocol: Bjørn Lomborg's invention of a 100-year regime for the Kyoto Protocol is a distortion of the climate policy process. Most analysts know that "an extended" Kyoto Protocol cannot deliver the 50% reduction in CO2 emissions needed to prevent large increases at the end of the 21st century and during the 22nd century, and that developed and developing countries alike will have to cooperate to fashion cost-effective solutions over time. Kyoto is a starting point, and yet with his 100-year projection BL would squash even this first stage.

Bjørn Lomborg's book is published by the social sciences side of Cambridge University Press. It is no wonder, then, that the reviewers failed to spot BL's unbalanced presentation of the natural science. It is a serious omission on the part of an otherwise respected publishing house that natural-science researchers were not taken on board. "Lomborg admits, 'I am not myself an expert as regards ENVIRONMENTAL PROBLEMS' - truer words are not found in the rest of the book".

John P. Holdren: "Energy: Asking the Wrong Questions"

Bjørn Lomborg's chapter on energy covers a scant 19 pages and is devoted almost entirely to attacking the belief that the world is running out of energy, a belief that BL appears to regard as part of the "environmental litany". But only a handful of environmental researchers, if any at all, believe this today. Conversely, what they do say about this topic is that we are not running out of energy, but out of environment, i.e. the capacity of air, water, soil and biota to absorb, without intolerable consequences for human well-being, the effects of energy extraction, transport, energy transformation and energy use. They also say that we are running out of the ability to manage other risks of the energy supply, such as overdependence on Middle East oil and the risk of nuclear energy systems leaking weapons materials and expertise into the hands of proliferation-prone nations or terrorists. This has been the position of the environmental researchers for decades (e.g. from 1971, 74, 76 and 77).

So whom is BL so resoundingly refuting with his treatise on the abundance of world energy resources? The professional analysts have not been arguing that the world is running out of energy, only that the world could run out of cheap oil. BL's dismissive rhetoric notwithstanding, this is not a silly question, nor one with an easy answer.

Oil is currently the most valuable of the conventional fossil fuels that have long provided the bulk of the world's energy, including almost all energy for transport. The quantity of recoverable oil resources is thought to be far less than coal and natural gas, and those reserves are located in the politically volatile Middle East. Much of the rest is located offshore and in other difficult and environmentally fragile areas. There is, accordingly, a serious technical literature, produced mainly by geologists and economists, exploring the questions of when world oil production will peak and begin to decline, and what the price might be in 2010, 2030 or 2050 - with considerable disagreement among informed professionals.

BL seems not to recognize that the transition from oil to other sources will not necessarily be a smooth one or occur at prices as low as the price of oil today. BL shows no sign of understanding why there is real debate about this among serious-minded people.

BL offers no explanation of the distinction between "proved reserves" and "remaining ultimately recoverable resources", nor of the fact that the majority of the latter category is located in the Middle East, but placidly informs us that it is "imperative for our future energy supply that this region remains reasonably peaceful" - as if that observation does not undermine any basis for complacency.

BL is right in his basic proposition that the resources of oil, oil shale, nuclear fuels and renewable energy are immense. But that is disputed by only few environmental researchers-and no well-informed ones. But his handling of the technical, economic and environmental factors that will govern the circumstances and quantities in which these resources might actually be used is superficial, muddled and often plain wrong. His mistakes include apparent misreadings and misunderstandings of statistical data, the very kinds of errors he claims are pervasive in the writings of environmentalists. By the same token, there are other elementary blunders of a type that should not be committed by any self-respecting statistician. Thus, it is wrong that measures in the developed countries have eliminated the vast majority of SO2 and NO2 from smoke from coal-burning facilities: it is only a minor proportion. Other examples are given, and when it comes to nuclear energy, plutonium is such a great security problem as regards the potential production of nuclear weapons that it may preclude use of the "breeding" approach unless a new technology is invented that is just as cheap.

BL uses precise figures, where there is no basis for such, and he produces assertions based on single citations and without detailed elaborations, which is far from representative of the literature.

Most of what is problematic about the global energy picture is not covered by BL in the chapter on energy but in the chapters dealing with air pollution, acid rain, water pollution and global warming. The latter has been devastatingly critiqued by Schneider.

There is no space to deal with the other energy-related chapters, but their level of superficiality, selectivity and misunderstandings is roughly consistent with what has been reviewed here.

"Lomborg is giving skepticism - and statisticians - a bad name."

John Bongaarts: "Population: Ignoring Its Impact"

Bjørn Lomborg's view that the number of people is not the problem is simply wrong. The global population growth rate has declined slowly, but absolute growth remains close to the very high levels observed in past decades. Any discussion of global trends is misleading without taking account of the enormous contrasts between world regions, where the poorest nations of Africa, Asia and Latin America have rapidly growing and young populations, whereas Europe, North America and Japan have virtually zero, and in some cases even negative, growth. As a consequence, all future growth will be concentrated in the developing countries, where four-fifths of the world's population lives: from 4.87 to 6.72 billion between 2000 and 2025, or just as large as the record-breaking increase in the past quarter of the (21st) century. This growth in the poorest parts of the world continues virtually unabated. The growth has led to high population density in many countries, but BL dismisses concerns about this issue, based on a simplistic and misleading calculation of density as the ratio of people to land. In Egypt this would make 88/km2, but deducting the uncultivated and unirrigated part of Egypt, it makes 2,000/km2 - no wonder Egypt has to import foodstuffs! Measured correctly, population densities have reached extremely high levels, particularly in large countries in Asia and the Middle East. This makes demands in terms of agricultural expansion on more difficult, hitherto untilled terrain, increased water consumption and a struggle for the scarce water resources between households, industry and farming. The upshot will be to make growth in food production more expensive to achieve. BL's view that increased food production is a non-issue rests heavily on the fact that foodstuffs are cheap; but BL overlooks the fact that it is large-scale subsidies to farmers, particularly in the developed countries, that keep prices artificially low.

Appreciably expanding farming will result in a reduction of woodland areas, loss of species, soil erosion, and pesticide and fertilizer run-offs. Reducing this impact is possible but costly, and would be easier if the growth in population were slower.

BL overlooks the fact that population growth contributes to poverty. First, children have to be fed, housed, clothed and educated - while economically non-productive - then jobs have to be created once they reach adulthood. Unemployment lowers wages to subsistence level. Counteracting population growth has fuelled "economic miracles" in a number of East Asian countries.

BL overlooks the fact that the favourable trend in life expectancy is due to intensive efforts on the part of governments and the international community, but despite this, 800 million are still malnourished and 1.2 billion are living in abject poverty. Population is not the main cause of the world's social, economic and environmental problems, but it is a substantial contributory factor. If future growth can be slowed down, future generations would be better off.

Thomas Lovejoy: "Biodiversity: Dismissing Scientific Progress"

In less than a page, Bjørn Lomborg discounts the value of biodiversity both as a library for the life sciences and as a provider of ecosystem services (partly due to the general absence of markets for these services). When he does get round to extinction, he confounds the process by which a species is judged to have been made extinct with estimates and projections of extinction rates. In contrast to BL's claim, the loss of species from habitat remnants is a widely documented phenomenon. A number of factual errors are highlighted. BL takes particular exception to Norman Myer's 1979 estimate that 40,000 species are being lost every year, failing to acknowledge that Myer deserves credit for being the first to point out that the number was large and at a time when it was difficult to do so accurately. Current estimates are given in terms of the increases over normal extinction rates. BL cynically spurns this method, because such estimates sound more ominous. Instead, he ought to acknowledge that this method is an improvement in the science. These rates are currently 100 to 1,000 times' the normal, and are certain to rise as natural habitats continue to dwindle.

The chapter on acid rain is equally poorly researched and presented. BL establishes that acid rain has nothing to do with urban pollution, though it is a fact that nitrogen compounds (NOx) from traffic are a major source. Errors are pointed out in BL's view of acid rain on forests.

The chapter on forests suffers from BL not knowing that FAO's data are marred by the weight of so many different definitions and methods that any statistician should know they are not valid in terms of a time series. There are errors in the figures from Indonesia in 1997. BL confuses forests with tree plantations, and asserts that the only value of forests is harvestable trees. That is analogous to valuing computer chips for their silicon content only.

It is important to know that while deforestation and acid rain are reversible, extinction of species is not.

BL entirely overlooks the fact that environmental scientists identify a problem, posit hypotheses, test them and, having reached their conclusions, suggest remedial policies. By focusing on the first and last stages in this process, BL implies incorrectly that all environmentalists do is exaggerate.

Source Watch:

Dr Peter Raven, President of the American Association for the Advancement of Science in 2002 said of Lomborg: "...he's not an environmental scientist and he doesn't understand the fields that he's talking about so in that case, if you have a point to make and you want to get to that point, which is: everything's fine, everybody's wrong, there is no environmental problem, you just keep making that point. It's like a school exercise or a debating society, which really doesn't take into account the facts". 

"Raven said that the success of Lomborg's book 'demonstrates the vulnerability of the scientific process -- which is deliberative and hypothesis driven -- to outright misrepresentation and distortion.'"

Newsweek 21 February 2010:

Lomborg opens Cool It with a long discussion on polar bears, arguing that no more than two (of 20) groups are declining in population, that their numbers are not falling overall, and, in places where they are, that it is not a result of global (or Arctic) warming. In fact, polar-bear populations in warming regions are rising, he argues, suggesting that a warmer world will be beneficial to the bears. As Friel shows, Lomborg sourced that to a blog post and to a study that never mentioned polar bears. But he ignored the clear message of the most authoritative assessment of the bears' population trends, namely, research by the International Union for Conservation of Nature. It found that bear populations are indeed declining where the Arctic is warming. In fact, concluded the IUCN, polar-bear populations "have declined significantly" where spring temperatures have risen dramatically. It also offered an explanation for Lomborg's claim that numbers are falling most where temps are getting colder: that area happens to be where there is unregulated hunting.

For his claim that the polar-bear population "has soared," Lomborg cited a 1999 study (scroll down to the paper by Ian Stirling). But that study described declining birthrates and other threats to the bears, blaming warmer spring temperatures that cause the sea ice to break up. Overall, since the mid-1980s polar-bear numbers have fallen, which experts attribute to global warming. The source is thus not exactly the solid endorsement of Lomborg's claim about thriving polar bears that one might assume.

Climate Council 14 April 2015:

The Australian Government today announced they would contribute $4m for Danish climate contrarian Bjorn Lomborg to establish a new “consensus centre” at the University of Western Australia.

In the face of deep cuts to the CSIRO and other scientific research organisations, it's an insult to Australia’s scientific community.

As the Climate Commission, we were abolished by the Abbott Government in 2013 on the basis that our $1.5 million annual operating costs were too expensive. We relaunched as the Climate Council after thousands of Australians chipped in to the nation’s biggest crowd-funding campaign…

It seems extraordinary that the Climate Commission, which was composed of Australia’s best climate scientists, economists and energy experts, was abolished on the basis of a lack of funding and yet here we are three years later and the money has become available to import a politically-motivated think tank to work in the same space.

This is why the work of the Climate Council is so important - to counter this continuing ideological attempt at deceiving the Australian public.

Mr Lomborg’s views have no credibility in the scientific community. His message hasn’t varied at all in the last decade and he still believes we shouldn't take any steps to mitigate climate change. When someone is unwilling to adapt their view on the basis of new science or information, it's usually a sign those views are politically motivated. 

 * Bjørn Lomborg states he is a director of the Copenhagen Consensus Center, adjunct professor at University of Western Australia, and visiting professor at Copenhagen Business School.

He further states that he has an M.A. in political science (University of Aarhus) and a Ph.D. in political science (University of Copenhagen).

His degrees are in social science and not in any of the scientific disciplines which inform credible climate research.