Big Butterfly Count 2017

The peacock butterfly, with its striking eyes on the hindwings, is a common visitor to British gardens. Inachis Io by Maja Dumat is licensed under CC BY 2.0.

The 2017 Big Butterfly Count, organised by Butterfly Conservation, runs from 14th July to 6th August.

This nationwide survey, launched in 2010 and conducted annually, is the world’s largest survey of butterflies; in 2016 over 36,000 people took part! The survey aims to investigate trends in butterfly and moth species and will help guide conservation efforts within the UK.

Taking part is easy – simply set a timer for 15 minutes and then count the butterflies you see during this time. Counts are best undertaken on a dry, sunny day and good places to conduct the survey are in your garden or in a local park or woodland.

If you are counting from one place, count the maximum number of each species that you can see at a single time. (This ensures that you don’t count the same butterfly more than once). If you are doing your count while walking, then simply total up the number of each species that you see during the 15 minutes. The final step is to submit your results online or via the iOS or Android app.

For lots more information, head over to the Big Butterfly Count website where you can download an identification sheet, submit your sightings and view the 2017 results map. Check out the video below for an great introduction from Nick Baker.

NHBS stocks a full range of butterfly survey equipment, including nets, binoculars, collecting pots and field guides. Need some advice? Contact our customer services team on +44 (0)1803 865913 or email



Nominees for the Wainwright Prize 2017

The Wainwright Prize, first awarded in 2014, is a literary prize that seeks to reward the best British outdoors, nature and travel writing. The prize is named in honour of Alfred Wainwright (1907-1991), the British author, illustrator and hillwalker who is most well-known for his seven-volume Pictorial Guide to the Lakeland Fells, published between 1955-1966.

Previous year’s winners include Amy Liptrot’s The Outrun (2016), John Lewis-Stempel’s Meadowland (2015) and Hugh Thomson’s The Green Road Into The Trees (2014).

This year, the winner will be announced on August 3rd. Here, we present the seven shortlisted candidates, in no particular order:

Love of CountryLove of Country: A Hebridean Journey, written by Madeleine Bunting and published by Granta.

Love of Country is Madeleine’s account of her exploration of the landscapes, histories and attraction of the Scottish Hebrides Islands over the course of six years.



The Otter's TaleThe Otter’s Tale, written by Simon Cooper and published by William Collins.

When Simon Cooper bought an abandoned water mill in southern England, he ended up sharing it with a family of wild otters. The Otter’s Tale blends the personal story of one of them with the natural history of the otter in the British Isles.


The Running HareThe Running Hare, written by John Lewis-Stempel and published by Doubleday.

The Running Hare tells of Britain’s traditional ploughland that is rapidly disappearing, and of the wild animals and plants that live in and under it. It is also the story of John’s attempt to take on a field and husband it in a traditional way, restoring its fertility and wildlife, bringing back the old farmland flowers and animals.


Where Poppies BlowWhere Poppies Blow: The British Solider, Nature, the Great War, written by John Lewis-Stempel and published by Weidenfeld & Nicholson.

Where Poppies Blow is the unique story of the British soldiers of the First World War and their relationship with the animals and plants around them.


Wild KingdomWild Kingdom: Bringing Back Britain’s Wildlife, written by Stephen Moss and published by Vintage.

Britain’s wildlife is under threat from many sides, but a change is under way. In Wild Kingdom, Stephen recounts his sojourns throughout the United Kingdom to document how Britons are fighting to bring back and save the wildlife they love.


The January ManThe January Man: A Year of Walking Britain, written by Christopher Somerville and published by Doubleday.

Following the death of his father, Christopher walked the British Isles, month by month, season by season and region by region. This is his account of the British countryside and the search for the true identity of his father.


The Wild OtherThe Wild Other: A Memoir, written by Clover Stroud and published by Hodder & Stoughton.

When a riding accident left her mother permanently brain-damaged, sixteen-year-old Clover embarked on a journey around the world, eventually finding her way back to the Vale of the White Horse. This is her account of love, loss, family and the healing strength of nature.

Inheritors of the Earth: An interview with Chris D. Thomas

The author shows on a field trip in Sabah
Chris D. Thomas on a field expedition in Danum Valley, Sabah, 2015.

Chris D. Thomas is a Professor in the Department of Biology at the University of York and was elected as a Fellow of the Royal Society in July 2012. He has an interest in understanding how humans have changed the biological world, and how we might protect the biodiversity that remains. His first book, Inheritors of the Earth, is a very interesting and thought-provoking read on the current mass extinction crisis, and conservation philosophy in general, focusing on the proverbial winners, and calling out conservationists for holding viewpoints that seem more driven by nostalgia than by logical thinking about the biological future of our planet. Sure to ruffle some feathers, NHBS nevertheless believes that this book makes an important contribution, and that his arguments are more balanced than a cursory glance might suggest. We contacted Chris with a list of questions that arose after reading it.

1. In your book, you quite rightly argue that, despite species going extinct, there are species who are benefitting from our presence and the changes we have wrought to our ecosystems. You acknowledge that our influences largely seem to result in an accelerated introduction of species in new areas. Will the net result of this great reshuffling not be a world that is suited only to generalist species (the proverbial rats and pigeons) at the expense of specialists?

This is not quite how I see it. Take your two examples. The Asian brown rat was a regular rodent (granted it was omnivorous, but so are many other rodents), before it hitched a lift with us around the world. Today, the brown rat mainly lives in and around human habitation and farmland, except on islands that lack native rodents, so you could simply call it a specialist on human-modified environments. The feral or town pigeon originated as a specialist cliff-nesting pigeon (the rock dove) in western Europe, the Mediterranean, and into western Asia. It is still a cliff-nesting bird, living on our buildings. Neither the feral pigeon nor the brown rats are unusually generalised, relative to many other birds and mammals. It is their proximity to us that makes us think of them as generalists.  I don’t think we should synonymise ‘successful’ or ‘living in human-modified environments’ with being a ‘generalist’.

2. In Chapter 6, “Heirs to the World”, you mention that most current conservation efforts focus on trying to defend the losers. You argue that, though honourable, it will be more effective to back the winners, i.e. those species that will make up future biological communities. An important theme in the recent book Never Out of Season: How Having the Food We Want When We Want it Threatens Our Food Supply and Our Future is that the loss of wild crop varieties through extinction is threatening our future food supply. Many of these wild varieties might have the potential of providing new food sources when our current crop varieties will inevitably succumb to new insect pests or pathogens, or can provide other benefits (e.g. pharmaceuticals). This is why projects such as the Svalbard Global Seed Vault and other seed banks are so important. Do you see any value in the conservation of threatened species, or is this crying over spilt milk?

I argue that we should in most instances continue to protect ‘species’. Rare species may become common and hence fulfil important roles in future ecosystems, and species that we currently ignore (or have not yet discovered) may become economically, medically or socially important to us in the future. Hanging onto as many species as possible is not a preservationist agenda, but rather a means of maintaining the building blocks of future ecosystems, fuelling biological changes that will take place in the coming centuries. Similar arguments apply to rare genes that belong to wild relatives of plants and livestock that we already use. They provide long-term resilience and flexibility.

3. In Chapter 11, “Noah’s Earth”, you call for a new conservation philosophy that acknowledges that life is a process, not a final product. In your view, this philosophy would rest on four overarching principles: a) accept change, b) maintain flexibility for future change by conserving species wherever possible, c) accept that humans are natural and that anything we do is part of the evolutionary history of life (this includes not shying back from employing any and all solutions at our disposal, including genetic techniques – none of them will make the world less natural), d) live within our natural boundaries. In the remainder of that chapter you elaborate on the first three principles, but not the fourth. How do you envision realising this fourth principle?

As I say: “We know that we cannot expect the bounty to continue if we carry on killing animals faster than they can breed or cut forests down faster than they grow. This strategy failed when our ancestors drove most of the world’s largest land animals to extinction, and it has played out in the last few centuries as whale and fish populations have collapsed under the pressure of over-harvesting. We need a resilient and sustainable approach. We should aim for maximum efficiency, by which I mean that we should pursue strategies that fulfil all human needs – and, where possible, desires – of every citizen on Earth while generating the least possible collateral damage to the global environment.”

Harvesting a species faster than the survivors can reproduce can be thought of as a relatively ‘hard’ natural boundary (once a species is extinct, it is no longer a resource), but other bounds are much softer (a forest with one fewer species still grows), and hence we often need to specify tolerable levels of change, rather than catastrophic points of no return. These issues deserve book-length treatment on their own, which is why I did (deliberately) somewhat duck the issues!

When I refer to the ‘least possible collateral damage to the global environment’, I am thinking about the development of technological and social ‘game changers’. For example, most meat production is based on filling our fields and barns with cows, sheep and chickens, which we then kill for food. If we could switch to the consumption of ‘factory-grown’ cultured meats, powered by renewable energy, it would dramatically reduce pressure on the land; although admittedly not by as much as if we all became vegetarians.

4. Your book makes many valid points as to how our current thinking around species conservation is in conflict with itself, or simply illogical (e.g. the distinction between native and invasive species, because, seen over long enough time scales, species distribution has always fluctuated. Or the idea that there is no one period in the history of life that we can take as a benchmark of the idealised pristine state the world should be in. Or simply the idea that conservation means “freezing” the world in its current (or a former) state – after all, the only constant of life on our planet has always been change). You also, provocatively I would say, argue that many island species that have gone extinct were effectively already evolutionary dead ends, having evolved in environments free from predators and pathogens. We have merely hastened their demise, but they would eventually have gone extinct anyway. Should we really give up on them?

I don’t think it is particularly controversial (or provocative, therefore) to say that most flightless and disease-susceptible terrestrial birds (as opposed to seabirds) that live on oceanic islands represent evolutionary dead-ends, on a time scale of ten or so million years. What are the alternatives? They would never be able to establish viable populations on continents because pathogens and predators are present. Confined to their island homes, they would eventually have died out, either when the islands eroded away, or when additional continental species arrived without human intervention (for example Darwin’s finches have ‘only’ been on the Galapagos for two to three million years). In most cases, we have accelerated the extinction of such species but not altered their eventual fate.

What we should do with the few remaining survivors is another issue. What I argue in Inheritors of the Earth is that we should think quite broadly. Can we introduce new genes to disease-susceptible birds that will make them resistant (for example to save the remaining Hawaiian honeycreepers)?  Can we cross predator-susceptible birds with related species that reproduce fast enough to survive the new levels of predation (for example to save New Zealand black stilts)?  Could we introduce new strains of bird malaria that are less potent, and displace the existing fatal ones? In other words, can we make the endangered island forms more resistant in some way and the continental invaders less virulent, so that long-term coexistence becomes possible? If not, then maybe we should indeed abandon some of the losers, and contemplate releasing continental walking birds (which can resist pathogens and predators) and pollinators, rather than dwell too long attempting to recreate a biological world that was inherently unstable.

Inheritors of the Earth5. One argument in favour of trying to conserve the “charismatic megafauna”, such as elephants and rhinos, are that they function as flagship species, and that conservation efforts aimed at them can benefit whole ecosystems. In your book, you don’t really go into this. What are your thoughts on the concept of flagship species, especially in light of your argument that “defending the losers” is ultimately a lost cause?

I am generally in favour of large, flagship species because they require large areas to protect, and this indirectly benefits many other species (though flagship conservation is not sufficient because it may miss areas of endemism). They are also culturally important to conservationists as well as to the general public, gaining public and political support for conservation. The giant panda has been globally important, and critical to the conservation of Chinese forests, despite being a slightly ‘dodgy species’!

When I discuss losers, remember that I then add the question “can we turn them into winners” (or at least into survivors). For the large megafauna that still survive, this is easy. We can choose not to hunt them to extinction any longer. It is already the case that large birds and large mammals are tending to recover in Europe and North America, and this is also true of the Great Whales. They were losers in the context of historic human culture, and there is no necessary reason why they ‘must be’ losers. Once ivory and rhino horn ‘culture’ is turned around, there will be nothing ‘wrong’ with these species either.

6. If you were put in charge of a major conservation organisation, say WWF, what would you do differently? Would you, for example, have greenlighted their recent campaign to try and protect the last remaining individual vaquitas (the threatened porpoise endemic to the Gulf of California)?

I’m not going to answer your first question because that would be a whole new book (or job if they offer it to me!). I’ll just say that, on day one, I would request a review of activities, and for every measure currently being undertaken to prevent change or decline, I would ask for the staff to develop an additional measures to promote changes that would increase diversity (or the status of an endangered species).

As for the vaquita, I am no expert. However, it is evolutionary distinct, and it is a perfectly viable species if we were stop killing it (including through gillnets). It is not a species that one should necessarily give up on. More broadly, it is a symptom of the mismanagement of the world’s marine resources. We sorted out farming on land a long time ago, but we are still more or less acting as hunter-gatherers in the marine realm. It is hopelessly inefficient.

If I had an infinite supply of money, I would be looking to invest in fish farms (they can be locally damaging, but humans still need food), and I would also invest in new GM crops which produce fish oils so that the farmed fish could be fed on terrestrial plants rather than ‘wild caught’ marine resources. Beyond that, I would invest in cultured fish meat (factory grown muscles), further reducing the need to catch wild fish. The aim would be for virtually all fish consumed in the year 2100 to be farmed or, ideally, cultured as tissues in factories.

Whether or not the vaquita itself can be saved, these strategies are all about generating permanent means of providing a global supply of fish meat without causing anything like as much collateral damage as takes place at present.

7. As mentioned above, I think your book makes excellent arguments. And yet, reading it also brought with it a certain sense of unease. It almost feels a bit defeatist, as if we might just as well give up on fighting to save threatened species and just go with the flow. I can see this argument not being popular. A lot of people feel we have a moral responsibility, as an intelligent, thinking species, to not drive other species over the edge, and to put a stop to our destructive ways. Isn’t saying “everything we do is natural, we are just another step in the evolution of life” a bit of a cop out?

I’ll leave others to discuss morals!

Saying that everything is natural, including all conservation actions we take, allows us to take ‘affirmative action’ for wildlife in a manner that some conservationists would historically have been nervous about (“I can’t do that, it would not be natural”). So, I see it as an opening up of new conservation opportunities, not a cop out.

8. It is perhaps a bit early to ask you how the book has been received. But, clearly, when a book like this is written, it is often based on years of work and research that has led up to it. These ideas did not just appear. So, how have your viewpoints been received so far?

The response to the book seems good so far, but it is far too early to judge. You are right, I have put some of these views out there previously, and they have received a mixture of responses. Many people seem very supportive. However, invasive species biologists are mostly negative, I think fearing that non-native species legislation could be undermined, more than genuinely questioning the biological thesis (that may just be my interpretation). There are also those, such as E. O. Wilson, who consider that I and others are being Anthropocene apologists. I understand their point, but we cannot simply continue to wish that we live in an unchanged world. We have to develop an understanding of biology, and an approach to conservation, that works with change rather than against it.

9. Obviously, there are many parties in our society who stand to gain a great deal from ignoring conservation concerns and steam-rolling ahead with “business as usual”, continuing to destroy natural habitats for corporate gains. With this book now poised to be published, do you not worry that your narrative will be hijacked, the way has happened with the debate surrounding climate change? I can already see people using your arguments to legitimise their actions, arguing along the lines of “this biologist said that the extinction crisis really isn’t such a big deal. See? Lots of species doing really well!”. Have you considered strategies to prevent this from happening?

I nearly didn’t put fingers to keyboard for this very reason. However, if we build a case for conservation based on a loss-only view of the world, eventually it will fall. The edifice is already creaking. A more balanced view that admits to the reality of biological gains as well as losses should, in the end, lead to more rational decision-making.

In terms of conservation, I have stated my own views. In the Epilogue, I write: “If [existing conservation] efforts were abandoned, the extinction rate would escalate. A major task of conservation is to keep the losses towards the lower end of the likely range – as well as to encourage biological gains. Although I have been advocating a more flexible approach to the environment, and specifically to conservation, nothing I have said should be used to undermine attempts to save existing species or maintain protected areas.

As for the extinction ‘big deal’, biological gains of the Anthropocene do not let us off the hook. A simple linear extrapolation of the current rate of extinction wipes out about three-quarters of all species in the next ten millennia. This is risky, given that species represent our planet’s biological parachute. All future ecosystems will be formed from the descendants of existing species, and we do not know which of today’s currently-rare species will be important components of future ecosystems (especially if humans alter the planet in yet another, unexpected way). Letting rare species go could have major long-term consequences. My advice would be not to discard the biological building blocks of our planet lightly.

Inheritors of the Earth is available to order from NHBS

The NHBS Guide to Whale and Dolphin Watching

Public sighting records are important for UK cetacean conservation. Atlantic Bottlenose Dolphins by Jo Garbutt is licenced under CC BY 2.0

Catching a glimpse of a whale or dolphin whilst visiting the coast is a uniquely memorable experience and a few hours spent whale and dolphin watching is fun for all age groups. Plus, your sightings can really make a difference and will add to the growing body of survey data collected for the UK coastline.

Keep reading for some tips on when and where to watch whales and dolphins, how to get started and where to report your sightings.

When and where should I watch cetaceans and what am I likely to see?

The best time for spotting cetaceans is between April and October when visitors to our coastal waters are at their highest. Some areas are undoubtedly better than others for catching a glimpse of these elusive animals: Devon, Cornwall and Cardigan Bay in Wales are good places to go, as well as the coasts of northern Scotland.

Twenty-nine species of cetacean have been recorded in UK waters, and some areas of our coastline are home to permanent populations of dolphins. The most commonly reported species are bottlenose dolphins, harbour porpoises and minke whales, although rarer visitors have included killer whales, humpback whales and striped dolphins.

Of course, cetaceans aren’t the only things you will see. Keep your eyes peeled for seals too and enjoy the seabirds and beautiful views at the same time!

How do I get started watching whales and dolphins?

For most people, watching cetaceans from the land (rather than from a boat) will be the most convenient and economical option. Any place where you can sit comfortably with a good view of the sea will suffice, but if you can make your way to a cliff top then this will provide a better vantage point. Calm, overcast days tend to be the best for spotting cetaceans as the combination of swell, choppy waves and surface reflections can make fins all but impossible to see. For the same reason, the hours following dusk and prior to dawn are the best times of day to go.

A watch is conducted by scanning the surface of the water with the naked eye, switching to binoculars periodically or whenever you notice a disturbance at the surface. As soon as you see something that may be a whale or dolphin, concentrate your binoculars in that area, making sure to scan a little way around in case it surfaces again nearby. Another good technique is to look out for seabirds circling or diving as this may indicate cetaceans feeding just below the surface.

Any binoculars (or a scope and tripod) can be used for sea watches. If you are looking for binoculars specifically for this activity, however, make sure to go with a model that has a large objective lens diameter as this will improve the light transmission and will help with viewing in lower light conditions.

For researchers studying marine mammals, items such as thermal imaging scopes and hydrophones are useful additions to the surveying toolbox and will allow them to find and identify cetaceans in a greater range of conditions as well as enabling more detailed investigation of behaviour.

Where do I submit my sightings?

Several organisations in the UK offer online sighting forms where you can submit information about whales, dolphins and porpoises that you have confidently identified during your watch. Take a look at the Sea Watch Foundation, the Whale and Dolphin Conservation, or the Cetacean Research & Rescue Unit websites for sighting forms. Other regional groups such as the Hebridean Whale and Dolphin Trust and Norfolk Cetaceans also collect local sightings so it might be worth finding out if there is an active recording group near to where you live.

Check out the NHBS website for a great range of binoculars and scopes, as well as other handy field kit such as waterproof clipboards and notebooks. Also have a look at these two field guides to help with identifying whales and dolphins.

Guide to the UK Cetaceans and Seals
Guide to the UK Cetaceans and Seals
Whales, Dolphins and Seals: A Field Guide to the Marine Mammals of the World
Whales, Dolphins and Seals: A Field Guide to the Marine Mammals of the World


The Importance of Nest Sites for Birds and Bees

Changes in land use can result in strong competition between species that have historically survived alongside eachother, such as goldfinches and chaffinches. Goldfinch by Tony Smith is licenced under CC BY 2.0.

Over the last century, land use in the UK has changed drastically. Small mixed-crop farms, traditionally separated by lanes, hedgerows and wild meadows have been replaced with larger, more specialised facilities. At the same time, the density of grazing animals such as sheep and cattle has also risen substantially. This combination of land-use change and agricultural intensification has contributed significantly to habitat degradation and biodiversity loss, and has led to huge, often dire, changes for the wildlife that call these places home.

Understanding these processes is of huge importance to conservationists, and a considerable amount of research has been conducted into the broad scale effects of land use changes on biodiversity. It is less well understood, however, why seemingly similar species can be affected to a different extent by local changes in their habitat.

A recent study, conducted by Dr Andrew Higginson at the University of Exeter, suggests that competition for nesting space may be a key factor in the differences observed. His study used a mathematical model to predict the likely outcome when populations of birds and bees are faced with a reduction in suitable nesting sites. Results indicated that larger, earlier-nesting species tend to fare better in these conditions, but at the expense of smaller, later-nesting species who, in the real world, would either fail to find a nesting site or be forced into using a poor quality or risky location.

Dr Higginson’s results illustrate that, whilst two or more similar species can co-exist together very happily when there are sufficient nesting spaces available, as soon as these become limited, competition and conflict become inevitable. In severe situations, species that have historically thrived in the same environment may suddenly find themselves battling for survival.

A key message from the study was that conservation efforts should ensure that priority is given to the creation and maintenance of suitable nesting sites. Conservation practices often focus on provision of food for wildlife, such as planting wildflowers for bees and providing food for our garden birds. Preserving and creating safe and accessible places for these animals to nest, however, is just as critical if we are to ensure their continued survival.

Head over to for our full range of bird nest boxes and insect nesting aids, or download our full nest box price list.


Surviving the Misinformation Age

This post is the final of a four-part series on polarised discussions in science and how to deal with misinformation. You can find Part 1 introducing the topic here, Part 2 on climate change here,  and Part 3 on evolutionary biology here.

In the preceding two sections we have given a very brief survey of two areas that are the subject of intense public debate, and that see a lot of distortion or denial of factual knowledge to fit preconceived ideas. But the problem is not limited to these areas and we currently find ourselves amidst a storm of misinformation, fake news and alternative facts. In this final section, we draw attention to a number of recent books that will help readers think more clearly, logically and rationally, and give them the tools to see through spin and hyperbole.

Several prominent sceptics have written accessible books on a wide range of pseudoscientific ideas, such as Skeptic: Viewing the World with a Rational Eye (Shermer, 2016), Nonsense on Stilts: How to Tell Science from Bunk (Pigliucci, 2010), or Bad Science (Goldacre, 2008). In recent years, however, there seems to have been an increasing abandonment of reason.

Creating Scientific ControversiesPart of the problem is that, as alluded to in the post on anthropogenic climate change, a lot of scientific research is funded by groups with particular interests, which can lead to flawed results when they already have in mind what they want the science to show. This is discussed at length in Tainted: How Philosophy of Science Can Expose Bad Science (Shrader-Frechette, 2016). Even worse is when such groups purposefully create the appearance of controversy to confuse and mislead the public and protect industry interests, such as the decade-long campaign by the tobacco industry to create the impression there was no scientific consensus on the Not a Scientistharmful effects of smoking. David Harker has written the first book-length analysis of this in Creating Scientific Controversies: Uncertainty and Bias in Science and Society (2015), which should help readers to understand and evaluate such cases, and how to respond to them. Politicians are no less guilty of this, as Dave Levitan asserts in Not a Scientist: How Politicians Mistake, Misrepresent, and Utterly Mangle Science (2017).

The Death of ExpertiseAccording to books such as The Death of Expertise: The Campaign Against Established Knowledge and Why it Matters (Nichols, 2017), and Respecting Truth: Willful Ignorance in the Internet Age (McIntyre, 2015), another part of the problem is the internet. In the opinion of these authors, easy access to information and egalitarian platforms in the form of weblogs where everyone can have their own say, are some of the factors that have bred a generation of opinionated, poorly informed people, who Respecting Truththink they know enough on a topic after a quick scour of Wikipedia. This is accompanied by an underbelly feeling that expertise is synonymous with elitism, leading to distrust of any form of authority. In his pithy book Are We All Scientific Experts Now? (2014) Harry Collins provocatively puts forth the notion that not everyone’s opinion counts equally. Or, as Robert Dorit wrote in 1997 in American Scientist when reviewing Darwin’s Black Box, ‘[…] opinions should not be mistaken for expertise’.

As Julian Baggini explains in The Edge of Reason: A Rational Skeptic in an Irrational World (2016) this is not about stifling dissenters, or stamping out opposition. Science thrives on scepticism and reasonable debate. But the key word here is reasonable. The current wave of anti-expertise sentiment is not just attacking scientific knowledge, it is attacking the very framework that generates these findings. As Michael Specter said in The Edge of Reasonhis 2010 Ted Talk The Danger of Science Denial, ‘you are entitled to your own opinion, but you are not entitled to your own facts’. And, as Prothero argues in Reality Check: How Science Deniers Threaten Our Future (2013), this matters to society at large. Whether we are talking about addressing climate change, or the return of nearly eradicated diseases because more and more people refuse to vaccinate their children, the ill-informed opinions of some can affect us all, especially once they enter voting booths.

Making Sense of ScienceWe believe that this means that we have a responsibility, as academics, as educators, as librarians, to speak out and communicate why what we do matters, to teach critical thinking. This makes recent books such as Critical Thinking: Tools for Evaluating Research (Nardi, 2017), Making Sense of Science: Separating Substance from Spin (Dean, 2017), A Survival Guide to the Misinformation Age: Scientific Habits of Mind (Helfand, 2016), and Don’t Believe Everything You Think: The 6 Basic Mistakes We Make in Thinking (Kida, 2006) so important. This will require us to become excellent communicators: the media likes to simplify things and deal in snappy sound bites, whereas scientists have to communicate complicated ideas that have great degrees of uncertainty. And, as many of the interviewees in Olson’s documentary Flock of Dodos agreed in its conclusion, with some notable exceptions, scientists at large are poor communicators.A Survival Guide to the Misinformation Age Am I Making Myself Clear?: A Scientist’s Guide to Talking to the Public (Dean, 2009) could well be considered an essential part of the academic toolkit. But, as Jo Fidgen concludes around the 38-minute mark in the BBC Radio 4 podcast we referred to in our opening paragraph, ‘cold facts are not enough, they are much more convincing when they are part of a story’. So add Houston, We Have a Narrative: Why Science Needs Story (Olson, 2015) to your toolkit.

To end on a sober note, we must not forget that science is a human endeavour, and as such prone to all the failures and follies of man. In our search for a deeper understanding of the world around us we stumble, we falter, and we fail (on a side-note, this is not all bad, but a necessary part of scientific progress, as Stuart Firestein lays out in Failure: Why Science is So Successful (2015)). Worrying, also, is the 2015 Science paper reporting that a lot of published research findings cannot be replicated (though see this follow-up critique, and a rebuttal of that critique). And although this paper specifically talked about psychology research, a commentary in New Scientist highlighted how other disciplines also suffer from this problem, something which is explored more in-depth in Stepping in the Same River Twice: Replication in Biological Research (Shavit & Ellison, 2017). But this is no reason to discard the scientific process. Science may have its failings, but science can fix it.

A New Home for Old Pallets

Preparing pallets for the walkway. Photo by David Price.

The accumulation of stacks of pallets is an unavoidable part of working in a fast paced and varied retail environment. So when we were contacted by Keith Grant from the Slapton Ringing Group to ask if they could take some off our hands, we were both delighted to agree and eager to learn about the site where they would be put to use.

The Slapton Ringing Group is based at the Slapton Ley National Nature Reserve. This beautiful site is located on the south coast of Devon and contains the largest lake in the south west, separated from the sea by just a narrow shingle bar. Its location, together with the unique habitat conditions, makes it an extremely important place for local and migrating bird populations.

A job well done. The completed walkway leading to the ride. Photo by David Price.

The Slapton Ringing Group have been surveying birds at Slapton Ley since the 1960s, and for the last six years the site has been designated as a BTO Constant Effort Survey (CES) Site.

A regular rotation of willow cutting is undertaken at the site, which maintains the vegetation and helps to avoid major changes in species composition. A carefully constructed pallet walkway allows access to the ringing rides for the volunteers that meet here regularly throughout the ringing season.

The pallets salvaged from NHBS were used to replace old ones which have an obviously limited lifespan due to the constantly wet conditions. It is a pleasure to know that some of our “waste” is being used to support such a fantastic and long-running project.

For more information about bird ringing in Devon, take a look at the Devon Birds website.

The Evolution–Intelligent Design Circus

This post is the third of a four-part series on polarised discussions in science and how to deal with misinformation. You can find Part 1 introducing the topic here, Part 2 on climate change here,  and Part 4 on dealing with misinformation here.

Ever since Darwin published On the Origin of Species (1859; 150th Anniversary Edition, Darwin & Endersby, 2009), his ideas have been much debated. There have been many scholars over the years who disagreed with some or all of his ideas, and the history of this is charted in books such as Defining Darwin: Essays on the History and Philosophy of Evolutionary Biology (Ruse, 2010), Darwin’s Dangerous Idea: Evolution and the Meanings of Life (Dennett, 1995), The Non-Darwinian Revolution: Reinterpreting a Historical Myth (Bowler, 1988), and The Eclipse of Darwinism: Anti-Darwinian Evolution Theories in the Decades Around 1900 (Bowler, 1983). These academic discussions and disagreements have Evolution: The First Four Billion Yearsbeen absolutely vital to further the development of evolutionary theory and push the discipline as a whole forwards. Books such as Evolution: The Modern Synthesis (Huxley, 2010), Evolution: The Extended Synthesis (Pigliucci & Müller, 2010), Evolution: The History of an Idea (Bowler, 2009), and Evolution: The First Four Billion Years (Ruse & Travis, 2009) give a tremendous overview of the historical development of the field over the last century.

From the outset, however, there has also been an intense clash between evolutionary theory and religion, especially in America, both in general (see for example The Book That Changed America: How Darwin’s Theory of Evolution Ignited a Nation (Fuller, 2017)), but especially with the fundamentalist Christian school of thought of Creationism. The Oxford dictionary defines this as ‘The belief that the universe and living organisms originate from specific acts of divine creation, as in the biblical account, rather than by natural processes such as evolution’. It was Darwin himself who, in an 1856 letter to Joseph Dalton Hooker, dubbed its proponents, who objected to the emerging science of evolution on religious grounds, Creationists.

A particularly notable and influential episode that had enormous consequences was the 1925 Scopes trial, in which American high school teacher John T. Scopes was accused of violating Tennessee’s Butler Act, which had made it unlawful to teach human evolution in state-funded schools (see The Scopes Monkey Trial (Moore & McComas, 2016), and The Scopes Trial: A Brief History with Documents, though for an alternative interpretation offering, in the words of the publisher ‘an apologetic for divine creation’, see Monkey Business: True Story of the Scopes Trial (Olasky & Perry, 2005)). He was found guilty, though not convicted, and the trial escalated the conflict between strict creationists and scientists regarding the extent to which evolution would be taught as a science subject in schools. Trying Biology: The Scopes Trial, Textbooks, and the Antievolution Movement in American Schools (Shapiro, 2013) provides a wider historical context to The Creationiststhe trial. The matter of teaching evolution remains contested to this day. After the US Supreme Court in 1987 forbade teaching creationism in public schools on the grounds it violated the separation of church and state, Creationists rebranded their ideas to Intelligent Design, or ID for short (see Creationism’s Trojan Horse: The Wedge of Intelligent Design (Forrest & Gross, 2007)). These efforts have been fronted by, yet again, a conservative think tank, here the Discovery Institute. There are several books charting the controversies since the Scopes trial, for example Intelligently Designed: How Creationists Built the Campaign Against Evolution (Caudill, 2013), American Genesis: The Evolution Controversies from Scopes to Creation Science (Moran, 2012), Darwinism and its Discontents (Ruse, 2006), and the exhaustive The Creationists: From Scientific Creationism to Intelligent Design (Number, 2006). Also noteworthy is Randy Olson’s even-handed 2006 documentary Flock of Dodos: The Evolution-Intelligent Design Circus.

As the US Supreme Court forbade the teaching of Creationism on the grounds of it being a religion, ID proponents argue theirs is an evidence-based scientific theory. In their view, certain complex features of the universe and living beings are irreducibly complex, and thus proof for the existence of a divine creator. These ideas are elaborated in books such as Undeniable: How Biology Confirms Our Intuition That Life Is Designed (Axe, 2016), Evolution: Still a Theory in Crisis (Denton, 2016), Darwin’s Doubt: The Explosive Origin of Animal Life and the Case for Intelligent Design (Meyer, 2013; Stephen Meyer is the head of the Discovery Institute), Signature in the Cell: DNA and the Evidence for Intelligent Design (Meyer, 2010), and Darwin’s Black Box: The Biochemical Challenge to Evolution (Behe, 1995; considered by many the foundational text for the ID movement).

Many biologists have widely criticised ID, and it is generally considered as a pseudoscience. See amongst others Inside the Human Genome: A Case for Non-Intelligent Design (Avise, 2010), Why Evolution is True (Coyne, 2009), The GThe Greatest Show on Earthreatest Show on Earth: The Evidence for Evolution (Dawkins, 2009), Why Evolution Works (and Creationism Fails) (Young & Strode, 2009), The Panda’s Black Box: Opening Up the Intelligent Design Controversy (Comfort, 2007), Scientists Confront Creationism: Intelligent Design and Beyond (Petto & Godfrey, 2007), Doubting Darwin?: Creationist Designs on Evolution (Sarkar, 2007), Intelligent Thought: Science Versus the Intelligent Design Movement (Brockman, 2006), Why Darwin Matters: The Case Against Intelligent Design (Shermer, 2006), The Counter-Creationism Handbook (Isaak, 2005), God, the Devil, and Darwin: A Critique of Intelligent Design Theory (Shank, 2004), or Why Intelligent Design Fails: A Scientific Critique of the New Creationism (Young & Edis, 2004). Even earth scientists have felt the need to speak out (For the Rock Record: Geologists on Intelligent Design (Schneiderman & Allmon, 2009)). Several books deal specifically with claims that fossil evidence of transitional forms is lacking (Evolution: What the Fossils Say and Why it Matters (Prothero, 2007; second edition, 2017)), or the idea that evolution Evolution: What the Fossils Say and Why it Mattersreveals a grander design (Darwin and Design: Does Evolution Have a Purpose? (Ruse, 2003), and The Blind Watchmaker: Why the Evidence of Evolution Reveals a Universe Without Design (Dawkins, 1976; 40th Anniversary Edition, 2016)). For contributions hypothesising how complexity might have emerged naturally, see for example The Arrival of the Fittest: Solving Evolution’s Greatest Puzzle (Wagner, 2014), or The Tinkerer’s Accomplice: How Design Emerges from Life Itself (Turner, 2007).

Many hard-line scientists, Richard Dawkins included, argue that there is no debate to be had in the first place. There is no point arguing facts with a believer. Engaging these beliefs, and, as the Discovery Institute would have it, ‘teaching the controversy’, merely provides legitimacy to a non-existent controversy (though see Teaching Evolution in a Creation Nation (Laats & Siegel, 2016) for a proposition on how to break the Science and Religiondeadlock between science and religion). This touches on the age-old question of what dialogue there can be between science and religion. Dawkins, known for his militant atheism, is outspoken on the matter in his polemical The God Delusion (2006; 10th Anniversary Edition, 2016), while other authors have branded this as a futile effort (see for example Science and Religion: An Impossible Dialogue (Gingras, 2017) and Faith Versus Fact: Why Science and Religion Are Incompatible (Coyne, 2015)).

Amidst this fierce debate between two extremes, it is easy to overlook there are more moderate ideas. Many religious people do not support a literal reading of holy texts, and supporters of theistic evolution hold that religion and evolution need not contradict each other. The argument that geneticist Francis Collins puts forth in The Language of God (2006) boils down to “evolution is real, but it is the hand of God”. And he is not alone, Monkey Trials and Gorilla Sermons: Evolution and Christianity from Monkey Trials and Gorilla SermonsDarwin to Intelligent Design (Bowler, 2007) traces the long history of how churches have sought to reconcile Christian beliefs and evolution, and see ‘reflections of the divine in scientific explanations for the origin of life’. Whether you agree with this or not (religious fundamentalists see it as a capitulation, while Dawkins in The Blind Watchmaker has called it a superfluous attempt to ‘smuggle God in by the back door’), this rapidly leaves the realm of scientific enquiry and becomes one of personal beliefs.

Click here for the final part, which looks at books on how to deal with misinformation (coming soon).

Anthropogenic Climate Change: Arguments for and against

This post is the second of a four-part series on polarised discussions in science and how to deal with misinformation. You can find Part 1 introducing the topic here, Part 3 on evolutionary biology here, and Part 4 on dealing with misinformation here.

There is a broad scientific consensus about the reality of climate change and its causes. Readers starting off on this topic have plenty to choose from to get them started, for example Climate Change: What Everyone Needs to Know (Romm, 2015), Climate Change: A Very Short Introduction (Maslin, 2014), or the rather whimsical Ladybird Expert book Climate Change (Juniper & Shuckburgh, 2017). Al Gore thrust the topic into the limelight with An Inconvenient Truth: The Planetary Emergency of Global Warming and What We Can Do about It (2006). For those who want the full picture, there is Climate Change 2014 (IPCC, 2015), the fifth series of reports by the Intergovernmental Panel on Climate Change (IPCC). The IPCC operates under the auspices of the United Nations, and was set up at the request of member The Discovery of Global Warminggovernments in 1988. Global Warming: Understanding the Forecast (Archer, 2011) is an excellent starting point to help readers understand the science behind the assessment reports. Another valuable contribution is The Discovery of Global Warming (2008), written by science historian Spencer R. Weart, one of the few books charting the historical development of climate science.

But the science is only one facet of climate change; this spills over into politics and policy. Despite decades of research by scientists and an expanding body of evidence, the world at large, both its leaders and everyday individuals, seem unable to make much headway in addressing the issue, and unable to agree what the best way forward is. A good starting point analysing this from many sides is The Oxford Handbook of Climate Change and Society (Dryzek et al. 2011). William Nordhaus is one of several economists to have written about policies implemented so far (and their ineffectiveness) in The Climate Casino: Risk, Uncertainty, and Economics for a Warming World (2013). Other books have been written offering explanations as to why we seem unable to act, tapping into psychological and sociological aspects, for example Living in Denial: Climate Change, Emotions, and Everyday Life (Norgaard, 2011), Requiem for a Species: Why We Resist the Truth About Climate Change (Hamilton, 2010), and Why We Disagree about Climate Change: Understanding Controversy, Inaction and Opportunity (Hulme, 2009). And plenty of authors have issued calls to action, ranging in tone from polemic (This Why We Disagree About Climate ChangeChanges Everything: Capitalism vs. the Climate (Klein, 2014)), to ominous (Storms of My Grandchildren: The Truth About the Coming Climate Catastrophe and Our Last Chance to Save Humanity (Hansen, 2009)) to seemingly fatalistic (Too Late: How We Lost the Battle with Climate Change (Maslen, 2017), Defiant Earth: The Fate of Humans in the Anthropocene (Hamilton, 2017), or Reason in a Dark Time: Why the Struggle Against Climate Change Failed, and What It Means for Our Future (Jamieson, 2014)).

Part of the reason there is still no clear progress is that there is still plenty of scepticism. Broadly speaking, the sceptics belong to one of two groups.

On the one hand there are the ‘reasonable’ sceptics who bring valuable contributions to the debate. These authors do not deny that climate change is happening, but are critical of model predictions (though see A Vast Machine: Computer Models, Climate Data, and the Politics of Global Warming (Edward, 2010) for a good rebuttal of that argument), and the efficacy of proposed policies to address the issue. Good starting points are An Appeal to Reason: A Cool Look at Global Warming (Lawson, 2008), or The Climate Fix: What Scientists and Politicians Won’t Tell You About Global Warming (Pielke, 2010). The latter has also published a short book that is sceptical of the oft-heard claim that climate change will increase natural disasters. His analysis, presented in The Rightful Place of Science: Disasters and Climate Change (Pielke, 2014), concludes that these claims are not borne out by the evidence. The Lomborg DeceptionIn short, there are simply more people and more property in harm’s way, giving the impression that natural disasters have become worse. Even Bjørn Lomborg in The Skeptical Environmentalist: Measuring the Real State of the World (2001) does not deny the reality of climate change (but see The Lomborg Deception: Setting the Record Straight About Global Warming (Friel, 2010), for a wide-ranging rebuttal of his environmental claims).

In the second group there is a vocal minority of climate sceptics and denialists who claim climate change is being exaggerated (Lukewarming: The New Climate Science that Changes Everything (Michaels & Knappenberger, 2016)), is not borne out by the evidence (Heaven and Earth: Global Warming, the Missing Science (Plimer, 2009), Global Warming – Alarmists, Skeptics and Deniers: Unstoppable Global WarmingA Geoscientist Looks at the Science of Climate Change (Robinson & Robinson, 2012)), or can be attributed to other natural causes such as long-term natural cycles (Unstoppable Global Warming: Every 1,500 Years (Singer, 2006)) or solar activity (The Neglected Sun: Why the Sun Precludes Climate Catastrophe (Vahrenholt & Lüning, 2015)). Climate Change: The Facts (Moran, 2015) bundles essays touching on these and other objections.

In their 2013 paper, Dunlap & Jacques noted that many climate change denial books (including the ones above) are published by conservative think tanks such as the Competitive Enterprise Institute, the Heartland Institute, the CATO Institute, or the Marshall Institute. Many of these think tanks receive funding from fossil fuel or other corporations, making their neutrality questionable. Though denialist books are now increasingly self-published via so-called vanity presses, Dunlap & Jacques highlight that such books are rarely peer reviewed, allowing authors to make scientifically inaccurate and discredited claims that they can keep recycling, no matter how often climate scientists have already patiently refuted these, or shown them to be logically untenable.

This leads to books on climate scepticism campaigns, as documented in the light-hearted The Madhouse Effect: How Climate Change Denial is Threatening Our Planet, Destroying Our Politics, and Driving Us Crazy (Mann, 2016), Climatology versus Pseudoscience: Exposing the Failed Predictions of Global Warming Skeptics (Nuccitelli, 2015), The Hockey Stick and the Climate Wars: Dispatches from the Front Lines (Mann, 2012), The Inquisition of Climate Science (Powell, 2011), Climate Change Denial: Heads in the Sand (Washington & Cook, 2011), Merchants of Doubt: How a Handful of Scientists Obscured the Truth on Issues from Tobacco Smoke to Global Warming (Oreskes & Conway, 2010), and Climate Cover-Up: The Crusade to Deny Global Warming (Hoggan & Littlemore, 2009).

Within the welter of claims and counter-claims, Michael Mann has, and continues to be, a key protagonist, starting with his famous paper in Geophysical Research Letters that contained a figure showing global temperature change over the past 1,000 years, the “hockey stick graph”. The graph rapidly became an icon in the efforts to undermine the credibility of climate science and the researchers involved (see for example “A Disgrace to the Profession” (Steyn, 2015), or The Hockey Stick Illusion: Climategate and the Corruption of Science (Montford, 2010)). When in November 2009 thousands of emails from the Climatic Research Unit at the University of East Anglia were released during a server hack – an episode that became known as “Climategate” – Mann once again found himself the centre of attention. Snippets from these emails, some of which included correspondence with Mann, were rapidly taken up by popular media, with sceptics arguing they showed global warming was a scientific conspiracy and scientists were manipulating climate data. No fewer than eight committees, both in the US and the UK, investigated these allegations and found no evidence of fraud or misconduct. Mann covers this in his books, but also see The Climate Files: The Battle for the Truth about Global Warming (Pearce, 2006).

One final point worth mentioning on this topic, as often pointed out by climate scientists, is that even if things do not pan out as bad as we feared, given the potentially devastating impact, we should heed the precautionary principle, as laid out in Philosophy and the Precautionary Principle: Science, Evidence, and Environmental Policy (Steel, 2014).

Click here for Part 3, which looks at the discussion surrounding evolutionary biology.

On Truth and Post-Truth in Science

This post is the first of a four-part series on polarised discussions in science and how to deal with misinformation. You can find Part 2 on climate change here, Part 3 on evolutionary biology here, and Part 4 on dealing with misinformation here.

Oxford Dictionaries
proclaimed ‘post-truth’ as the international ‘word of the year’ in 2016, on the back of Michael Gove’s ‘Britain has had enough of experts – a defining moment of last year’s BREXIT referendum – and the incessant flow of claims and counter-claims during the US presidential election. It’s kept the commentariat busy, giving rise to at least one superb analysis (listen in to Jo Fidgen on the BBC Radio 4’s Nothing But the Truth) and some dark humour (the spoof ‘Mordor National Park’ twitter account set up in January, ‘We’d like to repeat again that yes, open campfires are allowed in Mordor National Park. Everything here is on fire.’).

But in the world of books on evolution, ecology, conservation, and climate change, ‘post-truth’ is not new. It’s 16 years since the publication of the first English edition of Bjørn Lomborg’s The Skeptical Environmentalist: Measuring the Real State of the World (2001), which (publisher’s blurb) ‘challenges widely held beliefs that the environmental situation is getting worse’; 36 years since Julian Simon wrote The Ultimate Resource (1998), arguing that humanity is not running out of natural resources; and 158 years since Charles Darwin unveiled his theory of evolution in On the Origin of Species (1859; 150th Anniversary Edition, Darwin & Endersby, 2009), triggering intense debate, disagreement, vitriol and accusations of lying that make today’s disputes look positively placid by comparison.

Our view on these issues is at once simple and complicated. As a company we are staunch believers in evolutionary theory, and the truth of findings from climate science that show how dangerous global warming is a consequence of humanity’s burning of fossil fuels, and of the loss and degradation of forests and other terrestrial ecosystems. But our staff and our customers will have their own views; as is right and proper.

Our purpose in this four-part series is to highlight recent publications that help readers think more critically, recognise pseudoscience, and deal with the large amount of spin, misinformation, and created controversies that pollute these discussions. In the process, we will give a brief overview of two areas that are the subject of intense and polarised public debate: climate science and evolution. As we wish to inform rather than rant, our selection of books includes views from various sides of the debates. Lest there be any doubt in the mind of the reader, this does not mean that we endorse all these views, or are planning to catalogue a wider range of books to give a platform to them. But, for the purpose of this piece, we feel we would do the reader no service by ignoring their existence.

Click here for Part 2, which looks at the discussion surrounding climate change.