Browse Our 2018 Brain & Behavior Catalog

Our new Brain & Behavior catalog includes an examination of the science behind first impressions, an analysis of the problems plaguing psychology today, and a unique look at the role social communication played in evolution.

If you plan on attending the Society for Neuroscience in DC this weekend, please join us at Booth 114, or stop by any time to see our full range of brain & cognitive science titles and more.


Face Value

We make up our minds about others after seeing their faces for a fraction of a second—and these snap judgments predict all kinds of important decisions. For example, politicians who simply look more competent are more likely to win elections. Yet the character judgments we make from faces are as inaccurate as they are irresistible; in most situations, we would guess more accurately if we ignored faces. So why do we put so much stock in these widely shared impressions? In this book, Alexander Todorov, one of the world’s leading researchers on the subject, answers these questions as he tells the story of the modern science of first impressions.

Drawing on psychology, cognitive science, neuroscience, computer science, and other fields, this accessible and richly illustrated book describes cutting-edge research and puts it in the context of the history of efforts to read personality from faces. A fascinating scientific account of first impressions, Face Value explains why we pay so much attention to faces, why they lead us astray, and what our judgments actually tell us.

The Neuroscience of Emotion presents a new framework for the neuroscientific study of emotion across species. Written by Ralph Adolphs and David J. Anderson, two leading authorities on the study of emotion, this accessible and original book recasts the discipline and demonstrates that in order to understand emotion, we need to examine its biological roots in humans and animals. Only through a comparative approach that encompasses work at the molecular, cellular, systems, and cognitive levels will we be able to comprehend what emotions do, how they evolved, how the brain shapes their development, and even how we might engineer them into robots in the future.

The origins of human language remain hotly debated. Despite growing appreciation of cognitive and neural continuity between humans and other animals, an evolutionary account of human language—in its modern form—remains as elusive as ever. The Social Origins of Language provides a novel perspective on this question and charts a new path toward its resolution.

A look at avian intelligence with Nathan Emery

EmeryWhat really goes on inside the mind of a bird? Are these creatures as simplistic as the expression “bird brain” would have us believe? In Bird Brain: An Exploration of Avian Intelligence, Nathan Emery shines new light on the minds of birds, offering insight into their sophisticated neurological functions and the diverse behaviors these functions give rise to. An extraordinary work of cognitive biology, Bird Brain uncovers an array of unexpected abilities including mental time travel, self-recognition, empathy, problem solving, imagination, and insight. Recently, Emery took the time to talk with us about avian intelligence, why it has long been misunderstood, and how he first became hooked on birds.

Can you tell us something about how you go into studying avian intelligence?

NE: I completed undergraduate degree in Neuroscience at the University of Central Lancashire in the northwest of England. Then I moved north of the border to do my PhD studying face responsive neurons and social signals in primates at the University of St Andrews. After that, I moved to UC Davis in California for 3 years to work on an animal model of autism, that didn’t exactly work out as expected, but it did result in me meeting my future wife, Nicky Clayton. We moved to Cambridge in 2000, me continuing my neuroscience research at the Sub-department of Animal Behaviour, where both Jane Goodall and Dian Fossey did their PhDs; Nicky as a lecturer in the Department of Psychology. It was at Cambridge that I started getting focusing on birds instead of monkeys.

How did you become interested in birds?

NE: My wife Nicky got me hooked on birds. I was never a birdwatcher, I didn’t keep a pet parrot, and it would be fair to say that I’d never really considered them, except as a tasty meal at Christmas. Nicky has worked with birds for her entire career, first studying bird song for her PhD, then concentrating on spatial memory and caching behaviour. I was writing a review paper on how different animals use eye gaze as a social signal. I didn’t know what to say about birds, as my knowledge up to that point had been entirely about primates. She made me see the light! She told me dozens of fascinating facts about birds. I was hooked and haven’t turned back. My review completed from a new perspective, Nicky and I collaborated on a project looking at whether scrub-jays appreciated that others were watching where they cached, and whether they protected their caches from these potential thieves. This lead to our first joint paper, which we were lucky enough to get into the highly prestigious journal Nature a few months after we got married. It was published on our joint birthday, probably the first, and possibly the last occasion this happened to a paper in Nature! In the 15 years since, I’ve not looked back on either front, and now my research is entirely on birds.

How did you get involved in writing Bird Brain?

NE: I’ve wanted to write a popular book on avian intelligence for about 10 years, but things always seemed to get in the way. Then I was approached by Ivy Press to write a chapter on avian brains for an edited book they were putting together. My wife was asked to edit it, but she didn’t want to do so, so suggested me. I was keen, but then thought ‘why don’t I just write the whole thing myself?’ Ivy agreed, so that’s what I did. I had already arranged a year long sabbatical from work, so switched focus from the experiments I’d planned, to writing the book.

The book is beautifully designed and illustrated. Did you have any input into how it looks?

NE: One of the reasons I was excited to be working with Ivy Press (the UK publisher of Bird Brain) was their reputation for producing beautiful books with a specific focus on design.

They were producing some very attractive nature and science books for a popular audience, and I really liked what they had planned for this project as it tallied with my own ideas. I’ve always been interested in illustration. At that crucial point in my life when I had to choose what I was going to study, I had to decide between science and science illustration. I chose science, but have always tried to incorporate illustration into my science work – whether the design of my lectures or talk slides, the illustrations in papers or even the design of problem-solving tasks. This project was a dream come true. I designed and drew all the illustrations in the book (except for three) using Photoshop, but they were then changed into a style more consistent with other Ivy books by three great illustrators. I do get credited for Illustration Concept, but would love to illustrate my own books in the future.

It’s quite unusual to see detailed brain wiring diagrams and experiments illustrated in a popular science book. Was this something you had in mind from the start?

NE: Yes. Jacqui Sayers, the book’s original editor was very keen on doing something visually different with the book, to try and make some of the arcane aspects of science more accessible to the public. I tried to illustrate the various steps in an experiment in a way that could be easily understood. We also tried not to dumb down how the information is presented, which is why there are quite a few complex diagrams detailing the avian brain’s wiring patterns. Also, it is called Bird Brain! However, the brain is said to be the most complicated object in the known universe, so it would be a travesty to present it too simply. We think we’ve achieved the right balance.

Why do you think birds have been maligned for so long?

NE: The term ‘birdbrain’ is part of our language. Our ancestors knew more about the capabilities of our feathered cousins than we did, until very recently. They feature as the clever protagonists of many fables and legends, including origin stories concerning the beginning of the world. Although somewhat fanciful, there is a lot of truth – at least in terms of their behaviour and intelligence – about these birds. A bigger issue is that most people have little experience of birds, outside of pigeons, chickens, ducks and sparrows, and they wouldn’t know what constitutes intelligence. You see an animal using a tool, such using a stick to move food into reach, and it is easy to use your own experience to understand that this requires some intelligence. This is possibly why a video of a New Caledonian crow solving a problem requiring 8 different steps has received over 10 million hits on YouTube. It just looks clever. Compare that to a study of long-term memory, such as remembering where something was hidden 6 months ago. This doesn’t translate very well to a single video. All the relevant information about what maybe going on in the bird’s mind when it’s recovering a memory of a past caching event, such as ‘where or when did I hide that worm?’ is hidden in the details of the experiment rather than a video clip. Our perception of all animals is guided by what we see in front of us, and its relationship to our past experiences. Unfortunately, our day-to-day view of the natural world is not enhanced by a Sir David Attenborough voice over. This clouds our view of an animal’s intelligence more than any particular aspect of their behaviour.

What would you say were your most important findings about clever birds?

NE: There are three pieces of research of which I’m the proudest. The first is the study that I mentioned earlier, that scrub-jays are protective of their caches by implementing different strategies to reduce the chance of them being pilfered. The most intriguing fact about this, is that not all scrub-jays do this. It’s not an innate response to being watched. Only birds that have previous experience of being thieves protect their caches – it takes a thief to know a thief! Birds without such experience, do not protect their caches. They are too naïve to know that the world is a bad place until they experience otherwise. This finding has been proposed as evidence that jays have a theory of mind – thinking about another’s thoughts. However, I’m not sure that this is akin to human theory of mind or a process that is special to creatures who cannot speak.

The second finding is a series of studies on tool-related cognition in rooks; namely whether they are capable of creating novel tools to solve unique problems, such as bending a wire to reach and pull up a bucket containing a treat, or placing stones into a water-filled tube to raise the water level to reach a treat floating on the surface. There is no evidence that rooks use tools in the wild, so it is striking that in captivity they can do things that great apes have yet to demonstrate. One of my greatest loves is designing experiments, especially new cognitive tasks. I have notebooks filled with my experimental designs, and we’re currently testing the problem-solving abilities of the famous ravens at the Tower of London using some of these new designs. It’s extremely rewarding when others adopt your tasks, especially when they add their own improvements and test them on their own species. One case is the Water Displacement Task, my ex-PhD student Chris Bird and I adapted from Aesop’s Fable ‘The Crow and the Pitcher’, that has now been used to test rooks, New Caledonian crows, Eurasian jays, western scrub-jays, grackles and young children. It’s one of the challenges of comparative psychology to develop tasks that assess cognitive differences across species that aren’t based on simpler factors, such as visual acuity or manual dexterity. Certainly for birds, the Aesop’s Fable Task appears to be achieving this aim.

The final contribution for which I’m proudest is not the result of an experiment, but an idea. Nicky and I wrote a review paper in the journal Science in 2004 in which we proposed that crow and ape intelligence is an example of convergent evolution – namely that complex cognition evolved in these distantly related animals due to facing similar selection pressures, such as living in complex social groups or having to find and process a range of foods, some that are difficult to acquire or with external defences. This idea lead to me coining the term ‘feathered apes’ for corvids. It is gratifying to see this has become part of the scientific furniture where the general public just accepts that crows are smart, and just as smart as apes, dolphins and elephants.

Nathan Emery is Senior Lecturer in Cognitive Biology at Queen Mary University of London, UK has studied the intelligence of corvids, and parrots, as well as apes and monkeys for the last 20 years. Emery is the co-editor Social Intelligence: From Brain to Culture and The Cognitive Neuroscience of Social Behaviour, and is on the editorial board of the journals. He is the author of Bird Brain: An Exploration of Avian Intelligence, a visually stunning guide to the brain, behaviour and cognition of our feathered friends. Emery’s work has been extensively covered by international newspapers and magazines, in books, and on TV. He is currently working with the ravens at the Tower of London.