Neanderthals have enjoyed quite the renaissance in the last decade or so, with research attributing skills and capacities to them once considered uniquely human. One of the most contested claims in this arena is language. Since (spoken) language does not fossilise, nor leave material traces in the archaeological record, the case for Neanderthal language relies on indirect evidence. In this book, linguist Rudolf Botha takes a hard-nosed look at why this matter is so controversial and offers a framework to properly tackle it.
We all have a pretty good idea of what a volcanic eruption looks like, but they are only the surface expression of a much larger and longer underground process that is hidden from view. The internal workings of a volcano, its plumbing if you will, are studied by the relatively new scientific discipline of volcanotectonics. Icelandic volcanologist Agust Gudmundsson has been researching and teaching this topic for two decades and here delivers the field’s first textbook. In preparation, I beefed up my knowledge base by first reviewing a introductory volcanology textbook, but it almost was not necessary—Volcanotectonics turned out to be exceptionally instructive and accessible.
With the COVID-19 pandemic shaping up to be one of the most influential public health crises in living memory, it was only a matter of time before books would be written about it. One of the first to make it to press is Understanding Coronavirus by systems biologist and bioinformatician Raul Rabadan. Amidst the swirl of dubious and outright false information that is circulating, there is desperate need for a book that clears up misconceptions and gives a concise introduction to what we know about the virus so far. Given that he spearheaded research in 2009 that confirmed the animal origin of swine flu, Rabadan seems like the right man for the job. Is this the primer that everybody should have on their bedside table?
After I reviewed Joy McCann’s book Wild Sea I became fascinated with the three-dimensional nature of ocean currents. She captivated my imagination with her vivid description of the formation of bodies of heavy, cold water plunging into the abyss around Antarctica. So when Cambridge University Press announced this textbook it seemed like the perfect opportunity to dive deeper into this topic.
Since it was coined in the year 2000 by Paul Crutzen and Eugene Stoermer, the term “Anthropocene” has taken the world by storm – pretty much in the same way as the phenomenon it describes. Humanity’s impact on the planet has become so all-encompassing that it warrants giving this period a new name. As a colloquial term that is all snazzy, but are we actually leaving a tangible trace in the rock record to signal a transition to a new period?
The question of the tempo of evolution cuts right to the heart of evolutionary theory. Emeritus professor in evolutionary biology (and a list of other disciplines) Philip D. Gingerich here takes an empirical stab at quantifying how fast evolution happens, something which has not been done very often. The resulting Rates of Evolution is a technical monograph for an academic audience that contains thought-provoking ideas.
Planet Earth’s many landforms can be breathtaking to behold. Plate tectonics has given us a basic framework to explain their formation, but there is far more to this story than that. I recently mentioned wanting to learn more about geology, having shunned the subject in favour of biology at university. So, fascinated by photos of folded rocks that look like so many layered cakes that had an accident in a bakery, and freshly armed with some basic knowledge of geology after my recent review of Essentials of Geology, Haakon Fossen’s Structural Geology seemed like a good starting point to deepen my knowledge further.
This book is an example of what happens when you go down rabbit holes. I have been reading several books on the subject of palaeontology and geology lately, and I know that the face of the earth has shifted over the hundreds of millions of years of deep history covered in these books. But where were all the continents at different times? Many will have seen the iconic maps of the supercontinent Pangaea. But I want to know more. What happened in between? And before? As Nield tells in Supercontinent: 10 Billion Years in the Life of Our Planet, Pangaea was only one of several such supercontinents in Earth’s history. But I want to know more still. Where exactly were the continents located? And how did they move? Several accessible books have provided snapshots of iconic moments, such as the formation of the Himalayas (Mike Searle’s Colliding Continents: A Geological Exploration of the Himalaya, Karakoram, & Tibet) or the disappearance of the Tethys ocean (Dorrik Stow’s Vanished Ocean: How Tethys Reshaped the World). But I want to know more! This technical reference work contains lots of fantastic palaeogeographical maps that answered all my questions.
Most people would agree that it is important to conserve wildlife and the environment it lives in. But can you clearly articulate why? Defending Biodiversity brings together an ecologist and two philosophers to critically examine the arguments environmentalists often put forward in favour of biodiversity conservation. Because, as they point out, a lot of these arguments are not very strong, and sometimes conflict with each other, or with other parts of what environmentalists wish to achieve. Now, before you get all worked up, all three authors strongly believe that biodiversity ought to be conserved, and this book is not an attack on environmentalists or biodiversity conservation. They are careful to avoid being unnecessarily controversial with this book. Rather, they want to help environmentalists improve and strengthen their arguments and to become more persuasive in debates.
It has become cliché to say that we know more about the surface of Mars than we do about the depths of our oceans, inaccessible as they are to us landlubbers. Nevertheless, technological advances have allowed us to discover more and more about the denizens of the deep. Anyone who has watched Blue Planet II or similar recent documentaries can testify to the bizarre and wonderful life forms that can be found there.