The second edition of this guide is written to explain the key concepts of tectonics and rock structures to students and to interested amateurs. I have reviewed a number of Graham Park’s books in recently years (see below) and he is clearly a prolific and excellent writer of books about the earth sciences.

In this second edition, Dougal Jerram has revised and updated the 2001 version, first published by Alwyn Scarth and Jean-Claude Tanguy. This is to reflect modern research and understanding of Europe’s volcanoes of the last 10,000 years (active, dormant and extinct).

Ever since Charles Darwin pointed out the problem, evolutionary biologists have been worried by the incompleteness of the fossil record. Fortunately, discoveries of formations containing exceptionally preserved fossils (conservation Lagerstätten) have provided fascinating and important information on the history life’s diversity.

I love the Scottish Highlands and I am proud to say that I have climbed many of the mountains covered in the glossy hardback. But, as I say in the other book review on this page, it is more than a picture book. It contains some excellent and fascinating science explaining their outstanding beauty.

By David N Thomas and David G Bowers The extent to which our planet is covered by oceans and seas (about 70%), and the increasing concern that right-minded people have about climate change, means that there is a both a desire and an urgent need…

I like fossils, but it is always nice to have a brief but informative guide to the actual science behind one’s finds. And this Dunedin guide certainly fits the bill for amateurs and undergraduates alike.

Sea level change is something that probably everyone who does their best to keep up to date about climate change, thinks they know about and on which they will have an opinion. However, this guide clearly shows that there are important misconceptions about the topic, and recent newspaper articles, TV and radio presentations unfortunately tend to bear little relation to reality.

In recent years, Graham Park has been prolific in his writing for Dunedin Academic Press. In this new tome, he has produced what I suspect is a really great introduction to a range of key concepts and geological processes for both undergraduates and the interested, moderately well-informed amateur.

This 4th edition is the first edition of this book to be published with full colour illustrations throughout, and is presented as an enhancement and revision to the text to reflect advances in sedimentology since the publication the 3rd edition. Therefore, I suspect that it retains its place as a leading geological text and reference book for professional geologists and students alike.

I really like the ‘Introducing ….’ series publish by Dunedin Academic Press, as you will have ascertained, if you have read the many reviews I have included in this magazine. This second edition of Introducing Sedimentology by Stuart Jones updates the version I reviewed a while ago (see Book review: Introducing Sedimentology, by Stuart Jones), and I found it equally enjoyable.

I have to admit that I hadn’t heard of ‘hydrogeology’ before, but I should have. Hydrogeology is an important and vibrant sub-set of geological science, dealing with the distribution and movement of water –groundwater – in the Earth’s soil and rocks. Groundwater transport is one part of the overall hydrological cycle in which water is transferred by evaporation from the oceans and seas into the atmosphere.

I have reviewed some excellent previous guides in this series (Iceland: Classic Geology in Europe 3), but this one is closer to home and covers an area that I have fond memories of from my Munro-bagging days. This is more a companion guide for those walking in the Highlands, especially those on geological field trips.

Dunedin Academic Press has once again added a title to its series of introductions to scientific subjects. This one is a short introduction to an essential subject to any budding geologist (essential, because, as the author points out, 70% of the rocks on the Earth’s service are sedimentary in origin and are of the utmost economic importance to all of us.

Recently, I have finished the Great Silurian Controversy, a magnificent book about the nineteenth century arguments over the age of the lower Palaeozoic greywackes/sediments of Devon, and the creation of the concept of the Devonian. And reading The Lewisian: Britain’s oldest rocks by Graham Park, it occurs to me that this should perhaps be called, The Great Lewisian Controversy. It shares the same historical and scientific intentions, and the same grand sweep of scientific history, this time from the early twentieth century – namely, the exploration over decades of the geology of the Lewisian of northwest Scotland.

I remember reading and enjoying this book when the first edition came out many years ago. I am also a keen hillwalker and have stood on top of many of the Scottish mountains referred to in the text. In fact, I particularly enjoyed climbing Ben More on the island of Mull, which I remember reading was the last volcano in northwest Europe.

For anyone like me who finds the immensity of geological time (‘deep time’) both fascinating and fundamentally difficult – both emotionally and intellectually – this is a great book. Paul Lyle has written it for environmentalists and policy makers to help them explain their concerns and decisions more clearly in the context of geological time, but these are not the only people who should read it.

Howgill Fells

This little guide contains excursion guides explaining and exploring the relationship in the UK between hillslope gully erosion and the response by stream and valley systems within the Howgill Fells of Cumbria. The author’s choice of this area rests on the fact that it is one of the most active landscapes in Britain from the point of view of erosion, with the steep slopes of the headwater valleys, which are riddled by networks of erosional gullies that have been active in the relatively recent past.

Normally, I wouldn’t be interested in semi-precious stones and other pretty things. Personally, I prefer grubbing around in the dirt, perhaps for those far more beautiful, elusive and perfectly formed Cretaceous terebratulids or Silurian trilobites. However, some semi-precious stones have the advantage of also providing a tangible link to the ancient history of life that is so fascinating.

Almeria is a province in southeast Spain, situated in the furthest southeast part of the Iberian Peninsula. And it is a classic area for southern European and Mediterranean Neogene and Quaternary geology. In fact, it is not far north of the southern boundary of the European tectonic plate and, as a result, has been profoundly affected by the interaction of this and the African plate.