The Choanoflagellates : Evolution, Biology and Ecology
Choanoflagellates have three distinctive claims to fame: they are the closest, living, unicellular relatives of animals; they are a major component of aquatic microbial foodwebs; and one group is remarkable for its siliceous basket-like coverings. This landmark book offers a unique synthesis of over forty years of choanoflagellates research. Key areas are covered, from the phylogenetic evidence supporting the sister-group relationship between choanoflagellates and Metazoa, to choanoflagellate distribution and diversity in marine and freshwater environments. The structure and assembly of choanoflagellate loricae is also presented together with a full discussion of a novel example of 'regulatory evolution', suggesting that the switch from nudiform to tectiform cell division and lorica production was achieved by a sudden reorganisation of existing structures and mechanisms. Providing an authoritative summary of what is currently known about choanoflagellates, this title will serve as a foundation upon which future research and discussion can take place.
- Online resource
- 18 Dec 2014
- Cambridge University Press (Virtual Publishing)
- Cambridge, United Kingdom
- 470 b/w illus. 43 tables
'We look around and see a world full of animals, plants and fungi, but our eyes our deceptive. Most life on Earth is microscopic. Amongst the great diversity of single-celled life, the choanoflagellates deserve our special attention. As well as being important ecologically, choanoflagellates occupy a position of pivotal significance in the evolution of life. They are the closest single-celled relatives of the animal kingdom. To understand how animals evolved, we must study choanoflagellates. In this landmark book, Barry Leadbeater ranges from ecology and evolution, through to cell biology and ultrastructure, to reveal the secrets and the significance of these important and amazingly beautiful organisms.' Peter Holland, University of Oxford 'Leadbeater is the world's foremost authority on choanoflagellates and has crafted a beautifully-written and fascinating treatment of their biology, diversity, and potential to reveal the protozoan ancestry of animals. The reader's journey starts in the mid-1800s, with Leadbeater providing a definitive history of the discoveries, missteps, controversies, personal rivalries and ultimate resolutions of important questions surrounding the early study of these important organisms. From there, Leadbeater provides an exhaustive accounting of what is currently known about the cell biology, physiology, ecology, and evolution of choanoflagellates, while also pointing out the many mysteries and outstanding questions that remain. The community of choanoflagellate researchers is growing, in large part due to the foundational research of Barry Leadbeater, and this book will be essential reading for all those interested in the lessons that choanoflagellates have to teach us about animal origins, microbial ecology, and the regulation of complex cellular ultrastructures.' Nicole King, University of California
About Barry S. C. Leadbeater
Barry S. C. Leadbeater is a retired Reader in Protistology at the University of Birmingham. His academic research interests include: ultrastructure, physiology and ecology of algae and protozoa, whereas his biotechnological research interests include: algae and water quality; physiology of algal/protistan biofilms and biological aspects of water treatment processes. He has authored and co-authored over 80 papers, edited five books and, presently, he is a monitoring editor of the journal Protist.
Table of contents
Preface; 1. Historical perspectives; 2. The collared flagellate: functional morphology and ultrastructure; 3. Craspedida: choanoflagellates with exclusively organic coverings; 4. Loricate choanoflagellates: Acanthoecida; 5. Loricate choanoflagellates: requirement for silicon and its deposition in costal strips; 6. Loricate choanoflagellates: Acanthoecidae - nudiform species; 7. Loricate choanoflagellates: Stephanoecidae - tectiform species; 8. Loricate choanoflagellates: evolutionary relationship between the nudiform and tectiform conditions; 9. Choanoflagellate ecology; 10. Choanoflagellate phylogeny: evolution of metazoan multicellularity; Glossary; Figure credits; References; Index.