In recent decades, the central and integrating role of evolution in all of biology was reinforced, as the principles of evolutionary biology were integrated into other biological disciplines, such as developmental biology, ecology, and genetics. Major new fields emerged, among which are Evolutionary Developmental Biology (or Evo-Devo) and Ecological Developmental Biology (or Eco-Devo). Cell biology is a rich field in biology with a long history. In recent years, cell biologists have asked questions whose answers require insights from evolutionary history. Integrating evolutionary and cellular biology has the potential to generate new theories of cellular function and to create a new field. The Evolutionary Cell Biology book series was initiated to foster the emergence of this synergy. Given this conceptual basis and the advances in genetic analysis and visualization of cells and their organelles, cell biology is poised to be transformed by embracing the approaches of Evo-Devo — cells provide the link between genotype and phenotype, both during development and in evolution. Books in the Evolutionary Cell Biology series will further this transformation.
Evolutionary Cell Biology Editorial Board
Michael Hadfield (University of Hawaii, Honolulu, USA)
Kim Cooper (University of California, San Diego, USA)
Mark Martindale (University of Florida, Gainesville, USA)
David M. Gardiner (University of California, Irvine, USA)
Shigeru Kuratani (Kobe University, Japan)
Nori Satoh (Okinawa Institute of Science and Technology, Japan)
Sally Leys (University of Alberta, Canada)
Open Access makes published academic research freely and permanently available online for anyone, anywhere. OA publications are downloaded 7 times more often, cited 50% more, and mentioned online 10 times more often. Upon publication, OA content is made available in digital format to read and download under a Creative Commons license.
Options are available to editors, authors and contributors to the series. See https://www.routledge.com/our-products/open-access-books/taylor-francis-oa-books for more information and frequently asked questions with respect to these options or contact Chuck Crumly, Senior Acquisitions Editor, at [email protected] for more details.
Edited
By David W. Pfennig
December 15, 2022
Phenotypic plasticity – the ability of an individual organism to alter its features in direct response to a change in its environment – is ubiquitous. Understanding how and why this phenomenon exists is crucial because it unites all levels of biological inquiry. This book brings together ...
Edited
By Matthew D. Herron, Peter L. Conlin, William C. Ratcliff
June 08, 2022
Among the most important innovations in the history of life is the transition from single-celled organisms to more complex, multicellular organisms. Multicellularity has evolved repeatedly across the tree of life, resulting in the evolution of new kinds of organisms that collectively constitute a ...
Edited
By Bernd Fritzsch, Karen L. Elliott
May 09, 2022
This book is an overview of primary sensory maps of vertebrates, characterized by continuous and discrete properties. The eight primary sensory maps of vertebrates have unique features and use distinct molecular cues, cell cycle exit, and activity combinations during development, regeneration, and ...
By P. Eckhard Witten, Brian K. Hall
April 29, 2022
Although it is the defining organ of the Chordata, the notochord and its cells are one of the least understood vertebrate organs. This may be because large parts of the notochord are often replaced with cartilaginous or bony vertebral bodies. The presence of cartilage in the notochord raises ...
Edited
By Thomas C. G. Bosch, Michael G. Hadfield
April 29, 2022
This book examines how the growing knowledge of the huge range of protist-, animal-, and plant-bacterial interactions, whether in shared ecosystems or intimate symbioses, is fundamentally altering our understanding of biology. The establishment and maintenance of these interactions and their ...
Edited
By Brian Frank Eames, Daniel Meulemans Medeiros, Igor Adameyko
April 29, 2022
Vertebrates possess lineage-specific characteristics. These include paired anterior sense organs and a robust, modular head skeleton built of cellular cartilage and bone. All of these structures are derived, at least partly, from an embryonic tissue unique vertebrates - the neural crest. The ...
Edited
By M. Kathleen Pitirri, Joan T. Richtsmeier
September 29, 2021
Many complex traits define the human condition, including encephalization and bipedalism. The specific molecular signals and cellular processes producing these traits are the result of dramatic evolutionary change. At the same time, conservation of many of these developmental programs underlie both...
Edited
By M. Kathleen Pitirri, Joan T. Richtsmeier
September 29, 2021
Many complex traits define the primate condition, including behaviors as fundamental as locomotion and traits as scrutinized as the dentition, and their study reveals dramatic evolutionary change across the primates. Genetic modifications are at the basis of these changes, but transformation of ...
Edited
By M. Kathleen Pitirri, Joan T. Richtsmeier
September 29, 2021
These two volumes demonstrate the role of cellular mechanisms in the production of the many specialized traits defining primates. By exploring gene activity transforming into evolutionary change through the work of cellular mechanisms, the goal is to encourage others to adopt evolutionary cell ...
By Gerhard Schlosser
July 06, 2021
Most of the cranial sense organs of vertebrates arise from embryonic structures known as cranial placodes. Such placodes also give rise to sensory neurons that transmit information to the brain as well as to many neurosecretory cells. This book focuses on the development of sensory and ...
By Gerhard Schlosser
July 06, 2021
Most of the cranial sense organs of vertebrates arise from embryonic structures known as cranial placodes. Such placodes also give rise to sensory neurons that transmit information to the brain as well as to many neurosecretory cells. This book focuses on the development of sensory and ...
By Gerhard Schlosser
June 18, 2021
Most vertebrate cranial sense organs arise from placodes. These placodes give rise to sensory neurons that transmit information to the brain and neurosecretory cells. This book reviews the evolutionary origin of the sensory and neurosecretory cell types. It summarizes our current understanding of ...
