The vertebrate integument. Volume 2, Structure, design and function [electronic resource] / Theagarten Lingham-Soliar.
2015
QL941
Linked e-resources
Linked Resource
Online Access
Concurrent users
Unlimited
Authorized users
Authorized users
Document Delivery Supplied
Can lend chapters, not whole ebooks
Details
Title
The vertebrate integument. Volume 2, Structure, design and function [electronic resource] / Theagarten Lingham-Soliar.
ISBN
9783662460054 electronic book
366246005X electronic book
9783662460047
366246005X electronic book
9783662460047
Published
Heidelberg ; New York : Springer, [2015]
Language
English
Description
1 online resource : illustrations
Other Standard Identifiers
10.1007/978-3-662-46005-4 doi
Call Number
QL941
Dewey Decimal Classification
591.47
Summary
The emphasis in this volume is on the structure and functional design of the integument. The book starts with a brief introduction to some basic principles of physics (mechanics) including Newtonℓ́ℓs Three Laws of Motion. These principles are subsequently used to interpret the problems animals encounter in motion. It is in only the last 40 or so years that we have begun to understand how important a role the integument plays in the locomotion of many marine vertebrates.℗ℓ This involves the crossed-fiber architecture, which was first discovered in a classic study on nemertean worms. As a design principle we see that the crossed-fiber architecture is ubiquitous in nature. Research on some of the most dynamic marine vertebrates of the oceans ℓ́ℓ tuna, dolphins and sharks, and the extinct Jurassic ichthyosaurs ℓ́ℓ shows precisely how the crossed-fiber architecture contributes to high-speed swimming℗ℓ and (in lamnid sharks) may even aid in energy conservation.℗ℓ However, this design principle is not restricted to animals in the marine biota but is also found as far afield as the dinosaurs and, most recently, has been revealed as a major part of the microstructure of the most complex derivative of the integument, the feather. We see that a variety of phylogenetically diverse vertebrates take to the air by using skin flaps to glide from tree to tree or to the ground, and present detailed descriptions of innovations developed in pursuit of improved gliding capabilities in both extinct and modern day gliders. But the vertebrate integument had even greater things in store, namely true or flapping flight. Pterosaurs were the first vertebrates to use the integument as a membrane in true flapping flight and these interesting extinct animals are discussed on the basis of past and cutting-edge research , most intriguingly with respect to the structure of the flight membrane. Bats, the only mammals that fly, also employ integumental flight membranes. Classic research on bat flight is reviewed and supplemented with the latest research, which shows the complexities of the wing beat cycle to be significantly different from that of birds, as revealed by particle image velocimetry. The bookℓ́ℓs largest chapter is devoted to birds, given that they make up nearly half of the over 22,000 species of tetrapods. The flight apparatus of birds is unique in nature and is described in great detail, with innovative research highlighting the complexity of the flight structures, bird flight patterns, and behavior in a variety of species. This is complimented by new research on the brains of birds, which shows that they are more complex than previously thought. The feather made bird flight possible, and was itself made possible by ℓø-keratin, contributing to what may be a unique biomechanical microstructure in nature, a topic discussed in some depth. A highly polarized subject concerns the origin of birds and of the feather. Alleged fossilized protofeathers (primal simple feathers) are considered on the basis of histological and taphonomic investigative studies in Chapter 6. Finally, in Chapter 7 we discuss the controversies associated with this field of research. Professor Theagarten Lingham-Soliar works at the Nelson Mandela Metropolitan University, Port Elizabeth and is an Honorary Professor of Life Sciences at the University of KwaZulu-Natal.
Bibliography, etc. Note
Includes bibliographical references and index.
Access Note
Access limited to authorized users.
Available in Other Form
Print version: 9783662460047
Linked Resources
Online Access
Record Appears in
Online Resources > Ebooks
All Resources
All Resources
Table of Contents
Swimming and Flying in Vertebrates
Vertebrate Swimming
Vertebrates Make Their Flight Reservations
Flight by Membrane
Birds
Integumental Taphonomy
The Last Best Hope.
Vertebrate Swimming
Vertebrates Make Their Flight Reservations
Flight by Membrane
Birds
Integumental Taphonomy
The Last Best Hope.