Evolutionary Developmental BiologySpringer Science & Business Media, 06 դեկ, 2012 թ. - 491 էջ Although evolutionary developmental biology is a new field, its origins lie in the last century; the search for connections between embryonic development (ontogeny) and evolutionary change (phylogeny) has been a long one. Evolutionary developmental biology is however more than just a fusion of the fields of developmental and evolutionary biology. It forges a unification of genomic, developmental, organismal, population and natural selection approaches to evolutionary change. It is concerned with how developmental processes evolve; how evolution produces novel structures, functions and behaviours; and how development, evolution and ecology are integrated to bring about and stabilize evolutionary change. The previous edition of this title, published in 1992, defined the terms and laid out the field for evolutionary developmental biology. This field is now one of the most active and fast growing within biology and this is reflected in this second edition, which is more than twice the length of the original and brought completely up to date. There are new chapters on major transitions in animal evolution, expanded coverage of comparative embryonic development and the inclusion of recent advances in genetics and molecular biology. The book is divided into eight parts which:
With over one hundred illustrations and photographs, extensive cross-referencing between chapters and boxes for ancillary material, this latest edition will be of immense interest to graduate and advanced undergraduate students in cell, developmental and molecular biology, and in zoology, evolution, ecology and entomology; in fact anyone with an interest in this new and increasingly important and interdisciplinary field which unifies biology. |
From inside the book
Արդյունքներ 84–ի 1-ից 5-ը:
Էջ 14
... analysis of the role of ontogeny in systematics , encapsulated the dichotomy beautifully : ' Any change in the ' rules of construction ' , changing the developmental patterns , causes a phylogenetic change in the lineage rep- resented ...
... analysis of the role of ontogeny in systematics , encapsulated the dichotomy beautifully : ' Any change in the ' rules of construction ' , changing the developmental patterns , causes a phylogenetic change in the lineage rep- resented ...
Էջ 15
... analysis , see Maienschein ( 1978 ) . 3. John Farley discusses in depth the shades of preformation and the various views held by ovists and spermists in Gametes & Spores ( 1982 ) . 4. The definitive treatments of the Great Chain of ...
... analysis , see Maienschein ( 1978 ) . 3. John Farley discusses in depth the shades of preformation and the various views held by ovists and spermists in Gametes & Spores ( 1982 ) . 4. The definitive treatments of the Great Chain of ...
Էջ 29
... analysis of cleavage patterns in the metazoans . Acoelomate ( A ) , Pseudocoelomate ( Ps ) , Coelomate ( C ) Diploblastic ( Di ) , Triploblastic ( Tr ) Protostome ( Pr ) , Deuterostome ( D ) . In protostomes , the mouth opening is ...
... analysis of cleavage patterns in the metazoans . Acoelomate ( A ) , Pseudocoelomate ( Ps ) , Coelomate ( C ) Diploblastic ( Di ) , Triploblastic ( Tr ) Protostome ( Pr ) , Deuterostome ( D ) . In protostomes , the mouth opening is ...
Էջ 31
... analyses using these sequence data allowed them to conclude that the African lungfish was intermediate be- tween ray ... analysis is the independent evolution of the bichir fin from the fins of lungfishes , teleosts , sharks or Amia.1 ...
... analyses using these sequence data allowed them to conclude that the African lungfish was intermediate be- tween ray ... analysis is the independent evolution of the bichir fin from the fins of lungfishes , teleosts , sharks or Amia.1 ...
Էջ 33
... analysis of so many taxa over such a prolonged period of their history ( 114 invertebrate - vertebrate divergences involving 16 invertebrate phyla ) allows rates to be averaged into a meaningful mean rate of divergence . Others are not ...
... analysis of so many taxa over such a prolonged period of their history ( 114 invertebrate - vertebrate divergences involving 16 invertebrate phyla ) allows rates to be averaged into a meaningful mean rate of divergence . Others are not ...
Բովանդակություն
4 | |
17 | |
35 | |
Form and Function Embryos and Evolution | 55 |
establishing evolutionary | 68 |
Baupläne constraints and basic phases of development | 93 |
zygotic maternal epigenetic 111 | 112 |
Model organisms conserved stages and processes | 123 |
Chordate and vertebrate origins and diversification | 239 |
Transitions in animal evolution | 255 |
Integrated change in vertebrate evolution 281 | 280 |
Evolution as the control of development by ecology 297 | 295 |
Evolution genetic variability and the environment | 307 |
A quantitative genetics model for morphological change | 321 |
the dilemma for homology | 335 |
the dilemma for larvae | 353 |
germ lines and body plans 141 | 140 |
heads and tails | 155 |
Building organ systems 177 | 176 |
Integrating organ systems developmental canalization | 197 |
Innovation novelty and the origin of multicellularity 213 | 211 |
Complexity and the origin of the Metazoa | 223 |
Time and place in development | 365 |
heterochrony and heterotopy 375 | 374 |
principles and processes 395 | 393 |
Abbreviations | 403 |
Index | 479 |
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Common terms and phrases
adaptation adult amphibians amphioxus analysis ancestor animals arch ascidian Atchley axis Baupläne Biol bithorax body plans bone Burgess Shale Cambrian cartilage Chapter characters chick chordate cleavage complex constraints cytoplasmic Devel developmental biology developmental processes differentiation discussed dorsal Drosophila early ectoderm embryology embryonic development embryos endoderm environmental epigenetic evolution evolutionary change evolutionary developmental biology factors fishes fossil function gastrulation gene expression genetic assimilation genome Geoffroy germ band germ layers growth Hall heterochrony heterotopy homeobox homeobox genes homeotic genes homology Hox genes induction insects interactions jaws key innovations larvae limb bud maternal mechanisms ment mesenchyme mesoderm metazoan mice molecular morphogenesis morphology mouse multicellularity muscle mutation neural crest cells neurulation notochord ontogenetic ontogeny opment organisms origin patterns phenotype phyla phylogenetic phylogeny phylotypic regulation role salamanders segments selection sequences signals skeletal species stages structures studies tail taxa tetrapods tion tissues types ventral vertebrate Waddington Xenopus zebrafish Zool