Mosaic evolution of subterranean mammals: regression, progression, and global convergence
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Oxford [u.a.]
Oxford Univ. Press
1999
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| Ausgabe: | 1. publ. |
| Schriftenreihe: | Oxford science publications
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXVI, 413 S. Ill., graph. Darst. |
| ISBN: | 0198575726 |
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| 650 | 4 | |a Burrowing animals |x Evolution | |
| 650 | 4 | |a Mammals |x Evolution | |
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Datensatz im Suchindex
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| adam_text |
Mosaic evolution of subterranean
mammals
Regression, progression, and
global convergence
Eviatar Nevo
Institute of Evolution, University of Haifa, Haifa 31905, Israel
OXFORD
UNIVERSITY PRESS
Contents
Colour plates can be found between pages 36 and 37
Book organization: objectives, structure, overview xxi
Abbreviations xxv
List of colour figures xxvii
Part I Evolutionary theory: history, problems, and tests
1 Evolutionary theory: past, present, and future 2
1 1 Origin 2
1 2 The synthetic theory of evolution 2
1 3 Current challenges to the synthetic theory 3
1 4 Evolutionary paradoxes 4
1 5 Evolutionaiy theory: testing by experimentation and verification 5
2 Evolutionary problems and global solutions 6
2 1 The model system of subterranean mammals 6
2 2 Problems of adaptation, convergence, regression, and progression 7
2 3 Problems of speciation 8
2 4 Summary 9
Part II Palaeobiological evidence
3 Eocene-Oligocene geological, climatic, and biotic evolution: an
overview of the ecological stresses driving mammalian subterraneity 12
3 1 Geological, climatic, and biotic changes 12
3 2 Evidence for climatic change 12
3 3 Biotic extinctions 13
3 4 Biotic change across phytogeny 13
4 Biota evolution in the Cenozoic 14
4 1 The Eocene-Oligocene transition 14
4 2 Climatic oscillations across the Oligocene/Miocene boundary 16
4 3 Late Cenozoic climate change 17
4 4 Global vegetation and faunal change through the Miocene/Pliocene boundary 17
4 5 Summary 17
Part III Subterranean mammals: population biology,
speciation, and evolutionary history
Overview 20
5 Marsupial moles
5 1 Notoryctidae
xiv CONTENTS
6 Moles: insectivorous subterranean mammals 26
6 1 Talpidae: holarctic moles 26
6 2 Chrysochloridae: the African golden moles 27
7 Rodents: herbivorous subterranean mammals 31
7 1 Geomyidae, North American pocket gophers 31
7 2 Cricetidae, Myospalacinae: Asian zokors 34
7 3 Arvicolidae: European voles 35
7 4 Spalacidae: Eurasian mole rats 38
7 5 Rhizomyidae: Asian bamboo rats and African mole rats 42
7 6 Octodontidae and Ctenomyidae: South American fossorial
cururos and tuco tucos 44
7 7 Bathyergidae: African mole rats 48
7 8 Summary 52
Part IV The subterranean environment
8 Structure, adaptiveness, and evolution of tunnel system
architecture in subterranean mammals 54
8 1 The subterranean ecotope 54
8 2 Burrows excavations 55
8 3 Tunnel system: structure, function, and stresses 55
8 4 Nesting mounds 57
8 5 Feeding tunnels: foraging and lateral 57
8 6 Chambers 61
8 7 Intra- and interspecific variation in burrow structure 62
8 8 Distribution of subterranean mammals 63
8 9 Adaptive evolution of burrow systems 63
8 10 Subterranean mammalian landscape ecology 64
9 Digging strategies: structure and function 66
9 1 Incisors 66
9 2 Claws 67
9 3 Feet, nose, and head 67
9 4 Production and active transmission of force 69
9 5 Musculature 69
9 6 Scratch digging 71
9 7 Chisel-tooth digging 71
9 8 Head lift digging 72
9 9 Humeral rotation digging 72
9 10 Stabilization of joints 74
9 11 Bracing and digging mechanisms 74
9 12 Transport and stabilization of soil 75
9 13 Summary 75
Part V Adaptive strategies to life underground
10 Morphological adaptive strategies: structure, function, and variation 78
A Geographic variation in morphology 78
CONTENTS XV
10 1 General patterns 78
10 2 External form and manoeuvrability 78
10 3 Geographic variation 79
10 4 Structure and function 79
10 5 Active speciation of the Spalax ehrenbergi superspecies 80
10 6 Morphometry and ecogeographic differentiation in the
5 ehrenbergi superspecies 80
10 7 Body weight: ecogeographic differentiation 81
B Sensory and brain adaptations in subterranean mammals 82
10 8 Sense organs 82
10 9 Visual apparatus 82
10 10 The mosaic evolution of the Spalax eye: morphology, physiology,
and molecular biology 82
10 11 at-Crystallin: structure, expression, and evolution 84
10 12 The auditory system in comparison with ground-dwelling
representatives 84
10 13 Convergent evolution of the vestibular organ in the
subterranean mole rats, Cryptomys and Spalax, as compared
with the aboveground rat, Rattus 89
10 14 Chemoreceptors 90
10 15 Mechanoreceptors of the integument 90
10 16 Brain reorganization and evolution in subterranean mammals 90
10 17 Brain reorganization in the blind mole rat, Spalax ehrenbergi 91
11 Ecological adaptive strategies 95
11 1 Population structure and dynamics, home range, and territoriality 95
11 2 Population density and fluctuation 96
11 3 Territory size and population density in S ehrenbergi 97
11 4 Age structure 98
11 5 Sex structure 98
11 6 Population subdivision 98
11 7 Life history patterns and population parameters: ecotope stability 99
12 Physiological adaptive strategies 101
A Sense physiology 101
12 1 Sight 101
12 2 Chemoreceptors 102
12 3 Touch 103
12 4 Hearing 103
12 5 Seismic sense 105
12 6 Magnetic orientation 107
B Energetics and thermoregulation 109
12 7 General 109
12 8 Resting metabolic rate 109
12 9 Thermal conductance ill
12 10 Temperature differential and the effectiveness of thermoregulation ill
12 11 Cost of burrowing 115
12 12 Food abundance and dispersion 116
Xvi CONTENTS
12 13 Individual and population energy flow 116
12 14 Adaptive energetics strategies of the S ehrenbergi superspecies to
low productivity, subterraneity, and aridity stress 117
12 15 Prospects in the study of energetics of subterranean mammals 125
C Respiratory adaptations to extreme hypoxic-hypercapnic subterranean atmospheres 126
12 16 Extreme hypoxic-hypercapnic subterranean atmospheres 126
12 17 General strategy 127
12 18 Oxygen transport at the tissue level 127
12 19 Blood I2g
12 20 Circulation 129
12 21 Ventilation 130
12 22 Hypoxic tolerance 131
12 23 The Spalax ehrenbergi model system of respiratory adaptation:
Spalax versus Rattus 132
12 24 Carbon dioxide 139
12 25 Urine excretion of bicarbonates: a complementary physiological
adaptation in the hypercapnic subterranean ecotope 140
12 26 Burrow gas exchange 141
12 27 Subterranean, diving, and high altitude mammals 142
12 28 Prospects in studies of respiratory adaptations 142
13 Behavioural adaptive strategies 144
13 1 Activity patterns and circadian rhythms 144
13 2 Habitat selection 146
13 3 Feeding strategies 147
13 4 Aggression behaviour in S ehrenbergi superspecies 150
14 Genetic adaptive strategies
A Chromosomal evolution
14 1 Patterns
14 2 Chromosomal polymorphism
14 3 Adaptive-chromosomal radiation of Spalacidae in Israel and Jordan
14 4 Chromosomal speciation and adaptive radiation of mole rats in Asia
Minor correlated with increased ecological stress
14 5 Karyotypic evolutionary trends
B Genetic diversity
14 6 The nature of genetic diversity
14 7 Tests of the niche-width variation hypothesis in subterranean mammals
14 8 Tests of spalacids in extreme environments
C Immunogenetic diversity
14 9 General infectivity in the subterranean ecotope
14 10 Ectoparasites and endoparasites across the S ehrenbergi superspecies range
14 11 Coccidian studies in other subterranean mammals
14 12 Coevolution of hosts and parasites in pocket gophers
14 13 Structure and genetic evolution of Mhc in subterranean mammals of
the superspecies Spalax ehrenbergi in Israel
14 14 Summary
CONTENTS xvii
Part VI Comparative evidence across species
15 Statistical analyses 174
A Univariate analyses 174
15 1 Data set 174
15 2 Results of univariate statistics 174
15 3 Ecological patterns 174
15 4 Genetic patterns 180
15 5 Morphological patterns 181
15 6 Physiological patterns 187
15 7 Behavioural patterns 188
15 8 Demographic patterns 191
15 9 Life histoty patterns 194
15 10 Convergent and divergent patterns in subterranean mammals: summary 196
B Results of non-metric and metric multivariate analyses 196
15 11 jj2 as a correlation coefficient 197
15 12 The weighted smallest space analysis (WSSA1) 197
15 13 The WSSA1 analysis 198
15 14 Results of WSSA1 analysis 198
15 15 Results of metric multivariate cluster analysis 201
15 16 Summary 204
Part VII Evolutionary theory of molecular and organismal
evolution of subterranean mammals
16 The theory of evolution: structure, challenges, and prospects 206
16 1 The Darwinian evolutionary synthesis 206
16 2 The evolution of evolutionary theory 206
16 3 Meeting challenges and expanding the theory 207
16 4 The adaptationist programme 208
16 5 Adaptive radiation 211
16 6 The problem of optimization in evolution 211
16 7 Convergence as an ecological adaptive strategy 213
17 The evolution and genetic basis of reduction and expansion 216
17 1 Global tests of convergent, regressive, and progressive evolution 216
17 2 Stochasticity and selection in regressive evolution 216
A Eye evolution 217
17 3 Selection pressures for reduced (microphthalmic) eyes 217
17 4 Mechanical, metabolic, and competition determinants of Spalax eye and
brain evolution 218
17 5 Progressive evolution of non-visual compensatory systems 219
17 6 The mosaic evolution of regression and progression of the Spalax eye 219
17 7 Is there a hidden function to Spalax otA crystallin? 220
17 8 Photopigments: molecular analysis of photoreceptor protein function 221
17 9 Mutant strains of anophthalmic rodents 223
17 10 The genetic basis of eye and brain development in evolution 223
17 11 The conservative genetics of eyes and brains across the animal kingdom 224
17 12 Genetics of loss- and gain-function mutations and homeotic genes 225
xviii CONTENTS
B Auditory system evolution 227
17 13 Selection pressures for a specialized auditory system syndrome 227
C Brain reorganization and evolution 228
17 14 Brain evolution: general perspective 228
17 15 Adaptive evolution of Spalax brain 229
17 16 Brain genetics 230
17 17 Conclusions and prospects: optimization theory and eye, ear, and
brain evolution 231
18 Genetic diversity in nature: global, regional, and local 233
18 1 Evolutionary genetics, environmental heterogeneity, and stress 233
18 2 The methodology of genetic-environmental correlations 233
18 3 Global analysis of genetic polymorphism 235
19 Regional molecular polymorphism analysis 241
19 1 Analysis of allozyme diversity across phylogeny in Israel 241
19 2 Near Eastern molecular (protein and DNA) studies 241
19 3 Local population genetics 243
19 4 The nature of allozyme and DNA diversities 245
19 5 Evolutionary significance of molecular polymorphisms: summary
and evidence 246
20 Natural selection and evolution 247
20 1 The relative importance of evolutionary forces 247
20 2 Evolutionary forces and adaptive complexes 248
20 3 Maintenance of genetic diversity in nature 248
20 4 Natural selection 248
20 5 Stabilizing selection in cyclical environments 249
20 6 Genetic-ecological diversity and stress 249
20 7 Selection versus random drift: long-term polymorphism in small populations:
evidence and modelling 250
20 8 Genetic interaction between species: biotic drive of polymorphism 252
20 9 Biomolecular sequence analysis 252
20 10 The major compositional transitions in the vertebrate genome 253
20 11 The distribution of genes in plant and human genomes 253
20 12 Natural selection: the main architect of evolution 253
20 13 Adaptive experimentation 254
20 14 Conclusions and prospects 255
21 Chromosomal evolution 257
21 1 Chromosomal evolution in speciation and adaptation 257
21 2 Chromosomal reproductive isolation 257
21 3 Adaptive chromosomal rearrangements 259
21 4 Genome size 260
21 5 The canalization and alternative models of chromosomal evolution 261
21 6 Phylogenetic chromosome divergence and convergence 262
21 7 iCaryotypic orthoselection and megaevolution 263
21 8 The rate of chromosomal mutations: the minimum-interaction hypothesis 263
CONTENTS xix
22 Theory of ecological, behavioural, and physiological adaptive strategies 265
22 1 Life history patterns and population parameters 265
22 2 K-selection strategy 265
22 3 Behavioural adaptive strategies 266
22 4 Animal foraging and feeding strategies: past, present, and future 267
22 5 Photobiology and temporal organization in blind mammals 268
22 6 The molecular-genetic basis of circadian rhythms in Spalax ehrenbergi 271
22 7 The evolution of eusociality 274
22 8 The evolution of aggression 276
22 9 Physiological adaptive strategies 277
23 Speciation theory 283
23 1 Species concept and the nature of speciation 283
23 2 Species concept in S ehrenbergi 283
23 3 Speciation mechanism in S ehrenbergi 285
23 4 Mode of speciation 285
23 5 The dynamics and evolutionary significance of hybrid zones 287
23 6 The evolution of assortative mating 289
23 7 Allopatric origin of postmating and premating isolating mechanisms in
5 ehrenbergi 289
23 8 Adaptive aspects of chromosomal speciation 290
23 9 Genetic differentiation during speciation 291
23 10 Genetic conservation across major taxa 292
23 11 Genetics of speciation 293
23 12 Molecular biological mechanisms of speciation 294
23 13 Models of chromosomal speciation 295
23 14 Rates of speciation 296
23 15 The genetics of stasis and punctuation 299
23 16 The theory of speciational trends and Spalax evolution 299
23 17 Summary 300
24 Conclusions and prospects 303
Appendices 304
1 Subterranean mammals questionnaire 304
2 Genetical and ecological, descriptions 307
3 Morphological and physiological descriptions 316
4 Behavioural, demographical, and life history descriptions 324
Bibliography 333
Indexes 387
Subject 387
Author 401
Species 411 |
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| spelling | Nevo, Eviatar 1919- Verfasser (DE-588)121180204 aut Mosaic evolution of subterranean mammals regression, progression, and global convergence Eviatar Nevo 1. publ. Oxford [u.a.] Oxford Univ. Press 1999 XXVI, 413 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Oxford science publications Mammals - Habitations Burrowing animals Evolution Mammals Evolution Soil animals Evolution Säugetiere (DE-588)4051253-8 gnd rswk-swf Evolution (DE-588)4071050-6 gnd rswk-swf Säugetiere (DE-588)4051253-8 s Evolution (DE-588)4071050-6 s DE-604 HEBIS Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008530570&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Nevo, Eviatar 1919- Mosaic evolution of subterranean mammals regression, progression, and global convergence Mammals - Habitations Burrowing animals Evolution Mammals Evolution Soil animals Evolution Säugetiere (DE-588)4051253-8 gnd Evolution (DE-588)4071050-6 gnd |
| subject_GND | (DE-588)4051253-8 (DE-588)4071050-6 |
| title | Mosaic evolution of subterranean mammals regression, progression, and global convergence |
| title_auth | Mosaic evolution of subterranean mammals regression, progression, and global convergence |
| title_exact_search | Mosaic evolution of subterranean mammals regression, progression, and global convergence |
| title_full | Mosaic evolution of subterranean mammals regression, progression, and global convergence Eviatar Nevo |
| title_fullStr | Mosaic evolution of subterranean mammals regression, progression, and global convergence Eviatar Nevo |
| title_full_unstemmed | Mosaic evolution of subterranean mammals regression, progression, and global convergence Eviatar Nevo |
| title_short | Mosaic evolution of subterranean mammals |
| title_sort | mosaic evolution of subterranean mammals regression progression and global convergence |
| title_sub | regression, progression, and global convergence |
| topic | Mammals - Habitations Burrowing animals Evolution Mammals Evolution Soil animals Evolution Säugetiere (DE-588)4051253-8 gnd Evolution (DE-588)4071050-6 gnd |
| topic_facet | Mammals - Habitations Burrowing animals Evolution Mammals Evolution Soil animals Evolution Säugetiere Evolution |
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