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6. Genomic Approaches to Understanding Adaptation

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© 2019 University of California Press, Berkeley

© 2019 University of California Press, Berkeley

Chapters in this book

  1. Frontmatter i
  2. Contents v
  3. Contributors vii
  4. Preface xi
  5. Introduction xiii
  6. Part One. Serpentine as a Model in Earth History and Evolution
  7. 1. Serpentinites and Other Ultramafic Rocks: Why They Are Important for Earth’s History and Possibly for Its Future 3
  8. 2. Microbes in Extreme Environments: Implications for Life on the Early Earth and Other Planets 29
  9. 3. Phylogenetic Patterns of Endemism and Diversity 49
  10. 4. Plant Speciation 71
  11. 5. Intraspecific Variation, Adaptation, and Evolution 97
  12. 6. Genomic Approaches to Understanding Adaptation 139
  13. 7. Local Adaptation in Heterogeneous Landscapes: Reciprocal Transplant Experiments and Beyond 155
  14. 8. Herbivory and Other Cross-Kingdom Interactions on Harsh Soils 181
  15. 9. Invasions and the Evolution of Range Limits 201
  16. Part Two. Serpentine as a Model in Ecology and Conservation
  17. 10. Plant Competition and Facilitation in Systems with Strong Environmental Gradients 223
  18. 11. Community Invasibility: Spatial Heterogeneity, Spatial Scale, and Productivity 237
  19. 12. Disturbance and Diversity in Low-Productivity Ecosystems 249
  20. 13. Plant–Pollinator Interactions in Naturally Fragmented Habitats 275
  21. 14. Spatial Ecology: The Effects of Habitat Patch Size, Shape, and Isolation on Ecological Processes 297
  22. 15. Systematic Conservation Planning: Protecting Rarity, Representation, and Connectivity in Regional Landscapes 309
  23. 16. Biodiversity, Ecosystem Functioning, and Global Change 329
  24. 17. Climate Change and Plant Communities on Unusual Soils 359
  25. 18. Restoration and Revegetation of Harsh Soils 383
  26. Part Three. Synthesis
  27. 19. What Have We Learned from Serpentine in Evolution, Ecology, and Other Sciences? 417
  28. Species Index 429
  29. Subject Index 435
Serpentine
This chapter is in the book Serpentine
https://doi.org/10.1525/9780520948457-009

Chapters in this book

  1. Frontmatter i
  2. Contents v
  3. Contributors vii
  4. Preface xi
  5. Introduction xiii
  6. Part One. Serpentine as a Model in Earth History and Evolution
  7. 1. Serpentinites and Other Ultramafic Rocks: Why They Are Important for Earth’s History and Possibly for Its Future 3
  8. 2. Microbes in Extreme Environments: Implications for Life on the Early Earth and Other Planets 29
  9. 3. Phylogenetic Patterns of Endemism and Diversity 49
  10. 4. Plant Speciation 71
  11. 5. Intraspecific Variation, Adaptation, and Evolution 97
  12. 6. Genomic Approaches to Understanding Adaptation 139
  13. 7. Local Adaptation in Heterogeneous Landscapes: Reciprocal Transplant Experiments and Beyond 155
  14. 8. Herbivory and Other Cross-Kingdom Interactions on Harsh Soils 181
  15. 9. Invasions and the Evolution of Range Limits 201
  16. Part Two. Serpentine as a Model in Ecology and Conservation
  17. 10. Plant Competition and Facilitation in Systems with Strong Environmental Gradients 223
  18. 11. Community Invasibility: Spatial Heterogeneity, Spatial Scale, and Productivity 237
  19. 12. Disturbance and Diversity in Low-Productivity Ecosystems 249
  20. 13. Plant–Pollinator Interactions in Naturally Fragmented Habitats 275
  21. 14. Spatial Ecology: The Effects of Habitat Patch Size, Shape, and Isolation on Ecological Processes 297
  22. 15. Systematic Conservation Planning: Protecting Rarity, Representation, and Connectivity in Regional Landscapes 309
  23. 16. Biodiversity, Ecosystem Functioning, and Global Change 329
  24. 17. Climate Change and Plant Communities on Unusual Soils 359
  25. 18. Restoration and Revegetation of Harsh Soils 383
  26. Part Three. Synthesis
  27. 19. What Have We Learned from Serpentine in Evolution, Ecology, and Other Sciences? 417
  28. Species Index 429
  29. Subject Index 435
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