The Conifers: Genomes, Variation and Evolution

1. Front Matter

   Pages i-xviii

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2. The Conifers

   • David B. Neale, Nicholas C. Wheeler

   Pages 1-21

3. Genomes

   1. Front Matter

      Pages 23-23

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   2. Genomes: Classical Era

      • David B. Neale, Nicholas C. Wheeler

      Pages 25-42

   3. Gene and Genome Sequencing in Conifers: Modern Era

      • David B. Neale, Nicholas C. Wheeler

      Pages 43-60

   4. Noncoding and Repetitive DNA

      • David B. Neale, Nicholas C. Wheeler

      Pages 61-74

   5. Gene Structure and Gene Families

      • David B. Neale, Nicholas C. Wheeler

      Pages 75-90

   6. Gene Expression and the Transcriptome

      • David B. Neale, Nicholas C. Wheeler

      Pages 91-117

   7. Proteomics and Metabolomics

      • David B. Neale, Nicholas C. Wheeler

      Pages 119-136

4. Variation

   1. Front Matter

      Pages 137-137

      PDF

   2. Phenotypic Variation in Natural Populations

      • David B. Neale, Nicholas C. Wheeler

      Pages 139-179

   3. Neutral Genetic Variation

      • David B. Neale, Nicholas C. Wheeler

      Pages 181-224

   4. Adaptive Genetic Variation

      • David B. Neale, Nicholas C. Wheeler

      Pages 225-254

   5. Quantitative Trait Dissection

      • David B. Neale, Nicholas C. Wheeler

      Pages 255-293

   6. Landscape Genomics

      • David B. Neale, Nicholas C. Wheeler

      Pages 295-314

   7. Conservation Genetics

      • David B. Neale, Nicholas C. Wheeler

      Pages 315-347

   8. Forest Health

      • David B. Neale, Nicholas C. Wheeler

      Pages 349-383

5. Evolution

   1. Front Matter

      Pages 385-385

      PDF

   2. Hybridization and Introgression

      • David B. Neale, Nicholas C. Wheeler

      Pages 387-429

   3. Paleobotany, Taxonomic Classification, and Phylogenetics

      • David B. Neale, Nicholas C. Wheeler

      Pages 431-461

This book is the first comprehensive volume on conifers detailing their genomes, variations, and evolution. The book begins with general information about conifers such as taxonomy, geography, reproduction, life history, and social and economic importance. Then topics discussed include the full genome sequence, complex traits, phenotypic and genetic variations, landscape genomics, and forest health and conservation. This book also synthesizes the research included to provide a bigger picture and suggest an evolutionary trajectory.

As a large plant family, conifers are an important part of economic botany. The group includes the pines, spruces, firs, larches, yews, junipers, cedars, cypresses, and sequoias. Of the phylum Coniferophyta, conifers typically bear cones and evergreen leaves. Recently, there has been much data available in conifer genomics with the publication of several crop and non-crop genome sequences. In addition to their economic importance,conifers are an important habitat for humans and animals, especially in developing parts of the world. The application of genomics for improving the productivity of conifer crops holds great promise to help provide resources for the most needy in the world.

• Conifers
• anatomy
• systematics
• physiology
• diversity
• genetics
• genomics
• evolution
• Systematic Botany

• Department of Plant Sciences, University of California, Davis, Davis, USA

  David B. Neale

• Consultant, Centralia, USA

  Nicholas C. Wheeler

Dr. Neale's primary research interest is in the discovery and understanding of function of genes in forest trees, especially those controlling complex traits, through genetic mapping and genomic science technologies. In the very near future, nearly all the genes in pine will have been cloned and their DNA sequences determined. The cloned genes will serve as tools for functional analysis which will lead to understanding of complex patterns of coordinated expression of genes leading to phenotype. Initially, we have focused on traits of practical value such as wood quality, growth,and disease resistance but we expect to expand our studies to identifying genes determining patterns of adaptation and response to environmental stresses.



Dr. Wheeler has worked on the Conifer Translational Genomics Network Coordinated Agricultural Project, as well as at Oregon State University on conifer genome sequence and mapping.

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