Mitochondrial DNA haplotype distribution patterns in Pinus ponderosa (Pinaceae): Range-wide evolutionary history and implications for conservation

Mitochondrial DNA haplotype distribution patterns in Pinus ponderosa (Pinaceae): Range-wide evolutionary history and implications for conservation

• Premise of the study: Ponderosa pine (Pinus ponderosa Douglas ex P. Lawson & C. Lawson) exhibits complicated patterns of morphological and genetic variation across its range in western North America. This study aims to clarify P. ponderosa evolutionary history and phylogeography using a highly...

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Bibliographic Details
Published in:American journal of botany Vol. 100; no. 8; pp. 1562 - 1579
Main Authors: Potter, Kevin M, Hipkins, Valerie D, Mahalovich, Mary F, Means, Robert E
Format: Journal Article
Language:English
Published: United States Botanical Society of America 01-08-2013
Botanical Society of America, Inc
Subjects:
Base Sequence
Biodiversity
Biological Evolution
Biological taxonomies
Botany
Coniferous forests
Conservation of Natural Resources
DNA, Mitochondrial - chemistry
DNA, Mitochondrial - genetics
DNA, Plant - chemistry
DNA, Plant - genetics
Evolution
Evolution and Phylogeny
Forest service
genetic markers
Genetic Variation
Genetics
Haplotypes
introns
Migration
minisatellite
Minisatellite repeats
Minisatellite Repeats - genetics
Mitochondrial DNA
Morphology
Mountains
Northwestern United States
Nucleotide Motifs
paleoecology
Phylogeography
Pinaceae
Pinus - genetics
Pinus ponderosa
Pinus ponderosa - genetics
Pinus washoensis
Pleistocene
polymorphism
Polymorphism, Genetic - genetics
races
refuge habitats
Sequence Analysis, DNA
Southwestern United States
Species
Trees
Mexico
California
Sierra Nevada (California)
Nevada
Northwestern United States
Southwestern United States
North America
Pinus washoensis
Pinus ponderosa
Migration
mitochondrial DNA
polymorphism
Pleistocene
minisatellite
phylogeography
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Summary:• Premise of the study: Ponderosa pine (Pinus ponderosa Douglas ex P. Lawson & C. Lawson) exhibits complicated patterns of morphological and genetic variation across its range in western North America. This study aims to clarify P. ponderosa evolutionary history and phylogeography using a highly polymorphic mitochondrial DNA marker, with results offering insights into how geographical and climatological processes drove the modern evolutionary structure of tree species in the region.• Methods: We amplified the mtDNA nad1 second intron minisatellite region for 3,100 trees representing 104 populations, and sequenced all length variants. We estimated population-level haplotypic diversity and determined diversity partitioning among varieties, races and populations. After aligning sequences of minisatellite repeat motifs, we evaluated evolutionary relationships among haplotypes.• Key results: The geographical structuring of the 10 haplotypes corresponded with division between Pacific and Rocky Mountain varieties. Pacific haplotypes clustered with high bootstrap support, and appear to have descended from Rocky Mountain haplotypes. A greater proportion of diversity was partitioned between Rocky Mountain races than between Pacific races. Areas of highest haplotypic diversity were the southern Sierra Nevada mountain range in California, northwestern California, and southern Nevada.• Conclusions: Pinus ponderosa haplotype distribution patterns suggest a complex phylogeographic history not revealed by other genetic and morphological data, or by the sparse paleoecological record. The results appear consistent with long-term divergence between the Pacific and Rocky Mountain varieties, along with more recent divergences not well-associated with race. Pleistocene refugia may have existed in areas of high haplotypic diversity, as well as the Great Basin, Southwestern United States/northern Mexico, and the High Plains.
Bibliography:http://dx.doi.org/10.3732/ajb.1300039
The authors thank the many natural resource specialists from government agencies who assisted with the identification and collection of samples. The authors thank Doug Page for multiple collections, Konstantin Krutovsky for primer design, Jody Mello for laboratory analyses, Craig Echt for analysis advice, Connie Millar and David Charlet for multiple collections and helpful comments on the manuscript, and Julie Canavin for manuscript preparation assistance. This project was a cooperative effort between the Bureau of Land Management Wyoming and the Forest Management staff at the National Forest Genetics Laboratory of the USDA Forest Service. It was supported in part through Research Joint Venture Agreement 10‐JV‐11330146‐049 between the Southern Research Station of the USDA Forest Service and North Carolina State University.
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ISSN:0002-9122
1537-2197
DOI:10.3732/ajb.1300039