Genetically informed seed transfer zones for Astragalus lonchocarpus, Cleome serrulata, and Heliomeris multiflora across the Colorado Plateau and adjacent regions
These data were compiled to provide seed transfer and native plant materials development guidance to managers and practitioners across the Colorado Plateau and in adjacent regions. This data release contains empirical seed transfer zones derived from molecular genetic data for Cleome serrulata (syn. Peritoma serrulata), Heliomeris multiflora, and Astragalus lonchocarpus. These species show distinct population structure (i.e., genetic differentiation) across their ranges; as such, seed transfer zones reflect both patterns of genetic differentiation and information on each species' unique adaptations to climatic gradients. These shapefile data may support successful restoration outcomes if, for example, seed transfer follows seed transfer zones depicted herein and/or composite seed strategies for native plant materials development utilize seed transfer zones when determining which seed accessions may be combined. The ultimate goal of these seed transfer zones is to protect natural patterns of genetic variation and maximize (or at least better understand) species' adaptations to local environmental conditions. This work was funded by the Bureau of Land Management's Colorado Plateau Native Plant Program.
Complete Metadata
| accessLevel | public |
|---|---|
| bureauCode |
[
"010:12"
]
|
| contactPoint |
{
"fn": "Robert T Massatti",
"@type": "vcard:Contact",
"hasEmail": "mailto:rmassatti@usgs.gov"
}
|
| description | These data were compiled to provide seed transfer and native plant materials development guidance to managers and practitioners across the Colorado Plateau and in adjacent regions. This data release contains empirical seed transfer zones derived from molecular genetic data for Cleome serrulata (syn. Peritoma serrulata), Heliomeris multiflora, and Astragalus lonchocarpus. These species show distinct population structure (i.e., genetic differentiation) across their ranges; as such, seed transfer zones reflect both patterns of genetic differentiation and information on each species' unique adaptations to climatic gradients. These shapefile data may support successful restoration outcomes if, for example, seed transfer follows seed transfer zones depicted herein and/or composite seed strategies for native plant materials development utilize seed transfer zones when determining which seed accessions may be combined. The ultimate goal of these seed transfer zones is to protect natural patterns of genetic variation and maximize (or at least better understand) species' adaptations to local environmental conditions. This work was funded by the Bureau of Land Management's Colorado Plateau Native Plant Program. |
| distribution |
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|
| identifier | http://datainventory.doi.gov/id/dataset/USGS_63374f2cd34e900e86cbad0c |
| keyword |
[
"Arizona",
"Astragalus lonchocarpus",
"Cleome serrulata (syn. Peritoma serrulata)",
"Colorado",
"Colorado Plateau",
"Heliomeris multiflora",
"Intermountain West",
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"field inventory and monitoring",
"flora restoration",
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"genetic diversity",
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"genetic variation",
"mean annual precipitation",
"molecular biology",
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"native plant",
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"natural resource management",
"plants (organisms)",
"population and community ecology",
"population differentiation",
"population dynamics",
"precipitation (atmospheric)",
"precipitation seasonality",
"restoration",
"seed accessions",
"seed strategies",
"seed transfer",
"seed transfer zones",
"species diversity",
"species' adaptations",
"temperature seasonality"
]
|
| modified | 2022-11-02T00:00:00Z |
| publisher |
{
"name": "U.S. Geological Survey",
"@type": "org:Organization"
}
|
| spatial | -113.4230, 33.4480, -106.1800, 41.3000 |
| theme |
[
"Geospatial"
]
|
| title | Genetically informed seed transfer zones for Astragalus lonchocarpus, Cleome serrulata, and Heliomeris multiflora across the Colorado Plateau and adjacent regions |
