Climate, Population Impact Oakleaf Hydrangea Genetic Diversity

Geographic structure of genetic diversity in Hydrangea quercifolia. Location of each pie chart on the map indicates location of sample collection. Proportion of each pie chart indicates assignment probability to each respective genetic cluster. Genetic clusters were determined using Structure on 188 samples from 73 US populations throughout the species native range.

McMinnville, TN. Oakleaf hydrangea (Hydrangea quercifolia) is an understory shrub native to the southeastern United States. The species occupies a small native range, and little is known about its demography, genetic diversity, or needs for conservation. Samples were collected from 188 plants in 73 locations throughout the species range and were genotyped using genotyping by sequencing. Many historically documented populations were found to be either extirpated or at risk of extirpation. The genetic clusters on the southern extent of the species range are small and contain putative adaptive alleles at relatively high frequencies.

These results highlight the importance of preserving representative germplasm from throughout the species range. The objectives of this study were to: 1) locate populations of H. quercifolia across its natural range; 2) characterize the genetic diversity of the species and how the diversity is structured; 3) determine the impact that geographic and climatic factors have on this genetic structure; and 4) use this information to identify conservation priorities for the species.

Our analyses indicate that H. quercifolia exists in six weakly differentiated genetic clusters that are geographically structured. Small population sizes were frequently encountered during sampling, with a few having only a single individual (three populations) and many having fewer than 10 individuals (27 populations). Most of these small populations were on or near the edges of the species range, especially the populations west of the Mississippi River in Louisiana. Many of the populations were very fragmented with little to no connection to other sites with suitable habitat. An exception to this occurred in northern Alabama, where H. quercifolia grows as nearly continuous populations, often containing hundreds of individuals. Many populations in the southern portion of the species range were growing in calcareous soils; however, a wide range of soil types supporting H. quercifolia populations were observed.

Of the locations where H. quercifolia had previously been documented, 23% (16 of 69 searched) were found to no longer contain populations when searched in this study. These sites had either undergone land use change (housing developments, clear cutting, roadside vegetation control) or habitat degradation due to logging or invasive species. The primary species noted was Ligustrum sinense. Observations during sampling indicate that H. quercifolia does not tolerate high competition. Many of these extirpated populations were located on the edges of the species range.

Based on the observations of extirpated populations occurring primarily on the edges of the species range, it appears the range for H. quercifolia is currently shrinking. Therefore, US populations on the edges of the species range should be of conservation concern, especially those in Louisiana west of the Mississippi River and in Florida. Environmental association analysis suggests that several climatic variables significantly affect genetic diversity, with precipitation being the primary environmental factor affecting genetic variation in H. quercifolia. Furthermore, the analysis identified candidate locations for environmental adaptation for both precipitation and temperature variables.

According to Dr. Alexander, "(A)ll of us were interested in the conservation, genetics, and breeding of woody ornamental shrubs. Oakleaf hydrangea is a native shrub, but not much is known about its current status in the wild or the range of genetic diversity that exists in wild populations We are continuing to observe seedlings from these populations for important horticultural traits with the goal of improving and promoting oakleaf hydrangea as a native landscape plant."

Dr. Alexander is a Research Geneticist with the USDA-ARS U.S. National Arboretum, Nursery Research Center in Tennessee. She conducts research to develop, evaluate, and release improved germplasm of selected nursery crop species, including, but not limited to, Hydrangea, Osmanthus, and Callicarpa, and utilize genetic markers to accelerate the breeding process.

The full article can be found on the ASHS Journal electronic journal website at: https://doi.org/10.21273/JASHS05255-22

Established in 1903, the American Society for Horticultural Science is recognized around the world as one of the most respected and influential professional societies for horticultural scientists. ASHS is committed to promoting and encouraging national and international interest in scientific research and education in all branches of horticulture.

Comprised of thousands of members worldwide, ASHS represents a broad cross-section of the horticultural community-scientists, educators, students, landscape and turf managers, government, extension agents and industry professionals. ASHS members focus on practices and problems in horticulture: breeding, propagation, production and management, harvesting, handling and storage, processing, marketing and use of horticultural plants and products. To learn more, visit ashs.org

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