Emily Schumacher scite author profile

Plant collections held by botanic gardens and arboreta are key components of ex situ conservation. Maintaining genetic diversity in such collections allows them to be used as resources for supplementing wild populations. However, most recommended minimum sample sizes for sufficient ex situ genetic diversity are based on microsatellite markers, and it remains unknown whether these sample sizes remain valid in light of more recently developed next-generation sequencing (NGS) approaches. To address this knowledge gap, we examine how ex situ conservation status and sampling recommendations differ when derived from microsatellites and single nucleotide polymorphisms (SNPs) in garden and wild samples of two threatened oak species. For one species, SNPs show lower ex situ representation of wild allelic diversity and slightly lower minimum sample size estimates than microsatellites, while results for each marker are largely similar for the other species. Missing data filters tend to suggest higher ex situ representation, while the impact of different SNP calling approaches depends on the species and analysis. Measures of population differentiation within species are broadly similar between markers, but larger numbers of SNP loci allow for greater resolution of population structure and clearer assignment of ex situ individuals to wild source populations. Our results offer guidance for future ex situ conservation assessments utilizing SNP data, such as the application of missing data filters and the usage of a reference genome, and illustrate that both microsatellites and SNPs remain viable options for botanic gardens and arboreta seeking to ensure the genetic diversity of their collections.

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Range shifts in butternut, a rare, endangered tree, in response to past climate and modern conditions

Schumacher

Brown

Williams

et al. 2022

Journal of Biogeography

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Aim Range shifts are a key process that determine species distributions and genetic patterns. A previous investigation reported that Juglans cinerea (butternut) has lower genetic diversity at higher latitudes, hypothesized to be the result of range shifts following the last glacial period. However, genetic patterns can also be impacted by modern ecogeographical conditions. Therefore, we re‐investigate the genetic patterns of butternut with additional northern population sampling, hindcasted species distribution models and fossil pollen records to clarify the impact of glaciation on butternut. Location Eastern North America. Taxon Juglans cinerea (L., Juglandaceae) (butternut). Methods Using 11 microsatellites, we examined range‐wide spatial patterns of genetic diversity (allelic richness, heterozygosity, FST) for 1004 previously studied butternut individuals and an additional 757 samples. We constructed hindcast species distribution models and mapped fossil pollen records to evaluate habitat suitability and evidence of species' presence throughout space and time. Results Contrary to previous work on butternut, we found that genetic diversity increased with distance to range edge, and previously observed latitudinal clines in diversity were likely due to a few outlier populations. Populations in New Brunswick, Canada were genetically distinct from other populations. At the Last Glacial Maximum, pollen records demonstrate butternut likely persisted near the glacial margin, and hindcast species distribution models identified suitable habitat in the southern United States and near Nova Scotia. Main conclusions Genetic patterns in butternut may be shaped by both glaciation and modern environmental conditions. Pollen records and hindcast species distribution models combined with genetic distinctiveness in New Brunswick suggest that butternut may have persisted in cryptic northern refugia. We suggest that thorough sampling across a species range and evaluating multiple lines of evidence are essential to understanding past species movements.

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Curbing the Appetite on Emotional Eating

Schumacher¹,

Hernandez²

2018

SACAD

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This study will look at the effect of an emotional support group on the self-reported urge to eat when experiencing 25 different emotions outlined in an emotional eating survey (EES) in ages 18 to 30 years old. The sample of 15 participants will be selected using convenience sampling and the study will follow a quasi-experimental design. Participants will be pretested with a 25-item Likert scale format EES and will be post-tested using the same EES after attending 6 weeks of the emotional support group. The data will be analyzed using a paired t-test pending data collection.

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