Looking to the past to inform the future: What eDNA from herbarium specimens can tell us about plant–animal interactions

Looking to the past to inform the future: What eDNA from herbarium specimens can tell us about plant–animal interactions

Abstract Premise The importance of natural history collections in modern ecological and genetic research cannot be overstated. Herbarium specimens provide historical information that can be used to investigate community ecology, phenology, and population genetics. In this study, environmental DNA (e...

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Bibliographic Details
Main Authors: Christopher Waters, Carla Hurt, Shawn Krosnick
Format: Article
Language:English
Published: Wiley 2025-03-01
Series:Applications in Plant Sciences
Subjects:
conservation
eDNA
herbarium specimens
metabarcoding
plant–animal interactions
Online Access:https://doi.org/10.1002/aps3.11633
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Summary:Abstract Premise The importance of natural history collections in modern ecological and genetic research cannot be overstated. Herbarium specimens provide historical information that can be used to investigate community ecology, phenology, and population genetics. In this study, environmental DNA (eDNA) metabarcoding and next‐generation sequencing were used to test the efficacy of detecting historical plant–animal interactions from herbarium specimen flowers. Methods A modified eDNA isolation method and standard Illumina sequencing protocols were used. Animal eDNA was amplified using both cytochrome c oxidase subunit I (COI) and 16S primers to increase detection probability. The relationship between specimen age (0–69 years) and target taxa read depth was also investigated. Results We generated and identified over 1.5 million sequences of animal taxa belonging to 29 clades (families or orders). These methods enabled the detection of taxa including birds, mammals, hymenopterans, lepidopterans, coleopterans, and taxa belonging to “intrafloral” communities. While herbarium specimens overall yielded less identifiable eDNA compared to fresh material, the age of the herbarium specimen negligibly affected the amount of target and/or non‐target eDNA detected in flowers. Discussion With careful consideration of the types of data that may be obtained through sampling eDNA from herbarium specimens, these methods could prove valuable to future research on plant–animal interactions.
ISSN:2168-0450

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