Data from: Plant-derived environmental DNA complements diversity estimates from traditional arthropod monitoring methods but outperforms them detecting plant-arthropod interactions

Name: Plant-derived environmental DNA complements diversity estimates from traditional arthropod monitoring methods but outperforms them detecting plant-arthropod interactions
Creator: Manuel Stothut

Stothut, Manuel 1

Published Sep 21, 2023 on Dryad. https://doi.org/10.5061/dryad.79cnp5j2c

Abstract

Our limited knowledge about the ecological drivers of global arthropod decline highlights the urgent need for more effective biodiversity monitoring approaches. Monitoring of arthropods is commonly performed using passive trapping devices, which reliably recover diverse communities, but provide little ecological information on the sampled taxa. Especially the manifold interactions of arthropods with plants are barely understood. A promising strategy to overcome this shortfall is environmental DNA (eDNA) metabarcoding from plant material on which arthropods have left DNA traces through direct or indirect interactions. However, the accuracy of this approach has not been sufficiently tested. In four experiments, we exhaustively test the comparative performance of plant-derived eDNA from surface washes of plants and homogenized plant material against traditional monitoring approaches. We show that the recovered communities of plant-derived eDNA and traditional approaches only partly overlap, with eDNA recovering various additional taxa. This suggests eDNA as a useful complementary tool to traditional monitoring. Despite the differences in recovered taxa, estimates of community α- and β-diversity between both approaches are well correlated, highlighting the utility of eDNA as a broad scale tool for community monitoring. Last, eDNA outperforms traditional approaches in the recovery of plant-specific arthropod communities. Unlike traditional monitoring, eDNA revealed fine-scaled community differentiation between individual plants and even within plant compartments. Especially specialized herbivores are better recovered with eDNA. Our results highlight the value of plant derived eDNA analysis for large-scale biodiversity assessments that include information about community level interactions.

https://doi.org/10.5061/dryad.79cnp5j2c

This dataset was used to create the manuscript of "Sven Weber, Manuel Stothut, Lisa Mahla, et al. Plant-derived environmental DNA complements diversity estimates from traditional arthropod monitoring methods but outperforms them detecting plant-arthropod interactions", which at the moment publication of data is available at authorea under DOI: 10.22541/au.168658036.68835439/v1.

The excel sheet Kimmlingen_data_raw_raff_tax_meta includes all raw OTUs resulting from the sequence processing (sheets: OTU_traps_raw, OTU_plants_raw), rarefied OTU tables (sheet: OTU_rarefied), the taxonomic annotation of the OTUs (sheet: tax_annotation) and the meta table (sheet: meta) used for the analysis of experiments 1 - 3. The excel sheet Trier_data_raw_raff_tax_meta includes all raw OTUs resulting from the sequence processing (sheets: OTU_raw), rarefied OTU tables (sheet: OTU_rarefied), the taxonomic annotation of the OTUs (sheet: tax_annotation) and the meta table (sheet: meta) used for the analysis of experiment 4. The filtering steps and statistiacal analysis are understandable in connection with the text and figures of the manuscript and supplementary information. Any missing data was named "NA" , which occures in the taxonomic annotation and the metatable, as no meaningful entry could be made here

Description of meta table columns:

Kimmlingen_data_raw_raff_tax_meta, sheet = meta
Sample_ID: Unique identification of each sample we took
method: In this case this discriminates plant-derived eDNA from bulk samples of whole arthropod orgaisms by traditional methods sweep netting, Malaise traps und Pitfall traps.
subset: Discriminates the hedge and grassland are we sampled at the Kimmlingen site. See figure S9 of the Supplementary information of the paper.
cat: Descriminates diffrent approaches used under each method.
species_full: This shows the plant species scientific names if the row included a plant.
plant_compartment: Descriminates the compartment of each given plant.
eDNA_beating_equivalent: For each vegetation beating sample the equivalent eDNA sample is given, since we samlped the same plant individuals for both methods.

Trier_data_raw_raff_tax_meta, sheet = meta
Sample_ID: Unique identification of each sample we took
species_full: This shows the plant species scientific names if the row included a plant.
plant_compartment: Descriminates the compartment of each given plant.
site: Shows the diffrent parent sites.
method: In this case this discriminates plant-derived eDNA (water washes or plant material homogenization) from bulk samples of whole arthropod orgaisms by the traditional method sweep netting.
cat: Descriminates diffrent approaches used under each method.
experiment: Number of experiment from the text and reference to samples used in figurte S9. All samples for figure s( of the Supplementary information are reproduced isolations and PCRs to validate the data.
site_name: Name of each specific site.
habitat: Habitat type of each site.
figure_s9: Name of the site in the figure S9.

The dataset also includes the fastq files which can be used to recreate the sequence processing steps. The first two sections of the fastq file title can be related to the meta tables.

Data from: Plant-derived environmental DNA complements diversity estimates from traditional arthropod monitoring methods but outperforms them detecting plant-arthropod interactions

Data files

Abstract

README: Dataset - Plant-derived environmental DNA complements diversity estimates from traditional arthropod monitoring methods but outperforms them detecting plant-arthropod interactions