msGBS: A new high‐throughput approach to quantify the relative species abundance in root samples of multi‐species plant communities release_ez3k5qdi7vhhvpum4uqaqzwk4y

by C.A.M. Wagemaker, L. Mommer, E.J.W. Visser, A. Weigelt, T.P. van Gurp, M. Postuma, A.E. Smit‐Tiekstra, H. de Kroon

Published in Molecular Ecology Resources by Wiley.

2020  

Abstract

Plant interactions are as important belowground as aboveground. Belowground plant interactions are however inherently difficult to quantify, as roots of different species are difficult to disentangle. Although for a couple of decades molecular techniques have been successfully applied to quantify root abundance, root identification and quantification in multi-species plant communities remains particularly challenging. Here we present a novel methodology, multi-species Genotyping By Sequencing (msGBS), as a next step to tackle this challenge. First, a multi-species meta-reference database containing thousands of gDNA clusters per species is created from GBS derived High Throughput Sequencing (HTS) reads. Second, GBS derived HTS reads from multi-species root samples are mapped to this meta-reference which, after a filter procedure to increase the taxonomic resolution, allows the parallel quantification of multiple species. The msGBS signal of 111 mock-mixture root samples, with up to 8 plant species per sample, was used to calculate the within-species abundance. Optional subsequent calibration yielded the across-species abundance. The within- and across-species abundances highly correlated (R2 range 0.72-0.94 and 0.85-0.98, respectively) to the biomass-based species abundance. Compared to a qPCR based method which was previously used to analyze the same set of samples, msGBS provided similar results. Additional data on 11 congener species groups within 105 natural field root samples showed high taxonomic resolution of the method. msGBS is highly scalable in terms of sensitivity and species numbers within samples, which is a major advantage compared to the qPCR method and advances our tools to reveal hidden belowground interactions.
In text/plain format

Archived Files and Locations

application/pdf   1.9 MB
file_7ovgwcgfp5cybjfp4xkoqwuaui
repository.ubn.ru.nl (web)
web.archive.org (webarchive)
Read Archived PDF
Preserved and Accessible
Type  article-journal
Stage   published
Date   2020-10-15
Language   en ?
Container Metadata
Not in DOAJ
In Keepers Registry
ISSN-L:  1755-098X
Work Entity
access all versions, variants, and formats of this works (eg, pre-prints)
Catalog Record
Revision: e3eca2b3-9b29-4615-93a8-c28273049257
API URL: JSON