Skip to Main Content (Press Enter)

Logo UNIMI
  • ×
  • Home
  • People
  • Projects
  • Fields
  • Units
  • Outputs
  • Third Mission

Expertise & Skills
Logo UNIMI

|

Expertise & Skills

unimi.it
  • ×
  • Home
  • People
  • Projects
  • Fields
  • Units
  • Outputs
  • Third Mission
  1. Outputs

Effects of soil preservation for biodiversity monitoring using environmental DNA

Academic Article
Publication Date:
2020
Citation:
Effects of soil preservation for biodiversity monitoring using environmental DNA / A. Guerrieri, A. Bonin, T. Munkemuller, L. Gielly, W. Thuiller, G.F. Ficetola. - In: MOLECULAR ECOLOGY. - ISSN 0962-1083. - (2020 Oct 08). [Epub ahead of print] [10.1111/mec.15674]
abstract:
Environmental DNA (eDNA) metabarcoding is becoming a key tool for biodiversity monitoring over large geographical or taxonomic scales and for elusive taxa such as soil organisms. Increasing sample sizes and interest in remote or extreme areas often require the preservation of soil samples and thus deviations from optimal standardized protocols. However, we still ignore the impact of different methods of soil sample preservation on the results of metabarcoding studies and there is no guideline for best practices so far. Here, we assessed the impact of four methods of soil sample preservation that can be conveniently used also in metabarcoding studies targeting remote or difficult to access areas. Tested methods include: preservation at room temperature for 6 hr, preservation at 4°C for 3 days, desiccation immediately after sampling and preservation for 21 days, and desiccation after 6 hr at room temperature and preservation for 21 days. For each preservation method, we benchmarked resulting estimates of taxon diversity and community composition of three different taxonomic groups (bacteria, fungi and eukaryotes) in three different habitats (forest, river bank and grassland) against results obtained under ideal conditions (i.e., extraction of eDNA immediately after sampling). Overall, the different preservation methods only marginally impaired results and only under certain conditions. When rare taxa were considered, we detected small but significant changes in molecular operational taxonomic units (MOTU) richness of bacteria, fungi and eukaryotes across treatments, but MOTU richness was similar across preservation methods if rare taxa were not considered. All the approaches were able to identify differences in community structure among habitats, and the communities retrieved using the different preservation conditions were extremely similar. We propose guidelines on the selection of the optimal soil sample preservation conditions for metabarcoding studies, depending on the practical constraints, costs and ultimate research goals.
IRIS type:
01 - Articolo su periodico
Keywords:
eDNA metabarcoding; eukaryotes; microbial communities; MOTU richness; sample storage; α and β diversity
List of contributors:
A. Guerrieri, A. Bonin, T. Munkemuller, L. Gielly, W. Thuiller, G.F. Ficetola
Authors of the University:
FICETOLA GENTILE FRANCESCO ( author )
Link to information sheet:
https://air.unimi.it/handle/2434/791337
Full Text:
https://air.unimi.it/retrieve/handle/2434/791337/1635318/guerrieri%202020%20%20submitted.pdf
https://air.unimi.it/retrieve/handle/2434/791337/1656050/mec.15674.pdf
Project:
Reconstructing community dynamics and ecosystem functioning after glacial retreat (IceCommunities)
  • Research Areas

Research Areas

Concepts (5)


Settore BIO/05 - Zoologia

Settore BIO/07 - Ecologia

Settore BIO/11 - Biologia Molecolare

Settore BIO/18 - Genetica

Settore BIO/19 - Microbiologia Generale
  • Guide
  • Help
  • Accessibility
  • Privacy
  • Use of cookies
  • Legal notices

Powered by VIVO | Designed by Cineca | 26.6.2.0