TY - JOUR
T1 - Toward global integration of biodiversity big data
T2 - a harmonized metabarcode data generation module for terrestrial arthropods
AU - Arribas, Paula
AU - Andújar, Carmelo
AU - Bohmann, Kristine
AU - deWaard, Jeremy R.
AU - Economo, Evan P.
AU - Elbrecht, Vasco
AU - Geisen, Stefan
AU - Goberna, Marta
AU - Krehenwinkel, Henrik
AU - Novotny, Vojtech
AU - Zinger, Lucie
AU - Creedy, Thomas J.
AU - Meramveliotakis, Emmanouil
AU - Noguerales, Víctor
AU - Overcast, Isaac
AU - Morlon, Hélène
AU - Papadopoulou, Anna
AU - Vogler, Alfried P.
AU - Emerson, Brent C.
PY - 2022/7/19
Y1 - 2022/7/19
N2 - Metazoan metabarcoding is emerging as an essential strategy for inventorying biodiversity, with diverse projects currently generating massive quantities of community-level data. The potential for integrating across such data sets offers new opportunities to better understand biodiversity and how it might respond to global change. However, large-scale syntheses may be compromised if metabarcoding workflows differ from each other. There are ongoing efforts to improve standardization for the reporting of inventory data. However, harmonization at the stage of generating metabarcode data has yet to be addressed. A modular framework for harmonized data generation offers a pathway to navigate the complex structure of terrestrial metazoan biodiversity. Here, through our collective expertise as practitioners, method developers, and researchers leading metabarcoding initiatives to inventory terrestrial biodiversity, we seek to initiate a harmonized framework for metabarcode data generation, with a terrestrial arthropod module. We develop an initial set of submodules covering the 5 main steps of metabarcode data generation: (i) sample acquisition; (ii) sample processing; (iii) DNA extraction; (iv) polymerase chain reaction amplification, library preparation, and sequencing; and (v) DNA sequence and metadata deposition, providing a backbone for a terrestrial arthropod module. To achieve this, we (i) identified key points for harmonization, (ii) reviewed the current state of the art, and (iii) distilled existing knowledge within submodules, thus promoting best practice by providing guidelines and recommendations to reduce the universe of methodological options. We advocate the adoption and further development of the terrestrial arthropod module. We further encourage the development of modules for other biodiversity fractions as an essential step toward large-scale biodiversity synthesis through harmonization.
AB - Metazoan metabarcoding is emerging as an essential strategy for inventorying biodiversity, with diverse projects currently generating massive quantities of community-level data. The potential for integrating across such data sets offers new opportunities to better understand biodiversity and how it might respond to global change. However, large-scale syntheses may be compromised if metabarcoding workflows differ from each other. There are ongoing efforts to improve standardization for the reporting of inventory data. However, harmonization at the stage of generating metabarcode data has yet to be addressed. A modular framework for harmonized data generation offers a pathway to navigate the complex structure of terrestrial metazoan biodiversity. Here, through our collective expertise as practitioners, method developers, and researchers leading metabarcoding initiatives to inventory terrestrial biodiversity, we seek to initiate a harmonized framework for metabarcode data generation, with a terrestrial arthropod module. We develop an initial set of submodules covering the 5 main steps of metabarcode data generation: (i) sample acquisition; (ii) sample processing; (iii) DNA extraction; (iv) polymerase chain reaction amplification, library preparation, and sequencing; and (v) DNA sequence and metadata deposition, providing a backbone for a terrestrial arthropod module. To achieve this, we (i) identified key points for harmonization, (ii) reviewed the current state of the art, and (iii) distilled existing knowledge within submodules, thus promoting best practice by providing guidelines and recommendations to reduce the universe of methodological options. We advocate the adoption and further development of the terrestrial arthropod module. We further encourage the development of modules for other biodiversity fractions as an essential step toward large-scale biodiversity synthesis through harmonization.
KW - arthropods
KW - biodiversity big data integration
KW - biodiversity inventory
KW - comparability
KW - data generation
KW - harmonization
KW - metabarcoding
KW - modular structure
KW - reproducibility
U2 - 10.1093/gigascience/giac065
DO - 10.1093/gigascience/giac065
M3 - Article
C2 - 35852418
AN - SCOPUS:85134557257
SN - 2047-217X
VL - 11
JO - GigaScience
JF - GigaScience
M1 - giac065
ER -