A reporting format for leaf-level gas exchange data and metadata

Kim Ely ,Hendrik Poorter,Belinda E Medlyn,Kolby Jardine,Thomas N Buckley,Vigdis Vandvik,Dedi Yang,Christopher M Gough,Lucas A Cernusak,Stan D Wullschleger,Michael J Aspinwall,Ellen Stuart-Haëntjens,Chonggang Xu,Ülo Niinemets,Brett T Wolfe,Berkley J Walker,Sasha C Reed,Johan Uddling,Johannes Kromdijk,Marjorie R Lundgren,David T Hanson,John R Evans,Balasaheb V Sonawane,Jeremiah Anderson,Tomas F Domingues,J Aaron Hogan,Michael C Dietze,Elizabeth A Ainsworth,Aud H Halbritter,Joan Damerow,Colin P Osborne,Zhengbing Yan,Martin G De Kauwe,Chandra Bellasio,Shawn P Serbin,Jens Kattge,Angela C Burnett,Nicholas G Smith,Julien Lamour,Samuel H Taylor,Jeffrey M Warren,Paul F South,Katherine Meacham-Hensold,Elizabeth P Gordon,Thomas D Sharkey,Qianyu Li,Alexandria L Pivovaroff,Anthony P Walker,Steve Bonnage,Stephanie C Schmiege,Loren P Albert,Alistair Rogers,Charuleka Varadharajan,Martijn Slot,Mirindi Eric Dusenge,Youngryel Ryu,David S Ellsworth,Jin Wu,Joseph R Stinziano ,Danielle Way ,Andrew D B Leakey ,Amanda P Cavanagh ,D J Moore ,Carl J Bernacchi ,Dushan Kumarathunge ,Daisy Souza ,Álvaro Sanz‐Sáez ,Jason Hupp ,Nate G Mcdowell ,Robert Crystal‐Ornelas ,Paul P G Gauthier ,David Lebauer ,James A Bunce ,Bruno Giménez ,Kenneth Davidson ,Trevor F Keenan ,D Agarwal ,Robinson I Negrón‐Juárez ,Mauricio Tejera ,Florian Busch ,Ashehad A Ali ,Mary A Heskel

doi:10.1016/j.ecoinf.2021.101232

Abstract

Leaf-level gas exchange data support the mechanistic understanding of plant fluxes of carbon and water. These fluxes inform our understanding of ecosystem function, are an important constraint on parameterization of terrestrial biosphere models, are necessary to understand the response of plants to global environmental change, and are integral to efforts to improve crop production. Collection of these data using gas analyzers can be both technically challenging and time consuming, and individual studies generally focus on a small range of species, restricted time periods, or limited geographic regions. The high value of these data is exemplified by the many publications that reuse and synthesize gas exchange data, however the lack of metadata and data reporting conventions make full and efficient use of these data difficult. Here we propose a reporting format for leaf-level gas exchange data and metadata to provide guidance to data contributors on how to store data in repositories to maximize their discoverability, facilitate their efficient reuse, and add value to individual datasets. For data users, the reporting format will better allow data repositories to optimize data search and extraction, and more readily integrate similar data into harmonized synthesis products. The reporting format specifies data table variable naming and unit conventions, as well as metadata characterizing experimental conditions and protocols. For common data types that were the focus of this initial version of the reporting format, i.e., survey measurements, dark respiration, carbon dioxide and light response curves, and parameters derived from those measurements, we took a further step of defining required additional data and metadata that would maximize the potential reuse of those data types. To aid data contributors and the development of data ingest tools by data repositories we provided a translation table comparing the outputs of common gas exchange instruments. Extensive consultation with data collectors, data users, instrument manufacturers, and data scientists was undertaken in order to ensure that the reporting format met community needs. The reporting format presented here is intended to form a foundation for future development that will incorporate additional data types and variables as gas exchange systems and measurement approaches advance in the future. The reporting format is published in the U.S. Department of Energy's ESS-DIVE data repository, with documentation and future development efforts being maintained in a version control system.

Highlights

The interface between plant and ecological sciences and research data infrastructure is rapidly evolving, with greater expectations for data preservation, reproducible and open research, and the potential to synthesize data across different studies maximizing investments in research
There are a number of common conventions in use for reporting of leaf-level gas exchange data, they are not universal, and our search did not discover any published standards for data reporting. This directed our efforts into the development of a new metadata and data reporting format to enable diverse data contributors to use unified ter minologies and formats when publishing data, lowering the barrier for data reuse and harmonization
We have developed the foundation for a common reporting format by reaching consensus on a list of standard variable names and units for data tables, and metadata elements specific to leaf-level gas exchange measurements

Summary

Introduction

The interface between plant and ecological sciences and research data infrastructure is rapidly evolving, with greater expectations for data preservation, reproducible and open research, and the potential to synthesize data across different studies maximizing investments in research. Gas exchange data are used to answer a wide variety of scientific questions regarding plant function and response to environ mental change (Long et al, 1996; Long and Bernacchi, 2003). They are the basis for estimating and scaling photosynthesis from the leaf to canopy (Yang et al, 2020), and are used to parameterize global biogeochemical models (Kattge et al, 2009). Gas exchange data are central to un derstanding, improving and modelling the response of plants to global and environmental change

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