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      Bridging the Gap Between Remote Sensing and Plant Phenotyping—Challenges and Opportunities for the Next Generation of Sustainable Agriculture

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          The FAIR Guiding Principles for scientific data management and stewardship

          There is an urgent need to improve the infrastructure supporting the reuse of scholarly data. A diverse set of stakeholders—representing academia, industry, funding agencies, and scholarly publishers—have come together to design and jointly endorse a concise and measureable set of principles that we refer to as the FAIR Data Principles. The intent is that these may act as a guideline for those wishing to enhance the reusability of their data holdings. Distinct from peer initiatives that focus on the human scholar, the FAIR Principles put specific emphasis on enhancing the ability of machines to automatically find and use the data, in addition to supporting its reuse by individuals. This Comment is the first formal publication of the FAIR Principles, and includes the rationale behind them, and some exemplar implementations in the community.
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            Future scenarios for plant phenotyping.

            With increasing demand to support and accelerate progress in breeding for novel traits, the plant research community faces the need to accurately measure increasingly large numbers of plants and plant parameters. The goal is to provide quantitative analyses of plant structure and function relevant for traits that help plants better adapt to low-input agriculture and resource-limited environments. We provide an overview of the inherently multidisciplinary research in plant phenotyping, focusing on traits that will assist in selecting genotypes with increased resource use efficiency. We highlight opportunities and challenges for integrating noninvasive or minimally invasive technologies into screening protocols to characterize plant responses to environmental challenges for both controlled and field experimentation. Although technology evolves rapidly, parallel efforts are still required because large-scale phenotyping demands accurate reporting of at least a minimum set of information concerning experimental protocols, data management schemas, and integration with modeling. The journey toward systematic plant phenotyping has only just begun.
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              Field high-throughput phenotyping: the new crop breeding frontier.

              Constraints in field phenotyping capability limit our ability to dissect the genetics of quantitative traits, particularly those related to yield and stress tolerance (e.g., yield potential as well as increased drought, heat tolerance, and nutrient efficiency, etc.). The development of effective field-based high-throughput phenotyping platforms (HTPPs) remains a bottleneck for future breeding advances. However, progress in sensors, aeronautics, and high-performance computing are paving the way. Here, we review recent advances in field HTPPs, which should combine at an affordable cost, high capacity for data recording, scoring and processing, and non-invasive remote sensing methods, together with automated environmental data collection. Laboratory analyses of key plant parts may complement direct phenotyping under field conditions. Improvements in user-friendly data management together with a more powerful interpretation of results should increase the use of field HTPPs, therefore increasing the efficiency of crop genetic improvement to meet the needs of future generations. Copyright © 2013 Elsevier Ltd. All rights reserved.
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                Author and article information

                Contributors
                Journal
                Front Plant Sci
                Front Plant Sci
                Front. Plant Sci.
                Frontiers in Plant Science
                Frontiers Media S.A.
                1664-462X
                22 October 2021
                2021
                : 12
                : 749374
                Affiliations
                [1] 1Department of Environmental Research and Innovation, Luxembourg Institute of Science and Technology , Belval, Luxembourg
                [2] 2Institute of Bio and Geosciences, Plant Sciences, Forschungszentrum Jülich, Helmholtz-Verband Deutscher Forschungszentren , Jülich, Germany
                [3] 3Department of Geography, Ludwig-Maximilians-Universität München , Munich, Germany
                [4] 4Department of Environmental Systems Science, Crop Science, Eidgenössische Technische Hochschule (ETH) Zurich , Zurich, Switzerland
                [5] 5Instituto de Agricultura Sostenible, Consejo Superior de Investigaciones Científicas , Cordoba, Spain
                [6] 6INRAE-EMMAH-CAPTE , Avignon, France
                [7] 7Forschungszentrum Jülich, Institute of Bio- and Geosciences Plant Sciences (IBG-2) , Jülich, Germany
                Author notes

                Edited by: Alessandro Matese, National Research Council (CNR), Italy

                Reviewed by: Piero Toscano, National Research Council (CNR), Italy

                *Correspondence: Miriam Machwitz miriam.machwitz@ 123456list.lu

                This article was submitted to Technical Advances in Plant Science, a section of the journal Frontiers in Plant Science

                Article
                10.3389/fpls.2021.749374
                8571019
                34751225
                ef6315f6-fb59-47f6-8c2d-785fc380fec3
                Copyright © 2021 Machwitz, Pieruschka, Berger, Schlerf, Aasen, Fahrner, Jiménez-Berni, Baret and Rascher.

                This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

                History
                : 29 July 2021
                : 27 September 2021
                Page count
                Figures: 1, Tables: 0, Equations: 0, References: 42, Pages: 7, Words: 4795
                Categories
                Plant Science
                Opinion

                Plant science & Botany
                remote sensing,high-throughput field phenotyping,unmanned aerial vehicles (uavs),multi-sensor synergies,open-data standards,vegetation traits,radiative transfer models (rtm),smart farming

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