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Instant Insights

Phenotyping applications in agriculture
BuchKartoniert, Paperback
146 Seiten
Englisch
Burleigh Dodds Science Publishingerschienen am23.01.2024
This book reviews recent advances in the application of phenotyping techniques to optimise crop breeding programmes. Chapters discuss the use of phenotyping as a means of improving crop yield, boosting genetic gain and identifying desirable traits in crop roots.mehr

Produkt

KlappentextThis book reviews recent advances in the application of phenotyping techniques to optimise crop breeding programmes. Chapters discuss the use of phenotyping as a means of improving crop yield, boosting genetic gain and identifying desirable traits in crop roots.
Details
ISBN/GTIN978-1-80146-655-4
ProduktartBuch
EinbandartKartoniert, Paperback
Erscheinungsjahr2024
Erscheinungsdatum23.01.2024
ReiheBurleigh Dodds Science: Instant Insights
Reihen-Nr.91
Seiten146 Seiten
SpracheEnglisch
MasseBreite 152 mm, Höhe 229 mm, Dicke 8 mm
Gewicht223 g
Artikel-Nr.61125025

Inhalt/Kritik

Inhaltsverzeichnis
Chapter 1 - Origins and drivers of crop phenotyping: Roland Pieruschka and Ulrich Schurr, Institute for Bio- and Geosciences (IBG), IBG-2: Plant Sciences, Forschungszentrum Jülich, Germany; 1 Introduction2 Technological progress in plant phenotyping3 Community integration in plant phenotyping4 Plant phenotyping as a tool for enhanced and sustainable crop production5 Future trends6 Where to look for further information7 Acknowledgements8 References Chapter 2 - Advances in seed phenotyping using X-ray imaging: Sherif Hamdy, Aurélie Charrier and Laurence Le Corre, GEVES, France; Pejman Rasti, Université d´Angers and École d´ingénieur Informatique et Environnement (ESAIP), France; and David Rousseau, Université d´Angers, France; 1 Introduction2 Sample preparation3 Projection acquisition4 Image reconstruction5 Image processing6 Conclusion and outlook7 Future trends8 Where to look for further information9 References Chapter 3 - Using phenotyping techniques to predict and model grain yield: translating phenotyping into genetic gain: Thomas Vatter and José L. Araus, University of Barcelona and AGROTECNIO (Center for Research in Agrotechnology), Spain; 1 Introduction2 Boosting genetic gain in grain yield by focusing on phenomics3 Stomatal conductance4 Functional stay green5 Case study6 Conclusion and future trends7 Where to look for further information8 References Chapter 4 - Advances in phenotyping to identify drought-resistance traits in cereal roots: John (Jack) Christopher, University of Queensland QAAFI, Australia; 1 Introduction2 Root phenotyping strategies and challenges3 Root traits to improve drought adaptation in cereals4 Phenotyping in controlled conditions: ex-situ5 Field phenotyping6 Three-dimensional imaging and root interactions with the soil7 Imaging and trait data extraction8 Above ground correlated traits in the field9 Trait by environment interactions10 Phenotyping methods for genomic selection and molecular breeding11 Case study: Late, deep root development in sub-tropical wheat12 Conclusion and future trends13 Where to look for further information14 Acknowledgements15 References Chapter 5 - Plant phenotyping of individual plants towards optimal environmental control in plant factories: Eri Hayashi, Japan Plant Factory Association, Japan; 1 Introduction2 Current challenges with plant factories with artificial lighting3 Plant phenotyping4 Plant phenotyping in plant factories with artificial lighting5 Plant cohort research in plant factories with artificial lighting6 Phenotype-based environmental control in plant factories with artificial lighting7 Conclusion8 Acknowledgements9 Referencesmehr

Autor

Roland Pieruschka is currently a plant scientist at the Forschungszentrum Jülich, IBG2: Plant Sciences after his PhD at the University of Düsseldorf and Postdoc at the Carnegie Institution in Stanford. He has been interested in physiological concepts and plant-environment interactions, particularly plant phenotyping, which he combines with establishment and coordination of international plant phenotyping research infrastructures (EMPHASIS), research infrastructure projects (EPPN, EPPN2020), international networks (IPPN).
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