Llorenç Cabrera-Bosquet
Publications
Publications
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Usages d'AgroPortal dans des systèmes d'information à INRAE8. Atelier INtégration de sources/masses de données hétérogènes et Ontologies, dans le domaine des sciences du VIVant et de l’Environnement (IN-OVIVE), adossé à la conférence Ingénierie des Connaissances @PFIA, AFIA- Association Française d’Intelligence Artificielle, Jul 2025, Dijon, France. 5p |
NIRS as a high-throughput phenotyping tool for assessing the diversity of leaf functioning under water deficit in a large grapevine panelRencontres HélioSPIR 2024, Jun 2024, Montpellier, France. pp.23 |
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Diversity of leaf functioning under water deficit in a large grapevine panel: high throughput phenotyping and genetic analysesOpen GPB 2024 - Open Conference on Grapevine Physiology and Biotechnology, Jul 2024, Logrono La Riora, Spain. ⟨10.58233/FEmcETUr⟩ |
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Utilisation de la diversité naturelle de la vigne pour l'étude des caractères d'adaptation14. Journée Scientifique Vigne-Vin - JSSV 2023, L'Institut Agro Montpellier; INRAE; Université de Montpellier, Mar 2023, Montpellier, France. pp.54-59 |
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PhyQus: Automatic Unit Conversions for WikidataPhysical Quantities4. Wikidata Workshop 2023 co-located with 22nd International Semantic Web Conference (ISWC 2023), Nov 2023, Athènes, Greece. 9p |
Exploring phenotypic space for mining genotypes and alleles in maizePlant Biology Europe meeting PEB 2023, Jul 2023, Marseille, France |
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Proteomics-based systems approach of maize response to water deficit5. INPPO International Plant Proteomics Organization, May 2023, Thessaloniki, Greece |
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An automatic phenotyping pipeline to track maize organs over time7. International Plant Phenotyping Symposium (IPPS 2022), IPPN; WUR; NPEC, Sep 2022, Wageningen, Netherlands. pp.47 |
Phenomic data analysis and management: example in the European community7. International Plant Phenotyping Symposium (IPPS 2022), WUR, Sep 2022, Wageningen, Netherlands |
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A systems approach of drought tolerance in maizeAMAIZING Final Conference, Sep 2021, Online, France |
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A systems approach of drought response in maizeJournée SPS-CLAND, Sep 2021, Online, France |
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A systems approach of drought response in maizeSéminaire du département des Science de l'Environnement de l'Université de Bordeaux, Nov 2021, Bordeaux, France |
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Systems genetics of drought-related traits in maizeEvolutionary Systems Biology congress, Feb 2020, Cambridge, United Kingdom |
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Improving interoperability between phenomics and modelling communities by designing a Plant Modelling Ontology (PMO)FSPM 2020 - 9th International Conference on Functional-Structural Plant Models, Hochschule Geisenheim University; University of Hannover, Oct 2020, Online, Germany. pp.57-58 |
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Integrating proteomics and genomics into systems genetics to better understand the mechanisms of drought tolerance in maizeJournée SFEAP-SFSM, Apr 2019, Paris, France |
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Using metabolomic data to predict Maize yieldJOBIM 2019, Jul 2019, Nantes, France. pp.151 |
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Dissecting G×E and QTL×E of maize yield in contrasting scenarios of light, heat and water deficit24. Eucarpia Maize and Sorghum Conference, TUM School of Life Sciences Weihenstephan, Oct 2019, Freising, Germany |
Systems genetics of drought tolerance in maizeSymposium GisBV, Oct 2019, Paris, France |
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Phenome-Emphasis-Elixir: phenotyping data management and integration12. International Conference on Grapevine Breeding and Genetics, Jul 2018, Bordeaux, France. pp.16 |
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Drought tolerance: which mechanisms, traits and alleles for which drought scenarios?60. Maize Genetics Conference, Mar 2018, Saint-Malo, France |
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Semantics and plant phenotyping data structuration for data analytics7. International Food Legumes Research Conference (IFLRC VII), May 2018, Marrakech, Morocco |
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MYB31 triggers water stress memory responses in maize11es Journées du Réseau Français des parois, Jun 2017, Orléans, France |
GWAS for protein expression under normal and water deficit conditions in maize leavesJournées du Protéome Vert, Mar 2017, Paris, France |
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Image workflows for high throughput phenotyping platformsBMVA technical meeting: Plants in Computer Vision, Nov 2016, London, United Kingdom |
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Genetic variability in light-related parameters of maize models revealed by linking 3D-reconstruction of plant architecture with light model and phenotyping platform2016 IEEE International Conference on Functional-Structural Plant Growth Modeling, Simulation, Visualization and Applications (FSPMA 2016), Nov 2016, Qingdao, China |
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A maize introgression library reveals ample genetic variability for root architecture, water use efficiency and grain yield under different water regimesEPPN Plant Phenotyping Symposium, Nov 2015, Barcelona, Spain |
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Modelling the genetic variation of crop growth in response to environmental conditionsEnvironment Workshops 2013 : Genomic, physiological and breeding approaches for enhancing drought resistance in crops, Universidad Internacional de Andalucia (UNIA). Seville, ESP., Sep 2013, Baeza, Spain |
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Dissection of drought tolerance; vegetative and reproductive growths in water deficitInterdrought IV Conference, Sep 2013, Perth, Australia |
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Model assisted dissection of the Genotype x Environment interactionASA, CSSA and SSSA International Annual Meetings, Oct 2012, Cincinnati, United States |
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Extracting reproducible information from a phenotyping platform requires model-assisted dissection of the phenotypeChina - EU Workshop on Phenotypic Profiling and Technology Transfer on Crop Breeding, Sep 2012, Barcelone, Spain |
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PHIS (Phenotyping Hybrid Information System)2024 |
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Enabling interoperability between AgroPortal and PHIS information system data repository for enhanced phenomics data annotation and exchange2024, 2p. ⟨10.5281/zenodo.14192644⟩ |
Water use-related traits in a bi-parental population of grapevine (cv Syrah X cv Grenache)Recherche Data Gouv, 2021, ⟨10.15454/YTRKV6⟩ |
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Flowering-related traits and florigen expression in a collection of maize inbred linesRecherche Data Gouv, 2020, ⟨10.15454/XTHN7I⟩ |
New Technologies for PhenotypingPhenomics : How next-generation phenotyping is revolutionizing plant breeding, Springer International Publishing, 142 p., 2015, 978-3-319-13676-9. ⟨10.1007/978-3-319-13677-6_1⟩ |