Root2Resilience: Root phenotyping and genetic improvement for rotational crops resilient to environmental change

Informacje na temat projektu

Root2Res

Identyfikator umowy o grant: 101060124

Strona internetowa projektu

DOI

10.3030/101060124

Data podpisania przez KE 7 Czerwca 2022

Data rozpoczęcia 1 Września 2022

Data zakończenia 31 Sierpnia 2027

Finansowanie w ramach

Food, Bioeconomy Natural Resources, Agriculture and Environment

Koszt całkowity

€ 6 367 651,25

Wkład UE

€ 6 367 651,25

6 367 651,25

Koordynowany przez

ARVALIS INSTITUT DU VEGETAL
France

CORDIS oferuje możliwość skorzystania z odnośników do publicznie dostępnych publikacji i rezultatów projektów realizowanych w ramach programów ramowych HORYZONT.

Odnośniki do rezultatów i publikacji związanych z poszczególnymi projektami 7PR, a także odnośniki do niektórych konkretnych kategorii wyników, takich jak zbiory danych i oprogramowanie, są dynamicznie pobierane z systemu OpenAIRE .

Rezultaty

Phenotyping toolbox - rhizosphere

A list of phenotyping tools suitable for quantifying rhizosphere traits, such as root exudate and rhizosphere microbiome traits, will be compiled and added to the phenotyping toolbox. For complicated traits this will involve the identification and validation of proxies suitable for large scale phenotyping (T2.2).

Define target ideotypes

A definition of a root/rhizosphere ideotypes for each crop species and agroclimatic zone to mitigate water and nutrient stress will be produced, taking into account the priority list of ideotype traits and employing modelling approaches (T1.2).

Priority list of root/rhizosphere ideotype traits

With input from stakeholders and analysis of existing data and literature, a priority list of ideotype traits to mitigate water and nutrient stress will be compiled for each crop species and agroclimatic zone. (T1.1).

Policy Brief 2

A second policy brief will be produced summarised the most policy relevant output of Root2Res. This will be delivered to the EC and distributed to all partners for local policy engagement (T7.3).

Phenotyping toolbox-architectural traits

A list of phenotyping tools suitable for quantifying root architectural traits applicable for field trials and CE experiments will be compiled and associated practice abstracts will be produced to generate a toolbox of phenotyping tools (T2.1).

Guidelines for the Stakeholders engagement and interaction

A document outlining the strategy and procedure for stakeholder engagement will be distributed to all partners and placed on the Root2Res website (T7.1).

Quality Management Plan

The project’s quality management (quality assurance and quality control) principles, indicators and methods will be detailed in the quality management plan (T8.3).

Policy Brief 1

A policy brief will be produced summarised the most policy relevant output of Root2Res. This will be delivered to the EC and distributed to all partners for local policy engagement (T7.3).

Dissemination and Exploitation Plans (including the communication handbook)

A document outlining the dissemination and exploitation strategies will be distributed to all partners and placed on the Root2Res website (T7.3).

Project Workspace

An online platform for the sharing of project information will be developed and made available through the Root2Res website (T8.1).

Workshops

Workshops will be run to train Root2Res researchers and stakeholders (final users) in the use of the developed phenotyping toolboxes (T2.1).

Genetic population assembly

Genotypic data on populations of all Root2Res crop species will be assembled for all germplasms identified in T3.1 and will include pre-existing data and newly generated genotyping data for some species. (T3.2)

Updated version of OpenSimRoot

OpenSimRoot will be updated with a novel rhizosphere model, plasticity responses and parameterization for new crops (T6.2). This will be released as part of the Root2Res modelling toolbox.

Experimental systems for studying root plasticity

A test mesocosm systems allowing assessment of the plastic response of root traits to varying water availability will be designed and tested (T5.1).

Publikacje

Holobiont-based genetic analysis reveals new plant and microbial markers for resistance against a root rot pathogen complex in pea

Autorzy: Michael Schneider, Valentin Gfeller, Daniel Ariza-Suarez, Lukas Wille, Klaus H. Oldach, Natacha Bodenhausen, Martin Hartmann, Pierre Hohmann, Bruno Studer, Monika M. Messmer
Opublikowane w: BMC Plant Biology, Numer 25, 2025, ISSN 1471-2229
Wydawca: Springer Science and Business Media LLC
DOI: 10.1186/S12870-025-06995-9

Crop genotype modulates root rot resistance-associated microbial community composition and abundance of key taxa

Autorzy: Valentin Gfeller; Michael Schneider; Natacha Bodenhausen; Matthew W. Horton; Lukas Wille; Klaus H. Oldach; Bruno Studer; Martin Hartmann; Monika M. Messmer; Pierre Hohmann
Opublikowane w: Environmental Microbiome, 2025, ISSN 2524-6372
Wydawca: Root2Res
DOI: 10.1186/S40793-025-00755-W

Editorial: Belowground adaptation of plants to climate change

Autorzy: Timothy S. George; Yinglong Chen; Manuel T. Oliveira
Opublikowane w: Plant and Soil, 2024, ISSN 1573-5036
Wydawca: Root2Res
DOI: 10.1007/S11104-024-06560-7

Modeling the influence of rhizodeposits on root water uptake

Autorzy: Andrew Mair, Emma Gómez Peral, Mariya Ptashnyk, Lionel Dupuy
Opublikowane w: Vadose Zone Journal, Numer 24, 2025, ISSN 1539-1663
Wydawca: Vadose Zone Journal
DOI: 10.1002/VZJ2.70053

Root exudation facilitates water infiltration and rewetting of dry soil

Autorzy: Emma Gomez Peral; Andrew Mair; Iker Martin Sanchez; Gloria de las Heras Martinez; Mariya Ptashnyk; Lionel X Dupuy
Opublikowane w: Plant, Cell & Environment, Numer 49, 2025, ISSN 2692-8205
Wydawca: Root2Res
DOI: 10.1111/PCE.70240

Benefits and limits of biological nitrification inhibitors for plant N uptake and the environment

Autorzy: Christian W. Kuppe; Johannes A. Postma
Opublikowane w: Scientific Reports, Numer 14, 2024, ISSN 2692-8205
Wydawca: Scientific Reports
DOI: 10.1038/S41598-024-65247-2

Quantification of arbuscular mycorrhizal fungi toot colonization in wheat, tomato and leek using absolute qPCR

Autorzy: Andrea Corona Ramírez, Sarah Symanczik, Tabea Gallusser & Natacha Bodenhausen
Opublikowane w: Mycorrhiza, 2023, ISSN 0940-6360
Wydawca: Springer Verlag
DOI: 10.1007/S00572-023-01122-8

Bottom-up perspective – The role of roots and rhizosphere in climate change adaptation and mitigation in agroecosystems

Autorzy: T. S. George; D. Bulgarelli; A. Carminati; Y. Chen; D. Jones; Y. Kuzyakov; A. Schnepf; M. Wissuwa; T. Roose
Opublikowane w: Plant and Soil, 2024, ISSN 1573-5036
Wydawca: Root2Res
DOI: 10.3929/ETHZ-B-000668695

Size Matters: Influence of Available Soil Volume on the Root Architecture and Plant Response at Transcriptomic and Metabolomic Levels in Barley

Autorzy: Sillo F.; Blaser S. R. G. A.; Díaz-Tielas C.; Clayton J.; Araniti F.; Sánchez-Moreiras A. M.; George T. S.; Balestrini R.; Vetterlein D.
Opublikowane w: Plant, Cell & Environment, 2025, ISSN 1365-3040
Wydawca: Root2Res
DOI: 10.25673/119023

Engineering the Crop Microbiota Through Host Genetics

Autorzy: Carmen Escudero-Martinez and Davide Bulgarelli
Opublikowane w: Annual Review of Phytopathology, 2023, ISSN 1432-1890
Wydawca: Annual Review of Phytopathology
DOI: 10.1146/annurev-phyto-021621-121447

Estudio del potencial alelopático del trigo (Triticum aestivum L.) y el trigo sarraceno (Fagopyrum esculentum Moench. y Fagopyrum tataricum Gaertn.) para agricultura ecológica

Autorzy: Vieites Alvarez, Yedra
Opublikowane w: Crossref, 2025
Wydawca: Universidade de Vigo
DOI: 10.35869/11093/9238

Synthetic soil microcosms as emerging model systems to study the rhizosphere

Autorzy: Andrew Mair; Daniel Patko; Yangminghao Liu; Ilonka Engelhardt; Lionel X. Dupuy
Opublikowane w: Plant and Soil, 2025
Wydawca: Plant and Soil
DOI: 10.1007/S11104-025-07495-3

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