New genomic resources to boost research in reproductive biology to enable cost-effective hybrid seed production

Antje Rohde; Marc Albertsen; Scott A Boden; Pauline Bansept-Basler; Philipp H G Boeven; Colin Cavanagh; Laura E Dixon; Claus Frohberg; Lucie Griffe; Jacob Lage; Leah Maeder; Marina Millán-Blánquez; Paul D Olson; Laura Röhrig; Thorsten Schnurbusch; Cristóbal Uauy; Ryan Whitford

doi:10.1002/tpg2.70092

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New genomic resources to boost research in reproductive biology to enable cost-effective hybrid seed production

Journal article

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New genomic resources to boost research in reproductive biology to enable cost-effective hybrid seed production

Antje Rohde, Marc Albertsen, Scott A Boden, Pauline Bansept-Basler, Philipp H G Boeven, Colin Cavanagh, Laura E Dixon, Claus Frohberg, Lucie Griffe, Jacob Lage, …

The plant genome, Vol.18(3), e70092

2025

DOI: https://doi.org/10.1002/tpg2.70092

PMID: 40776455

Appears in Open Access via Read & Publish Agreements

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Abstract

Flowers - genetics

Genome, Plant

Genomics

Hybridization, Genetic

Plant Breeding

Pollen - genetics

Pollination - genetics

Reproduction - genetics

Seeds - genetics

Seeds - growth & development

Triticum - genetics

Triticum - growth & development

Triticum - physiology

Plant developmental and reproductive biology

Crop and pasture improvement (incl. selection and breeding)

Genetically modified field crops and pasture

Wheat

Expanding knowledge in the agricultural, food and veterinary sciences

The commercial realization of hybrid wheat (Triticum aestivum L.) is a major technological challenge to sustainably increase food production for our growing population in a changing climate. Despite recent advances in cytoplasmic- and nuclear-based pollination control systems, the inefficient outcrossing of wheat's autogamous florets remains a barrier to hybrid seed production. There is a pressing need to investigate wheat floral biology and enhance the likelihood of ovaries being fertilized by airborne pollen so breeders can select and utilize male and female parents for resilient, scalable, and cost-effective hybrid seed production. Advances in understanding the wheat genomes and pangenome will aid research into the underlying floral organ development and fertility with the aim to stabilize pollination and fertilization under a changing climate. The purpose of this position paper is to highlight priority areas of research to support hybrid wheat development, including (1) structural aspects of florets that affect stigma presentation, longevity, and receptivity to airborne pollen, (2) pollen release dynamics (e.g., anther extrusion and dehiscence), and (3) the effect of heat, drought, irradiation, and humidity on these reproductive traits. A combined approach of increased understanding built on the genomic resources and advanced trait evaluation will deliver to robust measures for key floral characteristics, such that diverse germplasm can be fully exploited to realize the yield improvements and yield stability offered by hybrids.

Details

Title: New genomic resources to boost research in reproductive biology to enable cost-effective hybrid seed production
Authors/Creators: Antje Rohde (Corresponding Author) - KWS Saat (Germany)
Marc Albertsen (Author) - Product Innovation and Engineering (United States) (United States, Saint James) - LLC
Scott A Boden (Author) - The University of Adelaide
Pauline Bansept-Basler (Author) - Bayer (France)
Philipp H G Boeven (Author) - Limagrain GmbH, Peine-Rosenthal, Germany
Colin Cavanagh (Author) - BASF (France)
Laura E Dixon (Author) - Leibniz-Institut für Pflanzengenetik und Kulturpflanzenforschung (IPK)
Claus Frohberg (Author) - BASF Innovation Center, BASF Belgium Coordination Center CommV Gent, Gent, Belgium
Lucie Griffe (Author) - RAGT Seeds (United Kingdom)
Jacob Lage (Author) - KWS Momont, Mons en Pévèle, France
Leah Maeder (Author) - Corteva (United States)
Marina Millán-Blánquez (Author) - Institut National de Recherche pour l'Agriculture, l'Alimentation et l'Environnement
Paul D Olson (Author) - Syngenta Seeds GmbH, Bad Salzuflen, Germany
Laura Röhrig (Author) - RAGT Seeds (United Kingdom)
Thorsten Schnurbusch (Author) - Leibniz-Institut für Pflanzengenetik und Kulturpflanzenforschung (IPK)
Cristóbal Uauy (Author) - Norwich Research Park
Ryan Whitford (Corresponding Author) - Murdoch University
Publication Details: The plant genome, Vol.18(3), e70092
Publisher: Wiley Periodicals LLC on behalf of Crop Science Society of America.
Grants: Unlocking the full reproductive potential for hybrid for wheat breeding (IM230100042), 22099, Australian Research Council (Australia, Canberra) - ARC
Identifiers: 991005802850307891
Murdoch Affiliation: Centre for Crop and Food Innovation
Language: English
Resource Type: Journal article

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