Rice cycles between drought and well-watered-adapted phenotypes by changing lateral root formation
"Background and Aims Natural rainfed conditions present drought episodes interspersed with periods of moderate to high soil moisture levels. This study investigates the genetic variation in root-to-shoot growth in response to a wet–drought–wet cycle and aims to identify rice (Oryza sativa) lines dif...
| Main Authors: | , , , , , , |
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| Format: | Journal Article |
| Language: | Inglés |
| Published: |
Oxford University Press (OUP)
2025
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| Subjects: | |
| Online Access: | https://hdl.handle.net/10568/177674 |
| _version_ | 1855528731227979776 |
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| author | Bochmann, Helena Klein, Marie Henry, Amelia Faßbender, Heike De Ocampo, Marjorie Kant, Josefine Watt, Michelle |
| author_browse | Bochmann, Helena De Ocampo, Marjorie Faßbender, Heike Henry, Amelia Kant, Josefine Klein, Marie Watt, Michelle |
| author_facet | Bochmann, Helena Klein, Marie Henry, Amelia Faßbender, Heike De Ocampo, Marjorie Kant, Josefine Watt, Michelle |
| author_sort | Bochmann, Helena |
| collection | Repository of Agricultural Research Outputs (CGSpace) |
| description | "Background and Aims
Natural rainfed conditions present drought episodes interspersed with periods of moderate to high soil moisture levels. This study investigates the genetic variation in root-to-shoot growth in response to a wet–drought–wet cycle and aims to identify rice (Oryza sativa) lines differing in drought recovery, focusing on detailed root trait investigations.
Methods
In total, 100 different rice accessions were screened under fluctuating moisture across three field seasons for GWAS (genome-wide association study) analysis. In a subset of 20 genotypes, crown root number and leaf length were recorded regularly to calculate a water recovery index (WRI). Two lines contrasting in WRI were grown in a glasshouse experiment to resolve detailed root phenotypes in simulated field drought and re-watering.
Key Results
GWAS co-locations indicated drought recovery-associated loci that included candidate genes previously reported for several abiotic stressors. In the subset of 20 genotypes, crown root growth was impacted most by the transition from drought to re-watering. The calculated WRI distinguishes different responses to drought and re-watering. A glasshouse study reproduced the contrasting growth of two selected lines, with ‘ADT 12’ shoot and root growth being strongly impaired by drought, while ‘ARC 18202’ growth was not suppressed. Drought caused a significant decrease in S-type lateral root production in both lines, while a significant increase in L-type lateral root proportion was only found for ‘ADT 12’. These phenotypes were reversed 7 d after re-watering to values of the well-watered control plants.
Conclusions
Overall, in-depth root phenotyping confirmed the drought-resistance and recovery ability of ‘ARC 18202’ in the field and highlighted the importance of S-type and L-type lateral root formation already under well-watered conditions prior to drought. ‘ARC 18202’ had a higher amount of thick lateral roots before drought and, therefore, less change in lateral root formation under drought and re-watering conditions." |
| format | Journal Article |
| id | CGSpace177674 |
| institution | CGIAR Consortium |
| language | Inglés |
| publishDate | 2025 |
| publishDateRange | 2025 |
| publishDateSort | 2025 |
| publisher | Oxford University Press (OUP) |
| publisherStr | Oxford University Press (OUP) |
| record_format | dspace |
| spelling | CGSpace1776742025-11-12T04:58:02Z Rice cycles between drought and well-watered-adapted phenotypes by changing lateral root formation Bochmann, Helena Klein, Marie Henry, Amelia Faßbender, Heike De Ocampo, Marjorie Kant, Josefine Watt, Michelle rice drought tolerance water stress root system shoots growth genetic variation phenotyping abiotic stress "Background and Aims Natural rainfed conditions present drought episodes interspersed with periods of moderate to high soil moisture levels. This study investigates the genetic variation in root-to-shoot growth in response to a wet–drought–wet cycle and aims to identify rice (Oryza sativa) lines differing in drought recovery, focusing on detailed root trait investigations. Methods In total, 100 different rice accessions were screened under fluctuating moisture across three field seasons for GWAS (genome-wide association study) analysis. In a subset of 20 genotypes, crown root number and leaf length were recorded regularly to calculate a water recovery index (WRI). Two lines contrasting in WRI were grown in a glasshouse experiment to resolve detailed root phenotypes in simulated field drought and re-watering. Key Results GWAS co-locations indicated drought recovery-associated loci that included candidate genes previously reported for several abiotic stressors. In the subset of 20 genotypes, crown root growth was impacted most by the transition from drought to re-watering. The calculated WRI distinguishes different responses to drought and re-watering. A glasshouse study reproduced the contrasting growth of two selected lines, with ‘ADT 12’ shoot and root growth being strongly impaired by drought, while ‘ARC 18202’ growth was not suppressed. Drought caused a significant decrease in S-type lateral root production in both lines, while a significant increase in L-type lateral root proportion was only found for ‘ADT 12’. These phenotypes were reversed 7 d after re-watering to values of the well-watered control plants. Conclusions Overall, in-depth root phenotyping confirmed the drought-resistance and recovery ability of ‘ARC 18202’ in the field and highlighted the importance of S-type and L-type lateral root formation already under well-watered conditions prior to drought. ‘ARC 18202’ had a higher amount of thick lateral roots before drought and, therefore, less change in lateral root formation under drought and re-watering conditions." 2025-07-23 2025-11-07T09:00:04Z 2025-11-07T09:00:04Z Journal Article https://hdl.handle.net/10568/177674 en Open Access application/pdf Oxford University Press (OUP) Bochmann, Helena, Marie Klein, Amelia Henry, Heike Faßbender, Marjorie De Ocampo, Josefine Kant, and Michelle Watt. "Rice cycles between drought and well-watered-adapted phenotypes by changing lateral root formation." Annals of Botany (2025): mcaf173. |
| spellingShingle | rice drought tolerance water stress root system shoots growth genetic variation phenotyping abiotic stress Bochmann, Helena Klein, Marie Henry, Amelia Faßbender, Heike De Ocampo, Marjorie Kant, Josefine Watt, Michelle Rice cycles between drought and well-watered-adapted phenotypes by changing lateral root formation |
| title | Rice cycles between drought and well-watered-adapted phenotypes by changing lateral root formation |
| title_full | Rice cycles between drought and well-watered-adapted phenotypes by changing lateral root formation |
| title_fullStr | Rice cycles between drought and well-watered-adapted phenotypes by changing lateral root formation |
| title_full_unstemmed | Rice cycles between drought and well-watered-adapted phenotypes by changing lateral root formation |
| title_short | Rice cycles between drought and well-watered-adapted phenotypes by changing lateral root formation |
| title_sort | rice cycles between drought and well watered adapted phenotypes by changing lateral root formation |
| topic | rice drought tolerance water stress root system shoots growth genetic variation phenotyping abiotic stress |
| url | https://hdl.handle.net/10568/177674 |
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