The Shock of Shatter: Understanding Silique and Silicle Dehiscence for Improving Oilseed Crops in Brassicaceae
ABSTRACT Silique dehiscence, despite being an essential physiological process for seed dispersal for dehiscent fruits, is disadvantageous for the agricultural industry. While crops have been selected against the expression of natural, spontaneous shattering to protect the seeds for harvest, fruit de...
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Wiley
2025-04-01
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| Series: | Plant Direct |
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| Online Access: | https://doi.org/10.1002/pld3.70058 |
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| author | Justin B. Nichol Shakshi A. Dutt Marcus A. Samuel |
| author_facet | Justin B. Nichol Shakshi A. Dutt Marcus A. Samuel |
| author_sort | Justin B. Nichol |
| collection | DOAJ |
| description | ABSTRACT Silique dehiscence, despite being an essential physiological process for seed dispersal for dehiscent fruits, is disadvantageous for the agricultural industry. While crops have been selected against the expression of natural, spontaneous shattering to protect the seeds for harvest, fruit dehiscence in the field can be promoted through abiotic factors such as wind, drought, and hail that can be detrimental in reducing crop yield and profitability. In crops like canola, pennycress, and Camelina, this impact could be as high as 50%, creating economic losses for both the industry and the economy. Mitigating the effects of fruit dehiscence is crucial to prevent seed loss, economic loss, and the persistence of volunteer plants, which interfere with crop rotation and require increased weed control. Developing agronomic traits through genetic manipulation to enhance the strength of the fruiting body can prevent seed dispersal mechanisms from occurring and boost yield efficiency and preservation. Current research into this area has created mutant plants with indehiscent fruits by reducing allele function that determines the identity of the various anatomical layers of the fruit. Future genetic approaches may focus on strengthening siliques by enhancing secondary cell walls through either increased lignification or reducing cell wall‐degrading enzymes to achieve shatter tolerance. This review focuses on improving our knowledge within members of the Brassicaceae family to create a better understanding of silique/silicle dehiscence for researchers to establish a groundwork for broader applications across diverse crops. This knowledge will directly lead to improved agricultural productivity and ensure a stable food supply, addressing global challenges the world is facing. |
| format | Article |
| id | doaj-art-7e76a95d9bb14effa02f15dafaac796a |
| institution | OA Journals |
| issn | 2475-4455 |
| language | English |
| publishDate | 2025-04-01 |
| publisher | Wiley |
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| spelling | doaj-art-7e76a95d9bb14effa02f15dafaac796a2025-08-20T02:29:34ZengWileyPlant Direct2475-44552025-04-0194n/an/a10.1002/pld3.70058The Shock of Shatter: Understanding Silique and Silicle Dehiscence for Improving Oilseed Crops in BrassicaceaeJustin B. Nichol0Shakshi A. Dutt1Marcus A. Samuel2Department of Biological Sciences University of Calgary Calgary Alberta CanadaDepartment of Biological Sciences University of Calgary Calgary Alberta CanadaDepartment of Biological Sciences University of Calgary Calgary Alberta CanadaABSTRACT Silique dehiscence, despite being an essential physiological process for seed dispersal for dehiscent fruits, is disadvantageous for the agricultural industry. While crops have been selected against the expression of natural, spontaneous shattering to protect the seeds for harvest, fruit dehiscence in the field can be promoted through abiotic factors such as wind, drought, and hail that can be detrimental in reducing crop yield and profitability. In crops like canola, pennycress, and Camelina, this impact could be as high as 50%, creating economic losses for both the industry and the economy. Mitigating the effects of fruit dehiscence is crucial to prevent seed loss, economic loss, and the persistence of volunteer plants, which interfere with crop rotation and require increased weed control. Developing agronomic traits through genetic manipulation to enhance the strength of the fruiting body can prevent seed dispersal mechanisms from occurring and boost yield efficiency and preservation. Current research into this area has created mutant plants with indehiscent fruits by reducing allele function that determines the identity of the various anatomical layers of the fruit. Future genetic approaches may focus on strengthening siliques by enhancing secondary cell walls through either increased lignification or reducing cell wall‐degrading enzymes to achieve shatter tolerance. This review focuses on improving our knowledge within members of the Brassicaceae family to create a better understanding of silique/silicle dehiscence for researchers to establish a groundwork for broader applications across diverse crops. This knowledge will directly lead to improved agricultural productivity and ensure a stable food supply, addressing global challenges the world is facing.https://doi.org/10.1002/pld3.70058agriculture productioncell walllignificationoilseed cropssilique dehiscenceyield increases |
| spellingShingle | Justin B. Nichol Shakshi A. Dutt Marcus A. Samuel The Shock of Shatter: Understanding Silique and Silicle Dehiscence for Improving Oilseed Crops in Brassicaceae Plant Direct agriculture production cell wall lignification oilseed crops silique dehiscence yield increases |
| title | The Shock of Shatter: Understanding Silique and Silicle Dehiscence for Improving Oilseed Crops in Brassicaceae |
| title_full | The Shock of Shatter: Understanding Silique and Silicle Dehiscence for Improving Oilseed Crops in Brassicaceae |
| title_fullStr | The Shock of Shatter: Understanding Silique and Silicle Dehiscence for Improving Oilseed Crops in Brassicaceae |
| title_full_unstemmed | The Shock of Shatter: Understanding Silique and Silicle Dehiscence for Improving Oilseed Crops in Brassicaceae |
| title_short | The Shock of Shatter: Understanding Silique and Silicle Dehiscence for Improving Oilseed Crops in Brassicaceae |
| title_sort | shock of shatter understanding silique and silicle dehiscence for improving oilseed crops in brassicaceae |
| topic | agriculture production cell wall lignification oilseed crops silique dehiscence yield increases |
| url | https://doi.org/10.1002/pld3.70058 |
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