Quantification of aluminum-induced changes in wheat root architecture by X-ray microcomputed tomography
Root architectural traits are of fundamental importance for plant performance, especially under unfavorable soil conditions. This study examined the effect of aluminum (Al) toxicity in different growing media (nutrient solutions and soil) on root architecture of two wheat (Triticum aestivum L.) cult...
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Taylor & Francis
2016
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| Online Access: | https://eprints.nottingham.ac.uk/41207/ |
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| author | Lazarević, Boris Sturrock, Craig Poljak, Milan Mooney, Sacha J. |
| author_facet | Lazarević, Boris Sturrock, Craig Poljak, Milan Mooney, Sacha J. |
| author_sort | Lazarević, Boris |
| building | Nottingham Research Data Repository |
| collection | Online Access |
| description | Root architectural traits are of fundamental importance for plant performance, especially under unfavorable soil conditions. This study examined the effect of aluminum (Al) toxicity in different growing media (nutrient solutions and soil) on root architecture of two wheat (Triticum aestivum L.) cultivars with different Al tolerances. Seedlings were grown in acidic and limed soil and in two contrasting nutrient solutions. Root systems of soil-grown plants were scanned using x-ray microcomputed tomography (µCT) while that of nutrient solution–grown plants were assesses using WinRhizo, 3 and 5 days after planting (DAP), respectively. Aluminum caused significant reduction of all examined root traits (number of seminal roots, root length, length of the longest seminal root, root surface area, and root volume). Growth in acidic soil caused significant reduction in root length, length of the longest seminal root, and root surface area at 5 DAP. Soil-grown plants produced a larger root system compared to plants grown in nutrient solutions. Aluminum toxicity–induced differences of root traits were also found between different nutrient solutions. Beside the well-known reduction of root length, Al toxicity had a profound effect on other root architectural traits. X-ray µCT has revealed root architectural changes under specific conditions of acidic, Al-toxic soil. Differences obtained in Al-induced effects on root architecture between different nutrient solutions as well as between different growing systems emphasize the need for further study of root architecture, especially under specific conditions of Al toxicity in acidic soils. |
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| format | Article |
| id | nottingham-41207 |
| institution | University of Nottingham Malaysia Campus |
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| publishDate | 2016 |
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| spelling | nottingham-412072020-05-04T17:30:43Z https://eprints.nottingham.ac.uk/41207/ Quantification of aluminum-induced changes in wheat root architecture by X-ray microcomputed tomography Lazarević, Boris Sturrock, Craig Poljak, Milan Mooney, Sacha J. Root architectural traits are of fundamental importance for plant performance, especially under unfavorable soil conditions. This study examined the effect of aluminum (Al) toxicity in different growing media (nutrient solutions and soil) on root architecture of two wheat (Triticum aestivum L.) cultivars with different Al tolerances. Seedlings were grown in acidic and limed soil and in two contrasting nutrient solutions. Root systems of soil-grown plants were scanned using x-ray microcomputed tomography (µCT) while that of nutrient solution–grown plants were assesses using WinRhizo, 3 and 5 days after planting (DAP), respectively. Aluminum caused significant reduction of all examined root traits (number of seminal roots, root length, length of the longest seminal root, root surface area, and root volume). Growth in acidic soil caused significant reduction in root length, length of the longest seminal root, and root surface area at 5 DAP. Soil-grown plants produced a larger root system compared to plants grown in nutrient solutions. Aluminum toxicity–induced differences of root traits were also found between different nutrient solutions. Beside the well-known reduction of root length, Al toxicity had a profound effect on other root architectural traits. X-ray µCT has revealed root architectural changes under specific conditions of acidic, Al-toxic soil. Differences obtained in Al-induced effects on root architecture between different nutrient solutions as well as between different growing systems emphasize the need for further study of root architecture, especially under specific conditions of Al toxicity in acidic soils. Taylor & Francis 2016-01-21 Article PeerReviewed Lazarević, Boris, Sturrock, Craig, Poljak, Milan and Mooney, Sacha J. (2016) Quantification of aluminum-induced changes in wheat root architecture by X-ray microcomputed tomography. Communications in Soil Science and Plant Analysis, 47 (2). pp. 263-274. ISSN 1532-2416 Aluminum toxicity aluminum plant nutrition rhizosphere root system architecture Triticum aestivum L. x-ray microcomputed tomography http://www.tandfonline.com/doi/abs/10.1080/00103624.2015.1122800 doi:10.1080/00103624.2015.1122800 doi:10.1080/00103624.2015.1122800 |
| spellingShingle | Aluminum toxicity aluminum plant nutrition rhizosphere root system architecture Triticum aestivum L. x-ray microcomputed tomography Lazarević, Boris Sturrock, Craig Poljak, Milan Mooney, Sacha J. Quantification of aluminum-induced changes in wheat root architecture by X-ray microcomputed tomography |
| title | Quantification of aluminum-induced changes in wheat root architecture by X-ray microcomputed tomography |
| title_full | Quantification of aluminum-induced changes in wheat root architecture by X-ray microcomputed tomography |
| title_fullStr | Quantification of aluminum-induced changes in wheat root architecture by X-ray microcomputed tomography |
| title_full_unstemmed | Quantification of aluminum-induced changes in wheat root architecture by X-ray microcomputed tomography |
| title_short | Quantification of aluminum-induced changes in wheat root architecture by X-ray microcomputed tomography |
| title_sort | quantification of aluminum-induced changes in wheat root architecture by x-ray microcomputed tomography |
| topic | Aluminum toxicity aluminum plant nutrition rhizosphere root system architecture Triticum aestivum L. x-ray microcomputed tomography |
| url | https://eprints.nottingham.ac.uk/41207/ https://eprints.nottingham.ac.uk/41207/ https://eprints.nottingham.ac.uk/41207/ |