Root traits for infertile soils
Crop production is often restricted by the availability of essential mineral elements. For example, the availability of N, P, K, and S limits low-input agriculture, the phytoavailability of Fe, Zn, and Cu limits crop production on alkaline and calcareous soils, and P, Mo, Mg, Ca, and K deficiencies,...
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| Published in | Frontiers in plant science Vol. 4; p. 193 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Switzerland
Frontiers Media S.A
11.06.2013
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| Online Access | Get full text |
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| Abstract | Crop production is often restricted by the availability of essential mineral elements. For example, the availability of N, P, K, and S limits low-input agriculture, the phytoavailability of Fe, Zn, and Cu limits crop production on alkaline and calcareous soils, and P, Mo, Mg, Ca, and K deficiencies, together with proton, Al and Mn toxicities, limit crop production on acid soils. Since essential mineral elements are acquired by the root system, the development of crop genotypes with root traits increasing their acquisition should increase yields on infertile soils. This paper examines root traits likely to improve the acquisition of these elements and observes that, although the efficient acquisition of a particular element requires a specific set of root traits, suites of traits can be identified that benefit the acquisition of a group of mineral elements. Elements can be divided into three Groups based on common trait requirements. Group 1 comprises N, S, K, B, and P. Group 2 comprises Fe, Zn, Cu, Mn, and Ni. Group 3 contains mineral elements that rarely affect crop production. It is argued that breeding for a limited number of distinct root ideotypes, addressing particular combinations of mineral imbalances, should be pursued. |
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| AbstractList | Crop production is often restricted by the availability of essential mineral elements. For example, the availability of N, P, K, and S limits low-input agriculture, the phytoavailability of Fe, Zn, and Cu limits crop production on alkaline and calcareous soils, and P, Mo, Mg, Ca, and K deficiencies, together with proton, Al and Mn toxicities, limit crop production on acid soils. Since essential mineral elements are acquired by the root system, the development of crop genotypes with root traits increasing their acquisition should increase yields on infertile soils. This paper examines root traits likely to improve the acquisition of these elements and observes that, although the efficient acquisition of a particular element requires a specific set of root traits, suites of traits can be identified that benefit the acquisition of a group of mineral elements. Elements can be divided into three Groups based on common trait requirements. Group 1 comprises N, S, K, B, and P. Group 2 comprises Fe, Zn, Cu, Mn, and Ni. Group 3 contains mineral elements that rarely affect crop production. It is argued that breeding for a limited number of distinct root ideotypes, addressing particular combinations of mineral imbalances, should be pursued. Crop production is often restricted by the availability of essential mineral elements. For example, the availability of N, P, K, and S limits low-input agriculture, the phytoavailability of Fe, Zn, and Cu limits crop production on alkaline and calcareous soils, and P, Mo, Mg, Ca, and K deficiencies, together with proton, Al and Mn toxicities, limit crop production on acid soils. Since essential mineral elements are acquired by the root system, the development of crop genotypes with root traits increasing their acquisition should increase yields on infertile soils. This paper examines root traits likely to improve the acquisition of these elements and observes that, although the efficient acquisition of a particular element requires a specific set of root traits, suites of traits can be identified that benefit the acquisition of a group of mineral elements. Elements can be divided into three Groups based on common trait requirements. Group 1 comprises N, S, K, B, and P. Group 2 comprises Fe, Zn, Cu, Mn, and Ni. Group 3 contains mineral elements that rarely affect crop production. It is argued that breeding for a limited number of distinct root ideotypes, addressing particular combinations of mineral imbalances, should be pursued.Crop production is often restricted by the availability of essential mineral elements. For example, the availability of N, P, K, and S limits low-input agriculture, the phytoavailability of Fe, Zn, and Cu limits crop production on alkaline and calcareous soils, and P, Mo, Mg, Ca, and K deficiencies, together with proton, Al and Mn toxicities, limit crop production on acid soils. Since essential mineral elements are acquired by the root system, the development of crop genotypes with root traits increasing their acquisition should increase yields on infertile soils. This paper examines root traits likely to improve the acquisition of these elements and observes that, although the efficient acquisition of a particular element requires a specific set of root traits, suites of traits can be identified that benefit the acquisition of a group of mineral elements. Elements can be divided into three Groups based on common trait requirements. Group 1 comprises N, S, K, B, and P. Group 2 comprises Fe, Zn, Cu, Mn, and Ni. Group 3 contains mineral elements that rarely affect crop production. It is argued that breeding for a limited number of distinct root ideotypes, addressing particular combinations of mineral imbalances, should be pursued. |
| Author | White, Philip J. Dupuy, Lionel X. Karley, Alison J. Wiesel, Lea Wishart, Jane Valentine, Tracy A. George, Timothy S. |
| AuthorAffiliation | 1 The James Hutton Institute Invergowrie, UK 2 School of Biology, University of St. Andrews St. Andrews, UK |
| AuthorAffiliation_xml | – name: 1 The James Hutton Institute Invergowrie, UK – name: 2 School of Biology, University of St. Andrews St. Andrews, UK |
| Author_xml | – sequence: 1 givenname: Philip J. surname: White fullname: White, Philip J. – sequence: 2 givenname: Timothy S. surname: George fullname: George, Timothy S. – sequence: 3 givenname: Lionel X. surname: Dupuy fullname: Dupuy, Lionel X. – sequence: 4 givenname: Alison J. surname: Karley fullname: Karley, Alison J. – sequence: 5 givenname: Tracy A. surname: Valentine fullname: Valentine, Tracy A. – sequence: 6 givenname: Lea surname: Wiesel fullname: Wiesel, Lea – sequence: 7 givenname: Jane surname: Wishart fullname: Wishart, Jane |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/23781228$$D View this record in MEDLINE/PubMed |
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| Copyright | Copyright © 2013 White, George, Dupuy, Karley, Valentine, Wiesel and Wishart. 2013 |
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| Keywords | root architecture soil solution uptake mineral nutrition rhizosphere |
| Language | English |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 This article was submitted to Frontiers in Functional Plant Ecology, a specialty of Frontiers in Plant Science. Edited by: Boris Rewald, University of Natural Resources and Life Sciences, Austria Reviewed by: Jennifer Powers, University of Minnesota, USA; Moshe Silberbush, Ben-Gurion University of the Negev, Israel |
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| SubjectTerms | Mineral nutrition Plant Science rhizosphere root architecture soil solution uptake |
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| Title | Root traits for infertile soils |
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