Nutrient deficiency effects on root architecture and root-to-shoot ratio in arable crops
Plant root traits play a crucial role in resource acquisition and crop performance when soil nutrient availability is low. However, the respective trait responses are complex, particularly at the field scale, and poorly understood due to difficulties in root phenotyping monitoring, inaccurate sampli...
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| Published in | Frontiers in plant science Vol. 13; p. 1067498 |
|---|---|
| Main Authors | , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Switzerland
Frontiers Media S.A
04.01.2023
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1664-462X 1664-462X |
| DOI | 10.3389/fpls.2022.1067498 |
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| Abstract | Plant root traits play a crucial role in resource acquisition and crop performance when soil nutrient availability is low. However, the respective trait responses are complex, particularly at the field scale, and poorly understood due to difficulties in root phenotyping monitoring, inaccurate sampling, and environmental conditions. Here, we conducted a systematic review and meta-analysis of 50 field studies to identify the effects of nitrogen (N), phosphorous (P), or potassium (K) deficiencies on the root systems of common crops. Root length and biomass were generally reduced, while root length per shoot biomass was enhanced under N and P deficiency. Root length decreased by 9% under N deficiency and by 14% under P deficiency, while root biomass was reduced by 7% in N-deficient and by 25% in P-deficient soils. Root length per shoot biomass increased by 33% in N deficient and 51% in P deficient soils. The root-to-shoot ratio was often enhanced (44%) under N-poor conditions, but no consistent response of the root-to-shoot ratio to P-deficiency was found. Only a few K-deficiency studies suited our approach and, in those cases, no differences in morphological traits were reported. We encountered the following drawbacks when performing this analysis: limited number of root traits investigated at field scale, differences in the timing and severity of nutrient deficiencies, missing data (e.g., soil nutrient status and time of stress), and the impact of other conditions in the field. Nevertheless, our analysis indicates that, in general, nutrient deficiencies increased the root-length-to-shoot-biomass ratios of crops, with impacts decreasing in the order deficient P > deficient N > deficient K. Our review resolved inconsistencies that were often found in the individual field experiments, and led to a better understanding of the physiological mechanisms underlying root plasticity in fields with low nutrient availability. |
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| AbstractList | Plant root traits play a crucial role in resource acquisition and crop performance when soil nutrient availability is low. However, the respective trait responses are complex, particularly at the field scale, and poorly understood due to difficulties in root phenotyping monitoring, inaccurate sampling, and environmental conditions. Here, we conducted a systematic review and meta-analysis of 50 field studies to identify the effects of nitrogen (N), phosphorous (P), or potassium (K) deficiencies on the root systems of common crops. Root length and biomass were generally reduced, while root length per shoot biomass was enhanced under N and P deficiency. Root length decreased by 9% under N deficiency and by 14% under P deficiency, while root biomass was reduced by 7% in N-deficient and by 25% in P-deficient soils. Root length per shoot biomass increased by 33% in N deficient and 51% in P deficient soils. The root-to-shoot ratio was often enhanced (44%) under N-poor conditions, but no consistent response of the root-to-shoot ratio to P-deficiency was found. Only a few K-deficiency studies suited our approach and, in those cases, no differences in morphological traits were reported. We encountered the following drawbacks when performing this analysis: limited number of root traits investigated at field scale, differences in the timing and severity of nutrient deficiencies, missing data (e.g., soil nutrient status and time of stress), and the impact of other conditions in the field. Nevertheless, our analysis indicates that, in general, nutrient deficiencies increased the root-length-to-shoot-biomass ratios of crops, with impacts decreasing in the order deficient P > deficient N > deficient K. Our review resolved inconsistencies that were often found in the individual field experiments, and led to a better understanding of the physiological mechanisms underlying root plasticity in fields with low nutrient availability. Plant root traits play a crucial role in resource acquisition and crop performance when soil nutrient availability is low. However, the respective trait responses are complex, particularly at the field scale, and poorly understood due to difficulties in root phenotyping monitoring, inaccurate sampling, and environmental conditions. Here, we conducted a systematic review and meta-analysis of 50 field studies to identify the effects of nitrogen (N), phosphorous (P), or potassium (K) deficiencies on the root systems of common crops. Root length and biomass were generally reduced, while root length per shoot biomass was enhanced under N and P deficiency. Root length decreased by 9% under N deficiency and by 14% under P deficiency, while root biomass was reduced by 7% in N-deficient and by 25% in P-deficient soils. Root length per shoot biomass increased by 33% in N deficient and 51% in P deficient soils. The root-to-shoot ratio was often enhanced (44%) under N-poor conditions, but no consistent response of the root-to-shoot ratio to P-deficiency was found. Only a few K-deficiency studies suited our approach and, in those cases, no differences in morphological traits were reported. We encountered the following drawbacks when performing this analysis: limited number of root traits investigated at field scale, differences in the timing and severity of nutrient deficiencies, missing data (e.g., soil nutrient status and time of stress), and the impact of other conditions in the field. Nevertheless, our analysis indicates that, in general, nutrient deficiencies increased the root-length-to-shoot-biomass ratios of crops, with impacts decreasing in the order deficient P > deficient N > deficient K. Our review resolved inconsistencies that were often found in the individual field experiments, and led to a better understanding of the physiological mechanisms underlying root plasticity in fields with low nutrient availability.Plant root traits play a crucial role in resource acquisition and crop performance when soil nutrient availability is low. However, the respective trait responses are complex, particularly at the field scale, and poorly understood due to difficulties in root phenotyping monitoring, inaccurate sampling, and environmental conditions. Here, we conducted a systematic review and meta-analysis of 50 field studies to identify the effects of nitrogen (N), phosphorous (P), or potassium (K) deficiencies on the root systems of common crops. Root length and biomass were generally reduced, while root length per shoot biomass was enhanced under N and P deficiency. Root length decreased by 9% under N deficiency and by 14% under P deficiency, while root biomass was reduced by 7% in N-deficient and by 25% in P-deficient soils. Root length per shoot biomass increased by 33% in N deficient and 51% in P deficient soils. The root-to-shoot ratio was often enhanced (44%) under N-poor conditions, but no consistent response of the root-to-shoot ratio to P-deficiency was found. Only a few K-deficiency studies suited our approach and, in those cases, no differences in morphological traits were reported. We encountered the following drawbacks when performing this analysis: limited number of root traits investigated at field scale, differences in the timing and severity of nutrient deficiencies, missing data (e.g., soil nutrient status and time of stress), and the impact of other conditions in the field. Nevertheless, our analysis indicates that, in general, nutrient deficiencies increased the root-length-to-shoot-biomass ratios of crops, with impacts decreasing in the order deficient P > deficient N > deficient K. Our review resolved inconsistencies that were often found in the individual field experiments, and led to a better understanding of the physiological mechanisms underlying root plasticity in fields with low nutrient availability. |
| Author | Ewert, Frank Yu, Peng Ahmadi, Seyed Hamid Schaaf, Gabriel Seidel, Sabine Julia Postma, Johannes Kautz, Timo Schnepf, Andrea Watt, Michelle Amelung, Wulf Stoschus, Alixandrine Athmann, Miriam Gocke, Martina I. Rachmilevitch, Shimon Lopez, Gina Gaiser, Thomas |
| AuthorAffiliation | 12 School of BioSciences, Faculty of Science, University of Melbourne , Melbourne, VIC , Australia 5 Organic Farming and Cropping Systems, University of Kassel , Witzenhausen , Germany 7 Crop Science, Thaer-Institute of Agricultural and Horticultural Sciences, Humboldt-University of Berlin , Berlin , Germany 1 Crop Science, Institute of Crop Science and Resource Conservation, University of Bonn , Bonn , Germany 14 Emmy Noether Group Root Functional Biology, Institute of Crop Science and Resource Conservation, University of Bonn , Bonn , Germany 11 Institute for Bio- and Geosciences (IBG-3, Agrosphere), Forschungszentrum Jülich GmbH , Jülich , Germany 2 Water Engineering Department, School of Agriculture, Shiraz University , Shiraz , Iran 4 Soil Science, Institute of Crop Science and Resource Conservation, University of Bonn , Bonn , Germany 3 Drought Research Center, Shiraz University , Shiraz , Iran 9 Blaustein Institutes for Desert Research, Ben Gurion University of the Negev , Beer Sheva , I |
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| Author_xml | – sequence: 1 givenname: Gina surname: Lopez fullname: Lopez, Gina – sequence: 2 givenname: Seyed Hamid surname: Ahmadi fullname: Ahmadi, Seyed Hamid – sequence: 3 givenname: Wulf surname: Amelung fullname: Amelung, Wulf – sequence: 4 givenname: Miriam surname: Athmann fullname: Athmann, Miriam – sequence: 5 givenname: Frank surname: Ewert fullname: Ewert, Frank – sequence: 6 givenname: Thomas surname: Gaiser fullname: Gaiser, Thomas – sequence: 7 givenname: Martina I. surname: Gocke fullname: Gocke, Martina I. – sequence: 8 givenname: Timo surname: Kautz fullname: Kautz, Timo – sequence: 9 givenname: Johannes surname: Postma fullname: Postma, Johannes – sequence: 10 givenname: Shimon surname: Rachmilevitch fullname: Rachmilevitch, Shimon – sequence: 11 givenname: Gabriel surname: Schaaf fullname: Schaaf, Gabriel – sequence: 12 givenname: Andrea surname: Schnepf fullname: Schnepf, Andrea – sequence: 13 givenname: Alixandrine surname: Stoschus fullname: Stoschus, Alixandrine – sequence: 14 givenname: Michelle surname: Watt fullname: Watt, Michelle – sequence: 15 givenname: Peng surname: Yu fullname: Yu, Peng – sequence: 16 givenname: Sabine Julia surname: Seidel fullname: Seidel, Sabine Julia |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/36684760$$D View this record in MEDLINE/PubMed |
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| Copyright | Copyright © 2023 Lopez, Ahmadi, Amelung, Athmann, Ewert, Gaiser, Gocke, Kautz, Postma, Rachmilevitch, Schaaf, Schnepf, Stoschus, Watt, Yu and Seidel. Copyright © 2023 Lopez, Ahmadi, Amelung, Athmann, Ewert, Gaiser, Gocke, Kautz, Postma, Rachmilevitch, Schaaf, Schnepf, Stoschus, Watt, Yu and Seidel 2023 Lopez, Ahmadi, Amelung, Athmann, Ewert, Gaiser, Gocke, Kautz, Postma, Rachmilevitch, Schaaf, Schnepf, Stoschus, Watt, Yu and Seidel |
| Copyright_xml | – notice: Copyright © 2023 Lopez, Ahmadi, Amelung, Athmann, Ewert, Gaiser, Gocke, Kautz, Postma, Rachmilevitch, Schaaf, Schnepf, Stoschus, Watt, Yu and Seidel. – notice: Copyright © 2023 Lopez, Ahmadi, Amelung, Athmann, Ewert, Gaiser, Gocke, Kautz, Postma, Rachmilevitch, Schaaf, Schnepf, Stoschus, Watt, Yu and Seidel 2023 Lopez, Ahmadi, Amelung, Athmann, Ewert, Gaiser, Gocke, Kautz, Postma, Rachmilevitch, Schaaf, Schnepf, Stoschus, Watt, Yu and Seidel |
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| Keywords | potassium nitrogen root morphology nutrient limitation root plasticity phosphorous fertilizer |
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| PublicationTitleAlternate | Front Plant Sci |
| PublicationYear | 2023 |
| Publisher | Frontiers Media S.A |
| Publisher_xml | – name: Frontiers Media S.A |
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| Snippet | Plant root traits play a crucial role in resource acquisition and crop performance when soil nutrient availability is low. However, the respective trait... |
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| SubjectTerms | nitrogen nutrient limitation phosphorous Plant Science potassium root morphology root plasticity |
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| Title | Nutrient deficiency effects on root architecture and root-to-shoot ratio in arable crops |
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