Localized micronutrient patches induce lateral root foraging and chemotropism in Nicotiana attenuata

Nutrients are distributed unevenly in the soil.Phenotypic plasticity in root growth and proliferation mayenable plants to cope with this variation and effectivelyforage for essential nutrients. However, how micro-nutrients shape root architecture of plants in their naturalenvironments is poorly unde...

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Veröffentlicht in:	Journal of integrative plant biology 2017-10, Vol.59 (10), p.759-771
Hauptverfasser:	Ferrieri, Abigail P., Machado, Ricardo A. R., Arce, Carla C. M., Kessler, Danny, Baldwin, Ian T., Erb, Matthias
Format:	Artikel
Sprache:	eng
Schlagworte:	Architecture attenuata Chemotropism Copper Cyclopentanes - pharmacology Essential nutrients Ethylenes - pharmacology Forage Foraging behavior Hormones Iron Jasmonic acid Laboratories Light emitting diodes Localized micronutrient Micronutrients Micronutrients - metabolism Nicotiana Nicotiana - drug effects Nicotiana - metabolism Nicotiana attenuata Nutrients Oxylipins - pharmacology patches Patches (structures) Phenotype Phenotypic plasticity Placement Plant Roots - drug effects Plant Roots - metabolism Roots Salts Seedlings - drug effects Seedlings - metabolism Soil Soil analysis Tips Zinc
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container_issue	10
container_start_page	759
container_title	Journal of integrative plant biology
container_volume	59
creator	Ferrieri, Abigail P. Machado, Ricardo A. R. Arce, Carla C. M. Kessler, Danny Baldwin, Ian T. Erb, Matthias
description	Nutrients are distributed unevenly in the soil.Phenotypic plasticity in root growth and proliferation mayenable plants to cope with this variation and effectivelyforage for essential nutrients. However, how micro-nutrients shape root architecture of plants in their naturalenvironments is poorly understood. We used a combina-tion of field and laboratory-based assays to determine thecapacity of Nicotiana attenuata to direct root growthtowards localized nutrient patches in its native environ-ment. Plants growing in nature displayed a particular rootphenotype consisting of a single primary root and a fewlong, shallow lateral roots. Analysis of bulk soil surroundingthe lateral roots revealed a strong positive correlationbetween lateral root placement and rnicronutrientgradients, including copper, iron and zinc. In laboratoryassays, the application of localized micronutrient saltsclose to lateral root tips led to roots bending in thedirection of copper and iron. This form of chemotropismwas absent in ethylene and jasmonic acid deficient lines,suggesting that it is controlled in part by these twohormones. This work demonstrates that directed rootgrowth underlies foraging behavior, and suggests thatchemotropism and micronutrient-guided root placementare important factors that shape root architecture innature.
doi_str_mv	10.1111/jipb.12566
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Analysis of bulk soil surroundingthe lateral roots revealed a strong positive correlationbetween lateral root placement and rnicronutrientgradients, including copper, iron and zinc. In laboratoryassays, the application of localized micronutrient saltsclose to lateral root tips led to roots bending in thedirection of copper and iron. This form of chemotropismwas absent in ethylene and jasmonic acid deficient lines,suggesting that it is controlled in part by these twohormones. 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Plants growing in nature displayed a particular rootphenotype consisting of a single primary root and a fewlong, shallow lateral roots. Analysis of bulk soil surroundingthe lateral roots revealed a strong positive correlationbetween lateral root placement and rnicronutrientgradients, including copper, iron and zinc. In laboratoryassays, the application of localized micronutrient saltsclose to lateral root tips led to roots bending in thedirection of copper and iron. This form of chemotropismwas absent in ethylene and jasmonic acid deficient lines,suggesting that it is controlled in part by these twohormones. 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We used a combina-tion of field and laboratory-based assays to determine thecapacity of Nicotiana attenuata to direct root growthtowards localized nutrient patches in its native environ-ment. Plants growing in nature displayed a particular rootphenotype consisting of a single primary root and a fewlong, shallow lateral roots. Analysis of bulk soil surroundingthe lateral roots revealed a strong positive correlationbetween lateral root placement and rnicronutrientgradients, including copper, iron and zinc. In laboratoryassays, the application of localized micronutrient saltsclose to lateral root tips led to roots bending in thedirection of copper and iron. This form of chemotropismwas absent in ethylene and jasmonic acid deficient lines,suggesting that it is controlled in part by these twohormones. 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subjects	Architecture attenuata Chemotropism Copper Cyclopentanes - pharmacology Essential nutrients Ethylenes - pharmacology Forage Foraging behavior Hormones Iron Jasmonic acid Laboratories Light emitting diodes Localized micronutrient Micronutrients Micronutrients - metabolism Nicotiana Nicotiana - drug effects Nicotiana - metabolism Nicotiana attenuata Nutrients Oxylipins - pharmacology patches Patches (structures) Phenotype Phenotypic plasticity Placement Plant Roots - drug effects Plant Roots - metabolism Roots Salts Seedlings - drug effects Seedlings - metabolism Soil Soil analysis Tips Zinc
title	Localized micronutrient patches induce lateral root foraging and chemotropism in Nicotiana attenuata
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