Reduced Lateral Root Branching Density Improves Drought Tolerance in Maize. - Wikidata - awgldk - TriplyDB

Reduced Lateral Root Branching Density Improves Drought Tolerance in Maize.

Reduced Lateral Root Branching Density Improves Drought Tolerance in Maize.

http://www.wikidata.org/entity/Q39624906

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Root System Architecture and Abiotic Stress Tolerance: Current Knowledge in Root and Tuber Crops Benchmarking electrical methods for rapid estimation of root biomass Root Type-Specific Reprogramming of Maize Pericycle Transcriptomes by Local High Nitrate Results in Disparate Lateral Root Branching Patterns.Making better maize plants for sustainable grain production in a changing climate Sowing Density: A Neglected Factor Fundamentally Affecting Root Distribution and Biomass Allocation of Field Grown Spring Barley (Hordeum Vulgare L.).Reduced crown root number improves water acquisition under water deficit stress in maize (Zea mays L.).Genetic dissection of maize seedling root system architecture traits using an ultra-high density bin-map and a recombinant inbred line population.Genetic Diversity under Soil Compaction in Wheat: Root Number as a Promising Trait for Early Plant Vigor.OpenSimRoot: widening the scope and application of root architectural models.Ancestral QTL Alleles from Wild Emmer Wheat Enhance Root Development under Drought in Modern Wheat.Predictable 'meta-mechanisms' emerge from feedbacks between transpiration and plant growth and cannot be simply deduced from short-term mechanisms.Water Deficit Enhances C Export to the Roots in Arabidopsis thaliana Plants with Contribution of Sucrose Transporters in Both Shoot and Roots.AtbHLH68 transcription factor contributes to the regulation of ABA homeostasis and drought stress tolerance in Arabidopsis thaliana.Impact of Combined Abiotic and Biotic Stresses on Plant Growth and Avenues for Crop Improvement by Exploiting Physio-morphological Traits.Spatiotemporal variation of nitrate uptake kinetics within the maize (Zea mays L.) root system is associated with greater nitrate uptake and interactions with architectural phenes.Virtual Plants Need Water Too: Functional-Structural Root System Models in the Context of Drought Tolerance Breeding.Diverse belowground resource strategies underlie plant species coexistence and spatial distribution in three grasslands along a precipitation gradient.Identification of transcriptional and receptor networks that control root responses to ethylene.Greater lateral root branching density in maize improves phosphorus acquisition from low phosphorus soil

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Reduced Lateral Root Branching Density Improves Drought Tolerance in Maize.

http://www.wikidata.org/entity/Q39624906

description

2015 nî lūn-bûn

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2015年の論文

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2015年論文

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2015年論文

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2015年論文

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2015年論文

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2015年論文

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2015年论文

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2015年论文

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2015年论文

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name

Reduced Lateral Root Branching Density Improves Drought Tolerance in Maize.

@en

Reduced Lateral Root Branching Density Improves Drought Tolerance in Maize.

@nl

type

label

Reduced Lateral Root Branching Density Improves Drought Tolerance in Maize.

@en

Reduced Lateral Root Branching Density Improves Drought Tolerance in Maize.

@nl

prefLabel

Reduced Lateral Root Branching Density Improves Drought Tolerance in Maize.

@en

Reduced Lateral Root Branching Density Improves Drought Tolerance in Maize.

@nl

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Plant Physiology

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Reduced Lateral Root Branching Density Improves Drought Tolerance in Maize

@en

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Ai Zhan

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Hannah Schneider

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P2860

Root cortical aerenchyma enhances nitrogen acquisition from low-nitrogen soils in maize

Mapping QTLs regulating morpho-physiological traits and yield: case studies, shortcomings and perspectives in drought-stressed maize.

Greater sensitivity to drought accompanies maize yield increase in the U.S. Midwest.

Isolation, characterization, and pericycle-specific transcriptome analyses of the novel maize lateral and seminal root initiation mutant rum1.

The OsTB1 gene negatively regulates lateral branching in rice.

Branching out in new directions: the control of root architecture by lateral root formation.

Oscillating gene expression determines competence for periodic Arabidopsis root branching.

A novel aux/IAA28 signaling cascade activates GATA23-dependent specification of lateral root founder cell identity.

Bimodular auxin response controls organogenesis in Arabidopsis.

Plant roots use a patterning mechanism to position lateral root branches toward available water

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10.1104/PP.15.00187

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