Breeding crop plants with deep roots: their role in sustainable carbon, nutrient and water sequestration
about
Root adaptations to soils with low fertility and aluminium toxicityCarbon Sequestration by Perennial Energy Crops: Is the Jury Still Out?Genetic improvement for root growth angle to enhance crop productionLarge-scale sequestration of atmospheric carbon via plant roots in natural and agricultural ecosystems: why and howHypocotyl adventitious root organogenesis differs from lateral root developmentA new emphasis on root traits for perennial grass and legume varieties with environmental and ecological benefitsField-Based Estimates of Global Warming Potential in Bioenergy Systems of Hawaii: Crop Choice and Deficit IrrigationSustainable intensification in agricultural systems.The role of soil microbes in the global carbon cycle: tracking the below-ground microbial processing of plant-derived carbon for manipulating carbon dynamics in agricultural systemsMatching roots to their environmentRoot-root interactions: extending our perspective to be more inclusive of the range of theories in ecology and agriculture using in-vivo analysesExploiting genomic knowledge in optimising molecular breeding programmes: algorithms from evolutionary computingRoot system architecture: insights from Arabidopsis and cereal cropsUnderstanding deep roots and their functions in ecosystems: an advocacy for more unconventional research.Sustainable grassland systems: a modelling perspective based on the North Wyke Farm PlatformIntensive field phenotyping of maize (Zea mays L.) root crowns identifies phenes and phene integration associated with plant growth and nitrogen acquisitionGenomic Regions Associated with Root Traits under Drought Stress in Tropical Maize (Zea mays L.).Overestimation of Crop Root Biomass in Field Experiments Due to Extraneous Organic MatterRoot Traits and Phenotyping Strategies for Plant ImprovementHow to study deep roots-and why it matters.Integration of root phenes for soil resource acquisition.Opportunities and challenges in the subsoil: pathways to deeper rooted crops.Improvement and transcriptome analysis of root architecture by overexpression of Fraxinus pennsylvanica DREB2A transcription factor in Robinia pseudoacacia L. 'Idaho'.Root traits confer grain yield advantages under terminal drought in chickpea (Cicer arietinum L.).Genetic engineering to improve plant performance under drought: physiological evaluation of achievements, limitations, and possibilities.Challenges and opportunities for quantifying roots and rhizosphere interactions through imaging and image analysis.Can diversity in root architecture explain plant water use efficiency? A modeling studyAssessment of soil water, carbon and nitrogen cycling in reseeded grassland on the North Wyke Farm Platform using a process-based model.Long-term impacts of manure amendments on carbon and greenhouse gas dynamics of rangelands.Enhancing auxin accumulation in maize root tips improves root growth and dwarfs plant height.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.Scientific discovery as a combinatorial optimisation problem: how best to navigate the landscape of possible experiments?Virtual Plants Need Water Too: Functional-Structural Root System Models in the Context of Drought Tolerance Breeding.Deep roots and soil structure.Root-soil friction: quantification provides evidence for measurable benefits for manipulation of root-tip traits.Critical review of the impacts of grazing intensity on soil organic carbon storage and other soil quality indicators in extensively managed grasslands.Improving the Yield and Nutritional Quality of Forage Crops.The culturable endophytic fungal communities of switchgrass grown on a coal-mining site and their effects on plant growth.Soil organic matter turnover is governed by accessibility not recalcitranceThe effects of heating, rhizosphere, and depth on root litter decomposition are mediated by soil moisture
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P2860
Breeding crop plants with deep roots: their role in sustainable carbon, nutrient and water sequestration
description
2011 nî lūn-bûn
@nan
2011 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Breeding crop plants with deep ...... trient and water sequestration
@ast
Breeding crop plants with deep ...... trient and water sequestration
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Breeding crop plants with deep ...... trient and water sequestration
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type
label
Breeding crop plants with deep ...... trient and water sequestration
@ast
Breeding crop plants with deep ...... trient and water sequestration
@en
Breeding crop plants with deep ...... trient and water sequestration
@nl
prefLabel
Breeding crop plants with deep ...... trient and water sequestration
@ast
Breeding crop plants with deep ...... trient and water sequestration
@en
Breeding crop plants with deep ...... trient and water sequestration
@nl
P2860
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Breeding crop plants with deep ...... trient and water sequestration
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P2860
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10.1093/AOB/MCR175
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P50
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2011-09-01T00:00:00Z