Michael T. Rose scite author profile

After the embargo period via non-commercial hosting platforms such as their institutional repository  via commercial sites with which Elsevier has an agreement In all cases accepted manuscripts should: link to the formal publication via its DOI  bear a CC-BY-NC-ND licensethis is easy to do  if aggregated with other manuscripts, for example in a repository or other site, be shared in alignment with our hosting policy  not be added to or enhanced in any way to appear more like, or to substitute for, the published journal articleA meta-analysis and review of plant-growth response to humic substances: practical implications for agriculture.

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Enhancing phosphorus and zinc acquisition efficiency in rice: a critical review of root traits and their potential utility in rice breeding

Rose

et al. 2012

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BackgroundRice is the world's most important cereal crop and phosphorus (P) and zinc (Zn) deficiency are major constraints to its production. Where fertilizer is applied to overcome these nutritional constraints it comes at substantial cost to farmers and the efficiency of fertilizer use is low. Breeding crops that are efficient at acquiring P and Zn from native soil reserves or fertilizer sources has been advocated as a cost-effective solution, but would benefit from knowledge of genes and mechanisms that confer enhanced uptake of these nutrients by roots.ScopeThis review discusses root traits that have been linked to P and Zn uptake in rice, including traits that increase mobilization of P/Zn from soils, increase the volume of soil explored by roots or root surface area to recapture solubilized nutrients, enhance the rate of P/Zn uptake across the root membrane, and whole-plant traits that affect root growth and nutrient capture. In particular, this review focuses on the potential for these traits to be exploited through breeding programmes to produce nutrient-efficient crop cultivars.ConclusionsFew root traits have so far been used successfully in plant breeding for enhanced P and Zn uptake in rice or any other crop. Insufficient genotypic variation for traits or the failure to enhance nutrient uptake under realistic field conditions are likely reasons for the limited success. More emphasis is needed on field studies in mapping populations or association panels to identify those traits and underlying genes that are able to enhance nutrient acquisition beyond the level already present in most cultivars.

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Genotypic variation in grain phosphorus concentration, and opportunities to improve P-use efficiency in rice

Rose

Pariasca‐Tanaka

Rose

et al. 2010

Field Crops Research

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Does the chemical nature of soil carbon drive the structure and functioning of soil microbial communities?

Patti

Rose

et al. 2014

Soil Biology and Biochemistry

123

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Plant growth promoting characteristics of soil yeast (Candida tropicalis HY) and its effectiveness for promoting rice growth

Amprayn

Rose

Kecskés

et al. 2012

Applied Soil Ecology

151

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Michael T. Rose

A Meta-Analysis and Review of Plant-Growth Response to Humic Substances

Enhancing phosphorus and zinc acquisition efficiency in rice: a critical review of root traits and their potential utility in rice breeding

Genotypic variation in grain phosphorus concentration, and opportunities to improve P-use efficiency in rice

Does the chemical nature of soil carbon drive the structure and functioning of soil microbial communities?

Plant growth promoting characteristics of soil yeast (Candida tropicalis HY) and its effectiveness for promoting rice growth

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