Your search keyword '"Blackwell, Martin"' showing total 4 results

1. Phylogenetic distribution, biogeography and the effects of land management upon bacterial non-specific Acid phosphatase Gene diversity and abundance.

Author

Neal, Andrew L., Blackwell, Martin, Akkari, Elsy, Guyomar, Cervin, Clark, Ian, and Hirsch, Penny R.

Subjects

*PHYLOGENY, *PHOSPHATASES, *BIOGEOGRAPHY, *LAND management, *ACID phosphatase genetics

Abstract

Background and aims: Bacterial Non-Specific Acid Phosphatase (NSAP) enzymes are capable of dephosphorylating diverse organic phosphoesters but are rarely studied: their distribution in natural and managed environments is poorly understood. The aim of this study was to generate new insight into the environmental distribution of NSAPs and establish their potential global relevance to cycling of organic phosphorus.Methods: We employed bioinformatic tools to determine NSAP diversity and subcellular localization in microbial genomes; used the corresponding NSAP gene sequences to census metagenomes from diverse ecosystems; studied the effect of long-term land management upon NSAP diversity and abundance.Results: Periplasmic class B NSAPs are poorly represented in marine and terrestrial environments, reflecting their association with enteric and pathogenic bacteria. Periplasmic class A and outer membrane-associated class C NSAPs are cosmopolitan. NSAPs are more abundant in marine than terrestrial ecosystems and class C more abundant than class A genes, except in an acidic peat where class A genes dominate. A clear effect of land management upon gene abundance was identified.Conclusions: NSAP genes are cosmopolitan. Class C genes are more widely distributed: their association with the outer-membrane of cells gives them a clear role in the cycling of organic phosphorus, particularly in soils. [ABSTRACT FROM AUTHOR]

Published

2018

2. Opportunities for mobilizing recalcitrant phosphorus from agricultural soils: a review.

Author

Menezes-Blackburn, Daniel, Giles, Courtney, Darch, Tegan, George, Timothy S., Blackwell, Martin, Stutter, Marc, Shand, Charles, Lumsdon, David, Cooper, Patricia, Wendler, Renate, Brown, Lawrie, Almeida, Danilo S., Wearing, Catherine, Zhang, Hao, and Haygarth, Philip M.

Subjects

HISTOSOLS, BIOLOGICAL systems, PHOSPHORUS in soils, PHOSPHATE fertilizers, MOIETIES (Chemistry)

Abstract

Background: Phosphorus (P) fertilizer is usually applied in excess of plant requirement and accumulates in soils due to its strong adsorption, rapid precipitation and immobilisation into unavailable forms including organic moieties. As soils are complex and diverse chemical, biochemical and biological systems, strategies to access recalcitrant soil P are often inefficient, case specific and inconsistently applicable in different soils. Finding a near-universal or at least widely applicable solution to the inefficiency in agricultural P use by plants is an important unsolved problem that has been under investigation for more than half a century.Scope: In this paper we critically review the strategies proposed for the remobilization of recalcitrant soil phosphorus for crops and pastures worldwide. We have additionally performed a meta-analysis of available soil 31P-NMR data to establish the potential agronomic value of different stored P forms in agricultural soils.Conclusions: Soil inorganic P stocks accounted on average for 1006 ± 115 kg ha−1 (57 ± 7%), while the monoester P pool accounted for 587 ± 32 kg ha−1 (33 ± 2%), indicating the huge potential for the future agronomic use of the soil legacy P. New impact driven research is needed in order to create solutions for the sustainable management of soil P stocks. [ABSTRACT FROM AUTHOR]

Published

2018

3. Inter- and intra-species intercropping of barley cultivars and legume species, as affected by soil phosphorus availability.

Author

Darch, Tegan, Giles, Courtney D., Blackwell, Martin S. A., George, Timothy S., Brown, Lawrie K., Menezes-Blackburn, Daniel, Shand, Charles A., Stutter, Marc I., Lumsdon, David G., Mezeli, Malika M., Wendler, Renate, Zhang, Hao, Wearing, Catherine, Cooper, Patricia, and Haygarth, Philip M.

Subjects

BARLEY, INTERCROPPING, CROPPING systems, PHOSPHORUS in soils, MONOCULTURE agriculture

Abstract

Aims: Intercropping can improve plant yields and soil phosphorus (P) use efficiency. This study compares inter- and intra-species intercropping, and determines whether P uptake and shoot biomass accumulation in intercrops are affected by soil P availability.Methods: Four barley cultivars (Hordeum vulgare L.) and three legume species (Trifolium subterreneum, Ornithopus sativus and Medicago truncatula) were selected on the basis of their contrasting root exudation and morphological responses to P deficiency. Monocultures and barley-barley and barley-legume intercrops were grown for 6 weeks in a pot trial at very limiting, slightly limiting and excess available soil P. Above-ground biomass and shoot P were measured.Results: Barley-legume intercrops had 10-70% greater P accumulation and 0-40% greater biomass than monocultures, with the greatest gains occurring at or below the sub-critical P requirement for barley. No benefit of barley-barley intercropping was observed. The plant combination had no significant effect on biomass and P uptake observed in intercropped treatments.Conclusions: Barley-legume intercropping shows promise for sustainable production systems, especially at low soil P. Gains in biomass and P uptake come from inter- rather than intra-species intercropping, indicating that plant diversity resulted in decreased competition between plants for P. [ABSTRACT FROM AUTHOR]

Published

2018

4. Does the combination of citrate and phytase exudation in Nicotiana tabacum promote the acquisition of endogenous soil organic phosphorus?

Author

Giles, Courtney, George, Timothy, Brown, Lawrie, Mezeli, Malika, Richardson, Alan, Shand, Charles, Wendler, Renate, Darch, Tegan, Menezes-Blackburn, Daniel, Cooper, Patricia, Stutter, Marc, Lumsdon, David, Blackwell, Martin, Wearing, Catherine, Zhang, Hao, and Haygarth, Philip

Subjects

TOBACCO enzymes, PHYTASES, PLANT biomass, BIOACCUMULATION in plants, PHOSPHORUS in soils, CITRATES, PLANT exudates

Abstract

Background and Aims: Plant acquisition of endogenous forms of soil phosphorus (P) could reduce external P requirements in agricultural systems. This study investigated the interaction of citrate and phytase exudation in controlling the accumulation of P and depletion of soil organic P by transgenic Nicotiana tabacum plants. Methods: N. tabacum plant lines including wild-type, vector controls, transgenic plants with single-trait expression of a citrate transporter ( A. thaliana frd3) or fungal phytases ( phyA: A. niger, P. lycii) and crossed plant lines expressing both traits, were characterized for citrate efflux and phytase exudation. Monocultures and intercropped combinations of single-trait plants were grown in a low available P soil (12 weeks). Plant biomass, shoot P accumulation, rhizosphere soil pH and citrate-extractable-P fractions were determined. Land Equivalent Ratio and complementarity effect was determined in intercropped treatments and multiple-linear-regression was used to predict shoot P accumulation based on plant exudation and soil P depletion. Results: Crossed plant lines with co-expression of citrate and phytase accumulated more shoot P than single-trait and intercropped plant treatments. Shoot P accumulation was predicted based on phytase-labile soil P, citrate efflux, and phytase activity (Rsq=0.58, P < .0001). Positive complementarity occurred between intercropped citrate- and phytase-exuding plants, with the greatest gains in shoot P occurring in plant treatments with A. niger phyA expression. Conclusions: We show for the first time that trait synergism associated with the exudation of citrate and phytase by tobacco can be linked to the improved acquisition of P and the depletion of soil organic P. [ABSTRACT FROM AUTHOR]

Published

2017