Search Results - "Osborne, Shona M."

Long-term exclusion of plant-inputs to soil reduces the functional capacity of microbial communities to mineralise recalcitrant root-derived carbon sources by Paterson, Eric, Sim, Allan, Osborne, Shona M., Murray, Phil J.

“…Microbial communities in soil are highly species-rich, recognition of which has led to the view that functional redundancy within communities may buffer many…”
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Atmospheric CO2 enrichment and nutrient additions to planted soil increase mineralisation of soil organic matter, but do not alter microbial utilisation of plant- and soil C-sources by Paterson, E, Thornton, B, Midwood, A.J, Osborne, S.M, Sim, A, Millard, P

“…Plants link atmospheric and soil carbon pools through CO2 fixation, carbon translocation, respiration and rhizodeposition. Within soil, microbial communities…”
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Altered food web structure and C-flux pathways associated with mineralisation of organic amendments to agricultural soil by Paterson, Eric, Neilson, Roy, Midwood, Andrew J., Osborne, Shona M., Sim, Allan, Thornton, Barry, Millard, Pete

“…► Soil amendment with compost increased nematode and microbial abundance. ► Compost, but not slurry amendment, altered soil microbial community structure. ►…”
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proteomic and targeted metabolomic approach to investigate change in Lolium perenne roots when challenged with glycine by Thornton, Barry, Osborne, Shona M, Paterson, Eric, Cash, Phil

“…A combined proteomic and isotope tracer approach was used to investigate the impact of supplying N as glycine to roots of Lolium perenne. Initially, ammonium…”
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Atmospheric CO sub(2) enrichment and nutrient additions to planted soil increase mineralisation of soil organic matter, but do not alter microbial utilisation of plant- and soil C-sources by Paterson, Eric, Thornton, Barry, Midwood, Andrew J, Osborne, Shona M, Sim, Allan, Millard, Pete

“…Plants link atmospheric and soil carbon pools through CO sub(2) fixation, carbon translocation, respiration and rhizodeposition. Within soil, microbial…”
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Atmospheric CO 2 enrichment and nutrient additions to planted soil increase mineralisation of soil organic matter, but do not alter microbial utilisation of plant- and soil C-sources by Paterson, Eric, Thornton, Barry, Midwood, Andrew J., Osborne, Shona M., Sim, Allan, Millard, Pete

“…Plants link atmospheric and soil carbon pools through CO 2 fixation, carbon translocation, respiration and rhizodeposition. Within soil, microbial communities…”
Get full text