Cartriona A. Macdonald
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View article: Comment on bg-2022-145
Comment on bg-2022-145 Open
Abstract. Elevated carbon dioxide (eCO2) in the atmosphere increases forest biomass productivity, but only where soil nutrients, particularly nitrogen (N) and phosphorus (P) are not limiting growth. eCO2
View article: The influence of elevated CO <sub>2</sub> and soil depth on rhizosphere activity and nutrient availability in a mature Eucalyptus woodland
The influence of elevated CO <sub>2</sub> and soil depth on rhizosphere activity and nutrient availability in a mature Eucalyptus woodland Open
Elevated carbon dioxide (eCO2) in the atmosphere increases forest biomass productivity, but only where soil nutrients, particularly nitrogen (N) and phosphorus (P) are not limiting growth. eCO2, in turn, can impact rhizosphere nutrient ava…
View article: Supplementary material to "The influence of elevated CO <sub>2</sub> and soil depth on rhizosphere activity and nutrient availability in a mature Eucalyptus woodland"
Supplementary material to "The influence of elevated CO <sub>2</sub> and soil depth on rhizosphere activity and nutrient availability in a mature Eucalyptus woodland" Open
S1. Potential enzyme activity methodPotential activity of seven enzymes associated with C, N and P mineralisation were determined for bulk and rhizosphere soil respectively.For this we used fluorometrically labelled substrates, following t…