Papers by Robert B. Jackson
Isoprene-related thermotolerance of leaves is greater at low atmospheric CO
2
: implications for the evolution of isoprene biosynthesis and rising atmospheric CO
2
concentrations
Land-use and climate change and the footprint of human activity
Soil microbial responses to a subambient to elevated gradient of atmospheric CO
2
Soil type determines response of soil microbial activity to an atmospheric CO
2
gradient
Soil type influences the sensitivity of nutrient dynamics to changes in atmospheric CO
2
