Professor Peter Grace

Biography

Research area Sustainable agriculture, nitrogen use efficiency and greenhouse gas emissions from agricultural and native ecosystems, soil carbon sequestration mitigation strategies, simulation of agroecosystems. Coordinated the Australian nitrous oxide (in agriculture) research program (2007-2016), a $50M network of automated sampling sites funded by the Department of Agriculture and Water Resources and managed by the Grains Research and Development Corporation. Current studies include the carbon balance of grasslands (TERN OzFlux and MLA); the development of nitrate removal technologies (bioreactors) to reduce aquatic pollution (DAF); increasing nitrogen use efficiency in cotton farming systems (CRDC); Future Farm - the intersection of advanced sensing technologies for nitrogen management in cotton and grain systems (GRDC & CRDC); Assisting Indo-Pacific countries to reduce greenhouse gas emissions from agriculture (ACIAR).

Represented Australia in the Global Research Alliance for Agricultural Greenhouse Gases - Croplands and Soil C/N Crosscutting issues Working Groups. Peter has been active in both the developed and developing world promoting the use of simple soil assays and educating land holders in soil management for maximising long-term productivity and profitability. Adjunct appointments at Michigan State University and the Earth Institute of Columbia University (NY).

+61 7 3138 9283

pr.grace@qut.edu.au

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Personal details

Positions

Professor of Global Change
Faculty of Science,
School of Biology & Environmental Science

Keywords

Greenhouse gases, adaptation, carbon, climate change, global change, mitigation, nitrogen, nitrous oxide, simulation, soil, water

Research field

Environmental management, Soil sciences

Field of Research code, Australian and New Zealand Standard Research Classification (ANZSRC), 2020

Qualifications

Doctor of Philosophy (University of Queensland)

Teaching

Coordinator - Soils and the Environment Coordinator - Environmental Pollution Lecturer - Ecosystems and the Environment

Publications

Manca, F., De Rosa, D., Reading, L., Rowlings, D., Scheer, C., Schipper, L. & Grace, P. (2021). Effect of soil cap and nitrate inflow on nitrous oxide emissions from woodchip bioreactors. Ecological Engineering, 166. https://eprints.qut.edu.au/210152
Takeda, N., Friedl, J., Rowlings, D., De Rosa, D., Scheer, C. & Grace, P. (2021). Exponential response of nitrous oxide (N₂O) emissions to increasing nitrogen fertiliser rates in a tropical sugarcane cropping system. Agriculture, Ecosystems and Environment, 313. https://eprints.qut.edu.au/208911
Takeda, N., Friedl, J., Rowlings, D., Rosa, D., Scheer, C. & Grace, P. (2021). No sugar yield gains but larger fertiliser ¹⁵N loss with increasing N rates in an intensive sugarcane system. Nutrient Cycling in Agroecosystems, 121(1), 99–113. https://eprints.qut.edu.au/212747
De Rosa, D., Basso, B., Fasiolo, M., Friedl, J., Fulkerson, B., Grace, P. & Rowlings, D. (2021). Predicting pasture biomass using a statistical model and machine learning algorithm implemented with remotely sensed imagery. Computers and Electronics in Agriculture, 180. https://eprints.qut.edu.au/206883
Friedl, J., Scheer, C., Rosa, D., Müller, C., Grace, P. & Rowlings, D. (2021). Sources of nitrous oxide from intensively managed pasture soils: the hole in the pipe. Environmental Research Letters, 16(6). https://eprints.qut.edu.au/210233
Grace, P., van der Weerden, T., Rowlings, D., Scheer, C., Brunk, C., Kiese, R., Butterbach-Bahl, K., Rees, R., Robertson, G. & Skiba, U. (2020). Global Research Alliance N₂O chamber methodology guidelines: Considerations for automated flux measurement. Journal of Environmental Quality, 49(5), 1126–1140. https://eprints.qut.edu.au/210547
Rousset, C., Clough, T., Grace, P., Rowlings, D. & Scheer, C. (2020). Soil type, bulk density and drainage effects on relative gas diffusivity and N₂O emissions. Soil Research, 58(8), 726–736. https://eprints.qut.edu.au/210549
Mitchell, E., Scheer, C., Rowlings, D., Cotrufo, M., Conant, R., Friedl, J. & Grace, P. (2020). Trade-off between 'new' SOC stabilisation from above-ground inputs and priming of native C as determined by soil type and residue placement. Biogeochemistry, 149(2), 221–236. https://eprints.qut.edu.au/202234
Mitchell, E., Scheer, C., Rowlings, D., Conant, R., Cotrufo, M. & Grace, P. (2018). Amount and incorporation of plant residue inputs modify residue stabilisation dynamics in soil organic matter fractions. Agriculture, Ecosystems and Environment, 256, 82–91. https://eprints.qut.edu.au/126951
Angus, J. & Grace, P. (2017). Nitrogen balance in Australia and nitrogen use efficiency on Australian farms. Soil Research, 55(6), 435–450. https://eprints.qut.edu.au/130414

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A complete list of publications is available at: https://www.qut.edu.au/about/our-people/academic-profiles/pr.grace

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Professor Peter Grace

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