Jornada Bibliography
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Area estimates of wind friction velocity derived from net radiometers and MODIS albedo. American Meteorological Society.
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2019. Australian carbon dust emission: a carbon accounting omission? Joint Australian and New Zealand Soil Science Conference. Sequestration - Accounting
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2012. Australian net (1950s-1990) soil organic carbon erosion: implications for CO2 emission and land-atmosphere modelling. Biogeosciences. 11:5235-5244.
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2014. Enhancing wind erosion monitoring and assessment for US rangelands. Rangelands. 39:85-96.
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2017. How to detect change in aeolian sediment transport. International Conference on Aeolian Research.
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2018. The impact of vegetation removal by oil and gas development on wind erosion and dust emission in the Upper Colorado River Basin. AGU22 FALL MEETING.
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2022. Implications of carbon dust emission for terrestrail carbon cycling and carbon accounting. American Geophysical Union. A33D-0184
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2012. Improving ground cover monitoring for wind erosion assessment using MODIS BRDF parameters. Remote Sensing of Environment. 204:756-768.
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2018. Indicators and benchmarks for wind erosion monitoring, assessment and management. Ecological Indicators. 110(105881)
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2020. Land degradation and climate change: building climate resilience in agriculture. Frontiers in Ecology and the Environment. 15:450-459.
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2017. A North American dust emission climatology (2001–2020) calibrated to dust point sources from satellite observations. Aeolian Research. 54:100766.
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2021. A note on the use of drag partition in aeolian transport models. Aeolian Research. 42(100560)
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2020. Recently observed trends in surface roughness and wind friction velocity across the southwestern United States. 102nd American Meteorological Society Annual Meeting.
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2022. Reducing sampling uncertainty in aeolian research to improve change detection. Journal of Geophysical Research. 124:1-12.
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2019. Retrieving land surface aerodynamic properties using MODIS albedo . Eighth International Conference on Aeolian Research (ICAR VIII). :p.8.
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2014. The role of carbon dust emission as a global source of atmospheric CO2. Soil Carbon Sequestration for Climate, Food Security and Ecosystem Services International Conference.
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2013. Scale invariance of albedo-based wind friction velocity. Journal of Geophysical Research: Atmospheres. 125(16):1-15.
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2020. Significance for dust emission modelling of omitting changing aerodynamic roughness. International Conference on Aeolian Research.
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2018. The significance of carbon-enriched dust for global carbon accounting. Global Change Biology. 18:3275-3278.
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2012. Soil organic carbon dust emission: a synthesis of recent Australian research . Eighth International Conference on Aeolian Research (ICAR VIII). :p.196.
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2014. Soil organic carbon dust emission: an omitted global source of atmospheric CO2. Global Change Biology. 19:3238-3244.
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2013. Soil Organic Carbon Erosion is Critical for Land Degradation Neutrality. Environmental Science and Policy. 93:43-52.
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2019. A tribute to Michael R. Raupach for contributions to aeolian fluid dynamics. Aeolian Research. 19:37-54.
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2015. Using albedo to reform wind erosion modelling, mapping and monitoring. Aeolian Research. 23
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2016. Using shadow to reformulate wind erosion modelling, mapping and monitoring. International Conference on Aeolian Research.
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2016. Vegetation effects on spatiotemporal variability in Aeolian mass flux over a range of ecological conditions. International Conference on Aeolian Research.
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2018.