Nicholas Webb
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Invasive plant species effects on wind and water erosion across US grazing lands . LTAR Annual Meeting.
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2021. Size distribution of mineral dust emissions from sparsely vegetated and supply-limited dryland soils. Journal of Geophysical Research: Atmospheres. 126(22):e2021JD035478.
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2021. Vegetation Canopy Gap Size and Height: Critical Indicators for Wind Erosion Monitoring and Management. Rangeland Ecology & Management. 76:78-83.
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2021. Defining thresholds for wind erosion in desert rangeland STMs. Society for Rangeland Meetings. Session 9
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2020. Ecosystem dynamics and aeolian sediment transport in the southern Kalahari. African Journal of Ecology. 58:337-344.
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2020. Indicators and benchmarks for wind erosion monitoring, assessment and management. Ecological Indicators. 110(105881)
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2020. A note on the use of drag partition in aeolian transport models. Aeolian Research. 42(100560)
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2020. Reducing sampling uncertainty in aeolian research to improve change detection. Journal of Geophysical Research. 124:1-12.
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2019. How to detect change in aeolian sediment transport. International Conference on Aeolian Research.
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2018. A more or less dusty future? Ecological Society of America Meeting.
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2018. Multi-scale wind erosion monitoring and assessment for US rangelands. Society for Range Management Meeting. January 28-February 2, 2018
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2018. Enhancing wind erosion monitoring and assessment for US rangelands. Rangelands. 39:85-96.
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2017. Land degradation and climate change: building climate resilience in agriculture. Frontiers in Ecology and the Environment. 15:450-459.
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2017. Using state-and-transition models to evaluate impacts of land cover change on wind erosion. Society for Range Management Meeting Abstracts. Jan 29 - Feb 02, 2017
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2017. The National Wind Erosion Research Network: Building a standardized long-term data resource for aeolian research, modeling and land management. 9th International Conference on Aeolian Research.
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2016. The National Wind Erosion Research Network: Building a standardized long-term data resource for aeolian research, modeling and land management. Aeolian Research. 22:23-36.
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2016. Threshold wind velocity dynamics as a driver of aeolian sediment mass flux. Aeolian Research. 20:45-59.
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2016. Using albedo to reform wind erosion modelling, mapping and monitoring. Aeolian Research. 23
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2016. A national wind erosion research network. 18th International Soil Conservation Organization Conference.
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2015. .
2015. Ecological site-based assessments of wind and water erosion: Informing accelerated soil erosion management in rangelands. Ecological Applications. 24(6):1405-1420.
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2014. The effect of roughness elements on wind erosion: The importance of surface shear stress distribution. Journal of Geophysical Research: Atmospheres. 119:6066-6084.
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2014. A National Wind Erosion Monitoring Network to support and all-lands wind erosion model. Eighth International Conference on Aeolian Research (ICAR VIII). :p.427.
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2014. Quantifying accelerated soil erosion through ecological site-based assessments of wind and water erosion. Eighth International Conference on Aeolian Research (ICAR VIII). :p.357.
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2014. Roughness configuration matters for aeolian sediment flux. Eighth International Conference on Aeolian Research (ICAR VIII). :p.12.
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2014. 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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2013. Implications of carbon dust emission for terrestrail carbon cycling and carbon accounting. American Geophysical Union. A33D-0184
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2012. The significance of carbon-enriched dust for global carbon accounting. Global Change Biology. 18:3275-3278.
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