Jornada Bibliography
Export 96 results:
Filters: Author is Nicholas Webb [Clear All Filters]
Leveraging standardized monitoring data to support grazing land soil erosion assessments. LTAR Annual Meeting.
.
2021. The Land-Potential Knowledge System (LandPKS): mobile apps and collaboration for optimizing climate change investments. Ecosystem Health and Sustainability. 2(3)
.
2016. Land degradation and climate change: building climate resilience in agriculture. Frontiers in Ecology and the Environment. 15:450-459.
.
2017. Invasive plant species effects on wind and water erosion across US grazing lands . LTAR Annual Meeting.
.
2021. An inductive approach to developing ecological site concepts with existing monitoring data. Rangeland Ecology & Management. 83:133-148.
.
2022. Indicators and benchmarks for wind erosion monitoring, assessment and management. Ecological Indicators. 110(105881)
.
2020. Improving ground cover monitoring for wind erosion assessment using MODIS BRDF parameters. Remote Sensing of Environment. 204:756-768.
.
2018. Implications of carbon dust emission for terrestrail carbon cycling and carbon accounting. American Geophysical Union. A33D-0184
.
2012. The impacts of grazing land management on the wind erodibility of the Mulga Lands of western Queensland, Australia. Australian Rangeland Society 17th Biennial Conference. p. 60
.
2012. .
2022. How to detect change in aeolian sediment transport. International Conference on Aeolian Research.
.
2018. Ground cover, erosion risk and production implications of targeted management practices in Australian mixed farming systems: lessons from the Grain and Graze program. Agricultural Systems. 162:123-135.
.
2018. .
2015. .
2018. An extreme precipitation event, abrupt grass recovery, and soil processes in the Chihuahuan Desert. Ecological Society of America (ESA).
.
2022. Evaluating soil erodibility dynamics to improve estimates of wind erosion in drylands . 18th International Soil Conservation Organization Conference.
.
2015. Enhancing wind erosion monitoring and assessment for US rangelands. Rangelands. 39:85-96.
.
2017. Emerging ecological datasets with application for modeling North American dust emissions. American Geophysical Union.
.
2017. Elevated dust emissions on the Colorado Plateau: Role of grazing vehicle disturbance, and increasing aridity. Society for Range Management Meeting. January 28-February 2, 2018
.
2018. The effect of roughness elements on wind erosion: The importance of surface shear stress distribution. Journal of Geophysical Research: Atmospheres. 119:6066-6084.
.
2014. Ecosystem dynamics and aeolian sediment transport in the southern Kalahari. African Journal of Ecology. 58:337-344.
.
2020. The economic costs of wind erosion in the United States. American Geohpsyical Union (AGU) Fall Meeting, Chicago, IL.
.
2022. Ecological transformations in desert grasslands: resist, accept, or direct? Society for Range Management Meeting Abstracts.
.
2021. Ecological site-based assessments of wind and water erosion: Informing accelerated soil erosion management in rangelands. Ecological Applications. 24(6):1405-1420.
.
2014. Ecological science infrastructure for sustainability transformations in rangelands. The XXIV International Grassland Congress / XI International Rangeland Congress (Sustainable Use of Grassland and Rangeland Resources for Improved Livelihoods).
.
2022. Dust emission from crusted surfaces: Insights from field measurements and modelling. Aeolian Research. 40:1-14.
.
2019. Drawing a representative sample from the NCSS soil database: Building blocks for the national wind erosion network. ASA-CSSA-SSSA Annual Meeting Abstracts.
.
2017. Disentangling dust emission mechanisms – a field study. American Geophysical Union Fall Meeting.
.
2016. Defining thresholds for wind erosion in desert rangeland STMs. Society for Rangeland Meetings. Session 9
.
2020. Deducing dust emission mechanisms from field measurements. 9th International Conference on Aeolian Research.
.
2016. A data commons approach can help span scales and stakeholders to support ecosystem conservation and land use. Ecological Society of America.
.
2020. Critical standing crop residue amounts for wind erosion control in the inland Pacific Northwest, USA. CATENA. 195
.
2020. Consistency of wind erosion assessments across land use and land cover types: a critical analysis. Aeolian Research. 15:153-260.
.
2014. Comparison of soil-aggregate crushing-energy meters. Aeolian Research. 42(100559)
.
2020. Climate change impacts on wind and water erosion on US rangelands. Journal of Soil and Water Conservation. 74(4):405-418.
.
2019. Characterizing dust from National Wind Erosion Research Network sites using isotopic fingerprinting, mineralogy, and major and trace element chemistry. American Geohpycal Union (AGU) Fall Meeting, Chicago, IL.
.
2022. Can dust emission mechanisms be determined from field measurements? European Geosciences Union General Assembly Proceedings. [abstract]
.
2017. Building a wind erosion and dust emission model for rangelands using National Wind Erosion Research Network data . 2021 LTAR Annual Meeting.
.
2021. Big data, local science: Not an oxymoron. Ecological Society of America.
.
2020. Australian net (1950s-1990) soil organic carbon erosion: implications for CO2 emission and land-atmosphere modelling. Biogeosciences. 11:5235-5244.
.
2014. Australian carbon dust emission: a carbon accounting omission? Joint Australian and New Zealand Soil Science Conference. Sequestration - Accounting
.
2012. Area estimates of wind friction velocity derived from net radiometers and MODIS albedo. American Meteorological Society.
.
2019. AERO: An Aeolian erosion modeling environment. International Conference on Aeolian Research.
.
2018. AERO, a wind erosion modeling framework with applications to monitoring data. 73rd Soil and Water Conservation Society International Annual Conference .
.
2018. AERO: A decision support tool for wind erosion assessment in rangelands and croplands. AGU Fall Meeting.
.
2015. Addressing air quality, agriculture, and climate change across the Southwest and Southern Plains: A roadmap for research, extension, and policy. Bulletin of the American Meteorological Society. 102(7):1394–1401.
.
2021.