Skip to main content

Journal Article: Wind erosion from a sagebrush steppe burned by wildfire: Measurements of PM10 and horizontal sediment flux. Aeolian Research vegetation and soil carbon

Dates

Start Date
2012-06-01 20:29:01
End Date
2013-09-01 06:00:00

Citation

Great Basin Landscape Conservation Cooperative(Principal Investigator), Great Basin Landscape Conservation Cooperative(administrator), Brian Lamb(Author), Matt Germino(Author), Natalie Wagenbrenner(Author), Peter Robichaud(Author), Randy Foltz(Author), Journal Article: Wind erosion from a sagebrush steppe burned by wildfire: Measurements of PM10 and horizontal sediment flux. Aeolian Research vegetation and soil carbon, https://www.fws.gov/science/catalog

Summary

Wind erosion and aeolian transport processes are under studied compared to rainfall-induced erosion and sediment transport on burned landscapes. Post-fire wind erosion studies have predominantly focused on near-surface sediment transport and associated impacts such as on-site soil loss and site fertility. Downwind impacts, including air quality degradation and deposition of dust or contaminants, are also likely post-fire effects; however, quantitative field measurements of post-fire dust emissions are needed for assessment of these downwind risks. A wind erosion monitoring system was installed immediately following a desert sagebrush and grass wildfire in southeastern Idaho, USA to measure wind erosion from the burned landscape. This paper [...]

Contacts

Attached Files

Click on title to download individual files attached to this item.

md_metadata.json 10.34 KB application/json
metadata.xml
Original ISO Metadata

View
37.65 KB application/vnd.iso.19139-2+xml

Communities

  • Great Basin Landscape Conservation Cooperative
  • LC MAP - Landscape Conservation Management and Analysis Portal

Tags

Provenance

generated using ADIwg mdTranslator 2.6.1

Additional Information

Identifiers

Type Scheme Key
urn:uuid urn:uuid f074a016-e20e-4553-997d-f83ded4df39c
info:doi/ info:doi/ 10.1016/j.aeolia.2012.10.003

Citation Extension

citationTypesciencePaper
languageeng

Item Actions

View Item as ...

Save Item as ...

View Item...