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Physical Sciences and Mathematics Commons™
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- Keyword
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- California – Mojave Desert (3)
- Revegetation (3)
- Bromus rubens (2)
- Desert plants (2)
- Endemic plants (2)
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- Invasive plants (2)
- New (2)
- Southwest (2)
- Arid land (1)
- Arid regions (1)
- Blackbrush – Effect of fire on (1)
- Coleogyne ramosissima (1)
- Desert plants – Effect of fires on (1)
- Diversity (1)
- Drought prediction (1)
- Dust mitigation (1)
- Dust – Control (1)
- Dust – Health aspects (1)
- Environmental degradation (1)
- Environmental health (1)
- Fire (1)
- Fire management (1)
- Lower Colorado River Basin (1)
- Management (1)
- North America – Sonoran Desert (1)
- Plant competition (1)
- Plant invasions (1)
- Public health (1)
- Recovery (1)
- Remote sensing (1)
Articles 1 - 4 of 4
Full-Text Articles in Physical Sciences and Mathematics
Disturbance And Plant Succession In The Mojave And Sonoran Deserts Of The American Southwest, Scott R. Abella
Disturbance And Plant Succession In The Mojave And Sonoran Deserts Of The American Southwest, Scott R. Abella
Public Policy and Leadership Faculty Publications
Disturbances such as fire, land clearing, and road building remove vegetation and can have major influences on public health through effects on air quality, aesthetics, recreational opportunities, natural resource availability, and economics. Plant recovery and succession following disturbance are poorly understood in arid lands relative to more temperate regions. This study quantitatively reviewed vegetation reestablishment following a variety of disturbances in the Mojave and Sonoran Deserts of southwestern North America. A total of 47 studies met inclusion criteria for the review. The time estimated by 29 individual studies for full reestablishment of total perennial plant cover was 76 years. Although …
Relating Surface Backscatter Response From Trmm Precipitation Radar To Soil Moisture: Results Over A Semi-Arid Region, Haroon Stephen, Sajjad Ahmad, Thomas C. Piechota, Chunling Tang
Relating Surface Backscatter Response From Trmm Precipitation Radar To Soil Moisture: Results Over A Semi-Arid Region, Haroon Stephen, Sajjad Ahmad, Thomas C. Piechota, Chunling Tang
Public Policy and Leadership Faculty Publications
The Tropical Rainfall Measuring Mission (TRMM) carries aboard the Precipitation Radar (TRMMPR) that measures the backscatter (σº) of the surface. σº is sensitive to surface soil moisture and vegetation conditions. Due to sparse vegetation in arid and semi-arid regions, TRMMPR σº primarily depends on the soil water content. In this study we relate TRMMPR σº measurements to soil water content (m(s)) in the Lower Colorado River Basin (LCRB). σº dependence on ms is studied for different vegetation greenness values determined through Normalized Difference Vegetation Index (NDVI). A new model of σº that couples incidence angle, m(s), and NDVI is used …
Trying To Beat The Brome: Understanding Establishment Thresholds And Choosing Competitive Native Species At Parashant National Monument, Scott R. Abella, E. Cayenne Engel
Trying To Beat The Brome: Understanding Establishment Thresholds And Choosing Competitive Native Species At Parashant National Monument, Scott R. Abella, E. Cayenne Engel
Public Policy and Leadership Faculty Publications
Desert fires fueled by exotic grasses like the omnipresent red brome (Bromus rubens) can be intense and cause widespread mortality of native vegetation. Native desert scrub communities such as those dominated by blackbrush (Coleogyne ramosissima) do not readily reestablish after fire (Abella 2009) and may even become more abundant in the post-burn landscape initiating a fire cycle that occurs at a greater frequency than the recovery time of the long-lived desert perennial community.
Native Species Interactions With Red Brome: Suggestions For Burn-Area Revegetation, Scott R. Abella
Native Species Interactions With Red Brome: Suggestions For Burn-Area Revegetation, Scott R. Abella
Public Policy and Leadership Faculty Publications
In deserts, native perennial plants often actually facilitate the establishment of exotic annual grasses. One of our focal areas of research is to identify native species for use in revegetation projects that reduce the establishment of exotic annual grasses, or at least do not strongly facilitate exotic species establishment. An initial research effort involving a competition experiment of red brome with native species and a correlational field study of brome distribution among native perennial plants is in press with the journal Invasive Plant Science and Management.