Jayne Belnap, Ph.D. (Former Employee)
Science and Products
Filter Total Items: 256
Potential vulnerability of 348 herbaceous species to atmospheric deposition of nitrogen and sulfur in the United States
Atmospheric nitrogen and sulfur pollution increased over much of the United States during the twentieth century from fossil fuel combustion and industrial agriculture. Despite recent declines, nitrogen and sulfur deposition continue to affect many plant communities in the United States, although which species are at risk remains uncertain. We used species composition data from >14,000...
Authors
Christopher M. Clark, Samuel M. Simkin, Edith B. Allen, William Bowman, Jayne Belnap, Matthew Brooks, Scott M. Collins, Linda H. Geiser, Frank S. Gilliam, Sarah E. Jovan, Linda H. Pardo, Bethany K Schultz, Carly J. Stevens, Katharine N. Suding, Heather L. Throop, Donald M. Waller
Shrub persistence and increased grass mortality in response to drought in dryland systems
Droughts in the southwest United States have led to major forest and grassland die‐off events in recent decades, suggesting plant community and ecosystem shifts are imminent as native perennial grass populations are replaced by shrub‐ and invasive plant‐dominated systems. These patterns are similar to those observed in arid and semiarid systems around the globe, but our ability to...
Authors
Daniel E. Winkler, Jayne Belnap, David L. Hoover, Sasha Reed, Michael Duniway
Temporal and abiotic fluctuations may be preventing successful rehabilitation of soil-stabilizing biocrust communities
Land degradation is a persistent ecological problem in many arid and semi-arid systems globally (drylands hereafter). Most instances of dryland degradation include some form of soil disturbance and/or soil erosion, which can hinder vegetation establishment and reduce ecosystem productivity. To combat soil erosion, researchers have identified a need for rehabilitation of biological soil...
Authors
Kristina E. Young, Matthew A. Bowker, Sasha Reed, Michael Duniway, Jayne Belnap
Spatiotemporal patterns of cheatgrass invasion in Colorado Plateau National Parks
Exotic annual grasses are transforming native arid and semi-arid ecosystems globally by accelerating fire cycles that drive vegetation state changes. Cheatgrass (Bromus tectorum), a particularly widespread and aggressive exotic annual grass, is a key management target in national parks of the western United States due to its impacts on wildfire and biodiversity loss. Cheatgrass is known...
Authors
Tara Boyce Belnap Bishop, Seth Munson, Richard Gill, Jayne Belnap, Samuel B. St. Clair, Steven L. Petersen
Wind erosion and dust from US drylands: a review of causes, consequences, and solutions in a changing world
Erosion by wind is one of the principal processes associated with land degradation in drylands and is a significant concern to land managers and policymakers globally. In the drylands of North America, millions of tons of soil are lost to wind erosion annually. Of the 60 million ha in the United States identified as most vulnerable to wind erosion (arid and dominated by fine sandy soils)...
Authors
Michael Duniway, Alix A. Pfennigwerth, Stephen E. Fick, Travis Nauman, Jayne Belnap, Nichole Barger
Towards a predictive framework for biocrust mediation of plant performance: A meta‐analysis
Understanding the importance of biotic interactions in driving the distribution and abundance of species is a central goal of plant ecology. Early vascular plants likely colonized land occupied by biocrusts — photoautotrophic, surface‐dwelling soil communities comprised of cyanobacteria, bryophytes, lichens and fungi — suggesting biotic interactions between biocrusts and plants have been...
Authors
Caroline Ann Havrilla, Bala V. Chaudhary, Scott Ferrenberg, Anita J. Antoninka, Jayne Belnap, Matthew A. Bowker, David J. Eldridge, Akasha M. Faist, Elisabeth Huber-Sannwald, Alexander D. Leslie, Emilio Rodriguez-Caballero, Yuanming Zhang, Nichole Barger
Responses of biological soil crusts to rehabilitation strategies
Biological soil crusts (biocrusts) are common to dryland ecosystems and can influence a broad suite of soil ecological functions including stability and surface hydrology. Due to long recovery times following disturbance, there is a clear need for rehabilitation strategies to enhance the recovery of biocrust communities. Essential to biocrust recovery are exopolysaccharides (EPS)...
Authors
Taylor Chock, Anita J. Antoninka, Akasha M. Faist, Matthew A. Bowker, Jayne Belnap, Nichole Barger
Chronic physical disturbance substantially alters the response of biological soil crusts to a wetting pulse, as characterized by metatranscriptomic sequencing
Biological soil crusts (biocrusts) are microbial communities that are a feature of arid surface soils worldwide. In drylands where precipitation is pulsed and ephemeral, the ability of biocrust microbiota to rapidly initiate metabolic activity is critical to their survival. Community gene expression was compared after a short duration (1 hour) wetting pulse in both intact and soils...
Authors
Blaire Steven, Jayne Belnap, Cheryl R. Kuske
Are fungal networks key to dryland primary production?
In low-resource ecosystems, competition among primary producers can be reduced through the partitioning of limiting resources in space or time. Partitioning, coupled with species interactions, can be a source of ecosystem stability by retaining resources within a biotic “loop” and slowing losses due to physical processes, such as erosion, gaseous loss, or leaching. Such coupling occurs...
Authors
Jennifer A. Rudgers, Eva Dettweiler-Robinson, Jayne Belnap, Laura E. Green, Robert L. Sinsabaugh, Kristina E. Young, Catherine E. Cort, Anthony Darrouzet-Nardi
Elevated aeolian sediment transport on the Colorado Plateau, USA: The role of grazing, vehicle disturbance, and increasing aridity
Dryland wind transport of sediment can accelerate soil erosion, degrade air quality, mobilize dunes, decrease water supply, and damage infrastructure. We measured aeolian sediment horizontal mass flux (q) at 100 cm height using passive aspirated sediment traps to better understand q variability on the Colorado Plateau. Measured q‘hot spots’ rival the highest ever recorded including 7,460...
Authors
Travis Nauman, Michael Duniway, Nichloas P. Webb, Jayne Belnap
Exclusion of small mammals and lagomorphs invasion interact with human-trampling to drive changes in topsoil microbial community structure and function in semiarid Chile
Species losses and additions can disrupt the relationship between resident species and the structure and functioning of ecosystems. Persistent human-trampling, on the other hand, can have similar effects through the disruption of biocrusts on surface soils of semiarid systems, affecting soil stability and fixation of carbon and nitrogen. Here, we tested the interactive and synergistic...
Authors
Fernando D. Alfaro, Marlene Manzano, Sebastián R. Abades, Nicole Trefault, Rodrigo de la Iglesia, Aurora Gaxiola, Pablo A. Marquet, Julio R. Gutierrez, Peter L. Meserve, Douglas A. Kelt, Jayne Belnap, Juan J. Armesto
Amendments fail to hasten biocrust recovery or soil stability at a disturbed dryland sandy site
In most drylands, biological soil crusts (biocrusts), an assemblage of lichens, bryophytes, fungi, green algae, and cyanobacteria, are critical to healthy ecosystem function. However, they are extremely sensitive to disturbance and attempts to facilitate their recovery have had variable success. In this study, we applied soil amendments designed to improve soil surface stability and...
Authors
David G. Chandler, Natalie K. Day, Matthew D. Madsen, Jayne Belnap
Science and Products
Filter Total Items: 256
Potential vulnerability of 348 herbaceous species to atmospheric deposition of nitrogen and sulfur in the United States
Atmospheric nitrogen and sulfur pollution increased over much of the United States during the twentieth century from fossil fuel combustion and industrial agriculture. Despite recent declines, nitrogen and sulfur deposition continue to affect many plant communities in the United States, although which species are at risk remains uncertain. We used species composition data from >14,000...
Authors
Christopher M. Clark, Samuel M. Simkin, Edith B. Allen, William Bowman, Jayne Belnap, Matthew Brooks, Scott M. Collins, Linda H. Geiser, Frank S. Gilliam, Sarah E. Jovan, Linda H. Pardo, Bethany K Schultz, Carly J. Stevens, Katharine N. Suding, Heather L. Throop, Donald M. Waller
Shrub persistence and increased grass mortality in response to drought in dryland systems
Droughts in the southwest United States have led to major forest and grassland die‐off events in recent decades, suggesting plant community and ecosystem shifts are imminent as native perennial grass populations are replaced by shrub‐ and invasive plant‐dominated systems. These patterns are similar to those observed in arid and semiarid systems around the globe, but our ability to...
Authors
Daniel E. Winkler, Jayne Belnap, David L. Hoover, Sasha Reed, Michael Duniway
Temporal and abiotic fluctuations may be preventing successful rehabilitation of soil-stabilizing biocrust communities
Land degradation is a persistent ecological problem in many arid and semi-arid systems globally (drylands hereafter). Most instances of dryland degradation include some form of soil disturbance and/or soil erosion, which can hinder vegetation establishment and reduce ecosystem productivity. To combat soil erosion, researchers have identified a need for rehabilitation of biological soil...
Authors
Kristina E. Young, Matthew A. Bowker, Sasha Reed, Michael Duniway, Jayne Belnap
Spatiotemporal patterns of cheatgrass invasion in Colorado Plateau National Parks
Exotic annual grasses are transforming native arid and semi-arid ecosystems globally by accelerating fire cycles that drive vegetation state changes. Cheatgrass (Bromus tectorum), a particularly widespread and aggressive exotic annual grass, is a key management target in national parks of the western United States due to its impacts on wildfire and biodiversity loss. Cheatgrass is known...
Authors
Tara Boyce Belnap Bishop, Seth Munson, Richard Gill, Jayne Belnap, Samuel B. St. Clair, Steven L. Petersen
Wind erosion and dust from US drylands: a review of causes, consequences, and solutions in a changing world
Erosion by wind is one of the principal processes associated with land degradation in drylands and is a significant concern to land managers and policymakers globally. In the drylands of North America, millions of tons of soil are lost to wind erosion annually. Of the 60 million ha in the United States identified as most vulnerable to wind erosion (arid and dominated by fine sandy soils)...
Authors
Michael Duniway, Alix A. Pfennigwerth, Stephen E. Fick, Travis Nauman, Jayne Belnap, Nichole Barger
Towards a predictive framework for biocrust mediation of plant performance: A meta‐analysis
Understanding the importance of biotic interactions in driving the distribution and abundance of species is a central goal of plant ecology. Early vascular plants likely colonized land occupied by biocrusts — photoautotrophic, surface‐dwelling soil communities comprised of cyanobacteria, bryophytes, lichens and fungi — suggesting biotic interactions between biocrusts and plants have been...
Authors
Caroline Ann Havrilla, Bala V. Chaudhary, Scott Ferrenberg, Anita J. Antoninka, Jayne Belnap, Matthew A. Bowker, David J. Eldridge, Akasha M. Faist, Elisabeth Huber-Sannwald, Alexander D. Leslie, Emilio Rodriguez-Caballero, Yuanming Zhang, Nichole Barger
Responses of biological soil crusts to rehabilitation strategies
Biological soil crusts (biocrusts) are common to dryland ecosystems and can influence a broad suite of soil ecological functions including stability and surface hydrology. Due to long recovery times following disturbance, there is a clear need for rehabilitation strategies to enhance the recovery of biocrust communities. Essential to biocrust recovery are exopolysaccharides (EPS)...
Authors
Taylor Chock, Anita J. Antoninka, Akasha M. Faist, Matthew A. Bowker, Jayne Belnap, Nichole Barger
Chronic physical disturbance substantially alters the response of biological soil crusts to a wetting pulse, as characterized by metatranscriptomic sequencing
Biological soil crusts (biocrusts) are microbial communities that are a feature of arid surface soils worldwide. In drylands where precipitation is pulsed and ephemeral, the ability of biocrust microbiota to rapidly initiate metabolic activity is critical to their survival. Community gene expression was compared after a short duration (1 hour) wetting pulse in both intact and soils...
Authors
Blaire Steven, Jayne Belnap, Cheryl R. Kuske
Are fungal networks key to dryland primary production?
In low-resource ecosystems, competition among primary producers can be reduced through the partitioning of limiting resources in space or time. Partitioning, coupled with species interactions, can be a source of ecosystem stability by retaining resources within a biotic “loop” and slowing losses due to physical processes, such as erosion, gaseous loss, or leaching. Such coupling occurs...
Authors
Jennifer A. Rudgers, Eva Dettweiler-Robinson, Jayne Belnap, Laura E. Green, Robert L. Sinsabaugh, Kristina E. Young, Catherine E. Cort, Anthony Darrouzet-Nardi
Elevated aeolian sediment transport on the Colorado Plateau, USA: The role of grazing, vehicle disturbance, and increasing aridity
Dryland wind transport of sediment can accelerate soil erosion, degrade air quality, mobilize dunes, decrease water supply, and damage infrastructure. We measured aeolian sediment horizontal mass flux (q) at 100 cm height using passive aspirated sediment traps to better understand q variability on the Colorado Plateau. Measured q‘hot spots’ rival the highest ever recorded including 7,460...
Authors
Travis Nauman, Michael Duniway, Nichloas P. Webb, Jayne Belnap
Exclusion of small mammals and lagomorphs invasion interact with human-trampling to drive changes in topsoil microbial community structure and function in semiarid Chile
Species losses and additions can disrupt the relationship between resident species and the structure and functioning of ecosystems. Persistent human-trampling, on the other hand, can have similar effects through the disruption of biocrusts on surface soils of semiarid systems, affecting soil stability and fixation of carbon and nitrogen. Here, we tested the interactive and synergistic...
Authors
Fernando D. Alfaro, Marlene Manzano, Sebastián R. Abades, Nicole Trefault, Rodrigo de la Iglesia, Aurora Gaxiola, Pablo A. Marquet, Julio R. Gutierrez, Peter L. Meserve, Douglas A. Kelt, Jayne Belnap, Juan J. Armesto
Amendments fail to hasten biocrust recovery or soil stability at a disturbed dryland sandy site
In most drylands, biological soil crusts (biocrusts), an assemblage of lichens, bryophytes, fungi, green algae, and cyanobacteria, are critical to healthy ecosystem function. However, they are extremely sensitive to disturbance and attempts to facilitate their recovery have had variable success. In this study, we applied soil amendments designed to improve soil surface stability and...
Authors
David G. Chandler, Natalie K. Day, Matthew D. Madsen, Jayne Belnap