Search Results - "Grote, Edmund E."

Diazotrophic community structure and function in two successional stages of biological soil crusts from the Colorado Plateau and Chihuahuan Desert by Yeager, C.M, Kornosky, J.L, Housman, D.C, Grote, E.E, Belnap, J, Kuske, C.R

“…The objective of this study was to characterize the community structure and activity of N2-fixing microorganisms in mature and poorly developed biological soil…”
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Observations of net soil exchange of CO₂ in a dryland show experimental warming increases carbon losses in biocrust soils by Darrouzet-Nardi, Anthony, Reed, Sasha C., Grote, Edmund E., Belnap, Jayne

“…Many arid and semiarid ecosystems have soils covered with well-developed biological soil crust communities (biocrusts) made up of mosses, lichens,…”
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Carbon exchange in biological soil crust communities under differential temperatures and soil water contents: implications for global change by GROTE, EDMUND E, BELNAP, JAYNE, HOUSMAN, DAVID C, SPARKS, JED P

“…Biological soil crusts (biocrusts) are an integral part of the soil system in arid regions worldwide, stabilizing soil surfaces, aiding vascular plant…”
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Droughting a megadrought: Ecological consequences of a decade of experimental drought atop aridification on the Colorado Plateau by Finger‐Higgens, Rebecca, Bishop, Tara B. B., Belnap, Jayne, Geiger, Erika L., Grote, Edmund E., Hoover, David L., Reed, Sasha C., Duniway, Michael C.

“…Global dryland vegetation communities will likely change as ongoing drought conditions shift regional climates towards a more arid future. Additional…”
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Patterns of longer-term climate change effects on CO2 efflux from biocrusted soils differ from those observed in the short term by Darrouzet-Nardi, Anthony, Reed, Sasha C, Grote, Edmund E, Belnap, Jayne

“…Biological soil crusts (biocrusts) are predicted to be sensitive to the increased temperature and altered precipitation associated with climate change. We…”
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Trajectories and tipping points of piñon–juniper woodlands after fire and thinning by Phillips, Michala L., Lauria, Cara, Spector, Tova, Bradford, John B., Gehring, Catherine, Osborne, Brooke B., Howell, Armin, Grote, Edmund E., Rondeau, Renee J., Trimber, Gillian M., Robinson, Benjamin, Reed, Sasha C.

“…Piñon–juniper (PJ) woodlands are a dominant community type across the Intermountain West, comprising over a million acres and experiencing critical effects…”
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Climatic Controls on Soil Carbon Accumulation and Loss in a Dryland Ecosystems by Waring, Bonnie G., Smith, Kenneth R., Grote, Edmund E., Howell, Armin, Reibold, Robin, Tucker, Colin L., Reed, Sasha C.

“…Arid and semiarid ecosystems drive year‐to‐year variability in the strength of the terrestrial carbon (C) sink, yet there is uncertainty about how soil C gains…”
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Physiological ecology of desert biocrust moss following 10 years exposure to elevated CO2: evidence for enhanced photosynthetic thermotolerance by Coe, Kirsten K., Belnap, Jayne, Grote, Edmund E., Sparks, Jed P.

“…In arid regions, biomes particularly responsive to climate change, mosses play an important biogeochemical role as key components of biocrusts. Using the…”
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Estimating water use by sugar maple trees: considerations when using heat-pulse methods in trees with deep functional sapwood by Pausch, Roman C., Grote, Edmund E., Dawson, Todd E.

“…Accurate estimates of sapwood properties (including radial depth of functional xylem and wood water content) are critical when using the heat pulse velocity…”
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Patterns of longer-term climate change effects on CO.sub.2 efflux from biocrusted soils differ from those observed in the short term by Darrouzet-Nardi, Anthony, Reed, Sasha C, Grote, Edmund E, Belnap, Jayne

“…Biological soil crusts (biocrusts) are predicted to be sensitive to the increased temperature and altered precipitation associated with climate change. We…”
Get full text

Patterns of longer-term climate change effects on CO 2 efflux from biocrusted soils differ from those observed in the short term by Darrouzet-Nardi, Anthony, Reed, Sasha C., Grote, Edmund E., Belnap, Jayne

“…Biological soil crusts (biocrusts) are predicted to be sensitive to the increased temperature and altered precipitation associated with climate change. We…”
Get full text

Patterns of longer-term climate change effects on CO2 efflux from biocrusted soils differ from those observed in the short term by Darrouzet-Nardi, Anthony, Reed, Sasha C., Grote, Edmund E., Belnap, Jayne

“…Biological soil crusts (biocrusts) are predicted to be sensitive to the increased temperature and altered precipitation associated with climate change. We…”
Get full text

Patterns of longer-term climate change effects on CO2 efflux from biocrusted soils differ from those observed in the short term by Darrouzet-Nardi, Anthony, Reed, Sasha C., Grote, Edmund E., Belnap, Jayne

“…Biological soil crusts (biocrusts) are predicted to be sensitive to the increased temperature and altered precipitation associated with climate change. We…”
Get full text

Observations of net soil exchange of CO sub(2) in a dryland show experimental warming increases carbon losses in biocrust soils by Darrouzet-Nardi, Anthony, Reed, Sasha C, Grote, Edmund E, Belnap, Jayne

“…Many arid and semiarid ecosystems have soils covered with well-developed biological soil crust communities (biocrusts) made up of mosses, lichens,…”
Get full text

Physiological ecology of desert biocrust moss following 10 years exposure to elevated CO 2 : evidence for enhanced photosynthetic thermotolerance by Coe, Kirsten K., Belnap, Jayne, Grote, Edmund E., Sparks, Jed P.

“…In arid regions, biomes particularly responsive to climate change, mosses play an important biogeochemical role as key components of biocrusts. Using the…”
Get full text