Publications
Below are publications associated with the Southwest Biological Science Center's research.
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Filter Total Items: 1332
Biodiversity of amphibians and reptiles at the Camp Cady Wildlife Area, Mojave Desert, California and comparisons with other desert locations
We examined the biodiversity of amphibian and reptile species living in and near constructed ponds in the riparian area at the Camp Cady Wildlife Area (CCWA) in the Mojave Desert of San Bernardino County, California, based on field work from 1998-1999, 2016-2017, review of the literature, and searches for museum specimens using VertNet.org. A total of 11 species (201 captures), including two frogs
Authors
Kristy L. Cummings, Shellie R. Puffer, Jenny B. Holmen, Jason K. Wallace, Jeffrey E. Lovich, Kathie Meyer-Wilkins, Chris Petersen, Robert E. Lovich
Executive summary. In Second State of the Carbon Cycle Report (SOCCR2): A Sustained Assessment Report
Central to life on Earth, carbon is essential to the molecular makeup of all living things and plays a key role in regulating global climate. To understand carbon’s role in these processes, researchers measure and evaluate carbon stocks and fluxes. A stock is the quantity of carbon contained in a pool or reservoir in the Earth system (e.g., carbon in forest trees), and a flux is the direction and
Authors
Richard Birdsey, Melanie A. Mayes, Patricia Romero-Lankao, Raymond G. Najjar, Sasha C. Reed, Nancy Cavallaro, Gyami Shrestha, Daniel J. Hayes, Laura Lorenzoni, Anne Marsh, Kathy Tedesco, Tom Wirth, Zhiliang Zhu
Where have all the turtles gone, and why does it matter?
No abstract available.
Authors
Jeffrey E. Lovich, Joshua R. Ennen, Mickey Agha, J. Whitfield Gibbons
Estimating soil respiration in a subalpine landscape using point, terrain, climate and greenness data
Landscape carbon (C) flux estimates are necessary for assessing the ability of terrestrial ecosystems to buffer further increases in anthropogenic carbon dioxide (CO2) emissions. Advances in remote sensing have allowed for coarse-scale estimates of gross primary productivity (GPP) (e.g., MODIS 17), yet efforts to assess spatial patterns in respiration lag behind those of GPP. Here, we demonstrate
Authors
Erin Michele Berryman, Melanie K. Vanderhoof, John B. Bradford, Todd Hawbaker, Paul D. Henne, Sean P. Burns, John M. Frank, Richard A. Birdsey, Michael G. Ryan
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): secretions compr
Authors
Taylor Chock, Anita J. Antoninka, Akasha M. Faist, Matthew A. Bowker, Jayne Belnap, Nichole N. Barger
Bioclimatic envelopes for individual demographic events driven by extremes: Plant mortality from drought and warming
The occurrence of plant species across the globe is largely constrained by climate. Ecologists use plant-climate relationships such as bioclimatic envelopes and related niche models to determine potential environmental conditions promoting probable species occurrence. Traditionally bioclimatic envelopes either exclude disturbance explicitly, or only include disturbance as infrequent and smaller sc
Authors
Darin J. Law, Henry D. Adams, David D. Breshears, Neil S. Cobb, John B. Bradford, Chris B. Zou, Jason P. Field, Alfonso A. Gardea, A. Park Williams, Travis E. Huxman
Influence of climate, post‐treatment weather extremes, and soil factors on vegetation recovery after restoration treatments in the southwestern US
AimsUnderstanding the conditions associated with dryland vegetation recovery after restoration treatments is challenging due to a lack of monitoring data and high environmental variability over time and space. Tracking recovery trajectories with satellite‐based vegetation indices can strengthen predictions of restoration outcomes across broad areas with varying environmental conditions.LocationSou
Authors
Stella M. Copeland, Seth M. Munson, John B. Bradford, Bradley J. Butterfield
Examining forest structure with terrestrial lidar: Suggestions and novel techniques based on comparisons between scanners and forest treatments
Terrestrial laser scanners (TLSs) provide a tool to assess and monitor forest structure across forest landscapes. We present TLS methods, suggestions, and mapped guidelines for planning TLS acquisitions at varying scales and forest densities. We examined rates of point‐density decline with distance from two TLS that acquire data at relatively high and low point density and found that the rates wer
Authors
Jonathon J. Donager, Temuulen T. Sankey, Joel B. Sankey, Andrew J. Sanchez Meadorc, Abraham E. Springer, John D. Bailey
Agassiz’s desert tortoise (Gopherus agassizii) activity areas are little changed after wind turbine-induced fires in California
Wind turbine-induced fires at a wind energy facility in California, USA, provided an opportunity to study the before and after effects of fire on a population of protected Agassiz’s desert tortoises (Gopherus agassizii) in the Sonoran Desert, a species and ecosystem poorly adapted to fire. We compared annual activity areas (AAs) of tortoises in 2011 and 2013, before and after two 2012 fires, with
Authors
Jeffrey E. Lovich, Mickey Agha, Joshua R. Ennen, Terence R. Arundel, Meaghan Austin
Using research networks to create the comprehensive datasets needed to assess nutrient availability as a key determinant of terrestrial carbon cycling
A wide range of research shows that nutrient availability strongly influences terrestrial carbon (C) cycling and shapes ecosystem responses to environmental changes and hence terrestrial feedbacks to climate. Nonetheless, our understanding of nutrient controls remains far from complete and poorly quantified, at least partly due to a lack of informative, comparable, and accessible datasets at regio
Authors
Sara Vicca, Benjamin Stocker, Sasha C. Reed, William R. Wieder, Michael Bahn, Philip A. Fay, Ivan Janssens, Hans Lambers, Josep Penuelas, Shilong Piao, Karin Rebel, Jordi Sardans, Bjarni D. Sigurdsson, Kevin Van Sundert, Ying-Ping Wang, Sonke Zaehle, Philippe Ciais
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 disturbed by ch
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 in marine f
Authors
Jennifer A. Rudgers, Eva Dettweiler-Robinson, Jayne Belnap, Laura E. Green, Robert L. Sinsabaugh, Kristina E. Young, Catherine E. Cort, Anthony Darrouzet-Nardi