Publications
Below are publications associated with the Southwest Biological Science Center's research.
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Filter Total Items: 1338
Response to “Connectivity and pore accessibility in models of soil carbon cycling”
Here we respond to Baveye and colleagues' recent critique of our PROMISE model, describing how this new framework significantly advances our understanding of soil spatial heterogeneity and its influence on organic matter transformations.
Authors
Bonnie G. Waring, Benjamin N. Sulman, Sasha C. Reed, A. Peyton Smith, Colin Averill, Courtney Ann Creamer, Daniela F. Cusack, Steven J. Hall, Julie D. Jastrow, Andrea Jilling, Kenneth M. Kemner, Markus Kleber, Xiao-Jun Allen Liu, Jennifer Pett-Ridge, Marjorie S. Schulz
Biotic and abiotic treatments as a bet-hedging approach to restoring plant communities and soil functions
Two related concepts in restoration ecology include the relative interchangeability of biotic and abiotic restoration treatments for initiating recovery and bet hedging using multiple restoration approaches to increase the likelihood of favorable restoration outcomes. We used these concepts as a framework to implement a factorial experiment including biotic (outplanting greenhouse-grown individual
Authors
Audrey J Rader, Lindsay P. Chiquoine, James F. Weigand, Judy L Perkins, Seth M. Munson, Scott R Abella
Biocrust and the soil surface: Influence of climate, disturbance, and biocrust recovery on soil surface roughness
Biocrust communities promote soil surface roughness, a key functional characteristic for soil ecology. However, the spatial scales at which biocrust communities contribute to surface roughness are not well understood. To refine our understanding of the spatial dynamics between biocrust and soil surface roughness, we used mm-resolution terrestrial LiDAR to measure micro-topographic roughness at sev
Authors
Joshua Caster, Temuulen T. Sankey, Joel B. Sankey, Matthew A. Bowker, Daniel Buscombe, Michael C. Duniway, Nichole Barger, Akasha M. Faist, Taylor Joyal
Understanding the future of big sagebrush regeneration: challenges of projecting complex ecological processes
Regeneration is an essential demographic step that affects plant population persistence, recovery after disturbances, and potential migration to track suitable climate conditions. Challenges of restoring big sagebrush (Artemisia tridentata) after disturbances including fire-invasive annual grass interactions exemplify the need to understand the complex regeneration processes of this long-lived, wo
Authors
Daniel Rodolphe Schlaepfer, John B. Bradford, William K. Lauenroth, Robert K Shriver
Climate change and other factors influencing the saguaro cactus
The saguaro cacti (Carnegiea gigantea [Engelm.] Britton & Rose) is one of the world’s most iconic plants and a symbol of the desert Southwest. It is the namesake of Saguaro National Park, which was created (initially as a national monument) in 1933 to study, interpret, and protect the “giant cactus” and other unique Sonoran Desert species. Research on saguaros over the past century has revealed mu
Authors
Don E. Swann, Daniel E. Winkler, Joshua L. Conver, Theresa Foley
Spatiotemporal methane emission from global reservoirs
Inland aquatic systems, such as reservoirs, contribute substantially to global methane (CH4) emissions; yet are among the most uncertain components of the total CH4Â budget. Reservoirs have received recent attention as they may generate high CH4Â fluxes. Improved quantification of these CH4Â fluxes, particularly their spatiotemporal distribution, is key to realistically incorporating them in CH4Â mode
Authors
Matthew S Johnson, E Matthews, D Bastviken, Bridget Deemer, Jinyang Du, V Genovese
Invader removal triggers competitive release in a threatened avian predator
Invasive species can cause extinctions of native species and widespread biodiversity loss. Invader removal is a common management response, but the use of long-term field experiments to characterize effectiveness of removals in benefitting impacted native species is rare. We used a large-scale removal experiment to investigate the demographic response of a threatened native species, the northern s
Authors
David Wiens, Katie Dugger, J. Mark Higley, Damon B. Lesmeister, Alan B. Franklin, Keith A. Hamm, Gary C. White, Krista E. Dilione, David C. Simon, Robin R. Bown, Peter C. Carlson, Charles Yackulic, James D. Nichols, James E. Hines, Raymond J. Davis, David W. Lamphear, Christopher McCafferty, Trent L. McDonald, Stan G. Sovern
Simulating the effort necessary to detect changes in northern spotted owl (Strix occidentalis caurina) populations using passive acoustic monitoring
Passive acoustic monitoring is a promising method for monitoring rare and nocturnal species, and for tracking changes in forest wildlife biodiversity. We conducted simulations to compare and evaluate various passive acoustic sampling designs effectiveness for monitoring spotted owl (Strix occidentalis caurina) population trends. We found that each design was effective for detecting a decline (or s
Authors
Damon B. Lesmeister, Cara L. Appel, Raymond J. Davis, Charles Yackulic, Zachary J. Ruff
Ontogenetic trait shifts: Seedlings display high trait variability during early stages of development
Characterizing variation in plant functional traits is often key to understanding community-level processes and predicting ecosystem responses to environmental change. Trait-based ecology has focused on interspecific trait variation, but sources and consequences of within-species ontogenetic trait variation, particularly during early stages of development, remain understudied.Using a manipulative
Authors
Caroline Ann Havrilla, Seth M. Munson, Charles Yackulic, Bradley J. Butterfield
Drivers of seedling establishment success in dryland restoration efforts
Restoration of degraded drylands is urgently needed to mitigate climate change, reverse desertification and secure livelihoods for the two billion people who live in these areas. Bold global targets have been set for dryland restoration to restore millions of hectares of degraded land. These targets have been questioned as overly ambitious, but without a global evaluation of successes and failures
Authors
Nancy Shackelford, Gustavo B. Paterno, Daniel E. Winkler, Todd E. Erickson, Elizabeth A. Leger, Lauren N. Svejcar, Martin F. Breed, Akasha M. Faist, Peter L. Harrison, Michael F. Curran, Qinfeng Guo, Anita Kirmer, Darin J. Law, Kevin Mganga, Seth M. Munson, Lauren M. Porensky, Raul Emiliano Quiroga, PĂ©ter Török, Claire E. Wainwright, Ali Abdullahi, Matt A. Bahm, Elizabeth A. Ballenger, Nichole Barger, Owen W. Baughman, Carina Becker, Manuel Esteban Lucas-Borja, Chad S. Boyd, Carla M. Burton, Philip J. Burton, Eman Calleja, Peter J. Carrick, Alex Caruana, Charlie D. Clements, Kirk W. Davies, Balázs Deák, Jessica Drake, Sandra Dullau, Joshua Eldridge, Erin Espeland, Stephen E. Fick, Magda Garbowski, Enrique G. de la Riva, Peter J. Golos, Penelope A. Grey, Barry Heydenrych, Patricia M. Holmes, Jeremy J. James, Jayne Jonas-Bratten, RĂ©ka Kiss, Andrea T. Kramer, Julie E. Larson, Juan Lorite, C. Ellery Mayence, Luis Merino-MartĂn, Tamás MiglĂ©cz, Suanne Jane Milton, Thomas A. Monaco, Arlee M. Montalvo, Jose A. Navarro-Cano, Mark W. Paschke, Pablo Luis Peri, Monica L. Pokorny, Matthew J. Rinella, Nelmarie Saayman, Merilynn C. Schantz, Tina Parkhurst, Eric W. Seabloom, Katharine L. Stuble, Shauna M. Uselman, Orsolya ValkĂł, Kari E. Veblen, Scott D. Wilson, Megan Wong, Zhiwei Xu, Katharine L. Suding
Plant growth and biocrust-fire interactions across five North American deserts
Biological soil crusts (biocrusts) are communities predominately comprised of lichens, bryophytes, fungi, algae, and cyanobacteria that form at the soil surface in dryland ecosystems worldwide. Biocrusts can influence the vascular plant community by altering surface hydrology, nutrient cycling, and the availability of microsites suitable for germination. Fire frequency has increased in many drylan
Authors
Ellie McCann, Sasha C. Reed, Pradip Saud, Robin H. Reibold, Armin J. Howell, Akasha M. Faist
Responses of soil extracellular enzyme activities and bacterial community composition to seasonal stages of drought in a semiarid grassland
Extreme drought can strongly impact belowground communities and biogeochemical processes, including soil microbial community composition and extracellular enzyme activities (EEAs), which are considered key agents in ecosystem carbon (C) and nutrient cycling. However, our understanding of how seasonal timing of drought during the growing season affects soil microbial communities and their activity
Authors
Wenlan Gao, Sasha C. Reed, Seth M. Munson, Yichao Rui, Wenyuan Fan, Zhenzhen Zheng, Linfeng Li, Rongxiao Che, Kai Xue, Jianqing Du, Xiaoyong Cui, Yanfen Wang, Yanbin Hao