Jornada Bibliography
Export 291 results:
Filters: Author is Debra C. Peters [Clear All Filters]
.
2019. Small mammal herbivory and grassland recovery potential in the Chihuahuan Desert. Journal of Arid Environments. 166:11-16.
.
2014. Soil animal responses to moisture availability are largely scale, not ecosystem dependent: Insight from a cross-site study. Global Change Biology. 20:2631-2643.
.
2008. Soil, resilience, and state and transition models. Society for Range Management Annual Meetings. :1514.
.
2018. Soil water dynamics at 15 locations distributed across a desert landscape: insights from a 27-yr dataset. Ecosphere. 9(7):36pp.
.
2007. Soil-vegetation feedbacks in dynamic landscapes: Implications for restoration. Ecological Society of America Abstracts. :PS45-80.
.
2010. Soil-vegetation-climate interactions in arid landscapes: Effects of the North American monsoon on grass recruitment. Journal of Arid Environments. 74:618-623.
.
2004. Spatial and temporal variation in desertification due to stressors at multiple scales. LAND Open Science. :32.
.
2011. Spatial heterogeneity in aboveground net primary production and species richness at multiple scales in the Chihuahuan Desert. US-International Association for Landscape Ecology.
.
2004. Spatial nonlinearities and cascading effects across landscapes in the Earth system. LAND Open Science Conference. :50.
.
2007. Spatial nonlinearities: Cascading effects in the earth system. Terrestrial Ecosystems in a Changing World. :165-174.
.
2006. Spatial prediction of invasion success across heterogeneous landscapes using an individual-based model. Biological Invasions. 8:193-200.
.
2004. Spatial variation in remnant black grama plants in a creosote-dominated bajada. Sixth Symposium on the Natural Resources of the Chihuahuan Desert Region. :33.
.
2006. Spatial variation in remnant grasses after a grassland-to-shrubland state change: Implications for restoration. Rangeland Ecology and Management. 59:343-350.
.
2002. Spatial variation in shrub invasion and loss of perennial grasses in the Chihuahuan Desert: A multiscale approach. 17th Annual Symposium, US International Association for Landscape Ecology. :30.
.
2012. Spatiotemporal patterns of production can be used to detect state change across an arid landscape. Ecosystems. 15:34-47.
.
2004. Strategies for ecological extrapolation. Oikos. 106:627-636.
.
2008. Strategies for sustaining multiple ecosystem services from rangelands. XXI International Rangeland Congress. II:1094.
.
2004. Subdominant species distribution in microsites around two lifeforms at a desert grassland-shrubland transition zone. Journal of Vegetation Science. 15:615-622.
.
2007. Support vector machines for recognition of semi-arid vegetation types using MISR multi-angle imagery. Remote Sensing of Environment. 107:299-311.
.
2003. Sustainable management of arid lands: Recovery time and threshold dynamics in desert grasslands and shrublands. 88th Annual Meeting, Ecological Society of America. :151.
.
2018. Synchronous species responses reveal phenological guilds: implications for management. Ecosphere. 9:1-23.
.
2009. Synthesis and assessment product 4.2: Tresholds of climate change in ecosystems. US Geological Survey.
.
2014. Taking the pulse of a continent: Expanding site-based research infrastructure for regional- to continental-scale ecology. Ecosphere. 5(3)
.
2007. Tipping points in rangelands: The scales of social-biophysical interactions. Ecological Society of America Abstracts. :SYMP2-7.
.
2016. A toolkit for ecosystem ecologists in the time of Big Science. Ecosystems.
.
2017. A toolkit for ecosystems ecologists in the time of big science. Ecosystems. 20:259-266.
.
2001. Tree mortality in gap models: Application to climate change. Climatic Change. 51:509-540.
.
2003. Understanding vegetation dynamics provides insights to sustainable invasive plant management and remediation strategies. 7th International Conference on the Ecology and Management of Alien Plant Invasions (ESA/WSSA Joint Meeting). :68.
.
1999. Using CENTURY to investigate ecosystem effects of a non-native species and implications for restoration. 84th Annual Meeting, Ecological Society of America. 80
.
2019. Using machine learning to model complex landscapes: predicting the geographic range of Vesicular Stomatitis across the western United States. Ecological Society of America Abstracts.
.
2003. Using mechanistic models to scale ecological processes across space and time. BioScience. 53:1-9.
.
2007. Using the GIS to study the past and present of a northern Chihuahuan Desert playa. 60th Annual Meeting and Trade Show, Society for Range Management. :PaperNo.179.
.
2011. Utilizing the tropic interactions of nematodes as indicators of change in soil biota associated with the loss of bouteloua eiopda grasslands. 96th Ecological Society of America Meeting.
.
2021. Vector Surveillance, Host Species Richness, and Demographic Factors as West Nile Disease Risk Indicators. Viruses. 13:1-18.
.
2002. Vegetation and climate characteristics of arid and semi-arid grasslands in North America and their biome transition zone. Journal of Arid Environments. 51:55-78.
.
1999. Vegetation-soil feedbacks and sensitivity of Chihuahuan Desert ecosystem boundaries to climate change. 84th Annual Meeting, Ecological Society of America. 80:69.
.
2004. Vegetation-water budget interactions: Implications for ecosystem dynamics at multiple scales. 89th Annual Meeting, Ecological Society of America. :p.397.
.
2013. Water controls on nitrogen transformations and stocks in an arid ecosystem. Ecosphere. 4(1):Article11.
.
2009. The western United States rangelands, a major resource. Grassland, Quietness and Strength for a New American Agriculture.
.
2020. Woody Plant Encroachment has a Larger Impact than Climate Change on Dryland Water Budgets. Scientific Reports. 10(8112)
.
2006. Woody Plant Invasion at a Semi-arid Transition Zone: Importance of Ecosystem Type to Colonization and Patch Expansion. Journal of Vegetation Science. 17:389-396.
