Jornada Bibliography
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The stability of vegetation boundaries and the propagation of desertification in the American Southwest: a modelling approach. Ecological Modelling. 208:91-101.
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2007. The spread of invasive species and infectious disease as drivers of ecosystem change. Frontiers in Ecology and the Environment. 6:238-246.
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2008. Spatiotemporal patterns of production can be used to detect state change across an arid landscape. Ecosystems. 15:34-47.
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2012. 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.
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2002. Spatial variation in remnant grasses after a grassland-to-shrubland state change: Implications for restoration. Rangeland Ecology and Management. 59:343-350.
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2006. Spatial variation in remnant black grama plants in a creosote-dominated bajada. Sixth Symposium on the Natural Resources of the Chihuahuan Desert Region. :33.
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2004. Spatial Variability of Thermal and Near Infrared Imagery in JORNEX. IEEE. :589-591.
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1998. Spatial Variability of Soil Heat Flux of a Single Honey Mesquite Dune in the Jornada Basin . American Meteorlogical Society. :262-263.
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1998. Spatial variability of soil and nutrient characteristics of semi-arid grasslands and shrublands, Jornada Basin, New Mexico. Ecohydrology. 1:3-12.
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2008. Spatial prediction of invasion success across heterogeneous landscapes using an individual-based model. Biological Invasions. 8:193-200.
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2006. Spatial nonlinearities: Cascading effects in the earth system. Terrestrial Ecosystems in a Changing World. :165-174.
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2007. Spatial nonlinearities: Cascading effects in the earth system. Terrestrial Ecosystems in a Changing World. :165-174.
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2007. Spatial nonlinearities: Cascading effects in the earth system. Terrestrial Ecosystems in a Changing World. :165-174.
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2007. Spatial nonlinearities: Cascading effects in the earth system. Terrestrial Ecosystems in a Changing World. :165-174.
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2007. Spatial nonlinearities and cascading effects across landscapes in the Earth system. LAND Open Science Conference. :50.
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2004. Spatial heterogeneity of dynamic soil properties for management and restoration of desert landscapes. 89th Annual Meeting, Ecological Society of America. :Abstractp.513.
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2004. Spatial heterogeneity in aboveground net primary production and species richness at multiple scales in the Chihuahuan Desert. US-International Association for Landscape Ecology.
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2011. Spatial assessment of desertification in terms of vegetation pattern and available soil nitrogen. Proceedings of the Fifth International Conference on Desert Development.
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1999. Spatial and temporal variation in desertification due to stressors at multiple scales. LAND Open Science. :32.
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2004. .
1986. Soil-vegetation-climate interactions in arid landscapes: Effects of the North American monsoon on grass recruitment. Journal of Arid Environments. 74:618-623.
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2010. Soil-vegetation feedbacks in dynamic landscapes: Implications for restoration. Ecological Society of America Abstracts. :PS45-80.
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2007. Soil water dynamics at 15 locations distributed across a desert landscape: insights from a 27-yr dataset. Ecosphere. 9(7):36pp.
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2018. Soil water dynamics at 15 locations distributed across a desert landscape: insights from a 27-yr dataset. Ecosphere. 9(7):36pp.
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2018. Soil survey enhancements for assessment, monitoring, and restoration: Big Bend National Park case study. Sixth Symposium on the Natural Resources of the Chihuahuan Desert Region. :43.
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2004. Soil seed banks associated with individual broom snakeweed plants. Journal of Range Management. 40:441-443.
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1987. Soil respiration in a Chihuahuan Desert rangeland. Soil Biology and Biochemistry. 15:303-309.
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1983. Soil resistance, resilience and quantification of soil and ecological functions. 2002 Annual Meeting, American Society of Agronomy. :AbstractNo.S05.
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2002. Soil, resilience, and state and transition models. Society for Range Management Annual Meetings. :1514.
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2008. Soil loss and PM10 emissions from agricultural fields in the Junggar Basin over the past six decades. Journal of Soil and Water Conservation. 77(2):113-125.
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2022. Soil disturbance by soil animals on a topoclimatic gradient. European Journal of Soil Biology. 40:73-76.
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2004. Soil change, soil survey, and natural resources decision making: A blueprint for action. Soil Science Society of America Journal. 69:738-747.
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2005. Soil animal responses to moisture availability are largely scale, not ecosystem dependent: Insight from a cross-site study. Global Change Biology. 20:2631-2643.
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2014. Soil and vegetation factors influencing den site selection of a Chihuahuan Desert rodent assembly. :37.
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1986. Social-Ecological Processes and Impacts Affect Individual and Social Well-Being in a Rural Western U.S. Landscape. Frontiers in Sustainable Food Systems. 4(Article 38)
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2020. Small mammal studies on the Jornada and Pantex sites. US/IBP Grassland Biome. :48.
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1972. Small mammal herbivory and grassland recovery potential in the Chihuahuan Desert. Journal of Arid Environments. 166:11-16.
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2019. .
2005. Simulation of disturbances and recovery in shortgrass steppe plant communities. Ecology of the Shortgrass Steepe: A long-term perspective. :119-131.
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2008. Simulation modelling of soil inorganic carbon in arid environments. 88th Annual Meeting, Ecological Society of America. :238.
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2003. Simulating small mammal effects on grass-shrub ecotones in arid ecosystems. 17th Annual Symposium, US-International Association for Landscape Ecology. :119.
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2002. Simulated distribution of Eragrostis lehmanniana (Lehmann lovegrass): Soil–climate interactions complicate predictions. Ecosphere. 13(3):e3974.
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2022. Simulated distribution of an invasive grass, Lehmann lovegrass, in the Chihuahuan Desert under future climate scenarios. 100th Annual Meeting of the Ecological Society of America.
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2015. Simple and weighted averaging approaches to scaling: when can spatial context be ignored? 87th Annual Meeting, Ecological Society of America. :41.
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2002. Simple and weighted averaging approaches to scaling: When can spatial context be ignored? 17th Annual Symposium, US-International Association for Landscape Ecology. :82.
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2002. The significance of termites as decomposers in contrasting grassland communities of semi-arid eastern Australia. Journal of Arid Environments. :113-119.
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2009. Shrub encroachment in North American grasslands: Shifts in growth form dominance rapidly alters control of ecosystem carbon inputs. Global Change Biology. 14:615-623.
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2008. Shrub encroachment across North America: A multi-site synthesis of patterns, mechanisms, and consequences. 91st Ecological Society of America Meetings. :99.
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2006. Short-term water and energy flow in arid ecosystems. Arid Land Ecosystems: Structure, Function and Management. Volume 2:271-299.
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1981. Shifts in species dominance at a biome transition zone: Importance of asymmetric competition to long-term trends. 2009 LTER All Scientist Meeting.
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2009.