Jornada Bibliography
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Critical standing crop residue amounts for wind erosion control in the inland Pacific Northwest, USA. CATENA. 195
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2021. Can connectivity-mediated feedbacks to vegetation explain surprising ecological responses to catastrophic events? Ecological Society of America.
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2018. Climate change: Check the data yourself. High Country News.
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2010. Changes in Perennial Grass Recruitment From 1858 to Present Following Woody Plant Invasion. 91st Ecological Society of America Annual Meeting. :99.
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2006. Can we use the past as a lens to the future? Using historic events to predict regional grassland and shrubland responses to multi-year drought or wet periods under climate change 100th Annual Meeting of the Ecological Society of America.
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2015. Climatic triggers for nonlinear and threshold responses of rangelands. 86th Annual Meeting, Ecological Society of America. :31.
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2001. Climatic variation and simulated patterns in seedling establishment of two dominant grasses at a semi-arid and grassland ecotone. Journal of Vegetation Science. 11:493-504.
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2000. Cross-site comparisons of climate and vegetation for two semiarid grasslands and their ECOTONE. 85th Annual Meeting, Ecological Society of America. :372.
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2000. Controls on patterns in species dominance across multiple spatial scales at a biome transition zone. 85th Annual Meeting, Ecological Society of America. :372.
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2000. Cross Scale Interactions and Spatial Nonlinearities: An Interdisciplinary Framework. Ecological Society of America 90th Annual Meeting. :504.
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2011. Cross-site comparisons of state-change dynamics. Long-Term Trends in Ecological Systems: A Basis for Understanding Responses to Global Change. :36-41.
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2013. Cross-system comparisons elucidate disturbance complexities and generalities. Ecosphere. 2(7):Article81.
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2011. Cross-scale interactions, nonlinearities, and forecasting catastrophic events. Proceedings of the National Academy of Sciences. 101:15130-15135.
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2004. Cross-scale interactions and changing pattern-process relationships: Consequences for system dynamics. Ecosystems. 10:790-796.
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2007. Cascading Events in Linked Ecological and Socio-Economic Systems. Frontiers in Ecology and the Environment. 5:221-224.
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2007. Complex landscapes in the American Southwest: Under what conditions does desetification lead to novel ecosystems? 2016 Ecological Society of America Meetings.
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2016. A conceptual model for determining soil erosion by water. Earth Surface Processes and Landforms. 29:1293-1302.
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2004. Control of noxious range plants in a range management program. Journal of Range Management. 2:128-132.
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1949. Control of mesquite on Southwestern ranges. U.S. Department of Agriculture Leaflet 234. :8.
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1943. Carbon and nitrogen dynamics during the decomposition of litter and roots of a Chihuahuan Desert annual Lepidium lasiocarpum. Ecological Monographs. 54:339-360.
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1984. The consequences of climate change for dryland biogeochemistry. New Phytologist.
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2022. Connectivity in dryland landscapes: shifting concepts of spatial interactions. Frontiers in Ecology and the Environment. 13(1):20-27.
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2015. The contribution of brown vegetation to vegetation dynamics. Ecology. 91(3):743-755.
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2010. Calculation of daily distance walked by grazing cattle using real-time activity and position data collected by LORA-WAN sensors. 2nd U.S. Precision Livestock Farming Conference.
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2023. .
1973. Canopy architecture of Larrea tridentata (D. C.) Cov., a desert shrub: foliage orientation and direct beam radiation interception. Oecologia (Berlin). 75:54-60.
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1988. Calf crop increases on the Jornada. Organized Farming. 3:1-2.
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1922. Chemical composition of forage species grazed by cattle on an arid New Mexico range. New Mexico Agricultural Experimental Station Bulletin No. 561. :33.
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1970. Chemical composition of the diet of cows grazing on arid range. Proceedings of the Western Section, American Society of Animal Science. 20:355-360.
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1969. Combined effects of impervious surface and vegetation cover on air temperature variations in a rapidly expanding desert city. GIScience & Remote Sensing. 47:301-320.
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2010. Changes in mass and chemistry of plant roots during long-term decomposition on a Chihuahuan Desert watershed. Biology and Fertility of Soils. 26:16-22.
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1998. Cover of spring annuals on nitrogen-rich kangaroo rat mounds in a Chihuahuan Desert grassland. The American Midland Naturalist. 120:443-447.
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1988. A conceptual model of primary productivity, decomposition, and nitrogen cycling in the Chihuahuan creosotebush desert. Tree Physiology. 2:215-222.
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1986. Changing carbon chemistry of buried creosote bush litter during decomposition in the northern Chihuahuan Desert. The American Midland Naturalist. 130:83-89.
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1993. The contribution of abiotic processes to buried litter decomposition in the northern Chihuahuan Desert. Oecologia. 79:133-135.
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1996. Carbon sequestration and global warming. Memoria de la XII Semana Internacional de Agronomia.
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2001. Carbon in Desert Soils at Multiple Time Scales. Ecological Society of America 90th Annual Meeting. :447-448.
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1989. Comparing and contrasting scaling approaches across ecological disciplines: case studies of vegetation, biogeochemical and animal dynamics. 17th Annual Symposium, US-International Association for Landscape Ecology. :88-89.
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2002. Composition and antimicrobial activity of the essential oil of Anemposis californica. Annual Phytochemical Society of North America Conference. :60(BP-2).
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2002. A comparison of steam distillation and solid-phase microextraction (SPME) for isolation of the Anemopsis californica volatiles. Society for Range Management, New Mexico Section Winter Meeting. :8.
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2002. Composition and antimicrobial activity of Anemposis californica leaf oil. Journal of Agricultural and Food Chemistry. 53:8694-8698.
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2005. Carcass characteristics of Criollo and Criollo crossbred steers raised on Chihuahuan Desert rangeland. 2019 ASAS-CSAS Annual Meeting and Trade Show.
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2021. Can cattle geolocation data yield behavior-based criteria to inform precision grazing systems on rangeland? Livestock Science. 255:104801.
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2021. CALDEP: a regional model for CaCO3 (caliche) deposition in southwestern deserts. Soil Science. 139:468-481.
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1985. Characterizing dust from National Wind Erosion Research Network sites using isotopic fingerprinting, mineralogy, and major and trace element chemistry. American Geohpycal Union (AGU) Fall Meeting, Chicago, IL.
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2022.