Jornada Bibliography
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Hydrologic input, nutrient and pollutant budgets, and biotic components of the North Caspian Sea. 17th Biennial Meeting of the Estuarine Research Federation.
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2003. Simulated distribution of Eragrostis lehmanniana (Lehmann lovegrass): Soil–climate interactions complicate predictions. Ecosphere. 13(3):e3974.
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2022. Explaining abrupt spatial transitions in agro-ecosystem responses to periods of extended drought. 2015 LTER All Scientists Meeting.
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2015. The ecology of catastrophic events: understanding abrupt spatial transitions in susceptibility of grasslands and croplands to multi-year drought. 100th Annual Meeting of the Ecological Society of America.
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2015. Using machine learning to model complex landscapes: predicting the geographic range of Vesicular Stomatitis across the western United States. Ecological Society of America Abstracts.
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2019. Invasive Plant Expansion on Spatially Heterogeneous Landscapes: Hot Spots and Hot Moments. Ecological Society of America.
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2018. Harnessing the power of AI technologies for ecology: Grass recovery in shrub dominated landscapes. Ecological Society of America.
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2020. Predicting the geographic range of an invasive livestock disease across the contiguous USA under current and future climate conditions. Climate. 9(11):159.
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2021. Modeling erosion in a southern New Mexico watershed using agwa: Sensitivity to variations of input precision and scale. 65th Annual Meeting of the Society for Range Management. p. 0217
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2012. Comparison of LCTA with an integrated soil and vegetation monitoring protocol for monitoring grassland, shrubland, and savanna ecosystems. 10th Annual Integrated Training Area Management Workshop. :99.
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2001. Monitoring grassland, shrubland and savanna ecosystems: LCTA versus an integrated soil and vegetation monitoring protocol. 86th Annual Meeting, Ecological Society of America. :322.
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2001. Understanding ecological condition and change on rangelands managed by the Bureau of Land Management: An initial report. Ecological Society of America.
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2020. Comparative production of Larrea divaricata Cav. on three geomorphic surfaces in southern New Mexico. :40.
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1970. Community response to removals of plant functional groups and species from a Chihuahuan Desert shrubland. Oikos. 110:67-80.
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1980. Vegetational changes on a semidesert grassland range from 1858 to 1963. Ecological Monographs. 35:139-164.
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1964. Southwest transformation: eras of growth and land change in Las Cruces, New Mexico. Southwestern Geographer. 14:57-87.
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2010. Stable isotopes and soil-geomorphology as indicators of Holocene climate change, northern Chihuahuan Desert. Journal of Arid Environments. 43:357-373.
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1999. Eolian stratigraphy of intrabasinal fault depressions in the northern Hueco and southern TularosaBasins: Evidence for neotectonic activity. New Mexico Geological Society Guidebook, 49th Field Conference, Las Cruces Country II. :79-86.
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1998. Inverted clast stratigraphy in an eolian archaeological environment. Geoarchaeology. 17:665-687.
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2002. Some aspects of ecological climatology of the Jornada Experimental Range New Mexico. Simulation and Analysis of Dynamics of a Semi-Desert Grassland: An Interdisciplinary Workshop Program Toward Evaluating the Potential Ecological Impact of Weather Modification. :2-74.
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1970. 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. Opportunities to implement manureshed management in the U.S. poultry industry. American Society of Ag.
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2020. Poultry manureshed management: Opportunities and challenges for a vertically integrated industry. Journal of Environmental Quality. :1-12.
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2021. Composition and digestia kinetics of diets selected by suckling range calves. Proceedings of the Western Section Meeting, American Society of Animal Science. 41:264-267.
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1990. Biodiversity and ecosystem function in soil. Ambio. 26:563-70.
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1997. Sex in Ephedra trifurca (Ephredraceae) with relation to Chihuahuan Desert habitats. The American Midland Naturalist. 119:137-142.
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1988. Regional ensemble modeling reduces uncertainty for digital soil mapping. Geoderma. 397:114998.
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2021. A New Version of the Snowmelt Runoff Model Incorporating Radiation. The Environmental Professional . 19:109-116.
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1997. Incorporating Radiation Inputs into the Snowmelt Runoff Model. Hydrological Process. 10:1329-1343.
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1996. Response of Snowmelt Hydrology to Climate Change. Water, Air and Soil Pollution. 90:335-343.
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1996. Watching grass grow: Successes and limitations of image-based methods for monitoring grassland phenology. 12th International Congress of Ecology INTECOL 2017.
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2017. Breaks in MODIS time series portend vegetation change: verification using long-term data in an arid grassland ecosystem. Ecological Applications. 27:1677-1693.
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2017. Local and global patterns of shrub proliferation - changes in autocorrelation in an arid rangeland ecosystem from 1937-2008.. US - International Association for Landscape Ecology.
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2010. Field validation of biomass retrieved from Landsat for rangeland assessment and monitoring. International Geoscience and Remote Sensing Symposium Proceedings.
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2010. Phenocams bridge the gap between field and satellite observations in an arid grassland ecosystem. Remote Sensing of Environment. 9, 1071
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2017. Plant phenology: Taking the pulse of rangelands. Rangelands. 41:129-134.
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2019. Species–specific contributions to moderate resolution vegetation indices derived from sub-decimeter aerial photography – Prospects for phenological monitoring. American Society for Photogrammetry and Remote sensing Proceedings.
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2010. Spatial autocorrelation of shrub cover in an arid rangleand ecosystem from 1937-2008. IEEE Transactions on Geoscience and Remote Sensing.
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2010. Integrating space and time: A case for phenological context in grazing studies and management. Frontiers of Agricultural Science and Engineering. 5:44-56.
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2018. Bridging field observations and remotely sensed assessments of land surface phenology in the arid southwestern U.S.. 95th Ecological Society of America.
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2010. Vegetation index differencing for broad-scale assessment of productivity under prolonged drought and sequential high rainfall conditions. Remote Sensing. 5(5):327-341.
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2013. Evaluating plant community responses to rainfall extremes in southwest U.S. ecosystems using radiometric change detection. 97th Ecological Society of America Meeting. COS 174-3
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2012. Climate and phenology network synergies for sustainable agriculture. Ecological Society of America.
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2020. Comparing phenology of Chihuahuan desert perennial grasses and shrubs between normal and below-average precipitation years. 97th Ecological Society of America Meeting. PS 92-59
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2012. Phenological patterns of Chihuahuan desert perennial grasses and shrubs in normal and below-average precipitation years. 6th Annual Phenology Research and Observations of Southwest Ecosystems (PROSE) Symposium. Poster
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2012. Synchronous species responses reveal phenological guilds: implications for management. Ecosphere. 9:1-23.
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2018. Hierarchial analysis of vegetation dynamics over 71 years: soil-rainfall interactions in a Chihuahuan Desert ecosystem. Ecological Applications. 22(3):909-926.
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