Jornada Bibliography
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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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2010. 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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2016. Can foraging behavior of Criollo cattle help increase agricultural production and reduce environmental impacts in the arid Southwest? Ecological Society of America.
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2010. Change detection using 75-year aerial photo and satellite data sets, inexpensive means to obtain 6 cm resolution data, and developing opportunities for community-oriented remote sensing through photography. 2010 American Geophysical Union Fall Meeting.
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2022. Classification of daily crop phenology in PhenoCams using deep learning and hidden markov models. Remote Sensing. 14
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2020. Climate and phenology network synergies for sustainable agriculture. Ecological Society of America.
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2012. 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. A comparison of three feature selection methods for object-based classification of sub-decimeter resolution UltraCam-L imagery. International Journal of Applied Earth Observation and Geoinformation. 15:70-78.
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2021. Constraints and opportunities for detecting land surface phenology in drylands. Journal of Remote Sensing. 2:1-15.
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2019. Constraints on shrub cover and shrub-shrub competition in a U.S. southwest desert. Ecosphere. 10(2):1-16.
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2012. Cross-scale interactions drive ecosystem responses to precipitation in the Chihuahuan Desert. 97th Ecological Society of America Meeting. COS 186-2
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2012. Deciphering landscape complexity to predict (non)linear responses to extreme climatic events. American Geophysical Union. H54D-04
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2022. Deep learning models for identifying cropland attributes from near surface cameras. Biogeosciences.
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2015. Detecting long-term vegetation change in an arid rangeland ecosystem: Investigating effects of spatial image support within satellite time-series. 68th Annual Meeting of the Society for Range Management.
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2011. Digital soil mapping in the absence of field training data: A case study using terrain attributes and semiautomated soil signature derivation to distinguish ecological potential. Applied and Environmental Soil Science. 2001(Article ID 421904):421904.
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2009. Does livestock grazing influence spatial patterns of woody plant proliferation? Ecological Society of America Abstracts. :COS127-10.
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2009. Does woody plant encroachment increase ecosystem carbon stocks? Ecological Society of America 94th Annual Meeting. :PS46-59.
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2022. Ecological science infrastructure for sustainability transformations in rangelands. The XXIV International Grassland Congress / XI International Rangeland Congress (Sustainable Use of Grassland and Rangeland Resources for Improved Livelihoods).
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2016. Effect of spatial image support in detecting long-term vegetation change from satellite time-series. Landscape Ecology. (31):2045-2062.
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2015. Emerging technological and cultural shifts advancing drylands research and management. Frontiers in Ecology and the Environment. 13(1):52-60.
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2012. 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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2021. An evaluation of soil heterogeneity and representativeness within and across sites in the NEON network. ESA - August 2021 meeting -Virtual.
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2010. Feature selection methods for object-based classification of sub-decimeter resolution digital aerial imagery. Proceedings of GEOBIA 2010 Conference. XXXVIII:4/C7.
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2009. Field validation of 1930s aerial photography: What are we missing? Journal of Arid Environments. 73:844-853.
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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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2015. Geography as destiny? Social and ecological resilience in rangelands of the American southwest 100th Annual Meeting, Ecological Society of America.
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2018. The Grassland–Shrubland Regime Shift in the Southwestern United States: Misconceptions and Their Implications for Management. Bioscience. 68(9):678-690.
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2009. Grazing effect on woody plant recruitment in a Sonoran Desert grassland across space and time. US International Association for Landscape Ecology.
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2019. Grazing reduces the temporal stability of temperate grasslands in northern China. FLORA. 259(151450)
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2012. 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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2010. Hierarchical object-based classification of ultra-high-resolution digital mapping camera (DMC) imagery for rangeland monitoring and assessment. Journal of Spatial Science. 55(1):101-115.
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2018. An integrated View of Complex Landscapes: A Big Data-Model Integration Approach to Transdisciplinary Science. Bioscience. 68:653-669.
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2017. Integrating remotely-sensed imagery and existing multi-scale field data to derive rangeland indicators: an application of Bayesian additive regression trees. Rangeland Ecology and Management. 70:644-655.
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2018. 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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2014. The landscape of fear: The missing link to understand top-down and bottom-up controls of prey abundance? Ecology. 5(5):1141-1152.
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2010. 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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2020. Manureshed delineation via analysis of county-level data from IPNI-NuGIS and USDA-NASS(2012).
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2020. Manuresheds: Advancing nutrient recycling in US agriculture. Agricultural Systems. 182
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2019. Manuresheds: Redesigning crop-livestock agriculture for sustainable intensification. 2019 Annual Meeting of the US Regional Association of the International Association for Landscape Ecology.
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2014. Mechanisms of grass response in grasslands and shrublands during dry or wet periods. Oecologia. 174:1323-1334.
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2021. Monitoring agroecosystem productivity and phenology at a national scale: A metric assessment framework. Ecological Indicators. 131
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2021. Multi-scale assessment of a grassland productivity model. Biogeosciences. 18(6):2213-2220.
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2014. The NDVI: Back to basics. American Geophysical Union.
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2010. Object-based classification of hyperspatial digital mapping camera (DMC) imagery for potential integration into the National Resource Inventory (NRI) of grazing lands. American Society for Photogrammetry and Remote Sensing (ASPRS) Annual Meeting.
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2021. Participatory research and co-production of knowledge: Building on a century of Jornada experience to expand LTAR outcomes and impacts. LTAR Annual Meeting.
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2011. Patterns in reproductive phenology for dryland grasses and shrubs from 1993 to 2010 in the Chihuahuan Desert. 96th ESA Annual Meeting, Earth Stewardship: Preserving and enhancing earth's life-support systems.
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2017. Phenocams bridge the gap between field and satellite observations in an arid grassland ecosystem. Remote Sensing of Environment. 9, 1071
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2018. Phenocams bridge the gap between field and satellite observations: Applications from agroecosystems. US-International Association for Landscape Ecology.
