Jornada Bibliography
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Big data-model integration and AI for vector-borne disease predictor. Ecosphere. 11(6):1-20.
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2020. Plant species dominance and disturbance at a grassland-shrubland ecotone. 85th Annual Meeting, Ecological Society of America. :175.
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2000. Forecasting regional grassland and shrubland responses to directional changes in climate using multi-year dry or wet periods. LTER 2015 All Scientists Meeting .
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2015. Plant-soil feedbacks and recruitment constraints on perennial grass recovery following shrub invasion. 85th Annual Meeting, Ecological Society of America. :372.
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2000. .
2016. Cross Scale Interactions and Spatial Nonlinearities: An Interdisciplinary Framework. Ecological Society of America 90th Annual Meeting. :504.
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2005. Approaches to predicting broad-scale regime shifts using changing pattern-process relationships across scales. Real World Ecology: Large-scale and long-term case studies and methods. :47-72.
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2009. 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. Integrating legacy data to understand agroecosystem regional dynamics to catastrophic events. American Geophysical Union Fall Meeting .
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2016. Harnessing the power of AI technologies for ecology: The knowledge learning analysis system (KLAS) for spatially-distributed, continuous ecological data. Ecological Society of America.
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2020. Boundary dynamics in landscapes. The Princeton Guide to Ecology. :458-463.
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2009. Landscape Diversity. Encyclopedia of Biodiversity. 3:648-658.
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2000. 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. Production and biodiversity responses to extreme climatic events across a heterogeneous landscape. US International Association for Landscape Ecology.
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2009. 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. A toolkit for ecosystems ecologists in the time of big science. Ecosystems. 20:259-266.
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2017. Cross-scale interactions, nonlinearities, and forecasting catastrophic events. Proceedings of the National Academy of Sciences. 101:15130-15135.
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2004. Indicators of regime shifts in long-term ecological data. Ecological Society of America Annual Meeting. :OOS9-3.
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2009. 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. Nonlinear dynamics in arid systems: interactions among drivers and processes across scales. Sixth Symposium on the Natural Resources of the Chihuahuan Desert Region. :38.
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2004. Modifying connectivity to promote state change reversal: the importance of geomorphic context and plant–soil feedbacks. Ecology. 101(9):e03069.
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2020. 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. Strategies for ecological extrapolation. Oikos. 106:627-636.
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2004. AI recommender system with ML for agricultural research. IEEE IT Professional. 22:29-32.
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2020. Vegetation-soil feedbacks and sensitivity of Chihuahuan Desert ecosystem boundaries to climate change. 84th Annual Meeting, Ecological Society of America. 80:69.
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1999. Introducing the International Long-Term Ecological Research (ILTER) network. LAND Open Science Conference. :62.
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2004. .
2013. Harnessing AI to transform agriculture and inform agricultural research. IEEE IT Professional. 22(3):16-21.
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2020. Landscape-scale processes and sensitivity of Chihuahuan Desert ecosystems to climate change. 5th World Congress, International Association for Landscape Ecology. II (L-Z):122.
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1999. Can connectivity-mediated feedbacks to vegetation explain surprising ecological responses to catastrophic events? Ecological Society of America.
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2018. Landscape Diversity. Encyclopedia of Biodiversity. 4:476-487.
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2013. Vegetation-water budget interactions: Implications for ecosystem dynamics at multiple scales. 89th Annual Meeting, Ecological Society of America. :p.397.
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2004. 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. Plant species richness in multiyear wet and dry periods in the Chihuahuan Desert. Climate. 9(8):130.
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2021. Perspectives on global change theory. Ecological Society of America Abstracts. SYMP 2-7
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2008. Desertification of Rangelands. Climate Vulnerability: Understanding and Addressing Threats to Essential Resources. 4:239-258.
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2013. Insights to invasive species dynamics from desertification studies. Weed Technology. 18:1221-1225.
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2004. Disturbance regimes and ecological responses across sites. Long-Term Trends in Ecological Systems: A Basis for Understanding Responses to Global Change. :58-71.
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2013. Ecological theory and practice in arid and semiarid ecosystems: a tale of two LTER sites. 59:151-180.
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2021. Living in an increasingly connected world: a framework for continental-scale environmental science. Frontiers in Ecology and the Environment. 6:229-237.
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2008. An integrated View of Complex Landscapes: A Big Data-Model Integration Approach to Transdisciplinary Science. Bioscience. 68:653-669.
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2018. Spatial nonlinearities and cascading effects across landscapes in the Earth system. LAND Open Science Conference. :50.
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2004. Long-term trends in climate and climate-related drivers. Long-Term Trends in Ecological Systems: A Basis for Understanding Responses to Global Change. :81-114.
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2013. Ecology in a connect world: A vision for a "network of networks". Frontiers in Ecology and the Environment. 6:227.
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2008. Harnessing the power of big data in ecology by machine learning. 10th Internationl Conference on Ecological Informatics.
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2018. Selection of models of invasive species dynamics. Weed Technology. 18:1236-1239.
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2004. Long-term trends in precipitation and surface water chemistry. Long-Term Trends in Ecological Systems: A Basis for Understanding Responses to Global Change. :115-161.
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2013. 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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2018. Grassland simulation models: A synthesis of current models and future challenges. Handbook of Ecological Models Used in Ecosystem and Environmental Management. :175-201.
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