Jornada Bibliography
Soil-vegetation-climate interactions in arid landscapes: Effects of the North American monsoon on grass recruitment. Journal of Arid Environments. 74:618-623.
.
2010. .
2011.
Cross-system comparisons elucidate disturbance complexities and generalities. Ecosphere. 2(7):Article81.
.
2011. .
2011. Globalization: Ecological consequences of global-scale connectivity in people, resources, and information. The Systemic Dimension of Globalization. :211-232.
.
2011. .
2011. .
2011. .
2011. .
2011. Perspectives on global change theory. The Theory of Ecology. :261-281.
.
2011. Plant-soil feedbacks and the reversal of desertification with climate change. International Rangeland Congress. :292-296.
.
2011. Responses to climate change in hot desert ecosystems: connecting local to global scales. 96th Ecological Society of America Annual Meeting.
.
2011. Deciphering landscape complexity to predict (non)linear responses to extreme climatic events. American Geophysical Union. H54D-04
.
2012. Directional climate change and potential reversal of desertification in arid and semiarid ecosystems. Global Change Biology. 18(1):151-163.
.
2012. Grassland simulation models: A synthesis of current models and future challenges. Handbook of Ecological Models Used in Ecosystem and Environmental Management. :175-201.
.
2012. How can science be general, yet specific: The conundrum of rangeland science in the 21st Century. Rangeland Ecology and Management. 65:613-622.
.
2012. .
2012. Cross-site comparisons of state-change dynamics. Long-Term Trends in Ecological Systems: A Basis for Understanding Responses to Global Change. :36-41.
.
2013. Desertification of Rangelands. Climate Vulnerability: Understanding and Addressing Threats to Essential Resources. 4:239-258.
.
2013. Disturbance regimes and ecological responses across sites. Long-Term Trends in Ecological Systems: A Basis for Understanding Responses to Global Change. :58-71.
.
2013. Landscape Diversity. Encyclopedia of Biodiversity. 4:476-487.
.
2013. Long-term research across sites, ecosystems, and disciplines: synthesis and research needs. Long-Term Trends in Ecological Systems: A Basis for Understanding Responses to Global Change. :226-233.
.
2013. 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.
.
2013. .
2013. Long-term trends in ecological systems: An introduction to cross-site comparisons and relevance to global change studies. Long-Term Trends in Ecological Systems: A Basis for Understanding Responses to Global Change. :1-20.
.
2013. Long-term trends in human demography and economy across sites. Long-Term Trends in Ecological Systems: A Basis for Understanding Responses to Global Change. :162-190.
.
2013. 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.
.
2013. Long-term trends in production, abundance, and richness of plants and animals. Long-Term Trends in Ecological Systems: A Basis for Understanding Responses to Global Change. :191-205.
.
2013. Harnessing the power of big data: infusing the scientific method with machine learning to transform ecology. Ecosphere. 5(6)
.
2014. Mechanisms of grass response in grasslands and shrublands during dry or wet periods. Oecologia. 174:1323-1334.
.
2014. North American Biomes. Oxford Bibliographies.
.
2014. .
2014. Beyond desertification: new paradigms for dryland landscapes. Frontiers in Ecology and the Environment. 13(1):4-12.
.
2015. 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.
.
2015. Ecological challenges posed by climate uncertainty. The Economic and Financial Risks of a Changing Climate; Insights from Leading Experts. :8.
.
2015. Forecasting regional grassland and shrubland responses to directional changes in climate using multi-year dry or wet period. 2015 LTER All Scientists Meeting.
.
2015. Forecasting regional grassland and shrubland responses to directional changes in climate using multi-year dry or wet periods. LTER 2015 All Scientists Meeting .
.
2015. The Jornada Basin long term ecological research program. 2015 LTER All Scientists Meeting.
.
2015. Complex landscapes in the American Southwest: Under what conditions does desetification lead to novel ecosystems? 2016 Ecological Society of America Meetings.
.
2016. Integrating legacy data to understand agroecosystem regional dynamics to catastrophic events. American Geophysical Union Fall Meeting .
.
2016. .
2016. A toolkit for ecosystems ecologists in the time of big science. Ecosystems. 20:259-266.
.
2017. Can connectivity-mediated feedbacks to vegetation explain surprising ecological responses to catastrophic events? Ecological Society of America.
.
2018. Developing an integrated knowledge landscape map using a trans-disciplinary approach. LTER All Scientists Meeting.
.
2018. Harnessing the power of big data in ecology by machine learning. 10th Internationl Conference on Ecological Informatics.
.
2018. .
2018. An integrated View of Complex Landscapes: A Big Data-Model Integration Approach to Transdisciplinary Science. Bioscience. 68:653-669.
.
2018. Long-Term Research at the Jornada Basin (LTER VII). LTER All Scientists Meeting 2018.
.
2018. AI recommender system with ML for agricultural research. IEEE IT Professional. 22:29-32.
.
2020. Big data-model integration and AI for vector-borne disease predictor. Ecosphere. 11(6):1-20.
.
2020.