Jornada Bibliography
Changes in biodiversity and their consequences for human health. Biodiversity change and human health: from ecosystem services to spread of disease.
.
2008. Changes in biodiversity and their consequences for human health. Biodiversity change and human health: from ecosystem services to spread of disease.
.
2008. Cross-site studies "by design:" Experiments and observations that provide new insights. Long-Term Trends in Ecological Systems: A Basis for Understanding Responses to Global Change. :72-80.
.
2013. Desertification of Rangelands. Climate Vulnerability: Understanding and Addressing Threats to Essential Resources. 4:239-258.
.
2013. Deserts. Global Biodiversity in a Changing Environment: Scenarios for the 21st Century. :201-222.
.
2001. Estimating aboveground net primary production in grassland and herbaceous dominated ecosystems. Principles and standards for measuring primary production.
.
2007. Grassland Communities and Ecosystems. Reference Module in Life Sciences.
.
2017. Grassland ecosystems. Encyclopedia of Biodiversity.
.
2011. Human health, biodiversity and ecosystem services: the intertwined challenging future. Biodiversity change and human health: from ecosystem services to spread of disease.
.
2008. Human health, biodiversity and ecosystem services: the intertwined challenging future. Biodiversity change and human health: from ecosystem services to spread of disease.
.
2008. Rangeland ecosystem services: nature’s supply and humans’ demand. Rangeland Systems: Processes, Management and Challenges. :467-489.
.
2017. Sustainable allocation of biodiversity to improve human health and well-being. Biodiversity change and human health: from ecosystem services to spread of disease.
.
2008. Sustainable allocation of biodiversity to improve human health and well-being. Biodiversity change and human health: from ecosystem services to spread of disease.
.
2008. 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. Complex landscapes in the American Southwest: Under what conditions does desetification lead to novel ecosystems? 2016 Ecological Society of America Meetings.
.
2016. Developing an integrated knowledge landscape map using a trans-disciplinary approach. LTER All Scientists Meeting.
.
2018. Effects of contrasting rooting distribution patterns on plant transpiration along a precipitation gradient. Ecological Society of America.
.
2016. Effects of contrasting rooting distribution patterns on plant transpiration along a precipitation gradient. Ecological Society of America.
.
2020. Forecasting regional grassland and shrubland responses to directional changes in climate using multi-year dry or wet period. 2015 LTER All Scientists Meeting.
.
2015. The Jornada Basin long term ecological research program. 2015 LTER All Scientists Meeting.
.
2015. Long-Term Research at the Jornada Basin (LTER VII). LTER All Scientists Meeting 2018.
.
2018. Non-linear ecosystem response to long-term changes in precipitation and nitrogen availability in a desert grassland. 96th ESA Annual Meeting, Earth Stewardship: Preserving and enhancing earth's life-support systems.
.
2011. Precipitation and nitrogen interactions in arid ecosystems. Ecological Society of America Abstracts. :COS89-8.
.
2008. Production and biodiversity responses to extreme climatic events across a heterogeneous landscape. US International Association for Landscape Ecology.
.
2009. Tipping points in rangeland social-ecological systems of the Southwest US: Past and present. Ecological Society of America.
.
2016. Effects of interannual precipitation variability on ecosystem water balance and its consequences for aboveground net primary production. 97th Ecological Society of America Meeting. OOS 12-6
.
2012. Forecasting regional grassland and shrubland responses to directional changes in climate using multi-year dry or wet periods. LTER 2015 All Scientists Meeting .
.
2015. Identifying thresholds in pattern-process relationships: a new cross-scale interactions experiment at the Jornada Basin LTER. 2012 LTER All Scientists Meeting. p. 43
.
2012. Patterns of soil community structure differ by scale and ecosystem type along a large-scale precipitation gradient. 97th Ecological Society of America Meeting. COS 128-8
.
2012. Plant-soil feedbacks and the reversal of desertification with climate change. International Rangeland Congress. :292-296.
.
2011. Asynchrony among local communities stabilises ecosystem function of metacommunities. Ecology Letters.
.
2017. Beyond desertification: new paradigms for dryland landscapes. Frontiers in Ecology and the Environment. 13(1):4-12.
.
2015. Biophysical controls over concentration and depth distribution of soil organic carbon and nitrogen in desert playas. Journal of Geophysical Research - Biogeosciences. 121
.
2016. Bridging historical and ecological approaches in biogeography. Australian Systematic Botany. 19:1-10.
.
2006. Cascading Events in Linked Ecological and Socio-Economic Systems. Frontiers in Ecology and the Environment. 5:221-224.
.
2007. Changes in below ground biodiversity during ecosystem development. Proceedings of the National Academy of Sciences. 116:6891–6896.
.
2019. Characterizing differences in precipitation regimes of extreme wet and dry years: implications for climate change experiments. Global Change Biology. 21:2624-2633.
.
2015. Climate change impacts on South American rangelands. Rangelands. 30:34-39.
.
2008. Connectivity: insights from the U.S. Long Term Ecological Research Network. Ecosphere. 12(5):1-30.
.
2021. Determinants of biodiversity change: ecological tools for building scenarios. Ecology. 87:1875-1876.
.
2006. Differential sensitivities of grassland structural components to changes in precipitation mediate productivity response in a desert ecosystem. Functional Ecology. 28:1292-1298.
.
2014. Directional climate change and potential reversal of desertification in arid and semiarid ecosystems. Global Change Biology. 18(1):151-163.
.
2012. Do litter decomposition and nitrogen mineralization show the same trend in the response to dry and wet years in the Patagonian steppe? Journal of Arid Environments. 72:687-695.
.
2008. Does drought control emergence and survival of grass seedlings in semi-arid rangelands? An example with a Patagonian species Journal of Arid Environments. 72:161-174.
.
2008. Drought suppresses soil predators and promotes root herbivores in mesic, but not in xeric grasslands. Proceedings of the National Academy of Sciences. 116:12883–12888.
.
2019. Enhanced interannual precipitation variability increases plant functional diversity that in turn ameliorates negative impact on productivity. Ecology Letters. 18(12):1293-1300.
.
2015. Enhanced precipitation variability decreases grass- and increases shrub-productivity. Proceedings of the National Academy of Sciences. 112(41):12735-12740.
.
2015. Enhanced precipitation variability effects on water losses and ecosystem functioning: differential response of arid and mesic regions. Climate Change. 131(2):213-227.
.
2015. Few multiyear precipitation–reduction experiments find a shift in the productivity–precipitation relationship. Global Change Biology. 22:2570-2581.
.
2016. The future of vascular plant diversity under four global scenarios. Ecology and Society. 11:19pages.
.
2006.