Jornada Bibliography
Export 77 results:
Filters: Keyword is climate change [Clear All Filters]
.
2013.
Arid ecosystem responses to variations in the frequency and magnitude of growing season precipitation. 89th Annual Meeting, Ecological Society of America. :Abstractp.476.
.
2004. Assessing climate change impacts on water availability of snowmelt-dominated basins of the Upper Rio Grande Basin. Journal of Hydrology: Regional Studies . 3:525-546.
.
2015. Assessing grazing behavior of heritage, hybrid, and conventional cattle breeds in response to climate change. Society for Range Management.
.
2022. .
2012. .
2008.
Climate change, agriculture and water resources in the Southwestern United States. Journal of Contemporary Water Research and Education. (158):46-61.
.
2016. Climate change and biotic invasions: a case history of a tropical woody vine. Biological Invasions. 5:147-165.
.
2003. Climate change and ecoystems of Asia with emphasis on Inner Mongolia and Mongolia. Rangelands. 30:46-51.
.
2008. Climate change and rangelands: Responding rationally to uncertainty. Rangelands. 30:3-6.
.
2008. Climate change impacts on wind and water erosion on US rangelands. Journal of Soil and Water Conservation. 74(4):405-418.
.
2019. Contributing to the mitigation of climate change using rangeland management. Rangelands. 30:7-11.
.
2008. County-level climate change information to support decision-making on working lands within USDA Climate Hub regions. Climatic Change. 148(355):355–369.
.
2018. Cross-Site comparisons of dryland ecosystem response to climate change in the US Long-Term Ecological Research Network. BioScience. 72(9):889-907.
.
2022. Cross-site comparisons of precipitation and surface water chemistry. Long-Term Trends in Ecological Systems: A Basis for Understanding Responses to Global Change. :46-50.
.
2013. Cross-site comparisons of state-change dynamics. Long-Term Trends in Ecological Systems: A Basis for Understanding Responses to Global Change. :36-41.
.
2013. 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. Deciphering the past to inform the future: preparing for the next (“really big”) extreme event. Frontiers in Ecology and the Environment. :10.1002/fee.2194.
.
2020. Declines in rodent abundance and diversity track regional climate variability in North American drylands. Global Change Biology. 27:4005-4023.
.
2021. Direct effects dominate responses to climate perturbations in grassland plant communities. Nature Communications. :1-10.
.
2016. Disturbance regimes and ecological responses across sites. Long-Term Trends in Ecological Systems: A Basis for Understanding Responses to Global Change. :58-71.
.
2013. Earth Stewardship of rangelands: coping with ecological, economic, and political marginality. Frontiers in Ecology and the Environment. 11(7):348-354.
.
2013. The ecology of dust. Frontiers in Ecology and the Environment. 8(8):423-430.
.
2011. Ecosystem resilience despite large-scale altered hydroclimatic conditions. Nature. 494:349-352.
.
2013. Effects of altered temperature and precipitation on desert protozoa associated with biological soil crusts. Journal of Eukaryotic Microbiology. 53:507-514.
.
2006. 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 effects on water losses and ecosystem functioning: differential response of arid and mesic regions. Climate Change. 131(2):213-227.
.
2015. Extreme events as shaping physiology, ecology, and evolution of plants: toward a unified definition and evaluation of their consequences. New Phytologist. 160:21-42.
.
2003. Extreme weather events and transmission losses in arid streams. Environmental Research Letters. 14(8):084002.
.
2019. Foraging behavior and body temperature of heritage vs. commercial beef cows in relation to desert ambient heat. Journal of Arid Environments. 193:104565.
.
2021. Functional response of U.S. grasslands to the early 21st-century drought. Ecology. 95(8):2121-2133.
.
2014. Geographic patterns of simulated establishment of two Bouteloua species: Implications for distributions of dominants and ecotones. Journal of Vegetation Science. 10:343-356.
.
1999. Global-change drivers of ecosystem functioning modulated by natural variability and saturating responses. Global Change Biology. 23:503-511.
.
2017. Groundwater recharge in desert playas: current rates and future effects of climate change. Environmental Research Letters. 13 014025:10pp..
.
2018. History and organization of the EcoTrends project. Long-Term Trends in Ecological Systems: A Basis for Understanding Responses to Global Change. :21-27.
.
2013. Hydrological Effects of a Changed Climate in Humid and Arid Mountain Regions. World Resource Review. 12(3):493508.
.
2000. Land resources: forests and arid lands. The effects of climate change on agriculture, land resources, water resources, and biodiversity in the United States.. :362pp..
.
2008. Long-term declining trends in Chihuahuan Desert forage production in relation to precipitation and ambient temperature. Rangeland Ecology and Management. 72(976-987)
.
2019. 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. Making research relevant: Sharing climate change research with rangeland advisors to transform results into drought resilience. Rangelands. RALA-00311:1-9.
.
2021. Management and policy implications of cross-and within-site, long-term studies. Long-Term Trends in Ecological Systems: A Basis for Understanding Responses to Global Change. :206-215.
.
2013. Modeling Snow Cover and Runoff Response to Global Warming for Varying Hydrological Years. World Resource Review. 11(1):76-91.
.
1999. Multiple constraints on ecological restoration: Re-establishment of black grama grass (Bouteloua eriopoda) after intensive grazing. Ecological Society of America Abstracts. :COS119-7.
.
2008. Patterns of net primary production across sites. Long-Term Trends in Ecological Systems: A Basis for Understanding Responses to Global Change. :42-45.
.
2013.