Jornada Bibliography
Bridging field observations and remotely sensed assessments of land surface phenology in the arid southwestern U.S.. 95th Ecological Society of America.
.
2010. Do climate model predictions agree with long-term precipitation trends in the arid southwestern United States? American Geophysical Union.
.
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.
.
2020. Landscape variability in response to changes in patch-scale connectivity. Ecological Society of America Abstracts.
.
2009. Linking ground observations, simulation model output, and remote sensing data to characterize phenology across diverse arid landscapes. American Society of Photogrammetry and Remote Sensing Meetings.
.
2007. A machine learning guided system for automatically processing data from an array of wireless sensors. International Conference on Complex Systems.
.
2018. Patch-scale connectivity: Where and why does it matter? LTER All Scientists Meeting.
.
2009. 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.
.
2011. 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. Plant-soil feedbacks and the reversal of desertification with climate change. International Rangeland Congress. :292-296.
.
2011. Decomposition of roots in a Chihuahuan Desert ecosystem. Oecologia. 75:8-11.
.
1988. Desertification alters patterns of aboveground net primary production in Chihuahuan ecosystems. Global Change Biology. 8:247-264.
.
2002. Directional climate change and potential reversal of desertification in arid and semiarid ecosystems. Global Change Biology. 18(1):151-163.
.
2012. In-situ measurement of dust devil activity at La Jornada Experimental Range, New Mexico, USA. Aeolian Research. :1-12.
.
2015. Modifying connectivity to promote state change reversal: the importance of geomorphic context and plant–soil feedbacks. Ecology. 101(9):e03069.
.
2020. Nitrogen mineralization in a desert soil: Interacting effects of soil moisture and nitrogen fertilizer. Soil Science Society of America Journal. 51:1033-1041.
.
1987. Nutrient losses in runoff from grassland and shrubland habitats in southern New Mexico: II. Field plots. Biogeochemistry. 49:69-86.
.
2000. Point discharge current measurements beneath dust devils. Journal of Atmospheric and Solar–Terrestrial Physics. 150:55-60.
.
2016. Regional signatures of plant response to drought and elevated temperature across a desert ecosystem. Ecology. 94(9):2030-2041.
.
2013. Runoff responses to long-term rainfall variability in a shrub-dominated catchment. Journal of Arid Environments. 91:88-94.
.
2013. Soil water dynamics at 15 locations distributed across a desert landscape: insights from a 27-yr dataset. Ecosphere. 9(7):36pp.
.
2018. Spatial and temporal variability in relative abundance and foraging behavior of subterranean termites in desertified and relatively intact Chihuahuan Desert ecosystems. Applied Soil Ecology. 12:149-157.
.
1999. Stemflow contribution to the "fertile island" effect in creosotebush, Larrea tridentata. Journal of Arid Environments. 35:451-457.
.
1997. .
2018.