Jornada Bibliography
Stable isotopes and soil-geomorphology as indicators of Holocene climate change, northern Chihuahuan Desert. Journal of Arid Environments. 43:357-373.
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1999. Stable carbon and oxygen isotopes in Quaternary soil caronates as indicators of ecogeomorphic changes in the northern Chihuahuan Desert, USA. Geoderma. 82:137-172.
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1998. The stability of vegetation boundaries and the propagation of desertification in the American Southwest: a modelling approach. Ecological Modelling. 208:91-101.
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2007. Spatial variation in remnant grasses after a grassland-to-shrubland state change: Implications for restoration. Rangeland Ecology and Management. 59:343-350.
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2006. Spatial variation in remnant grasses after a grassland-to-shrubland state change: Implications for restoration. Rangeland Ecology and Management. 59:343-350.
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2006. Spatial variability of termite gallery production in Chihuahuan Desert plant communities. Sociobiology. 14:281-289.
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1988. Spatial variability of soil and nutrient characteristics of semi-arid grasslands and shrublands, Jornada Basin, New Mexico. Ecohydrology. 1:3-12.
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2008. Spatial variability of CaCO3 solubility in a Chihuahuan Desert soil. Arid Soil Research and Rehabilitation. 4:181-191.
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1990. Spatial patterns of soil nutrients in two southern African savannas. Journal of Geophysical Research - Biogeosciences. 113:G02011.
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2008. Spatial patterns of soil nutrients in two southern African savannas. Journal of Geophysical Research - Biogeosciences. 113:G02011.
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2008. Spatial heterogeneity in Chihuahuan Desert vegetation: implications for sampling methods in semi-arid ecosystems. Journal of Arid Environments. 47:257-270.
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2001. Spatial dependence of predictions from image segmentation: A variogram-based method to determine appropriate scales for producing land-management information. Ecological Informatics. 5:194-202.
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2010. Spatial and temporal variability of plant-available water in calcium carbonate-cemented soils and consequences for arid ecosystem resilience. Oecologia. 163(1):215-226.
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2010. Spatial aggregation and neutral models in fractal landscapes. The American Naturalist. 139:32-57.
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1992. Sound management may sequester methane in grazed rangeland ecosystems. Scientific Reports. 4
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2014. Some Impacts of 2, 4, 5-T on a mesquite duneland ecosystem in southern New Mexico: A synthesis. Journal of Range Management. 39:320-326.
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1986. Soil-vegetation-climate interactions in arid landscapes: Effects of the North American monsoon on grass recruitment. Journal of Arid Environments. 74:618-623.
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2010. Soil-litter mixing accelerates decomposition in a Chihuahuan Desert grassland. Ecosystems. 16:183-195.
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2013. The Soil-geomorphic template and biotic change in arid and semi-arid ecosystems. Journal of Arid Environments. 65:207-218.
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2006. Soil seed banks associated with individual broom snakeweed plants. Journal of Range Management. 40:441-443.
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1987. Soil respiration in a Chihuahuan Desert rangeland. Soil Biology and Biochemistry. 15:303-309.
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1983. Soil organic carbon dust emission: an omitted global source of atmospheric CO2. Global Change Biology. 19:3238-3244.
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2013. Soil moisture content and plant transpiration in the Chihuahuan Desert of New Mexico. Journal of Arid Environments. 12:119-126.
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1987. Soil classification of arid lands using Thematic mapper data. Revista Terra. 20:89-100.
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2002. Soil classification of arid lands using Thematic mapper data. Revista Terra. 20:89-100.
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2002. Soil change, soil survey, and natural resources decision making: A blueprint for action. Soil Science Society of America Journal. 69:738-747.
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2005. Social vulnerability to climate change in primary producers: a typology approach . Agriculture, Ecosystems and Environment. 186:86-93.
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2014. Social vulnerability to climate change in primary producers: a typology approach . Agriculture, Ecosystems and Environment. 186:86-93.
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2014. The social networks of manureshed management. Journal of Environmental Quality.
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2022. Size decline in Larrea tridentata (creosotebush). The Southwestern Naturalist. 41:248-250.
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1996. A site-based approach to delivering rangeland ecosystem services. The Rangeland Journal. 33(2):99-108.
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2011. A simulation model of soil nematode population dynamics: effects of moisture and temperature. Pedobiologia. 30:361-372.
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1987. A simple method to estimate threshold friction velocity in the field. Geophysical Research Letters. 37:1-5.
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2010. A simple method to estimate threshold friction velocity in the field. Geophysical Research Letters. 37:1-5.
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2010. The significance of termites as decomposers in contrasting grassland communities of semi-arid eastern Australia. Journal of Arid Environments. :113-119.
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2009. The significance of carbon-enriched dust for global carbon accounting. Global Change Biology. 18:3275-3278.
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2012. The significance of carbon-enriched dust for global carbon accounting. Global Change Biology. 18:3275-3278.
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2012. Sheep Laterality. Laterality. 18(2):179-193.
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2013. Sensor development and rediometric correction for agricultural applications. Sensor development and rediometric correction for agricultural applications. 69:705-718.
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2003. Sensor development and radiometric correction for agricultural applications. Photogrammetric Engineering and Remote Sensing. 69:705-718.
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2003. Sensor development and radiometric correction for agricultural applications. Photogrammetric Engineering and Remote Sensing. 69:705-718.
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2003. Seed-borne fungal endophytes on fourwing saltbush, Atriplex canescens . Arid Soil Research and Rehabilitation. 11:307-314.
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1997. Seasonality of some Chihuahuan Desert soil oribatid mites (Acari: Cryptostigmata). Journal of Zoology, London (A). 208:403-416.
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1986. Seasonal Runoff Forecasts for Hydropower Based on Remote Sensing . Western Snow Conference 1995. :1-11.
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1995. Scaling up agricultural research with artificial intelligence. IEEE IT Professional. 22:32-38.
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2020. Scaling up agricultural research with artificial intelligence. IEEE IT Professional. 22:32-38.
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2020. Scaling up agricultural research with artificial intelligence. IEEE IT Professional. 22:32-38.
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2020. Scaling up agricultural research with artificial intelligence. IEEE IT Professional. 22:32-38.
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