Jornada Bibliography
.
2000. Interpreting Indicators of Rangeland Health, Version 3. :115.
.
2005. Interpreting Indicators of Rangeland Health, Version 4.0. 1734-6
.
2020. Interpreting indicators of rangeland health, version 5. Interpreting Indicators of Rangeland Health, Version 5. :202.
.
2005. Monitoring Manual for Grassland, Shrubland and Savanna Ecosystems. II:200.
.
2005. Monitoring Manual for Grassland, Shrubland and Savanna Ecosystems, Volume I: Quick Start. :36.
.
2012. Soil Ecology and Ecosystem Services. :424.
.
2009. Approaches to predicting broad-scale regime shifts using changing pattern-process relationships across scales. Real World Ecology: Large-scale and long-term case studies and methods. :47-72.
.
1999. Desert rangelands, degradation and nutrients. Rangeland Desertification. :77-87.
.
2001. The Dynamics of Soil Carbon in Rangelands. Carbon Sequestration Potential of U.S. Grazing Lands. :267-290.
.
2001. Exploiting heterogeneity of soil organic matter in rangelands: Benefits for carbon sequestration. The Potential of U.S. Grazing Lands to Sequester Carbon and Mitigate the Greenhouse Effect. :121-136.
.
2006. A Framework and Methods for Simplifying Complex Landscapes to Reduce Uncertainty in Predictions. Scaling and Uncertainty Analysis in Ecology: Methods and Applications. :131-146.
.
2006. Future Directions in Jornada Research: Applying an Interactive Landscape Model to Solve Problems. Structure and Function of a Chihuahuan Desert Ecosystem: The Jornada Basin Long-Term Ecological Research Site. :369-386.
.
2009. Grasslands in the Borderlands. Understanding coupled natural-human systems and transboundary conservation. Conservation of Shared Environments. Learning from the United States and Mexico. :188-203.
.
1999. Management for carbon sequestration in rangelands: soil organic matter, soil aggregation, and exploiting heterogeneity. Carbon Sequestration Potential of US Grazing Lands.
.
2017. Monitoring protocols: Options, approaches, implementation, benefits. Rangeland Systems. :527-567.
.
2013. New ecology education: Preparing students for the complex human-environmental problems of dryland East Asia. Dryland East Asia; Land Dynamics Amid Social and Climate Change. :363-403.
.
2006. Patterns and Controls of Soil Water in the Jornada Basin. Structure and Function of a Chihuahuan Desert Ecosystem: The Jornada Basin Long-Term Ecological Research Site. :107-132.
.
1998. Rangeland Soil Erosion and Soil Quality: Role of Soil Resistance, Resilience, and Disturbance Regime. Soil Quality and Soil Erosion. :209-233.
.
1997. Relationships between soil organic carbon and soil quality in cropped and rangeland soils: the importance of distribution, composition, and soil biological activity. Soil Processes and the Carbon Cycle. :405-425.
.
2006. Remediation Research in the Jornada Basin: Past and Future. Structure and Function of a Chihuahuan Desert Ecosystem: The Jornada Basin Long-Term Ecological Research Site. :278-304.
.
2009. Resilience theory in models of rangeland ecology and restoration: the evolution and application of a paradigm. New Models for Ecosystem Dynamics and Restoration. :78-95.
.
2015. A risk-based strategy for climate change adaptation in dryland systems based on an understanding of potential production, soil resistance and resilience, and social stability. Sustainable intensification to Advance Food Security and Enhance Climate Resilience in Africa. Springer. pp. 407-424
.
2020. Soil health assessment for agricultural lands. Approaches to Soil Health Analysis, Volume 1. 1:79-99.
.
2012. Sustainable soils: Introduction. Soil Ecology and Ecosystem Services. :299-300.
.
2012. Sustainable soils: Synthesis. Soil Ecology and Ecosystem Sevices. :395-396.
.
2006. Understanding global desertification: biophysical and socioeconomic dimensions of hydrology. Dryland Ecohydrology. :315-332.
.
2009. The western United States rangelands, a major resource. Grassland, Quietness and Strength for a New American Agriculture.
.
2007. Adapting the rangeland database for managing ecological site description data. Society for Range Management Annual Meeting. :PaperNo.286.
.
2013. Adapting to climate change and disaster risk reduction through sustainable land management: Experiences in Tajikistan, East Africa, US, Argentina and Mongolia. UNCCD 2nd Scientific Conference.
.
2015. AERO: A decision support tool for wind erosion assessment in rangelands and croplands. AGU Fall Meeting.
.
2006. An agenda for ecology in an era of globalization. Ecological Society of America Abstracts.
.
2008. Application of soil physical models to predict soil deposition effects on plant establishment. 93rd Ecological Society of America Annual Meeting. :48-147.
.
1996. Application of soil quality assessments to rangeland remediation and sustainable management. Workshop on Long-Term Research on Soil, Water, and Nutrient Management within the CGIAR System.
.
1996. Application of the desertification response unit methodology to multi-scale assessments of rangeland soil quality. American Society of Agronomy Meeting. :Abstract224.
.
2004. Applications of multi- and cross-scale analyses to management of dynamic systems. Sixth Symposium on the Natural Resources of the Chihuahuan Desert Region. :19.
.
2005. Applying a new desertification paradigm linking biophysical and socioeconomic elements: the Amapola, Mexico, case study. Society for Range Management, 58th Annual Meeting and Trade Show. :PaperNo.282.
.
1994. Approaches to assessing the quality of rangeland soils. American Society of Agronomy Meeting. :Abstract285.
.
1997. Assessing and monitoring the quality of rangeland soils: Early warning indicators of desertification. International Symposium and Workshop Combating Desertification: Connecting Science with Community Action. :Abstract32.
.
2017. Assessing quality of citizen scientists’ soil texture estimates to evaluate land potential. Soil Science Society of America Journal.
.
2008. Assessing resilience of western rangelands to transportation-related land-use change. Geological Society of America. :51-10.
.
1998. Assessment of soil and vegetation resource redistribution 20 years after the construction of a Chihuahuan Desert water catchment. 51st Annual Meeting, Society for Range Management. 51:Abstract56.
.
2020. Big data, local science: Not an oxymoron. Ecological Society of America.
.
2005. Carbon in Desert Soils at Multiple Time Scales. Ecological Society of America 90th Annual Meeting. :447-448.
.
2006. A case study of desertification linking biophysical and socioeconomic aspects fo water use in the small Mexican village of Amapola. Global Environmental Change: Regional Challenges. An Earth System Science Partnership, Open Science Conference. :660.
.
2006. A case study of land degradation linking biophysical and socioeconomic aspects of agroecological production systems in southern Honduras. Global Environmental Change: Regional Challenges. An Earth System Science Partnership, Open Science Conference. :661.
.
2006. Changes in Perennial Grass Recruitment From 1858 to Present Following Woody Plant Invasion. 91st Ecological Society of America Annual Meeting. :99.
.
2006. Characterizing soil change within the human time scale for resource assessment and prediction. 18th World Congress of Soil Science. :PaperNo.16-4.
.
2005. Comparing Measurement Methods for CO2 Emissions from Chihuahuan Desert Soil. Proceedings II Simposio Internactional de Manejo de Pastizales. :79.
.
2001. Comparison of LCTA with an integrated soil and vegetation monitoring protocol for monitoring grassland, shrubland, and savanna ecosystems. 10th Annual Integrated Training Area Management Workshop. :99.
