Jornada Bibliography
.
2013. Geographic searching for ecological studies: A new frontier. Trends in Ecology and Evolution. 28(7):383-384.
.
2013. The global land-potential knowledge system (LandPKS): Supporting evidence-based, site-specific land use and management through cloud computing, mobile applications, and crowdsourcing. Journal of Soil and Water Conservation. 68(1):5A-12A.
.
2012. A holistic strategy for adaptive land management. Journal of Soil and Water Conservation. 67(4):105A-113A.
.
2018. Innovation in rangeland monitoring: annual, 30 m, plant functional type percent cover maps for U.S. rangelands, 1984–2017. Ecosphere. 9(9):1-19.
.
2017. Integrating remotely-sensed imagery and existing multi-scale field data to derive rangeland indicators: an application of Bayesian additive regression trees. Rangeland Ecology and Management. 70:644-655.
.
2014. Interpretation of high-resolution imagery for detecting vegetation cover composition change after fuels reduction treatments in woodlands. Ecological Indicators. 45:570-578.
.
2013. Land degradation and climate change: A sin of omission? Frontiers in Ecology and the Environment. 11:283.
.
2016. The Land-Potential Knowledge System (LandPKS): mobile apps and collaboration for optimizing climate change investments. Ecosystem Health and Sustainability. 2(3)
.
2014. Modeling vegetation heights from high resolution stereo aerial photography: An application for broad-scale rangeland monitoring. Journal of Environmental Management. 144:226-235.
.
2010. Monitoring and assessment based on ecological sites. Rangelands. 32(6):60-64.
.
2012. Rangeland and pasture monitoring: an approach to interpretation of high-resolution imagery focused on observer calibration for repeatability. Environmental Monitoring and Assessment. 184:3789-3804.
.
2011. Rangeland assessment and monitoring methods guide. Rangelands. 33(4):48-54.
.
2020. Rapid bulk density measurement using mobile device photogrammetry. Soil Science Society of America Journal. 84(3):811-817.
.
2012. Revolutionary land use change in the 21st century: Is (rangeland) science relevant? Rangeland Ecology and Management. 65:590-598.
.
2016. The role of data and inference in the development and application of ecological site concepts and state-and-transition models. Rangelands. 38:322-328
.
2010. 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.
.
2010. Spatial Predictions of Cover Attributes of Rangeland Ecosystems Using Regression Kriging and Remote Sensing. Rangeland Ecology & Management. 63:335-349.
.
2012. A strategy for rangeland management based on best available knowledge and information. Rangeland Ecology and Management. 65:638-646.
.
2012. A Technique for Estimating Rangeland Canopy-Gap Size Distributions From High-Resolution Digital Imagery. Rangeland Ecology & Management. 65(2):196-207.
.
2010. Tribal and state ecosystem management regimes influence forest regeneration. Forest Ecology and Management. 260(5):734-743.
.
2011. Turning information into knowledge for rangeland management. Rangelands. 33(4):3-5.
.
2013. Using Spatial Statistics and Point-Pattern Simulations to Assess the Spatial Dependency Between Greater Sage-Grouse and Anthropogenic Features. Wildlife Society Bulletin. 37(2):301-310.
.
2012. Using very-large-scale aerial imagery for rangeland monitoring and assessment: some statistical considerations. Rangeland Ecology and Management. 65:330-339.
