SGD Facilities include computing resources for student training, dedicated research laboratories, and the Arizona Remote Sensing Center
Since 1981 the School of Geography and Development has occupied the top floor of the Harvill Building, near the center of the University of Arizona campus. In 1992, SGD was awarded the first ever Parent's Association Departmental Award for teaching excellence. This award sparked a teaching technology revolution in SGD. Today, SGD supports two state-of-the-art computer laboratories. The Spatial Analysis Laboratory (SAL), a 40 student seat facility, is primarily used for teaching of undergraduate and graduate geospatial technologies and hosts the MS-GIST program. The Majors lab, a 12 seat facility, is solely dedicated to students for course work and research. The SAL and Majors lab are refreshed on a 4 year cycle allowing them to be current with technology. Both include the latest remote sensing, GIS, statistical analysis and other software. Specialized hardware and software related to video, GPS, mobile/web GIS, 3d visualization are found in both facilities.
Click here for SAL Hours.
Applied Climate for Environment and Society Laboratory
Climatologist Andrew Comrie runs the Applied Climate for Environment and Society (ACES) laboratory. The ACES lab focuses on a wide variety of climate research that intersects with other environmental sciences and with social sciences. The primary focus of the lab at present is on climate and health, including links to disease ecology. Other foci include impacts of climate variability and global climate change. The ACES lab is home to graduate students, postdoctoral researchers and undergraduate interns working in these areas. It provides access to university high-performance computers, as well as a range of climate visualization and analysis software tools. ACES is located off campus in the Geronimo Building on University Ave, Room 102. More information.
Laboratory of Tree-Ring Research
SGD paleoclimatologist Connie Woodhouse maintains a dendrochronology laboratory at the Laboratory of Tree-Ring Research (add link), soon to be housed in the new Bryant Bannister Tree-Ring Building. Laboratory facilities include measuring machines, microscopes, computers, equipment for field collections, and a wood shop for sample preparation necessary to process and analyze the wood samples. Facilities for tree-ring isotope analysis and image analysis are also available. More information.
Regional Economics and Spatial Modeling Laboratory
Founded by Drs. Sandy Dall’erba and Daoqin Tong in 2012, the Regional Economics and Spatial Modeling (REAMS) Laboratory focuses on the development of theories and tools to model urban, regional and interregional economic systems. Expertise includes regional economic development and locational analysis based on state-of-the-art techniques such as spatial econometrics, input-output and spatial optimization modeling. The REASM Laboratory is located in Harvill, Room 435B
Remote Sensing Research Laboratory
Biogeographer and remote sensing specialist Stephen Yool runs the Remote Sensing Research Laboratory. The lab focuses on satellite image analysis. Main application areas include wildland fire assessment, infectious disease modeling, and modeling of urban water demand. The lab hosts 4 PC workstations, field equipment and library of books and research papers. Student researchers working in the use Leica (ERDAS) Imagine image processing and ArcGIS software environments for their projects. The lab is located in Harvill, Room 440. LiDAR image show at right provided by Tyson Swetnam.
The Arizona Remote Sensing Center
The Arizona Remote Sensing Center (ARSC) was established in 1972 and since its inception, ARSC has worked on a wide range of international, national, regional and local projects in which advanced airborne and satellite remote sensing data and other geospatial information technologies are utilized to help address both fundamental and applied issues in natural resource management. ARSC’s mission is to employ remote sensing and geospatial technologies to solve natural, agricultural and cultural resource problems in the arid and semi-arid regions of the world. This mission involves both basic and applied research in support of the operational application of geospatial technologies and their extension to stakeholders, the integration of field and remote sensing data and analysis, modeling of coupled human and natural systems, and the deployment of decision support systems.
The primary activities of the center focus on research supported by basic and applied research contracts and grants to develop and apply remote sensing and GIS technologies to problems in agriculture, natural resource management, and the environment. ARSC develops and maintains a number of scientific web sites in response to a large demand for information and data and the need to integrate computer technology into decision support. ARSC is also dedicated to providing graduate and undergraduate students with the opportunity to acquire new knowledge and skills in remote sensing and geospatial analysis. ARSC research projects are staffed by students from a variety of campus Departments including: the Arid Lands Resource Sciences Ph.D. Program, Electrical and Computer Engineering, the School of Geography and Development, Geosciences, Hydrology and Water Resources, Management and Information Systems, as well as the School of Natural Resources and Environment. More information.
Wim van Leeuwen
Office of Arid Lands Studies
1955 E. Sixth St. #205
Tucson, AZ 85721 US