To ensure the effective and timely use of the research products generated from the University of Arizona Superfund Basic Research Program (UA SBRP), active and effective communication between Program personnel and appropriate stakeholders must take place. Stakeholders for this Program include: federal, state and local government agencies, industry, environmental consulting firms, students, and the General Public. The overall goal of the Research Translation Core (RTC) is to actively communicate the research products generated by the UA SBRP to pertinent stakeholders in the most appropriate and effective manner.
The Specific Aims planned for the renewal will build upon the very successful current RTC efforts and introduce new approaches to enhance these efforts. They also include a new effort to develop and apply metrics specific to environmental research translation.
The Aims are: (1) Dynamically transfer information generated by the UA SBRP to increase stakeholder's level of knowledge regarding hazardous wastes, environmental contaminants, and human-health risk [Continuing];(2) Build upon and nurture existing partnerships with government agencies and other entities and develop additional long-term collaborations [Revised];(3) Facilitate the transfer of technology (moving research findings into application) by increasing the number of demonstration projects at Superfund sites [Continuing];(4) Develop metrics for environmental research translation, and apply them to evaluate the effectiveness of environmental research translation efforts specific to the demographics of the southwestern United States [New]. Our strategy for achieving effective and timely translation of our research products includes: maintaining current and developing new linkages and partnerships with our stakeholders, transferring technology through completion of demonstration projects and application for patents, and communicating with stakeholders through the continued development of our website, creation of a public access television show, production of review papers, and participating in and hosting seminars, meetings, and conferences.
The RTC is designed to help resolve environmental contamination and health issues of concern to the region. Partnership building will align the activities of all pertinent stakeholders to improve collaboration and integration of each other's efforts. Technology transfer activities will improve the remediation and management of hazardous waste sites in the region. RTC information transfer activities will improve the knowledge level of the various stakeholders.
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|Guo, Zhilin; Brusseau, Mark L (2017) The impact of well-field configuration and permeability heterogeneity on contaminant mass removal and plume persistence. J Hazard Mater 333:109-115|
|Zhang, Xiang; Gu, Xiaogang; Lu, Shuguang et al. (2017) Application of ascorbic acid to enhance trichloroethene degradation by Fe(III)-activated calcium peroxide. Chem Eng J 325:188-198|
|Danish, Muhammad; Gu, Xiaogang; Lu, Shuguang et al. (2017) An efficient catalytic degradation of trichloroethene in a percarbonate system catalyzed by ultra-fine heterogeneous zeolite supported zero valent iron-nickel bimetallic composite. Appl Catal A Gen 531:177-186|
|Ramos-Ruiz, Adriana; Sesma-Martin, Juan; Sierra-Alvarez, Reyes et al. (2017) Continuous reduction of tellurite to recoverable tellurium nanoparticles using an upflow anaerobic sludge bed (UASB) reactor. Water Res 108:189-196|
|Madeira, Camila L; Speet, Samuel A; Nieto, Cristina A et al. (2017) Sequential anaerobic-aerobic biodegradation of emerging insensitive munitions compound 3-nitro-1,2,4-triazol-5-one (NTO). Chemosphere 167:478-484|
|Honeker, Linnea K; Neilson, Julia W; Root, Robert A et al. (2017) Bacterial Rhizoplane Colonization Patterns of Buchloe dactyloides Growing in Metalliferous Mine Tailings Reflect Plant Status and Biogeochemical Conditions. Microb Ecol 74:853-867|
|Fu, Xiaori; Gu, Xiaogang; Lu, Shuguang et al. (2017) Benzene oxidation by Fe(III)-catalyzed sodium percarbonate: matrix constituent effects and degradation pathways. Chem Eng J 309:22-29|
|Olivares, Christopher I; Madeira, Camila L; Sierra-Alvarez, Reyes et al. (2017) Environmental Fate of 14C Radiolabeled 2,4-Dinitroanisole in Soil Microcosms. Environ Sci Technol 51:13327-13334|
|Soltani, Naghmeh; Keshavarzi, Behnam; Sorooshian, Armin et al. (2017) Oxidative potential (OP) and mineralogy of iron ore particulate matter at the Gol-E-Gohar Mining and Industrial Facility (Iran). Environ Geochem Health :|
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