Environmental remediation sites possess complexity at both biotic and abiotic levels, with temporal shifts that are associated with the interaction of both systems. Single scientific disciplines no longer serve to address and understand the complex nature of these sites. An integration of physical, chemical, and biological characterizations or a more inclusive environmental systems approach is needed. As a proof of concept, an integrated approach was developed to identify biosignatures from a complex environmental community to provide sensitive, early indicators and predictors of response to radionuclide and chemical exposures of interest for environmental management. Specifically, the integrated approach used a combination of genetics, transcriptomics, proteomics, and computational statistics to characterize a complex periphyton community following uranium exposure. This additional, specific information has promise to further reduce uncertainties in environmental remediation and monitoring in realizing the potential impacts of exposure in advance to reduce potential mitigation efforts. Results from this study establish a basis for biosignature characterization of any ecosystem for comparison or monitoring of biotic exposure and effects in response to a specific contaminant.
Revised: June 28, 2010 |
Published: February 1, 2009
Citation
Miracle A.L., V.L. Bailey, S.E. Baker, A.L. Bunn, J.K. Magnuson, and B.M. Webb-Robertson. 2009.Integration of ‘omics technologies for characterization of complex microbial ecosystems - 8119. In Waste Management Symposium 2008, 832-841. Tucson, Arizona:WM Symposia.PNNL-SA-58003.