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[Concert Poster: Deathray Davies]
Poster/flyer advertising a concert tour by Deathray Davies and Centro-Matic on August 5, 2004, at The Gypsy Tea Room in Dallas, TX, August 6, 2004 at The Opolis in Norman, OK, and August 7, 2004 at The Continental Club in Austin, TX.
Date:
2004-08-05/2004-08-07
Creator:
unknown
System:
The UNT Digital Library
Kinetics of U(VI) reduction control kinetics of U(IV) reoxidation
For the in situ reductive immobilization of U to be an acceptable strategy for the removal of that element from groundwater, the long-term stability of U(IV) must be determined. Rates of biotransformation of Fe species influence the mineralogy of the resulting products (Fredrickson et al., 2003; Senko et al., 2005), and we hypothesize that the rate of U(VI) reduction influences the mineralogy of resultant U(IV) precipitates. We hypothesize that slower rates of U(VI) reduction will yield U(IV) phases that are more resistant to reoxidation, and will therefore be more stable upon cessation of electron donor addition. U(IV) phases formed by relatively slow reduction may be more crystalline or larger in comparison to their relatively rapidly-formed counterparts (Figure 1), thus limiting the reactivity of slowly-formed U(IV) phases toward various oxidants. The physical location of U(IV) precipitates relative to bacterial cells may also limit the reactivity of biogenic U(IV) phases. In this situation, we expect that precipitation of U(IV) within the bacterial cell may protect U(IV) from reoxidation by limiting physical contact between U(IV) and oxidants (Figure 1). We assessed the effect of U(VI) reduction rate on the subsequent reoxidation of biogenic U(IV) and are currently conducting column scale studies to determine …
Date:
April 5, 2006
Creator:
Senko, J.M.; Minyard, M.L.; Dempsey, B.A.; Roden, E.E.; Yeh, G.-T. & Burgos, W.D.
System:
The UNT Digital Library
Center for Environmental Kinetics Analysis
Over the past two decades, numerous studies have produced high quality information on the rates at which bacteria can reduce metal oxides. The prototypical study--such as the one depicted to the right--focuses on only a few of the myriad variables affecting the rate. This approach allows for effective dissection of the mechanisms underlying DMRB activity, but, it also produces disjoint information that must be synthesized if we hope to predict the behavior of bacteria at the systems level.
Date:
April 5, 2006
Creator:
Bandstra, Joel Z.; Burgos, William D. & Peyton, Brent M.
System:
The UNT Digital Library
Adherence and the Medical Management of HIV/AIDS: Stress and Coping
This poster investigates the association of medical adherence to perceived stress, maladaptive coping behaviors, and medical variables in a sample of HIV+ adults.
Date:
November 5, 2007
Creator:
Hua, William Q.; Vosvick, Mark A. & Chng, Chwee-Lye
System:
The UNT Digital Library