Environmental Engineering Reference
In-Depth Information
Because the application of MNA is a knowledge intensive process it seems neces-
sary to increase efforts in further training of practitioners and regulators not dealing
daily with MNA. To enhance the acceptance of MNA, it would also help to supply
a database (e.g., on the internet) with successful MNA applications.
References
AFCEE (2000) Designing monitoring programs to effectively evaluate the performance of natural
attenuation. US Airforce Center for Engineering and the Environment
American Society for Testing and Materials (2004) STM E1943 - 98(2004) Standard guide for
remediation of ground water by natural attenuation at petroleum release sites
Annweiler E, Michaelis W, Meckenstock RU (2002) Identical ring cleavage products during anaer-
obic degradation of naphthalene, 2-methylnaphthalene, and tetralin indicate a new metabolic
pathway. Appl Environ Microbiol 68:852-858
Ballapragada BS, Stensel HD, Puhakka JA, Ferguson JF (1997) Effect of hydrogen on reductive
dechlorination of chlorinated ethenes. Environ Sci Technol 31:1728-1734
Berghoff A, Wienberg R, Farahbakhsh M, Dethlefsen F, Mahro B (2007) Comparison and evalu-
ation of site-specific microcosm-experiments to identify and kinetically describe the processes
that determine the microbial degradation of PAH in groundwater (in German). Final Report,
Priority Program KORA, Project 2.7, FZK 02WN0436
Blotevogel J, Reineke AK, Hollender J, Held T (2008) Identification of NSO-heterocyclic pri-
ority substances for investigating and monitoring creosote-contaminated sites (in German).
Grundwasser 13:147-157
Bockelmann A, Ptak T, Teutsch G (2000) Field scale quantification of contaminant mass fluxes and
natural attenuation rates using an integral investigation approach. In: Bjerg PL, Engesgaard P,
Krom TD (eds) Groundwater 2000. Balkema, Copenhagen, Denmark, pp 309-310
Bradley PM (2003) History and ecology of chloroethene biodegradation: a review. Bioremed J
7:81-109
Bradley PM, Chapelle FH (1996) Anaerobic mineralization of vinyl chloride in Fe(III)-reducing
aquifer sediments. Environ Sci Technol 30:2084-2092
Bradley PM, Chapelle FH (1997) Kinetics of dichloroethylene and VC mineralization under
methanogenic and Fe(III)-reducing conditions. J Contamin Hydrol 31:111-127
Bradley PM, Landmeyer JE, Dinicola RS (1998) Anaerobic oxidation of [1,2-14C]dichlorethene
under Mn(IV)-reducing conditions. Appl Environ Microbiol 64:1560-1562
Chapelle FH, Bradley PM (2003) Redox conditions and the reductive/oxidative biodegradation
of chlorinated ethenes in groundwater systems. Dehalogenation: Microbial Processes and
Environmental Applications, Kluwer Academic, Norwell, pp 373-384
Chapelle FH, Novak J, Parker J, Campbell BG, Widdowson MA (2007) A framework for assessing
the sustainability of monitored natural attenuation. U.S. Geological Survey, Circular 1303
Collin G, Höke H (2005) Tar and Pitch. In: Ullmann's encyclopedia of industrial chemistry, Wiley-
VCH, Weinheim
Davis JW, Carpenter CL (1990) Aerobic biodegradation of vinyl chloride in groundwater samples.
Appl Environ Microbiol 56(12):3878-3880
Domenico PA (1987) An analytical model for multidimensional transport of a decaying contami-
nant species. J Hydrol 91:49-58
Eberhardt C, Grathwohl P (2002) Time scales of organic contaminant dissolution from complex
source zones: coal tar pools vs. blobs. J Contamin Hydrol 59:45-66
Eschenbach A, Wienberg R, Mahro B (1998) Fate and stability of nonextractable residues of
(14C)PAH in contaminated soils under environmental stress conditions. Environ Sci Technol
32:2585-2590
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