Environmental Engineering Reference
In-Depth Information
U.S. Environmental Protection Agency. Oxygenates in water:
Critical information and research needs. Technical Report
EPA/600/R-98/048, USEPA, Office of Research and Devel-
opment, Washington, DC, 1998.
U.S. Environmental Protection Agency. National pollution
elimination system regulation for revision of the water pol-
lution control program addressing storm water discharges;
final rule, report to Congress on the Phase II Storm Water
Regulations, 40 CFR Parts 9, 122, 123 and 124.
Federal
Register
,
64
(235):68722-68851, 1999.
U.S. Environmental Protection Agency. Guiding principles for
constructed treatment wetlands. Technical Report EPA-
843-B-00-003, Office of Wetlands, Oceans and Watersheds,
Washinton, DC, October 2000a.
U.S. Environmental Protection Agency. Nutrient criteria tech-
nical guidance manual: Rivers and streams. Technical
Report EPA 822-B-00-002, USEPA, Washington, DC, 2000b.
U.S. Environmental Protection Agency. A citizen's guide to
pump and treat. Technical Report EPA 542-F-01-025,
USEPA, Office of Solid Waste and Emergency Response,
Washington, DC, December 2001.
U.S. Environmental Protection Agency. Implementation
guidance for ambient water-quality criteria for bacteria.
Technical Report EPA-823-B-02-003, Office of Water,
Washington, DC, July 2002.
U.S. Environmental Protection Agency. GWERD research on
stream and riparian restoration to benefit water-quality,
2005a. http://www.epa.gov/ada/topics/riparian.html
U.S. Environmental Protection Agency. U.S. Titanium, 2005b.
http://epa.gov/reg3hwmd/super/sites/VAD980705404/
U.S. Environmental Protection Agency. An approach for using
load duration curves in the development of TMDLs. Tech-
nical Report EPA 841-B-07-006, Office of Wetlands, Oceans
and Watersheds, Washington, DC, August 2007.
U.S. Environmental Protection Agency. Causes of impairment
for 303(d) listed waters. Washington, D.C., 2008. http://
www. iaspub.epa.gov/waters10/at tains_nat ion_cy.
control?p_report_type=T#causes_303d. Accessed 17 Sep-
tember 2008.
U.S. Fish and Wildlife Service. Chase Lake Prairie Project,
2005. http://arrowwood.fws.gov/ChaseLake_PP/predator_
fences.html
U.S. National Park Service. Typical lake view—Whiskeytown,
2005. http://www.nps.gov/whis/exp/photos/gal1/
U.S. Natural Resources Conservation Service. Riparian
buffers, 2005a. http://www.oh.nrcs.usda.gov/programs/
Lake_Erie_Buffer/riparian.html
U.S. Natural Resources Conservation Service. NRCS photo
gallery, 2005b. http://photogallery.nrcs.usda.gov/
Uniformed Services University. Scanning electron micrograph
of a pair of
Schistosoma mansoni
, 2005. http://www.usuhs.
mil/mic/davies.html
U.S. Geological Survey. Natural attenuation strategy for
groundwater cleanup focuses on demonstrating cause and
effect, 2005. http://toxics.usgs.gov/pubs/eos-v82-n5-2001-
natural/
M.W. Van Liew, J.G. Arnold, and J.D. Garbrecht. Hydrologic
simulation on agricultural watersheds: Choosing between
two models.
Transactions of the American Society of
Agricultural and Biological Engineers
,
46
(6):1539-1551,
2003.
M.W. Van Liew, T.L. Veith, D.D. Bosch, and J.G. Arnold. Suit-
ability of SWAT for the conservation effects assessment
project: Comparison on USDA agricultural research
service watersheds.
Journal of Hydrologic Engineering
,
12
(2):173-189, March/April 2007.
Vertex Water Features, Inc. Pond aerators and lake aeration
systems, 2005. http://www.vertexwaterfeatures.com/pond_
aerator_gallery.php
P.A. Vesilind and S.M. Morgan.
Introduction to Environmental
Engineering
. Brooks/Cole-Thomson Learning, Belmont,
CA, 2004.
B.E. Vieux and F.G. Moreda. Nutrient loading assessment in
the Illinois River using a synthetic approach.
Journal of the
American Water Resources Association
,
39
(4):757-769,
2003.
R.M. Vogel and A. Sankarasuramanian. Validation of a water-
shed model without calibration.
Water Resources Research
,
39
(10):1292, 2003, doi:10.1029/2002WR001940.
R.A. Vollenweider. The scientific basis of lake and stream
eutrophication with particular reference to phosphorus
and nitrogen as eutrophication factors. Technical Report
DAS/CSI/68.27, OECD, Paris, 1968.
R.A. Vollenweider. Input-output models with special refer-
ence to the phosphorus loading concept in limnology.
Journal of Hydrology
,
37
:53-84, 1975.
R.A. Vollenweider. Advances in defining critical loading levels
for phosphorus in lake eutrophication.
Memorie dell'Istituto
Italiano di Idrobiologia
,
33
:53-83, 1976.
J.A. Vrugt, H.V. Gupta, W. Bouten, and S. Sorooshian. A shuf-
fled complex evolution metropolis algorithm for optimiza-
tion and uncertainty assessment of hydrologic model
parameters.
Water Resources Research
,
39
(8):1201, 2003,
doi:10.1029/2002WR001642.
R.J. Wagenet and J.L. Hutson. Scale-dependency of solute-
transport modeling/GIS applications.
Journal of Environ-
mental Quality
,
25
:499-510, 1996.
R.B. Wallace and S.J. Wright. Spreading layer of a two-dimen-
sional buoyant jet.
Journal of Hydraulic Engineering
,
110
(6):813-828, 1984.
D.E. Walling and B.W. Webb. The reliability of suspended sedi-
ment load data, erosion and sediment transport measure-
ments. In Proceedings of the Florence Symposium, IAHS
Publication No. 133, pp. 177-194, 1981.
T.S. Walters. Diffusion into a turbulent atmosphere from a
continuous point source, at ground level.
Atmospheric
Environment
,
6
:349-352, 1962.
C. Wandmacher and A.I. Johnson.
Metric Units in Engineering,
Going SI
. ASCE Press, New York, 1995.
X. Wang, S. Shang, W. Yang, and A.M. Melesse. Simulation of
an agricultural watershed using an improved curve number
method in SWAT.
Transactions of the American Society of
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