Environmental Engineering Reference
In-Depth Information
sampler. US Geological Survey Professional Paper 1139,
44pp, http://pubs.er.usgs.gov/usgspubs/pp/pp1139.
Emmett, W. W. (1981) Measurement of bed load in rivers.
In
Erosion and Sediment Transport Measurements
, 3-15,
Oslo, Norway: International Association of Hydrological
Sciences, Publication 133.
Emmett, W. W. , Burrows, R. L. & Chacho, E. F. (1996)
Coarse-particle transport in a gravel-bed river.
International Journal of Sediment Research
,
11
(2), 8-21.
Engel, P. & Lau, Y. L. (1981) The effi ciency of basket type
bed load samplers. In
Erosion and Sediment Transport
Measurement
, 27-34, Oslo, Norway: International
Association of Hydrological Sciences, Publication 133.
Ergenzinger, P. & De Jong, C; (2003) Perspectives on bed
load measurement. In
Erosion and Sediment Transport
in Rivers: Technological and Methodological Advances
,
J. Bogen, T. Fergus & D. E. Walling (eds), 113-25. Oslo,
Norway: International Association of Hydrological
Sciences, Publication 283.
Ergenzinger, P. , De Jong, C. & Christaller, G. (1994a)
Interrelationships between bedload transfer and river bed
adjustment in mountain rivers—an example from Squaw
Creek, Montana. In
Process Models and Theoretical
Geomorphology
, M. J. Kirkby (ed.), 141-58. New York:
John Wiley and Sons.
Ergenzinger, P. , De Jong, C., Laronne, J. B. & Reid, I.
(1994b) Short term temporal variations in bedload trans-
port rates: Squaw Creek, Montana, USA, and Nahal
Yatir and Nahal Estemoa, Israel. In
Dynamics and
Geomorphology of Mountain Rivers
, P. Ergenzinger and
K.-H. Schmidt (eds), 251-64, Lecture Notes in Earth
Sciences, Berlin: Springer Verlag.
Federal Interagency Sedimentation Project. (1940). Field
practice and equipment used in sampling suspended sedi-
ment. Iowa City, Iowa University Hydraulics Laboratory,
Interagency Report no. 1, 175pp., http://fi sp.wes.army.
mil/Report%201.pdf.
Federal Interagency Sedimentation Project. (2008) http://
fi sp.wes.army.mil/.
Ferguson, R. I., Hoey, T. B., Wathen, S. J., Werritty, A.,
Hardwick R. I. & Smith, G. H. S. (1998) Downstream
fi ning of river gravels: integrated fi eld, laboratory and
modeling study. In
Gravel-Bed Rivers in the Environment
,
P.C. Klingeman; R. L. Beschta; P. D. Komar; J.B. Bradley
(eds), 85-114. Highlands Ranch, CO: Water Resources
Publications LLC.
Ferguson, R. I., Wathen, S. J. (1998) Tracer-pebble move-
ment along a concave river profi le—virtual velocity in
relation to grain size and shear stress:
Water Resources
Research
,
34
(8), 2031-38.
Froehlich, W. (2003) Monitoring bedload transport
using acoustic and magnetic devices. In
Erosion and
Sediment Transport Measurement: Technological and
Methodological Advances
, J. Bogen, T. Fergus & D.
Walling (eds), 201-10. Oslo, Norway: International
Association of Hydrological Sciences Publication 283.
Froehlich, W. (in press) Monitoring of bed load transport
within a small drainage basin in the Polish Flysch
Carpathians. In Gray J. R., Laronne J. B., and Marr,
J. D. G., in press, Bedload-surrogate monitoring tech-
nologies: U.S. Geological Survey Scientifi c Investigations
Report, in press.
Gaeuman, D. & Jacobson, R. B. (2006) Acoustic bed veloc-
ity and bedload dynamics in a large sand-bed river.
Journal of Geophysical Research
,
111
, F02005.
Gaeuman, D. & Jacobson, R. B. (2007) Field assessment
of alternative bed-load transport estimators.
Journal of
Hydraulic Engineering
,
133
(12), 1319-28.
Garcia, C., Laronne, J. B., Sala, M. (2000) Continuous
monitoring of bedload fl ux in a mountain gravel-bed
river.
Geomorphology
,
34
, 23-31.
Gao, H. (1991) The comparison tests of gravel bed
load samplers. In
Proceedings of the 5th Federal
Interagency Sedimentation Conference, Las Vegas,
Nevada
, VI 55 - VI 62, http://water.usgs.gov/pubs/misc_
reports/FISC_1947-2001/, accessed at August 31, 2004.
Gaudet, J. M., Roy, J. B. & Best, J. B. (1994) Effects of
orientation and size of Helley-Smith sampler on its effi -
ciency:
Journal of Hydraulic Engineering
,
120
(6),
758-66.
Gintz, D., Hassan, M. A. & Schmidt, K. H. (1996)
Frequency and magnitude of bedload transport in a
mountain river:
Earth Surface Processes and Landforms
,
21
, 433-45.
Glysson, G. D. (1987) Sediment-transport curves. US
Geological Survey Open-File Report 87-218, 47pp.,
http://pubs.er.usgs.gov/usgspubs/ofr/ofr87218.
Goldsmith, W. (2001)
Impact: The Theory and Physical
Behaviour of Colliding Solids
. Mineola, NY, USA: Dover
Publications, Inc.,
379
pp.
Gomez, B. (1991) Bedload transport.
Earth-Science
Reviews
,
31
, 89-132.
Gottesfeld, A. S. & Tunnicliffe, J. (2003) Bed load measure-
ments with a passive magnetic induction device. In
Erosion and Sediment Transport Measurement:
Technological and Methodological Advances
, J. Bogen,
T. Fergus & D. Walling (eds), 211-21, Oslo, Norway:
International Association of Hydrological Sciences,
Publication 283.
Govi, M., Maraga, F. & Moia, F. (1993) Seismic detectors
for continuous bed load monitoring in a gravel stream.
Hydrological Sciences Journal
,
38
, 123-32.
Graham Matthews and Associates. (2006) Trinity River
Restoration Program - Annual Sediment Transport
Monitoring Report, US Bureau of Reclamation, Northern
California Area Offi ce.
Graham Matthews and Associates. (2007) Trinity River
Restoration Program - Annual Sediment Transport
Monitoring Report, US Bureau of Reclamation, Northern
California Area Offi ce.
Graham Matthews and Associates. (2008) Trinity River
Restoration Program - Annual Sediment Transport
