Die Küste, 81 (2014), 369-392
391
KÖSTERS, F. and WINTER, C.: Exploring German Bight coastal morphodynamics based
on modelled bed shear stress. Geo-Marine Letters, 34, 21-36,
doi: 10.1007/s00367-013-0346-y, 2014.
KRUGER, C.J.C.: Constrained Cubic Spline Interpolation for Chemical Engineering
Applications, (http://www.korf.co.uk/spline.pdf), 2004.
Lesser, G. R.; Roelvink, J. A.; van Kester, J. A. T. M. and Stelling, G. S.: Devel
opment and validation of a three-dimensional morphological model. Coastal Engi
neering, 51, 883-915, 2004.
McCAVE, I.N.: Fine sediment sources and sinks around the East Anglian Coast (UK).
Journal of the Geol. Soc. London, 144, 149-152, 1987.
MlLBRADT, P.: Sedimenttransport und Morphodynamik in der Deutschen Bucht.
Die Küste, 78, 33-58, ISSN 0452-7739, 2011.
MlLBRADT, P.; KÖSTERS, F.; PuTZAR, B. and PLUESS, A.: Analyse morphodynamischer
Veränderungen auf der Basis zeitvarianter digitaler Bathymetrien. Die Küste, 80,
2014.
McManus, J.P., Prandle, D.: Development of a model to reproduce observed suspend
ed sediment distributions in die soutiiern Norrii Sea using Principal Component
Analysis and Multiple Linear Regression. Continental Shelf Research, 17 (7), 761-
778, 1997.
NAUW, J.J. and RlDDERlNKHOF, H.: Slibtransport door het Marsdiep op basis van
veerbootmetingen (Ferry based observations of the total suspended matter
transport in die Marsdiep inlet), project nr. RKW-1700, NIOZ report 2009-7, 2009.
Nauw, J.J., Gerkema, T., Wielsma, E., van der Vegt, M., Brinkman, B. and
Ruardij, P.: Comparison between ADCP data and GOTM in the North Sea witiiin
‘Wadden Sea ecosystem data assimilation and integrated modeling”, ZKO sympo
sium (Texel, 2009-03-09), 2009.
Odd, N.V. and MURPHY, D.: Particulate pollutants in the Nordi Sea. Calibration of a 20
km gridded 3D model simulating a representative annual cycle of mud transport. H.
R. Wallingford, Report SR 292, 15 pp., 1992.
PLUESS, A.: Das Nordseemodell der Bundesanstalt für Wasserbau, Dienststelle Hamburg
Die Küste, 67, 83-128, ISBN 3-8042-1058-9, 2003.
PLUESS, A. and KÖSTERS, F.: Morphodynamic modelling for the entire German Bight: an
initial study on model sensitivity and uncertainty. Advances in Geoscience, 39,
http://edok01.tib.uni-hannover.de/edoks/e01fbl4/780783271.pdf,
doi: 10.5194/adgeo-39-61-2014, 61-68, 2014.
POHLMANN, T. and PULS, W.: Currents and transport in water. In: SÜNDERMANN, J.
(ed.) Circulation and contaminant fluxes in the North Sea. Springer-Verlag Berlin
Heidelberg New York, 345-402,1994.
Puls, W.; Heinrich, H. and Mayer, B.: Suspended Particulate Matter Budget for the
German Bight, Marine Pollution Bulletin, 34, 6, 398-409, PII: s0025-
326X(96)00161-0,1997.
PuTZAR, B. and MALCHEREK, A.: Development of a Long Term Morphodynamic Model
of die German Bight. In: BOURBAN, S.; Durand, N. und HERVOUET, J.-M.
(Hrsg.): XIXth TELEMAC-MASCARET Users Conference, 2012.
PuTZAR, B. and MALCHEREK, A.: Entwicklung und Anwendung eines Langfrist-
Morphodynamikmodells für die Deutsche Bucht. Die Küste, 80, 2014.
