Sediment‐size distributions of the beach and nearshore environs along the central west coast of India: An analysis using EOF

EOF analysis of the data on grain-size distributions of sediments in the O-size class from the beach foreshore, backshore, dune, and nearshore environments of Colva and Calangute revealed that the first three O-dependent eigenfunctions c1(O), c2(O), and c3(O) account for more than 97% to 99% of variation in the data set, the largest variation being represented by the first O-dependent function c1(O) alone. This function showed significant differences in the concentration of grain-size particles across the shore covering various physiographic units of Colva, i.e., dominance of very fine sands in the dunes and backshore, fine sands in the foreshore, and silt and clays in the offshore areas beyond 5-m water depths, reflecting the impact of the changing character of the transportational and depositional processes affecting the sediments, thus implying different energy environments. This analysis also showed marked alongshore variations in the sediment distribution pattern in different sectors of the subaerial beach of Colva and suggests transportation of sediments from either ends to the central region. The three energetic eigenfunctions used to obtain the predictable or information rich part of the original signal are comparable with normalized input data and indicate the efficacy of this method.

[1]  D. Aubrey,et al.  Coastal sediment transport, Popponesset Beach, MA , 1983 .

[2]  K. Emery,et al.  Eigenanalysis of recent United States sea levels , 1983 .

[3]  M. Veerayya,et al.  Wave refraction and littoral currents off Colva Beach, Goa , 1981 .

[4]  B. Weare A Statistical Study of the Relationships between Ocean Surface Temperatures and the Indian Monsoon , 1979 .

[5]  B. Weare,et al.  Empirical Orthogonal Analysis of Pacific Sea Surface Temperatures , 1976 .

[6]  Russ E. Davis,et al.  Predictability of Sea Surface Temperature and Sea Level Pressure Anomalies over the North Pacific Ocean , 1976 .

[7]  C. Winant,et al.  Stability and Impulse Response of Empirical Eigenfunctions , 1976 .

[8]  M. Veerayya,et al.  Depositional environments of coastal sediments of Calangute, Goa , 1975 .

[9]  T. J. Blasing,et al.  Influence of interannual climatic fluctuations on biological systems , 1975, Nature.

[10]  D. Inman,et al.  Description of seasonal beach changes using empirical eigenfunctions , 1975 .

[11]  John E. Kutzbach,et al.  Empirical Eigenvectors of Sea-Level Pressure, Surface Temperature and Precipitation Complexes over North America , 1967 .

[12]  G. Friedman Dynamic Processes and Statistical Parameters Compared for Size Frequency Distribution of Beach and River Sands , 1967 .

[13]  R. Folk,et al.  Brazos River bar [Texas]; a study in the significance of grain size parameters , 1957 .

[14]  Donald T. Resio,et al.  An eigenfunction parameterization of a time sequence of wave spectra , 1977 .