| DATA LOCATION : | |||
|---|---|---|---|
| All Data | Fig. 1 | ||
| DATA GRIDDING : | Table 1 | ||
| DATA DISTRIBUTION IN TIME : | |||
| XBT distribution at the surface : | Fig. 2.1 | XBT distribution at 700m and beyond : | Fig. 2.1 |
| MEAN TEMPERATURE SECTION : | Fig. 3 |
|---|---|
| BIMONTHLY MEAN TEMPERATURE SECTIONS : | |
| January/February | Fig. 4.1 |
| February/March | Fig. 4.2 |
| March/April | Fig. 4.3 |
| April/May | Fig. 4.4 |
| May/June | Fig. 4.5 |
| June/July | Fig. 4.6 |
| July/August | Fig. 4.7 |
| August/September | Fig. 4.8 |
| September/October | Fig. 4.9 |
| October/November | Fig. 4.10 |
| November/December | Fig. 4.11 |
| December/January | Fig. 4.12 |
| TOTAL STANDARD DEVIATION : | Fig. 5 |
| SEASONAL STANDARD DEVIATION : | Fig. 6 |
| INTERANNUAL STANDARD DEVIATION : | Fig. 7 |
| SEASONAL STANDARD DEVIATION / INTERANNUAL STANDARD DEVIATION : | Fig. 8 |
| NOISE STANDARD DEVIATION : | Fig. 9 |
| NOISE STANDARD DEVIATION / SIGNAL STANDARD DEVIATION : | Fig. 10 |
| MEAN SALINITY SECTION : | Fig. 11 |
|---|---|
| BIMONTHLY MEAN SALINITY SECTIONS : | |
| January/February | Fig. 12.1 |
| February/March | Fig. 12.2 |
| March/April | Fig. 12.3 |
| April/May | Fig. 12.4 |
| May/June | Fig. 12.5 |
| June/July | Fig. 12.6 |
| July/August | Fig. 12.7 |
| August/September | Fig. 12.8 |
| September/October | Fig. 12.9 |
| October/November | Fig. 12.10 |
| November/December | Fig. 12.11 |
| December/January | Fig. 12.12 |
| SST : | Table 2& Fig. 13 |
|---|---|
| D20 : | Table 3& Fig. 14 |
| Dynamic Height( 0/400 ): | Table 4a& Fig. 15a |
| Dynamic Height( 0/700 ): | Table 4b& Fig. 15b |
| Transport Function( 0/400 ): | Table 5a& Fig. 16a |
| Transport Function( 0/700 ): | Table 5b& Fig. 16b |
| Total Transport( 0/400 ): | Table 6a& Fig. 17a |
| Total Transport( 0/700 ): | Table 6b& Fig. 17b |
| Time Series of : | ||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 31.7S-29.5S | 28.5S-25.5S | 24.5S-21.5S | 20.5S-17.5S | 16.5S - 13.5S | 12.5S - 9.5S | 8.5S - 5.5S | 4.5S - 1.5S | 0.5S - 2.5N | 3.5N - 6.5N | 7.5N - 10.5N | 11.3 | |
| SST | Fig. 18.1 | Fig. 18.2 | Fig. 18.3 | Fig. 18.4 | Fig. 18.5 | Fig. 18.6 | Fig. 18.7 | Fig. 18.8 | Fig. 18.9 | Fig. 18.10 | Fig. 18.11 | Fig. 18.12 |
| D20 | Fig. 19.1 | Fig. 19.2 | Fig. 19.3 | Fig. 19.4 | Fig. 19.5 | Fig. 19.6 | Fig. 19.7 | Fig. 19.8 | Fig. 19.9 | Fig. 19.10 | Fig. 19.11 | Fig. 19.12 |
| Dynamic Height( 0/400 ) | Fig. 20.1 | Fig. 20.2 | Fig. 20.3 | Fig. 20.4 | Fig. 20.5 | Fig. 20.6 | Fig. 20.7 | Fig. 20.8 | Fig. 20.9 | Fig. 20.10 | Fig. 20.11 | Fig. 20.12 |
| Hovmoller Diagrams of : | ||||||||||||
| SST anomaly | Fig.21 | |||||||||||
| D20 anomaly | Fig.22 | |||||||||||
| Dynamic Height( 0/400 ) anomaly | Fig.23 |
| SST spatial eigenvectors : | Fig.24.1 | Fig.24.2 | Fig.24.3 |
|---|---|---|---|
| SST temporal coefficients : | Fig.25.1 | Fig.25.2 | |
| D20 spatial eigenvectors : | Fig.26.1 | Fig.26.2 | Fig.26.3 |
| D20 temporal coefficients : | Fig.27.1 | Fig.27.2 | |
| Dynamic Height ( 0/400 ) spatial eigenvectors : | Fig.28.1 | Fig.28.2 | Fig.28.3 |
| Dynamic Height ( 0/400 ) temporal coefficients : | Fig.29.1 | Fig.29.2 |
