Medium Resolution Imaging Spectrometer (MERIS) products with 300m resolution from 2006 to 2011 were used to evaluate the local background of total suspended matter (TSM) in the vicinity of commercial harbours located along the Estonian coastline in the Baltic Sea. The difference between background TSM maps (mainly influenced by spring bloom, cyanobacterial bloom, resuspension, and river inflow) and dredging period mean maps was used for the estimation of dredging-induced turbidity at the time of dredging operations. Validation of Case II Regional (C2R) and Free University of Berlin (FUB) MERIS processors with point measurements showed that both processors represent the changes in TSM concentration adequately. C2R processors showed better statistics (R-2 = 0.61, root mean square error=0.82mgl(-1), SD=0.77mgl(-1), mean bias=-0.28mgl(-1)) compared to the FUB processor. Analysis of monthly mean TSM maps revealed that the variability of TSM concentration, showing the resilience level of the local ecosystem, is very different along the Estonian coastline - varying between 0.75 and 2.60mgl(-1) near the Port of Tallinn, located in the Gulf of Finland, and between 10.04 and 24.23mgl(-1) near the Port of Parnu, located in the Gulf of Riga. The viability of the method for dredging impact detection was tested by evaluating the dredging-induced turbidity on monthly mean TSM maps for the dredging period in autumn 2008 in Pakri Bay, which is an environmentally sensitive area. A threshold TSM concentration value of >2.26mgl(-1) difference from background TSM was defined as a criterion for dredging impact detection for Pakri Bay. The area of dredging-induced turbidity was between 0.56 and 1.25km(2) and did not reach the environmentally sensitive NATURA 2000 region adjoining Paldiski South Harbour.

• 出版日期2014-9-17