S. Miserocchi et al., Characteristics and sources of the settling particulate organic matter in the South Adriatic basin, ORG GEOCHEM, 30(6), 1999, pp. 411-421
In the South Adriatic Pit a mooring equipped with two time-series sediment
traps and two Aanderaa RCM7 current meters was deployed in the frame of EEC
-MAST II Mediterranean Targeted Project 1, Subproject Euromarge-AS. The fir
st trap was located 35 m above the bottom (mab) and the second 500 mab. Sed
iment deposition fluxes were recorded biweekly over 18 months (1 April 1994
to 31 October 1995) in the deeper sediment trap, and over 12 months (15 No
vember 1994 to 31 October 1995) in the 500 mab trap. The settling material
and surficial sediment have been analysed for inorganic and organic carbon,
delta(13)C composition, total nitrogen, and biogenic silica, in order to i
nfer the sources of material.
The total mass fluxes at both depths were characterized by a high variabili
ty and did not present a clear seasonal trend. Values obtained in the 500 m
ab trap were generally 2-3 times lower but occasionally similar. The fluctu
ations were similar in both traps. Based on analyses of inorganic and organ
ic constituents it appears that the fresh organic matter produced in the su
rface layer rapidly sank through the water column. Strong seasonal variatio
ns of biogenic constituents occurred. During spring-early summer an input o
f fresh organic matter prevailed due to the blooms of mainly siliceous phyt
oplankton. Late summer and winter samples were characterized by more degrad
ed matter originating from calcareous phytoplankton. A significant imprint
of terrigenous organic matter was observed in summer and winter 1994, most
likely because an unusually high Po River inflow was the most important fre
sh water source for the Adriatic.
A vertical budget of organic carbon has been calculated; only 2.7% of mean
annual primary production reaches the 500 mab trap, suggesting that reminer
alization processes take place mainly in the upper part of the water column
. Comparison between 35 mab trap particle fluxes and bottom rain (calculate
d as sum of remineralization fluxes and burial) indicates that a strong nea
r-bottom input of material between the deepest trap and the surficial sedim
ent exists due to the lateral advection. (C) 1999 Elsevier Science Ltd. All
rights reserved.