Benthic microbial abundance and activities in an intensively trawled ecosystem (Thermaikos Gulf, Aegean Sea) |
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| Authors: | Paraskevi N Polymenakou Antonio Pusceddu Anastasios Tselepides Thalia Polychronaki Antonia Giannakourou Carla Fiordelmondo Eleni Hatziyanni Roberto Danovaro |
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| Institution: | aCrete Department, Hellenic Center for Marine Research, Institute of Oceanography, Gournes Pediados, 71 003 Heraklion, Crete, Greece;bDepartment of Marine Science, Polytechnic University of Marche, Via Brecce Bianche, 60 122 Ancona, Italy;cHellenic Center for Marine Research, Institute of Oceanography, Anavyssos, 19 013 Attika, Greece |
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| Abstract: | Abundance of benthic bacteria, heterotrophic nanoflagellates and ciliates, extracellular enzymatic activities, bacterial C production, C mineralisation and sediment community oxygen consumption rates were measured in the Thermaikos Gulf (Northeastern Mediterranean), before (September 2001), and during intense trawling activities (October 2001 and February 2002). The biochemical composition of sedimentary organic matter has revealed that bottom trawling had an effect on the trophic state of Thermaikos Gulf. Changes on the benthic microbial food web were also recorded, during the three sampling seasons. Even though trawling-induced sediment resuspension did not alter significantly the abundance of the microbial components, with the exception of the most impacted station, it determined changes regarding their relative importance. Thus, the ratios of bacterium to nanoflagellates and ciliate to nanoflagellates abundance increased in the trawled stations, causing a sudden increase in bacterial C production, in comparison to the non-trawled station. Four months later, the effects of trawling on the microbial food web were less evident, masked possibly by the drastic decrease in the water temperature. The results of the present work suggest that bottom trawling induces alteration of the sedimentological variables and can be considered as a factor affecting the function of the microbial food web in marine coastal ecosystems. These alterations cause faster mobilisation of organic C buried in the sediment and increase nutrient concentrations and availability in the system, thus inducing an effect that could lead to coastal eutrophication. |
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| Keywords: | Bacterial production Enzymatic activities Microbes Sediments Trawling impacts |
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