(Appendix A) Pigment content, microbial biomass and activity, and grain size characteristics in caged and control sites of the Arctic long-term observatory HAUSGARTEN

Present theories of deep-sea community organization recognize the importance of small-scale biological disturbances, originated partly from the activities of epibenthic megafaunal organisms, in maintaining high benthic biodiversity in the deep sea. However, due to technical difficulties, in situ exp...

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Bibliographic Details
Main Authors: Gallucci, Fabiane, Sauter, Eberhard-Jürgen, Sachs, Oliver, Klages, Michael, Soltwedel, Thomas
Format: Dataset
Language:English
Published: PANGAEA 2008
Subjects:
ARK-XIX/3c
ARK-XV/1
AWI
Chlorophyll a
Coefficient of variation
DEPTH
sediment/rock
Esterase activity per sediment volume
Event label
Experiment
Experimental treatment
Hausgarten
Median
grain size
North Greenland Sea
Phaeopigments
Polarstern
Priority Programme 1158 Antarctic Research with Comparable Investigations in Arctic Sea Ice Areas
PS55
PS55/001-1
PS64
PS64/435-1
Remote operated vehicle
Replicates
ROV
Sand
Silt
Size fraction < 0.004 mm
clay
Sorting
SPP1158
Time coverage
Total microbial biomass as carbon per unit sediment volume
VICTOR
Victor6000 ROV
Arctic
Antarctic
Greenland
Antarc*
Greenland Sea
North Greenland
Sea ice
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.847777
https://doi.org/10.1594/PANGAEA.847777
Description
Summary:Present theories of deep-sea community organization recognize the importance of small-scale biological disturbances, originated partly from the activities of epibenthic megafaunal organisms, in maintaining high benthic biodiversity in the deep sea. However, due to technical difficulties, in situ experimental studies to test hypotheses in the deep sea are lacking. The objective of the present study was to evaluate the potential of cages as tools for studying the importance of epibenthic megafauna for deep-sea benthic communities. Using the deep-diving Remotely Operated Vehicle (ROV) "VICTOR 6000", six experimental cages were deployed at the sea floor at 2500 m water depth and sampled after 2 years (2y) and 4 years (4y) for a variety of sediment parameters in order to test for caging artefacts. Photo and video footage from both experiments showed that the cages were efficient at excluding the targeted fauna. The cage also proved to be appropriate to deep-sea studies considering the fact that there was no fouling on the cages and no evidence of any organism establishing residence on or adjacent to it. Environmental changes inside the cages were dependent on the experimental period analysed. In the 4y experiment, chlorophyll a concentrations were higher in the uppermost centimeter of sediment inside cages whereas in the 2y experiment, it did not differ between inside and outside. Although the cages caused some changes to the sedimentary regime, they are relatively minor compared to similar studies in shallow water. The only parameter that was significantly higher under cages at both experiments was the concentration of phaeopigments. Since the epibenthic megafauna at our study site can potentially affect phytodetritus distribution and availability at the seafloor (e.g. via consumption, disaggregation and burial), we suggest that their exclusion was, at least in part, responsible for the increases in pigment concentrations. Cages might be suitable tools to study the long-term effects of disturbances caused by ...

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