DocumentCode :
1647270
Title :
In-situ sinking speed measurements of marine snow aggregates acquired with a settling chamber mounted to the Cherokee ROV
Author :
Nowald, N. ; Fischer, G. ; Ratmeyer, V. ; Iversen, M. ; Reuter, C. ; Wefer, G.
Author_Institution :
Center for Marine Environ. Sci., Univ. of Bremen, Bremen, Germany
fYear :
2009
Firstpage :
1
Lastpage :
6
Abstract :
Marine snow plays a key role in the global carbon cycle because it transfers huge amounts of carbon dioxide (around 1-2 Gt per year) from the ocean surface to the deep-sea, thus removing it from the global system. It is of major field of study for several decades to quantify the amount of particulate matter settling through the water column. A central parameter for ocean mass flux estimates is the settling velocity of larger particles. Most of the few available datasets have been acquired by Scuba divers but are they are limited to a diving depth of a few tenth of meters. Particle settling speeds for the deeper water column may be estimated with the help of sediment trap recordings, having the disadvantage to integrate settling speeds over a long period of time and for the entire particle population settling through the water column. In situ sinking speed measurements of individual aggregates however, are rare and difficult to obtain. We present results from a settling chamber constructed for in situ sinking speed measurements of marine snow. The settling chamber was mounted to the MARUM Cherokee ROV during RV Poseidon Cruise 365 in 2008 off Cape Blanc, Mauritania. It was constructed in consideration of a similar device used by the MBARI ROV Ventana. It is a simple plexiglas box which can be opened and closed to allow an infinite number of measurements with little disturbance inside. A collimated light source illuminates a defined sample volume in which aggregates can be observed after the box has been closed. We sampled a total of 51 aggregates at four depth levels, between 50 m and 400 m water depth. The depths were chosen after collecting a vertical particle profile acquired by a deep-sea still image camera system before the deployment of the ROV. Sinking speeds ranged from 10 m d-1 to 287 m d-1 with a mean value of 57 m d-1. No clear relationship between the size of the particles and their sinking speed was found. Furthermore we - could not observe increasing particle sinking speeds with increasing water depth as found by other authors. This underlines the complexity of such studies and implies more deployments during upcoming cruises and comparison of in situ measurements with additional methods in the future.
Keywords :
oceanographic techniques; oceanography; snow; AD 2008; Cape Blanc; MARUM Cherokee ROV; Mauritania; RV Poseidon Cruise 365; carbon dioxide; collimated light source; deep sea still image camera system; depth 50 m to 400 m; global carbon cycle; marine snow aggregates; ocean mass flux estimate; ocean surface; particle settling speed; particulate matter settling; sediment trap recording; settling chamber; settling velocity; sinking speed measurement; vertical particle profile; water column; Aggregates; Carbon dioxide; Oceans; Optical collimators; Remotely operated vehicles; Sea measurements; Sea surface; Sediments; Snow; Velocity measurement;
fLanguage :
English
Publisher :
ieee
Conference_Titel :
OCEANS 2009 - EUROPE
Conference_Location :
Bremen
Print_ISBN :
978-1-4244-2522-8
Electronic_ISBN :
978-1-4244-2523-5
Type :
conf
DOI :
10.1109/OCEANSE.2009.5278186
Filename :
5278186
Link To Document :
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