A suspended-particle rosette multi-sampler for discrete biogeochemical sampling in low-particle-density waters |
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Authors: | J.A. Breier C.G. Rauch K. McCartney B.M. Toner S.C. Fakra S.N. White C.R. German |
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Affiliation: | 1. Woods Hole Oceanographic Institution, Woods Hole, MA 02543, USA;2. Massachusetts Institute of Technology, Cambridge, MA 02139, USA;3. University of Minnesota – Twin Cities, St. Paul, MI 55108, USA;4. Lawrence Berkeley National Lab, Berkeley, CA 94720, USA |
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Abstract: | To enable detailed investigations of early stage hydrothermal plume formation and abiotic and biotic plume processes we developed a new oceanographic tool. The Suspended Particulate Rosette sampling system has been designed to collect geochemical and microbial samples from the rising portion of deep-sea hydrothermal plumes. It can be deployed on a remotely operated vehicle for sampling rising plumes, on a wire-deployed water rosette for spatially discrete sampling of non-buoyant hydrothermal plumes, or on a fixed mooring in a hydrothermal vent field for time series sampling. It has performed successfully during both its first mooring deployment at the East Pacific Rise and its first remotely-operated vehicle deployments along the Mid-Atlantic Ridge. It is currently capable of rapidly filtering 24 discrete large-water-volume samples (30–100 L per sample) for suspended particles during a single deployment (e.g. >90 L per sample at 4–7 L per minute through 1 μm pore diameter polycarbonate filters). The Suspended Particulate Rosette sampler has been designed with a long-term goal of seafloor observatory deployments, where it can be used to collect samples in response to tectonic or other events. It is compatible with in situ optical sensors, such as laser Raman or visible reflectance spectroscopy systems, enabling in situ particle analysis immediately after sample collection and before the particles alter or degrade. |
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