Woods Hole Oceanographic Institution
Cruise Planning Questionnaire
Pythias Oasis
Ship
R/V AtlantisVehicles
AUV Sentry, ROV JasonCruise Party
Deborah Kelley: Chief Scientist, Principal InvestigatorUniverity of Washington, School of Oceanography 1501 NE Boat St P.O. BOX 357940 Seattle, WA USA 98195
+1 206 685 9556
dskelley@uw.edu
Departure: Newport on Sep 18, 2019
Arrival: Newport on Oct 3, 2019
Mobilization Date: Sep 14, 2019
Demobilization Date: Oct 3, 2019
Supporting documentation:
Operations Area: Due west of Newport Oregon
Lat/Lon: 44° 29.0′ N / 125° 4.0′ W
Depth Range: 800 / 1400
Will the vessel be operating within 200 NM of a foreign country? NA
Are visas or special travel documents required? no
Science objectives
During a single remotely operated vehicle (ROV) dive in 2015, a remarkable seep site called Pythia’s Oasis was discovered 19 km inboard from the toe of the accretionary prism of the Cascadia Margin at a water depth of ~1040 m. The site is unlike any seep yet described along active margins, hosting an intense fluid-dominated venting system issuing low-salinity, hydrocarbon-bearing fluids at 11.8 C, greater than three times above background seawater values. The emanating fluids carry low concentrations of suspended particles from a discrete orifice, reminiscent of a mid-ocean ridge hot spring. The bubble component of the vent rises as a plume > 450 m into the overlying hydrosphere; it has been active for at least three years. A second adjacent site includes an extensive collapse zone hosting multiple seeps issuing diffuse, schlieren flow reflecting egress of warm and/or low salinity fluids. Two other plumes have also been documented. The goal of this two-year collaborative effort is to characterize the geology and chemistry of this extraordinary seep site to test three specific hypotheses:1. Fluids originate from a meteoric source, and thus, play no role in the seismogenic behavior of the margin, but may contribute to element transport between land and ocean, impacting the current understanding of coastal hydrogeology.
2. Fluids originate from smectite-illite dehydration in the accreted sediments rather than at the plate boundary, providing important information on fluid production and overpressure development within the accretionary prism above the plate boundary.
3. Fluids originate from high temperature metamorphic reactions at depth in the seismogenic region of the Cascadia Subduction Zone (CSZ), resulting in extreme overpressures at the plate boundary. If so, either these dehydration reactions explain the partially locked behavior of the fault in this section of the margin or suggest that the locked seismogenic zone may not correspond to moderate overpressures as postulated for Nankai and Costa Rica.
Science Activities
During this expedition utilizing Jason and Sentry, the key science activities include 1) completing a high resolution bathymetric map of the Pythias site and surrounding area; 2) completing a photomosaic of the keep seep sites for documentation of the geology, tectonics, seeps, and associated biology, 3) conducting multiple surveys with Jason for sampling and seafloor/seep characterization; 4) fluid sampling of the seep sites using IGTs' and major samplers for fluid chemistry; collection of multiple push cores for pore fluid chemistry, 5) conduting a heat flow probe survey (Rob Harris-OSU) in a 'pogo' fashion; and 6) use of the OSU core facility infrastucture (Paul Walczak -container, flat rack, coring shack, and Hiab crane) to recover a series of cores.Pre-cruise planning meeting: Teleconference
Stations:
Station 1Distance: 50-60
Days: 16
Latitude: 44° 29.0’ N
Longitude: 125° 4.0’ W
Funding Agency: NSF #OCE 1658201
- added NSF #OCE 1658201 on May 29, 2019 7:22 PM by Dr Deborah Kelley
R/V Atlantis
Shipboard Equipment
12 kHz Pinger for Wire UseA-Frame
ADCP 75 kHz
Bathymetry System 12 kHz
Bathymetry System 3.5 kHz
Crane
Deionized Water System
Fume Hood
Multibeam
Navigation - Heading
Navigation - Position
Science Underway Seawater System
Sippican XBT System (Mark 21)
Transponder Navigation - Sonardyne USBL
Shipboard Communication
Basic Internet access via HiSeasNetCTD/Water Sampling
911+ Rosette 24-position, 10-liter bottle Rosette with dual T/C sensorsSBE43 oxygen sensor
Wet Labs C*Star transmissometer (660nm wavelength)
Wet Labs ECO-AFL fluorometer
Wet Labs FLNTURTD Combination Flourometer and Turbidity Sensor
Critical CTD Sensors: pH
MET Sensors
Air temperatureBarometric Pressure
Relative Humidity
Short Wave Solar Radiation
Wind speed and direction
Sediment Sampling 
Gravity corersSample Storage
Climate Controlled Walk-inFreezer -70°C 25 cu. ft.
Freezer -70°C 3.2 cu. ft. ea.
Refrigerator 8.6 cu. ft.
Scientific Walk-in Freezer
Scientific Walk-in Refrigerator
Storage Notes:
Navigation
Will you be using Long Base Line (LBL) navigation? no
Will you be using Ultra-short baseline (USBL) navigation for other than Alvin operations? no
Navigation
GPSUSBL
Navigation Notes: May conduct concurrent sentry and jason dives
Winches
CTD Winch with .322" Electro-mechanical wireHydro Winch with .25" hydro wire
Trawl Winch with 9/16th trawl wire
Winch Notes: See note under OSU coring facility - during precruise meeting with Paul Walczak and Evan Solomon (Co-Chief) it will be important to talk about use of the Alvin LARS system for coring.
Wire use and application
CTD Winch with .322" Electro-mechanical wireTrawl Winch with 9/16th trawl wire
Wire Notes: See note under OSU coring facility - during precruise meeting with Paul Walczak (OSU) and Evan Solomon (UW-Co-Chief) it will be important to talk about use of the Alvin LARS system for coring and for the heat flow probe (Rob Harris - OSU).
| Slip ring required? no | Number of conductors: |
| Non-standard wire required? no | Type: |
| Traction winch required? no | Describe: |
Other Science Vans:
Other Science Vans:| Science Van 1 | |||
| Type/size: Shipping container (may combine with 1st mentioned container above | Location: will discuss in precruise meeting | ||
| Water: | Power: | ||
| Science Van 2 | |||
| Type/size: Coring Shack | Location: starboard side just aft of the door for the CTD boom | ||
| Water: | Power: | ||
| Science Van 3 | |||
| Type/size: Flat rack for cores - same size as storage van | Location: stored aft on the starboard side | ||
| Water: | Power: | ||
| Science Van 4 | |||
| Type/size: Storage Van same size as blue Jason van | Location: Can store forward on Atlantis | ||
| Water: | Power: | ||
Specialized Deck Equipment
| Mooring Deployment/Recovery Equipment Required: no | Type: |
| Cruise Specific Science Winch Required: yes | Type: Heat flow and coring |
| Nets Required: no | Type: |
Over the Side Equipment
Will you be bringing any equipment (winches, blocks, etc.) that lowers instruments over the side? yesDetails:
Hiab crane - starboard side just aft of the door for the CTD boom for coring
Special Requirements
| Elecrical Power: no | Identify: |
| Equipment Handling: no | Identify: |
| Inter/intraship Communications: no | Identify: |
| Science Stowage: no | Identify: |
| Water: no | Identify: |
Additional Cruise Items/Activities
| Explosive Devices: no Portable Air Compressors: no Flammable Gases: yes |
Small Boat Operations: no SCUBA Diving Operations: no |
Hazardous Material
Will hazardous material be utilized? yes
Describe deployment method and quantity:
Will discuss during precruise
Radioactive Material
Radioiosotopes: noAdditional Information
Is night time work anticipated on this cruise? yes
Specialized tech support (Seabeam, coring, other): Jason-sentry dives, coring, and heat flow surveys
Other required equipment and special needs:
AUV Sentry
Site Survey
Will you provide detailed charts of the work area(s)? yesCurrent Chart(s):
If no, will you need Sentry to generate maps of the work area(s)? no
Will you need post-dive maps of the work area generated? no
Navigation
Will you be using Long Base Line (LBL) navigation? no
Will you be using Ultra-short baseline (USBL) navigation? no
Will you be using Doppler/GPS navigation? no
Sensors & Samplers
410/120kHz Sidescan sonarCTD
Dissolved oxygen
Multibeam maps
ORP
Optical back scatter
Sub bottom profiler
What type of samples do you expect to collect?
Only geophysical data and imagery
Science Supplied Equipment
Are you supplying equipment to be used with AUV Sentry? no
Has this equipment been used on Sentry before? no
Please give a brief description of the equipment, its intended purpose, the cruise # it was last used on if any and its deployment method.
Does this equipment use an external pressure housing? no
Has the pressure case been tested to the anticipated depth of deployment? no
Air weight(s) of this equipment?
Water weight(s) of this equipment?
Does the equipment require data or a power interface from the vehicle?
no
Does the equipment meet the electrical requirements of the Sentry User Manual?
no
Additional Information
Brief operations description or comments:ROV Jason
Site Survey
Will you provide detailed charts of the work area(s)? noCurrent Chart(s):
If no, willl you need Jason to generate maps of the work area(s)? no
Will you need post-dive maps of the work area generated? no
Navigation
Will you be using Long Base Line (LBL) navigation? no
Will you be using Ultra-short baseline (USBL) navigation? no
Will you be using Doppler/GPS navigation? no
Sensors & Samplers
CTDDigital still camera: down-looking
Digital still camera: forward-looking
Heat flow probe
Large capacity slurp samplers (Multi-chamber)
Major water sampler(s)
Oxygen sensor
Push corers
Search Sonar
What type of samples do you expect to collect?
Sediment, carbonates, animals (maybe), fluids (IGT's) and majors
Elevators
Will you be using elevators to transport samples to the surface? yes
If yes, how many would you anticipate? perhaps would like to have it onboard, but may not use
Science Supplied Equipment
Are you supplying equipment to be used on HOV Jason?
yes
Has this equipment been used on Jason before? yes
Please give a brief description of the equipment, its intended purpose, the cruise # it was last used on if any and its deployment method.
We will supply the IGT gas-tight samplers - will have been used on AT42-12 Regional Cabled Array cruise
Does this equipment use an external pressure housing? yes
If yes, what is the pressure rating?
and test pressure?
Or has the pressure case been tested per Alvin Pressure Test requirements? yes
Housing schematic with dimensions and include air and water weights.
Does the equipment have an associated computer or control panel for remote operation from the personnel sphere? no
Air weight of this equipment?
Water weight of this equipment?
Does the equipment require data or a power interface from the vehicle? yes
Does this equipment require hydraulic inputs from the vehicle? no
Hydraulic schematic of the equipment requirements.
Does this equipment require manipulation? yes
If yes, please describe how the equipment is to be manipulated.
Placement of nozzle in seep sites
Will this equipment be deployed off the vehicle? no
If yes, please describe how the equipment is intended for deployment.
No only includes placement by the manipulator into the sampling site
If yes, will the equipment be disconnected from the vehicle and left in situ? no
How long will the deployment be?
Will the equipment be recovered by the same vehicle? no
If recovering equipment deployed with another vehicle, provide pressure rating:
and test pressure:
Does this equipment use any glass spheres for either buoyancy or as pressure housings? no
Hazardous Material
Will hazardous material be utilized? no
Additional Information
Brief operations description or comments:Date Submitted: Jun 8, 2019 12:52 PM by Dr Deborah Kelley