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Dive R1791 Highlights

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Dive R1790 Highlights

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Dive R1789 Highlights

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Dive R1788 Highlights

', sources: [ {'file': 'https://stream.ocean.washington.edu:443/rsnPhone/mp4:r1788_highlights_phone.m4v/playlist.m3u8'}, {'file': 'rtmp://stream.ocean.washington.edu/rsn/mp4:r1788_highlights.mov'} ]} , {'height':'394', 'width':'700', 'image':'/files/madi.title_med.jpg', 'title':'Earthquakes of the Pacific ', 'description':'

Senior undergraduate student, Madi Shipley, wrote and produced this video about seismometers and hydrophones being installed on the cabled observatory to monitor earthquakes in real-time off our coast. Madi is a student in the College of the Environment, School of Oceanography at the UW and participated on Leg 2 of the VISIONS'14 Expedition. She is interested in the impacts of human-made sounds on marine life. This video provides a summary of how earthquakes are produced along the Cascadia Subduction Zone and how cabled instrumentation will provide real-time detection of seismic events along the subduction zone and at Axial Seamount.

', sources: [ {'file': 'https://stream.ocean.washington.edu:443/rsn/mp4:madisonshipley-desktop.m4v/playlist.m3u8'}, {'file': 'https://stream.ocean.washington.edu:443/rsnPhone/mp4:madisonshipley-iphone.m4v/playlist.m3u8'}, {'file': 'rtmp://stream.ocean.washington.edu/rsn/mp4:madisonshipley-desktop.m4v'} ]} , {'height':'394', 'width':'700', 'image':'/files/katie.title.use.001_med.jpg', 'title':'New Ways to Interact with the Ocean', 'description':'

Creating A Shared Consciousness About the Oceans - New Ways to Interact with the Oceans. This video was produced by College of the Environment, School of Oceanography undergraduates Katie Bigham and Jessie Turner as part of the Ocean 411 Sea Going Research and Discovery Class. Katie and Jessie sailed on Leg 1 of the OOI-NSF-UW VISIONS'14 Expedition. Using stunning video, they highlight their vision and hopes about how the cabled component of NSF's Ocean Observatories Initiative will change the way interested users are able to interact with the oceans, and help in the discovery process.

', sources: [ {'file': 'https://stream.ocean.washington.edu:443/rsn/mp4:katiersnvideo-desktop.m4v/playlist.m3u8'}, {'file': 'https://stream.ocean.washington.edu:443/rsnPhone/mp4:katiersnvideo-iphone.m4v/playlist.m3u8'}, {'file': 'rtmp://stream.ocean.washington.edu/rsn/mp4:katiersnvideo-desktop.m4v'} ]} , {'height':'394', 'width':'700', 'image':'/files/r1784_highlights_med.jpg', 'title':'Dive R1784 Highlights Southern Hydrate Ridge', 'description':'

Southern Hydrate Ridge: This was a long dive to finish work at Southern Hydrate Ridge. ROPOS infilled the caisson for the broadband (OSBBA1010) with silica beads and installed the CAT flow meter at Einstein's Grotto, which completed this site. ROPOS photomosaicked the area and took push cores and biological samples (clams). ROPOS transited to the large collapse zone in the NW portion of the seep area and imaged/documented the site. Here, a significant discovery was made of exposed methane hydrate on the seafloor, as well as a sustained, large bubble plume issuing from a hole at the base of the near vertical wall in the collapse zone. The dive ended with taking a couple niskin bottle samples of the methane plume, a few more push cores and recovery of the tool basket. Video credit: NSF-OOI/UW/CSSF; Dive R1784; V14.  

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This dive at Primary Node PN1D was in support of the cable ship the Dependable. The ROV ROPOS supported the installation of a 17 km extension cable extending to the Oregon Shelf Site. Huge ling cod appear to have made the node their "house", while snails (with yellow egg stalks), sea anenomes, and a variety of fish are also thriving on this "reef". Video credit: NSF-OOI/UW/CSSF; Dive R1781; V14.  

', sources: [ {'file': 'https://stream.ocean.washington.edu:443/rsnPhone/mp4:r1781_highlightsnode_phone.m4v/playlist.m3u8'}, {'file': 'rtmp://stream.ocean.washington.edu/rsn/mp4:r1781_highlightsnode.mov'} ]} , {'height':'394', 'width':'700', 'image':'/files/screenshot2014-09-07at7.15.08pm_med.jpg', 'title':'Dive R1779 Highlights Southern Hydrate Ridge', 'description':'

During Dive R1779 at Southern Hydrate Ridge, ROPOS installed the 267 m cable (RS01W8) and connected MJ01B to LV01B. ROPOS connected junction boxes LV01B and LJ01B, and then connected all three short-period seismometers, moved the pressure sensor to its final position and plugged it into LJ01B, installed the broadband seismometer (OBSSPA103) in the caisson (still need to fill it with beads), and connected it to LJ01B. The dive ended with a sight-seeing tour of the Pinnacle. Two Niskin bottles were fired near the south end of the pinnacle by an area with very localized mats on the pinnacle. The tool basket was recovered.Video credit: NSF-OOI/UW/CSSF; Dive R1779; V14.  

', sources: [ {'file': 'https://stream.ocean.washington.edu:443/rsnPhone/mp4:r1779highlights_phone.m4v/playlist.m3u8'}, {'file': 'rtmp://stream.ocean.washington.edu/rsn/mp4:r1779highlights.mov'} ]} , {'height':'394', 'width':'700', 'image':'/files/screenshot2014-09-07at8.24.39pm_med.jpg', 'title':'Dive R1778 Highlights Oregon Offshore Mooring', 'description':'

ROPOS reinstalled the LV01C junction box and the 120 m oily cable extending to the base of the Shallow Profiler Mooring. All cables were reconnected and the system was powered up. The Shallow Profiler powered up and communications were established.Video credit: NSF-OOI/UW/CSSF; Dive R1778; V14.  

', sources: [ {'file': 'https://stream.ocean.washington.edu:443/rsnPhone/mp4:r1778highlights_phone.m4v/playlist.m3u8'}, {'file': 'rtmp://stream.ocean.washington.edu/rsn/mp4:r1778highlights.mov'} ]} , {'height':'394', 'width':'700', 'image':'/files/r1775_highlights_med.jpg', 'title':'Dive R1775 Highlights Oregon Offshore', 'description':'

During this dive, the 120 m "oily" cable connection the junction box to the EOM cable on the Shallow Profiler Mooring was recovered. Upon inspection, the cable was found to be cross-wired. Video credit: NSF-OOI/UW/CSSF; Dive R1775; V14

', sources: [ {'file': 'https://stream.ocean.washington.edu:443/rsnPhone/mp4:r1775_highlights_phone.m4v/playlist.m3u8'}, {'file': 'rtmp://stream.ocean.washington.edu/rsn/mp4:r1775_highlights.mov'} ]} , {'height':'394', 'width':'700', 'image':'/files/massspc.mosquitor1773_03336.sm.sm_med.jpg', 'title':'Dive R1773 Highlights Southern Hydrate Ridge', 'description':'

The mass spectrometer MASSPA101 was installed at the same bacterial mat as the flow meter (Mosquito), and osmo sampler. Video credit: NSF-OOI/UW/CSSF; Dive R1773; V14.  

', sources: [ {'file': 'https://stream.ocean.washington.edu:443/rsnPhone/mp4:r1773_highlights_phone.m4v/playlist.m3u8'}, {'file': 'rtmp://stream.ocean.washington.edu/rsn/mp4:r1773_highlights.mov'} ]} , {'height':'394', 'width':'700', 'image':'/files/r1772_highlights_med.jpg', 'title':'Dive R1772 Highlights Southern Hydrate Ridge', 'description':'

The tool basket was deployed with the broadband seismometer, and the CAT and Mosquito flow meters, and the Osmo fluid sampler. On launching, the CAT jumped the tool sled and fell to the seafloor. The broadband was deployed for follow-on installation, and the Mosquito and Osmo sampler were installed. Push cores were taken and a brief survey found the CAT. It was recovered and is expected to be fine as they are normally deployed by free falling. Video credit: NSF-OOI/UW/CSSF; Dive R1772; V14.  

', sources: [ {'file': 'https://stream.ocean.washington.edu:443/rsnPhone/mp4:r1772_highlights_phone.m4v/playlist.m3u8'}, {'file': 'rtmp://stream.ocean.washington.edu/rsn/mp4:r1772_highlights.mov'} ]} , {'height':'394', 'width':'700', 'image':'/files/r1771_highlights_med.jpg', 'title':'Dive R1771 Highlights Oregon Offshore', 'description':'

This was a bounce dive that recovered the medium-power junction box MJ03B, which was temporarily deployed on the previous dive to test the Shallow Profiler Mooring. Video credit: NSF-OOI/UW/CSSF; Dive R1771; V14.  

', sources: [ {'file': 'https://stream.ocean.washington.edu:443/rsnPhone/mp4:r1771_highlights_phone.m4v/playlist.m3u8'}, {'file': 'rtmp://stream.ocean.washington.edu/rsn/mp4:r1771_highlights.mov'} ]} , {'height':'394', 'width':'700', 'image':'/files/r1770_highlights_med.jpg', 'title':'Dive R1770 Highlights Oregon Offshore', 'description':'

The MJ03B junction box was temporarily deployed to test power load on the junction box LV01C. ROPOS plugged in the J-box and the end of the 120 m cable near the base of the mooring. At this point, LV01C was connected to Primary Node PN1C, and also connected to MJ03B to simulate the Platform Instrument Assembly on the Shallow Profiler Mooring. When the system was powered up there was a load surge and the node tripped again. Expansion port 1 and expansion port 2 were also tested. LV01C was recovered. All cables and ports were capped. Video credit: NSF-OOI/UW/CSSF; Dive R1770; V14.  

', sources: [ {'file': 'https://stream.ocean.washington.edu:443/rsnPhone/mp4:r1770_highlights_phone.m4v/playlist.m3u8'}, {'file': 'rtmp://stream.ocean.washington.edu/rsn/mp4:r1770_highlights.mov'} ]} , {'height':'394', 'width':'700', 'image':'/files/r1769_highlights_med.jpg', 'title':'Dive R1769 Highlights Southern Hydrate Ridge ', 'description':'

During this dive, the three short-period seismometers (OBSSPA1010, OBSSPA102, OBSSPA103) were installed and connected to their extension cables. Video credit: NSF-OOI/UW/CSSF; Dive R1769; V14.  

', sources: [ {'file': 'https://stream.ocean.washington.edu:443/rsnPhone/mp4:r1769_highlights_phone.m4v/playlist.m3u8'}, {'file': 'rtmp://stream.ocean.washington.edu/rsn/mp4:r1769_highlights.mov'} ]} , {'height':'394', 'width':'700', 'image':'/files/junk3_med.jpg', 'title':'Dive R1768 Highlights Oregon Offshore Mooring', 'description':'

During ROPOS Dive R1768, trouble shooting of the mooring was conducted. Video credit: NSF-OOI/UW/CSSF; Dive R1768; V14. 

', sources: [ {'file': 'https://stream.ocean.washington.edu:443/rsn/mp4:r1768highlights-desktop.m4v/playlist.m3u8'}, {'file': 'rtmp://stream.ocean.washington.edu/rsn/mp4:r1768highlights-desktop.m4v'} ]} , {'height':'394', 'width':'700', 'image':'/files/snail.garden.squid_med.jpg', 'title':'Dive R1765 Highlights Southern Hydrate Ridge', 'description':'

During this dive at the summit of Southern Hydrate Ridge the junction box LV01B was temporatily deployed ~ 50 m north of a site where the end of a 10 km extension cable will be installed. The actively venting seep Grotto was surveyed for final placement of a digital still camera on a follow-on dive. Grotto was actively venting. The Neptunea snail field was visited briefly. The ROV transited NW to the location of the broadband caisson, and on the way a carbonate rock sample was recovered. Upon reaching the broadband caisson, the ROPOS turned south on a 190° heading for a 500 m long survey of the 10 km cable route. Video credit: NSF-OOI/UW/CSSF; Dive R1765; V14.

', sources: [ {'file': 'rtmp://stream.ocean.washington.edu/rsn/mp4:r1765highlights.mov'} ]} , {'height':'394', 'width':'700', 'image':'/files/iconow_med.jpg', 'title':'High Definition Video From Underwater Hot Springs', 'description':'

Leg 1, VISIONS'14 UW College of the Environment and School of Oceanography undergraduate student, Don Setiawan, scripted and produced this video about the building and installation of an underwater high definition camera that is now installed on Axial Seamount at the hydrothermal vent called Mushroom. Video credit: NSF-OOI/UW/CSSF; V13 & V14

', sources: [ {'file': 'https://stream.ocean.washington.edu:443/rsn/mp4:camhddoncopy-desktop.m4v/playlist.m3u8'}, {'file': 'https://stream.ocean.washington.edu:443/rsnPhone/mp4:camhddoncopy-iphone.m4v/playlist.m3u8'}, {'file': 'rtmp://stream.ocean.washington.edu/rsn/mp4:camhddoncopy-desktop.m4v'} ]} , {'height':'394', 'width':'700', 'image':'/files/screenshot2014-08-18at12.12.18pm_med.jpg', 'title':'Dive R1748 Highlights Oregon Offshore', 'description':'

Oregon Offshore: During ROPOS Dive R1748 the 200 m oily cable OSHYW1 on the tool basket was removed and positioned on the seafloor. One end was to low voltage node LV01C at port J03 and the other end was connected to the Deep Profiler vertical mooring (DP01B). Water samples were collected with Nisking bottles on ROPOS next to the MMP profiler. Installation beacons were recovered from the base of the Deep Profiler mooring and from the top orange float. Video credit: NSF-OOI/UW/CSSF; Dive R1748; V14.  

', sources: [ {'file': 'https://stream.ocean.washington.edu:443/rsnPhone/mp4:r1748_wifi.m4v/playlist.m3u8'}, {'file': 'rtmp://stream.ocean.washington.edu/rsn/mp4:r1748_highlights.mov'} ]} , {'height':'394', 'width':'700', 'image':'/files/axial.book.chimlet_med.jpg', 'title':'Most Extreme Environment on Earth Video', 'description':'

This video, highlighting the submarine hydrothermal vents at Axial Seamount on the Juan de Fuca Ridge, was produced by undergraduate students on Leg1 of the VISIONS'14 expedition - Jesse Turner, Katie Bigham, and Sam Albertson.

', sources: [ {'file': 'https://stream.ocean.washington.edu:443/rsn/mp4:introtohydrothermalvents-desktop.m4v/playlist.m3u8'}, {'file': 'https://stream.ocean.washington.edu:443/rsnPhone/mp4:introtohydrothermalvents-phone.m4v/playlist.m3u8'}, {'file': 'rtmp://stream.ocean.washington.edu/rsn/mp4:introtohydrothermalvents-desktop.m4v'} ]} , {'height':'394', 'width':'700', 'image':'/files/ropos.movie_med.jpg', 'title':'Instruments Discover a Deep Ocean Adventure', 'description':'

Join this fine group of instruments as they explore the deep ocean. This movie was produced by Christina Ramirez, an undergraduate student student in the School of Oceanography at the University of Washington. We hope that this movie makes you smile.

', sources: [ {'file': 'https://stream.ocean.washington.edu:443/rsn/mp4:visions14movie-desktop.m4v/playlist.m3u8'}, {'file': 'https://stream.ocean.washington.edu:443/rsnPhone/mp4:visions14movie-iphone.m4v/playlist.m3u8'}, {'file': 'rtmp://stream.ocean.washington.edu/rsn/mp4:visions14movie-desktop.m4v'} ]} , {'height':'540', 'width':'960', 'image':'/files/rov_vent-poster_med.jpg', 'title':'ROV Vent Mapping Simulation', 'description':'

Simulation of ROV ROPOS mapping hydrothermal vent.  Movie created using Maya 3D modeling software.  Lead Animator: Nick Stoermer, Center for Environmental Visualization.

', sources: [ {'file': 'https://stream.ocean.washington.edu:443/rsn/mp4:rov_vent-desktop.m4v/playlist.m3u8'}, {'file': 'https://stream.ocean.washington.edu:443/rsnPhone/mp4:rov_vent-iphone.m4v/playlist.m3u8'}, {'file': 'rtmp://stream.ocean.washington.edu/rsn/mp4:rov_vent-desktop.m4v'} ]} , {'height':'540', 'width':'960', 'image':'/files/screenshot2013-09-16at1.49.17pm_med.jpg', 'title':'Creatures of the Deep', 'description':'

This movie highlights some of the remarkable animals that thrive deep beneath the oceans surface in the absence of sunlight and in waters that are at near freezing temperatures. The move was produced by Boston University undergraduate student, Caitlin Russell as part of the University of Washington's School of Oceanography student at-sea program. This effort was part of the VISIONS'13 program to install the US's first underwater cabled observatory.

', sources: [ {'file': 'https://stream.ocean.washington.edu:443/rsn/mp4:caitlin5-computer.m4v/playlist.m3u8'}, {'file': 'https://stream.ocean.washington.edu:443/rsnPhone/mp4:caitlin5-computer-Wi-Fi.m4v/playlist.m3u8'}, {'file': 'rtmp://stream.ocean.washington.edu/rsn/mp4:caitlin5-computer.m4v'} ]} ];