Saturday, May 31, 2014

Research Cruise UPDATE: Another successful day...

A successful core from NT800.
After completing our work at NT800, we move about 6 km to NT1000. This is a site at a depth of 1000m on a somewhat steeper portion of the slope. There was some concern about sampling this site because on the previous research cruise at this site in September 2013, the team made lowering after lowering with the multicore here, but failed to collect any samples. There was concern that this site was unlucky, but perhaps because of the reduced weight on the core, all three lowering succeeded perfectly. The cores were short because the bottom is pretty hard here, but the mud team pronounced themselves contented and we continued our work with a MILET survey. 

The MILET is an instrument platform operated from the surface over a fiber optic cable. Mounted to the platform are video and still cameras, a subbottom profiler, and navigation pingers that report its position while data is transmitted to the surface in real-time. We use the MILET to survey the mobile fauna and record subbottom features for the geologic record. A typical MILET survey lasts about four hours on the bottom and records data on long transects that criss-cross the sampling location. Two and one half hours into the survey at NT1000, we lost fiber optic communications with MILET due to a faulty connector. 

Weatherbird II then proceeded to the S42 sampling site. Seas were choppy with heavy local rain squalls. Completed a CTD profile before beginning with the multicore We had a failed multicore on the first lowering. The VTLC showed another pre-trip in the water column, so the winch operator and helmsman adjusted the speed of lowering and put the ship in the trough to reduce pitch. All three subsequent lowerings were successful. Repairs of the MILET are still underway, so WB2 got underway toward S35 in the early hours of 1 June. 
Ben LaBelle, Nikki Morgan, and Curtis Okolovitch sieving cores late at night
 
Multicore frame showing two additions—cylinder on left is a
USBL navigation pinger that provides bottom fixes for all cores,
cylinder on right is the video time-lapse camera that
records core collection and bottom type.


 Posted by:


Ian MacDonald
Florida State University

Friday, May 30, 2014

Research cruise in the Gulf: First sampling site

We arrived at our first sampling site at about noon local time—NT800. This is a position on the upper break of the Florida Escarpment previously sampled in September 2013. We deployed the multicorer and recovered seven out of eight cores. We suspect that the eighth core was released in the water going down. Processing each drop of the multicore requires almost two hours. Deck to deck time for the multicore lowering and recovery is about 30 min. We need a minimum of three lowerings to provide samples for all the investigators involved. Took a CTD profile while the cores were being processes. Then completed a second lowering with similar success. 

The third lowering failed, however. The tubes came up with their caps closed top and bottom, but with no mud. We use a video timelapse camera system to record the bottom at each station where we collect sediments. It gets turned on before the core goes over the side and runs while the core is lowered and lands on bottom to collect its samples. This proved very valuable after this failure because we could clearly see that the cores had closed in the water while the corer was being lowered to the bottom. What happens is if there is too much weight on the center part of the core, it has more mass and momentum than the frame. So when slack comes in the cable, the center continues down faster than the frame. If there was too much separation, the trigger that releases the covers are tripped before the multicore lands on the bottom. The cores lower into the mud, but with the covers in place, the can’t collect samples. The solution was to remove six of the lead bricks, lightening the load on the center of the corer. The next lowering succeeded. High fives! 

After our third multicore sample was on board, we deployed the MILET and completed a 5 hour photographic and subbottom survey of the NT800 site. This put us into the morning of the next day.

John Kaba and Curtis Okolovich sectioning a core from NT800

Caroline Johansen taking a break from data entry

 
Peter Lazaravich and Eric Howarth checking the MILET controls
during the bottom photographic survey

 Posted by:

Ian MacDonald
Florida State University