Arctic seismic surveying operations

What is claimed is: 1. A method of performing a marine seismic survey in icy waters, the method comprising: planning a survey track traversing a survey area based on initial ice conditions in the survey area having the icy waters; deploying a seismic system into the water from a survey vessel at the survey area; traversing the survey track with at least one escort vessel escorting the survey vessel; obtaining seismic data along the survey track by towing the seismic system from the survey vessel under the surface of the icy water; and monitoring the survey area along the survey track for actual ice conditions and handling the actual ice conditions along the survey track by— monitoring feather of the seismic system towed by the survey vessel, detecting an ice obstruction along the survey track ahead of the survey vessel at least using the at least one escort vessel, and turning the survey vessel away from the detected ice obstruction based on the monitored feather. 2. The method of claim 1 , wherein planning the survey track traversing the survey area based on initial ice conditions in the survey area having the icy waters comprises at least one of: determining the initial ice conditions in the survey area having the icy waters; and ending the survey track in a region of the survey area with new or less ice coverage. 3. The method of claim 1 , wherein deploying the seismic system into the water from the survey vessel at the survey area comprises at least one of: deploying a seismic source of the seismic system to extend vertically from the vessel; deploying a seismic source of the seismic system to extend horizontally from the vessel and supporting the seismic source submerged below the water surface with a flotation device; towing a seismic source of the seismic system with a tow point on the vessel below the water surface; towing a seismic streamer of the seismic system with a tow point on the vessel below the water surface; and protecting cables of the seismic system in a channel of a skeg extending below the water surface from the vessel. 4. The method of claim 1 , wherein monitoring the survey area along the survey track for the actual ice conditions comprises at least one of: sharing monitored information between the survey vessel and the at least one escort vessel; and using one or more of ice radar, physical observations, weather programs, or ice maps. 5. The method of claim 1 , wherein the acts of monitoring and handling further comprise: monitoring a speed of the survey vessel; determining set and drift of the ice obstruction in the icy waters relative to the survey track and the monitored speed; and clearing, instead of turning the survey vessel, the ice obstruction from a path of the survey vessel with the at least one escort vessel ahead of the survey vessel based on the set and drift so that the survey vessel traveling along the path follows the survey track. 6. The method of claim 5 , wherein clearing the path comprises breaking and dispersing the ice obstruction encountered. 7. The method of claim 5 , wherein clearing the path comprises clearing the path within a safety zone. 8. The method of claim 1 , wherein if an area on a side of the survey vessel toward the feather is clear of the detected obstruction, turning the survey vessel comprises turning the survey vessel toward the side to which the survey system feathers. 9. The method of claim 1 , wherein if an area on a side of the survey vessel toward the feather is not clear of the detected obstruction, turning the survey vessel comprises turning the survey vessel in line with the feature of the seismic system. 10. The method of claim 1 , wherein detecting the ice obstruction comprises detecting an ice keel in the survey area greater than a predetermined depth expected to pass over the seismic system towed under the water surface; and wherein monitoring and handling further comprise submerging, instead of turning the survey vessel, the seismic system to a deeper depth below the water in response to the detected ice keel. 11. A method of performing a marine seismic survey in icy waters, the method comprising: planning a survey track traversing a survey area based on initial ice conditions in the survey area having the icy waters; deploying a seismic system into the water from a survey vessel at the survey area; traversing the survey track with at least one escort vessel escorting the survey vessel; obtaining seismic data along the survey track by towing the seismic system from the survey vessel under the surface of the icy water; and monitoring the survey area along the survey track for actual ice conditions and handling the actual ice conditions along the survey track by— detecting, from surface measurements of the actual ice conditions at least using the at least one escort vessel, an ice keel in the survey area greater than a predetermined depth expected to pass over the seismic system towed under the water surface; and submerging the seismic system to a deeper depth below the water in response to the detected ice keel. 12. The method of claim 11 , wherein detecting the ice keel in the survey area greater than the predetermined size comprises detecting an ice ridge on the surface of the water above a predetermined sail height and correlating the detected ice ridge to a corresponding ice keel of the predetermined depth. 13. The method of claim 11 , wherein the acts of monitoring and handling further comprise: monitoring feather of the seismic system towed by the survey vessel; and turning, instead of submerging the seismic system, the survey vessel away from the detected ice keel based on the monitored feather. 14. The method of claim 11 , wherein detecting, from the surface measurements of the actual ice conditions at least using the at least one escort vessel, the ice keel in the survey area greater than the predetermined depth expected to pass over the seismic system towed under the water surface further comprises: monitoring a survey speed of the survey vessel; and determining the set and drift of the ice keel in the icy waters relative to the survey track and the survey speed. 15. The method of claim 11 , wherein the acts of monitoring and handling further comprise clearing, instead of submerging the seismic system, the ice keel from a path of the survey vessel with the at least one escort vessel ahead of the survey vessel based on the set and drift so that the survey vessel traveling along the path follows the survey track. 16. The method of claim 11 , wherein planning the survey track traversing the survey area based on initial ice conditions in the survey area having the icy waters comprises at least one of: determining the initial ice conditions in the survey area having the icy waters; and ending the survey track in a region of the survey area with new or less ice coverage. 17. The method of claim 11 , wherein deploying the seismic system into the water from the survey vessel at the survey area comprises at least one of: deploying a seismic source of the seismic system to extend vertically from the vessel; deploying a seismic source of the seismic system to extend horizontally from the vessel and supporting the seismic source submerged below the water surface with a flotation device; towing a seismic source of the seismic system with a tow point on the vessel below the water surface; towing a seismic streamer of the seismic system with a tow point on the vessel below the water surface; and protecting cables of the seismic system in a channel