Streamer equipment tension control

The invention claimed is: 1. A geophysical streamer system comprising: streamer equipment comprising: a geophysical streamer with a plurality of geophysical sensors distributed along the geophysical streamer, including a forward geophysical sensor; and a lead-in cable for coupling the geophysical streamer to a survey vessel; and a tension control system capable of tuning vibrational behavior of the streamer equipment and comprising: a depressor coupled to the streamer equipment in front of the forward geophysical sensor; a variable tension control device coupled at a back end of the geophysical streamer; and a plurality of tension control system sensors, wherein: the plurality of tension control system sensors are disposed at one or more locations consisting of: on the survey vessel, on the depressor, on the variable tension control device, along the lead-in cable, and along the geophysical streamer, and at least some of the plurality of tension control system sensors are capable of being used to estimate amplitude or spectral properties of the vibrational behavior of the streamer equipment. 2. The geophysical streamer system of claim 1 , wherein at least one of the plurality of geophysical sensors is selected from the group consisting of: seismic sensors and electromagnetic sensors. 3. The geophysical streamer system of claim 2 , wherein the plurality of geophysical sensors comprises seismic sensors, and the variable tension control device comprises a tail buoy. 4. The geophysical streamer system of claim 2 , wherein the plurality of geophysical sensors comprises electromagnetic sensors, and the geophysical streamer system further comprises a depressor depth control system. 5. The geophysical streamer system of claim 1 , wherein the depressor is coupled at a point that corresponds to a predicted or estimated location of a vibrational wave node of the streamer equipment. 6. The geophysical streamer system of claim 1 , wherein the plurality of tensions control system sensors comprises a plurality of motion sensors distributed along the streamer. 7. The geophysical streamer system of claim 1 , wherein the variable tension control device is a drag body. 8. The geophysical streamer system of claim 7 , wherein the drag body comprises one or more flaps, wings, and caps configured to deploy to create a larger drag surface area. 9. The geophysical streamer system of claim 1 , further comprising a tension control system communicatively coupled to the plurality of tension control system sensors. 10. The geophysical streamer system of claim 9 , wherein the tension control system is communicatively coupled to the variable tension control device and to the depressor. 11. A method of acquiring survey data, the method comprising: obtaining first data from tension control system sensors of a geophysical streamer system; based on the first data, identifying vibrational behavior of streamer equipment of the geophysical streamer system; identifying an adjustment to be made to one or more tension control factors of the geophysical streamer system to reduce or control the vibrational behavior of the streamer equipment; making the adjustment to the one or more tension control factors; and acquiring the survey data with the geophysical streamer system. 12. The method of claim 11 , wherein the adjustment is at least one of: changing a speed or towing direction of a survey vessel of the geophysical streamer system; changing a length or angle of a lead-in cable of the geophysical streamer system; changing a coupling location, length, or angle of a depth rope of the geophysical streamer system; changing an angle or magnitude of a depressor force of the geophysical streamer system; and changing a drag force of the geophysical streamer system. 13. The method of claim 11 , wherein the making the adjustment and the acquiring the survey data occur simultaneously. 14. The method of claim 11 , wherein the identifying the adjustment comprises obtaining second data from tension control system sensors. 15. The method of claim 14 , wherein the identifying the adjustment further comprises obtaining user input. 16. The method of claim 11 , wherein the identified adjustment includes changing the tension of the streamer equipment, the method further comprising making concerted adjustments of a depressor force and a drag force, each force operating on the geophysical streamer system. 17. The method of claim 16 , further comprising repeated iterations of: obtaining additional data with a plurality of tension control system sensors distributed along the streamer equipment; and making additional concerted adjustments of the depressor force and the drag force. 18. The method of claim 16 , wherein the making concerted adjustments of the depressor force and the drag force comprises: obtaining third data from a plurality of tension control system sensors distributed along the streamer equipment; and transmitting control signals to a depressor coupled to the streamer equipment and to a variable tension control device coupled at a back end of the streamer equipment. 19. The method of claim 11 , further comprising: obtaining geophysical data; and processing the geophysical data to produce a geophysical data product. 20. The method of claim 19 , further comprising recording the geophysical data product on a non-transitory, tangible, computer-readable medium suitable for importing onshore. 21. The method of claim 19 , further comprising performing geophysical analysis onshore on the geophysical data product.