Marine data acquisition node

What is claimed is: 1. A marine data acquisition node, comprising: a base having a buoyancy such that the base is configured to float in a body of water; a seismic sensor coupled to the base; a weight configured to anchor the base to a water bottom; and a line connected between the weight and the base configured to prevent the base from floating to a surface of the body of water. 2. The marine data acquisition node of claim 1 wherein the seismic sensor is a hydrophone, geophone, particle velocity sensor, particle displacement sensor, particle acceleration sensor, or pressure gradient sensor. 3. The marine data acquisition node of claim 1 further comprising an arm coupled to the base, wherein the arm comprises a receiver electrode configured for contact with water. 4. The marine data acquisition node of claim 3 further comprising sensor electronics disposed within the base and electrically coupled to the receiver electrode. 5. The marine data acquisition node of claim 1 further comprising a buoyant material coupled to the base. 6. The marine data acquisition node of claim 1 , wherein the base 1 s configured to float above the water bottom. 7. The marine data acquisition node of claim 1 further comprising a release mechanism coupled to the line. 8. The marine data acquisition node of claim 1 further comprising a ballast material disposed within the base. 9. The marine data acquisition node of claim 1 further comprising a spool coupled to the base, wherein the line is at least partially wound on the spool. 10. The marine data acquisition node of claim 1 further comprising a plurality of spools coupled to the base and a plurality of weights coupled to the plurality of spools. 11. A marine data acquisition system, comprising: a plurality of marine data acquisition nodes, wherein the marine data acquisition nodes each comprise: a base having a buoyancy such that the base is configured to float in a body of water; a geophysical sensor coupled to the base; a weight configured to anchor the base to a water bottom; and a line connected between the weight and the base configured to prevent the base from floating to a surface of the body of water. 12. The marine data acquisition system of claim 11 , wherein the geophysical sensor is a seismic sensor. 13. The marine data acquisition system of claim 11 , wherein the plurality of marine data acquisition nodes are positioned in a body of water such the base of each of the marine data acquisition nodes floats above the water bottom. 14. The marine data acquisition system of claim 13 , further comprising a line coupling two of the marine data acquisition nodes to one another. 15. The marine data acquisition system of claim 11 , further comprising an energy source. 16. A marine survey method, comprising: deploying a marine data acquisition node in a body of water, wherein the marine data acquisition node comprises: a base having a buoyancy such that the base floats in the body of water; a geophysical sensor coupled to the base; a weight that anchors the marine data acquisition node to a water bottom; and a line connected between the weight and the base that prevents the base from floating to a surface of the body of water; and generating signals with the geophysical sensor in response to energy emitted from an energy source. 17. The method of claim 16 , wherein the geophysical sensor comprises a seismic sensor. 18. The method of claim 16 further comprising recovering the marine data acquisition node from the body of water. 19. The method of claim 16 , wherein the recovering comprises decoupling the line between the weight and the base. 20. The method of claim 16 , wherein the deploying comprises extending the line from the base such that the weight extends away from the base. 21. The method of claim 16 further comprising moving the base from a first distance above the water bottom to a second distance above the water bottom after the deploying of the marine data acquisition node in the body of water. 22. The method of claim 16 , wherein the deploying comprises extending a plurality of lines from the base. 23. The method of claim 16 further comprising adjusting the plurality of lines so that the marine data acquisition node is level. 24. The method of claim 16 further comprising deploying more than one of the marine data acquisition node. 25. A method of manufacturing a geophysical data product, comprising: deploying a marine data acquisition node in a body of water, wherein the marine data acquisition node comprises: a base having a buoyancy to float in the body of water; a geophysical sensor coupled to the base; a weight that anchors the marine data acquisition node to a water bottom; and a line; generating signals with the geophysical sensor in response to energy emitted from an energy source, wherein the signals can be used to infer properties of a subsurface formation; and recording the signals on one or more non-transitory computer readable media, thereby creating the geophysical data product. 26. The method of claim 25 further comprising importing the geophysical data product onshore and performing further data processing or geophysical analysis on the geophysical data product. 27. The method of claim 26 wherein the geophysical sensor comprises a seismic sensor. 28. The method of claim 25 further comprising recovering the marine data acquisition node from the body of water, wherein the recovering comprises activating a release mechanism to release the base from the weight. 29. The method of claim 25 wherein the deploying comprises extending the line toward the water bottom.