Fiber optic sensor for measurement of carbon dioxide

We claim: 1. A sensor system, comprising: a plurality of fiber optic sensor regions having associated coatings and configured to be deployed at a plurality of discrete measurement locations, wherein each coating is polystyrene or an acrylate or acrylamide copolymer containing tertiary amine sites which in the presence of CO 2 and water vapor reversibly form a salt species according to coating —NR 2 +H 2 O+CO 2 →coating —NH+R 2 HCO 3 —; and a detection system configured to detect an analyte presence and identify measurement locations associated with the analyte presence. 2. The sensor system of claim 1 , wherein the sensor regions are configured to be deployed so that the measurement locations provide coverage of an ocean surface, ocean subsurface, or subsea environment. 3. The sensor system of claim 1 , wherein at least one sensor region is associated with a membrane configured to preferentially admit or block a selected substance from an associated sensor region. 4. The sensor system of claim 1 , wherein at least one sensor region is sensitive to a total concentration of carbon dioxide, carbonate, bicarbonate or carbonic acid in an aqueous solution. 5. The sensor system of claim 1 , wherein at least one sensor region is configured to distinguish between contact with gaseous, liquid or supercritical CO 2 , aqueous saline solutions and liquid or gaseous hydrocarbons. 6. The sensor system of claim 1 , wherein the sensor regions comprise respective long period gratings. 7. The sensor system of claim 1 , wherein the sensor regions comprise in-fiber Bragg gratings in an optical fiber that is modified or shaped so that evanescent fields of the optical radiation propagating in a fiber core interact with a medium that surrounds the fiber. 8. The sensor system of claim 1 , wherein the sensor regions comprise respective Mach-Zehnder interferometers that comprise respective lengths of photonic crystal fiber spliced into a single mode fiber. 9. The sensor system of claim 1 , wherein the sensor regions include a coating selected to exhibit a change in refractive index in response to an analyte. 10. The sensor system of claim 1 , wherein at least one sensor region is defined by an enclosure that surrounds a sensor coating such that absorption of an analyte produces a strain in the sensor region. 11. The sensor system of claim 1 , further comprising corresponding encapsulating regions situated proximate the sensor regions so as to serve as filters that selectively pass carbon dioxide, carbonate, bicarbonate and carbonic acid to a medium that surrounds the device to the sensor regions. 12. The sensor system of claim 1 , wherein at least one of the sensor regions is associated with a membrane that is selectively permeable to CO 2 , carbonate or bicarbonate ions, or carbonic acid. 13. The sensor system of claim 1 , wherein at least one of the sensor regions defines a Fabry-Perot interferometer. 14. A sensor, comprising: a fiber sensor region; and a coating situated about the fiber sensor region, and configured to exhibit a change in refractive index in response to a target substance, wherein the coating is polystyrene or an acrylate or acrylamide copolymer containing tertiary amine sites which in the presence of CO 2 and water vapor reversibly form a salt species according to coating —NR 2 +H 2 +CO 2 →coating —NH+R 2 HCO 3 —. 15. The sensor of claim 14 , wherein the sensor region includes a long period grating. 16. The sensor of claim 14 , wherein the coating is enclosed by a radially rigid enclosure and axial enclosures so that absorption of CO 2 produces an axial strain in a fiber sensor region. 17. The sensor of claim 16 , wherein the fiber sensor region includes a long period grating and the axial strain produces a change in a transmission spectrum. 18. The sensor of claim 17 , further comprising: an optical radiation source; an optical circulator configured to couple optical radiation from the optical radiation source to the long period grating; a detection system configured to receive optical radiation transmitted by the long period grating from the optical circulator; and a processor configured to estimate an analyte concentration based on the received optical radiation. 19. A sensor, comprising: a plurality of fiber optic sensor regions having associated coatings and configured to be deployed at a plurality of discrete measurement locations, corresponding encapsulating regions situated proximate the fiber optic sensor regions so as to serve as filters that selectively pass carbon dioxide, carbonate, bicarbonate and carbonic acid to the sensor regions; and a detection system configured to detect an analyte presence and identify measurement locations associated with the analyte presence. 20. The sensor of claim 19 , wherein the sensor regions comprise respective Mach-Zehnder interferometers that include respective lengths of photonic crystal fiber spliced into a single mode fiber. 21. A sensor system, comprising: a plurality of fiber optic sensor regions having associated coatings and configured to be deployed at a plurality of discrete measurement locations, wherein at least one of the sensor regions is associated with a membrane that is selectively permeable to CO 2 , carbonate or bicarbonate ions, or carbonic acid; a detection system configured to detect an analyte presence and identify measurement locations associated with the analyte presence.