Methods for gas leak detection and localization in populated areas using isotope ratio measurements

The invention claimed is: 1. A method of gas leak detection and localization, the method comprising: performing one or more primary gas concentration measurements of a primary species from a terrestrial moving platform that proceeds along at least one platform track disposed near one or more potential gas leak locations of utility infrastructure; performing one or more secondary chemical tracer ratio measurements from the moving platform as it proceeds along the at least one platform track, wherein the secondary chemical tracer ratio measurements are measurements of concentration ratio of a tracer species relative to the primary species; automatically determining whether or not a gas leak is present at the potential gas leak locations based on the primary gas concentration measurements and the secondary chemical tracer ratio measurements, wherein the secondary chemical tracer ratio measurements provide source identification for detected leaks; and providing a leak indication at the potential gas leak locations to an end user; wherein a ratio of tracer species concentration to primary species concentration from potential leak locations is a predetermined and known source ratio; wherein the source ratio differs from and is distinguishable from a ratio of tracer species concentration to primary species concentration from non-leak sources of the primary species; wherein the source ratio differs from and is distinguishable from a ratio of tracer species concentration to primary species concentration from an ambient. 2. The method of claim 1 , further comprising performing one or more secondary isotope ratio measurements from the moving platform as it proceeds along the at least one platform track, wherein the secondary isotope ratio measurements provide source identification for detected leaks. 3. The method of claim 1 , wherein the secondary chemical tracer ratio measurements are optical absorption measurements made in a resonant optical cavity disposed in an instrument in the moving platform. 4. The method of claim 1 , further comprising performing one or more of the primary gas concentration measurements at two or more transversely separated locations on the moving platform as it proceeds along the at least one platform track; performing an automatic transverse spatial scale analysis of the primary gas concentration measurements; wherein the automatically determining whether or not a gas leak is present at the potential gas leak locations is also based on the automatic transverse spatial scale analysis. 5. The method of claim 1 , wherein the leak indication is a binary yes/no indication of whether or not a leak is present. 6. The method of claim 1 , further comprising providing a display showing a map with leak figures superposed on the map to show detected leaks, wherein the leak figures include pointers showing the locations of detected leaks, and wherein sizes of the leak figures are scaled with the measured concentration. 7. The method of claim 1 , further comprising providing a display showing a map with leak figures superposed on the map to show detected leaks, wherein the leak figures include pointers showing the locations of detected leaks, and wherein sizes of the leak figures are scaled with a difference between the measured concentration and a local background level. 8. The method of claim 7 , further comprising superposing measured chemical tracer ratios on the map corresponding to one or more of the detected leaks. 9. The method of claim 1 , wherein the tracer species is ethane and wherein the primary species is methane.