System and methods for controlling fuel vapor canister purge operations

The invention claimed is: 1. A method comprising: during vehicle operation, monitoring tire pressure in one or more vehicle tires; and responsive to a tire pressure decrease greater than a threshold: sealing an evaporative emissions control system comprising a fuel vapor canister for capturing and storing fuel vapors, the evaporative emissions control system coupled to an engine intake manifold; and suspending purging of the fuel vapor canister. 2. The method of claim 1 , further comprising: monitoring barometric pressure via a barometric pressure sensor positioned in the engine intake manifold; and wherein sealing the evaporative emissions control system further comprises: sealing the evaporative emissions control system responsive to the tire pressure decrease greater than the threshold, and an absence of a change in barometric pressure as monitored by the barometric pressure sensor. 3. The method of claim 2 , further comprising: controlling an intake air amount inducted into the engine intake manifold via a throttle; and wherein sealing the evaporative emissions control system responsive to the tire pressure decrease greater than the threshold, and an absence of a change in barometric pressure includes indicating that a throttle position is greater than a throttle position threshold. 4. The method of claim 3 , wherein the throttle position threshold comprises the throttle position where the intake air amount enables accurate barometric pressure readings as monitored by the barometric pressure sensor. 5. The method of claim 3 , further comprising: monitoring vehicle pitch angle via one or more lateral sensors in the vehicle, wherein a vehicle pitch angle greater than a threshold pitch angle indicates the vehicle is traveling downhill; and responsive to the absence of a change in barometric pressure and the throttle position less than the throttle position threshold: sealing the evaporative emissions control system responsive to the vehicle pitch angle less than the threshold pitch angle. 6. The method of claim 5 , wherein responsive to the absence of a change in barometric pressure and the throttle position less than the throttle position threshold: indicating barometric pressure change based on the tire pressure change responsive to the vehicle pitch angle greater than the threshold pitch angle. 7. The method of claim 6 , further comprising: adjusting a commanded air/fuel ratio to compensate for the indicated barometric change based on the tire pressure change. 8. The method of claim 6 , further comprising: applying vacuum to the evaporative emissions control system and indicating a presence of undesired evaporative emissions responsive to a vacuum level reaching a vacuum threshold; adjusting the vacuum threshold based on a change in barometric pressure, the change in barometric pressure based on the tire pressure change; and wherein adjusting the vacuum threshold includes increasing the vacuum threshold responsive to a decrease in tire pressure. 9. The method of claim 2 , wherein vehicle operation comprises the vehicle being propelled in a forward direction by the engine coupled to one or more sets of drive wheels, or wherein the vehicle is being propelled in a forward direction by an electric motor coupled to one or more sets of drive wheels. 10. The method of claim 1 , further comprising: unsealing the evaporative emissions control system responsive to a tire pressure increase greater than another threshold, subsequent to the tire pressure decrease greater than a threshold; and resuming purging of the fuel vapor canister. 11. The method of claim 10 , further comprising: fluidically coupling the fuel vapor canister to the engine intake manifold by opening a canister purge valve; fluidically coupling the fuel vapor canister to atmosphere by opening a canister vent valve; wherein purging of the fuel vapor canister comprises commanding open the canister purge valve and the canister vent valve under conditions of intake manifold vacuum to draw atmospheric air across the fuel vapor canister to desorb stored fuel vapors and draw them to the engine intake for combustion; wherein sealing the evaporative emissions control system comprises closing the canister purge valve and closing the canister vent valve; and wherein unsealing the evaporative emissions control system comprises opening the canister vent valve. 12. The method of claim 1 , wherein vehicle operation comprises the vehicle being propelled in a reverse direction by an engine coupled to one or more sets of drive wheels, or wherein the vehicle is being propelled in a reverse direction by an electric motor coupled to one or more sets of drive wheels. 13. The method of claim 12 , wherein sealing the evaporative emissions control system responsive to the tire pressure decrease greater than the threshold further comprises: indicating a vehicle speed below a threshold vehicle speed. 14. The method of claim 12 , wherein sealing the evaporative emissions control system responsive to the tire pressure decrease greater than the threshold further comprises: indicating that at least one or more rear tires experience the tire pressure decrease greater than the threshold. 15. A method comprising: venting a vapor storage canister to atmosphere, the canister coupled to both a fuel tank and an engine intake manifold of a motor vehicle having at least four tires; and ceasing the venting in response to a tire pressure change in a predetermined number of tires exceeding a pressure threshold. 16. The method of claim 15 , wherein the tire pressure change comprises one or more of two rear tires in response to predetermined conditions. 17. The method of claim 15 , wherein the pressure change comprises one or more of four tires in response to predetermined conditions. 18. The method of claim 15 , further comprising: purging the canister by venting one side of the canister to atmosphere and coupling an opposite side of the canister to the intake manifold; and disabling the purging in response to the tire pressure change in a predetermined number of tires exceeding the threshold. 19. A system for a vehicle, comprising: an engine; a fuel vapor canister, configured within an evaporative emissions control system, fluidically coupled to an engine intake manifold via a canister purge valve, and fluidically coupled to atmosphere via a canister vent valve; a barometric pressure sensor in the engine intake manifold; an intake throttle in the intake of the engine; one or more lateral sensors; one or more tire pressure sensors coupled to one or more tires of the vehicle; a controller storing instructions in non-transitory memory, that when executed, cause the controller to: responsive to the vehicle being propelled in a forward direction by an engine coupled to one or more sets of drive wheels: monitor tire pressure in the one or more vehicle tires; monitor barometric pressure via the barometric pressure sensor; control an intake air amount inducted into the engine intake manifold via the throttle when the vehicle is being propelled in the forward direction by the engine; monitor vehicle pitch angle via the one or more lateral sensors in the vehicle, wherein a vehicle pitch angle greater than a threshold pitch angle indicates the vehicle is traveling downhill; seal the evaporative emissions control system by closing the canister purge valve and closing the canister vent valve, and suspend purging of the fuel vapor canister responsive to a tire pressure