Lubrication system monitoring assembly and method

What is claimed is: 1. A monitoring assembly, comprising: a sensor that provides a first output when a lubricant reservoir holds a first amount of a contaminant, and a different, second output when the lubricant reservoir holds a different second amount of the contaminant; and a lubrication system monitoring controller operatively coupled to the sensor and configured to initiate a maintenance mode in response to the second output, the maintenance mode including starting an internal combustion engine, wherein the sensor is an optical sensor that includes a detector, wherein the lubrication system monitoring controller is configured to calculate an average intensity of light received by the detector at various wavelengths, and further configured compare the average intensities to at least one threshold infrared intensity when assessing whether or not to initiate the maintenance mode. 2. The monitoring assembly of claim 1 , wherein the first amount of the contaminant is nominally no contaminant, and the second amount of contaminant comprises some contaminant. 3. The monitoring assembly of claim 1 , wherein a crankcase of an electrified vehicle comprises the lubricant reservoir. 4. The monitoring assembly of claim 1 , wherein an oil pan of an electrified vehicle comprises the lubricant reservoir. 5. The monitoring assembly of claim 1 , wherein the optical sensor is configured to read an infrared frequency intensity of a fluid held within the lubricant reservoir. 6. The monitoring assembly of claim 5 , wherein the first output is a first infrared frequency intensity and the second output is a different, second infrared frequency. 7. The monitoring assembly of claim 6 , wherein the lubrication system monitoring controller is configured to initiate the maintenance mode in response to the sensor providing the second output for a time period that exceeds a threshold time period. 8. The monitoring assembly of claim 1 , wherein the maintenance mode comprises communicating an alert to an operator. 9. The monitoring assembly of claim 1 , wherein the contaminant is water. 10. A monitoring method, comprising: monitoring a composition of a fluid held within a lubrication reservoir to detect a contaminant; a lubrication system monitoring controller that initiates a maintenance mode in response to the monitoring; and starting an internal combustion engine in response to the maintenance mode, wherein the lubrication system monitoring controller receives a reading from an optical sensor during the monitoring, wherein the optical sensor includes a detector, wherein the controller is configured to calculate an average intensity of light received by the detector at various wavelengths, and further configured compare the average intensities to at least one threshold infrared intensity when assessing whether or not to initiate the maintenance mode. 11. The monitoring method of claim 10 , wherein the reading corresponds to an infrared frequency intensity of the fluid. 12. The monitoring method of claim 11 , wherein the lubrication system monitoring controller is further configured to initiate the maintenance mode in response to the infrared frequency intensity exceeding a threshold infrared frequency intensity for a threshold time period. 13. The monitoring method of claim 10 , further comprising sending an alert in response to the maintenance mode. 14. The monitoring method of claim 10 , wherein the lubrication reservoir is within an electrified vehicle. 15. The monitoring method of claim 13 , wherein the detector is a first detector and the optical sensor further includes a second detector, wherein the monitoring further includes comparing an infrared frequency intensity reading taken by the first detector to an infrared frequency intensity reading taken by the second detector. 16. A monitoring assembly, comprising: an optical sensor that provides a first output when a lubricant reservoir holds a first amount of a water, and a different, second output when the lubricant reservoir holds a different second amount of the water; and a lubrication system monitoring controller operatively coupled to the optical sensor and configured to initiate a maintenance mode in response to the second output, the maintenance mode including starting an internal combustion engine, the lubrication system monitoring controller further configured to initiate the maintenance mode in response to the sensor providing the second output for a time period that exceeds a threshold time period, wherein the optical sensor includes a detector, wherein the controller is configured to calculate an average intensity of light received by the detector at various wavelengths, and further configured compare the average intensities to at least one threshold infrared intensity when assessing whether or not to initiate the maintenance mode. 17. The monitoring assembly of claim 16 , wherein the optical sensor includes a light emitter and the detector, wherein the second output corresponds to an intensity of light received by the detector being decreased within an infrared absorption frequency range relative to an intensity of light at the light emitter in the infrared absorption frequency range.