Watercraft and associated pedal drive system

What is claimed is: 1. A watercraft, comprising: a hull; a pedal drive system mounted to the hull, the pedal drive system comprising: a manual drive train including a pair of pedals and a drive shaft, the pair of pedals mechanically coupled to the drive shaft such that rotation of the pedals about a pedal axis results in rotation of the drive shaft; a lower unit having a propeller, wherein the lower unit is mechanically coupled to the drive shaft such that rotation of the pedals about the pedal axis results in rotation of the propeller; an assist drive train having an engaged position and a disengaged position, wherein in the engaged position a torque from a motor of the assist drive train is transferred to the manual drive train to supplement a manual pedal force input from a user operating the pair of pedals, and wherein in the disengaged position, a portion of the assist drive train is mechanically coupled to the manual drive train and the motor is mechanically decoupled from the manual drive train; and a sensor arrangement for monitoring at least one operational parameter of the pedal drive system; a controller in operable communication with the sensor arrangement to interpret information from the sensor arrangement regarding the at least one operational parameter; and wherein the controller is operably connected to the assist drive train to selectively transition the assist drive train from the disengaged position to the engaged position and from the engaged position to the disengaged position based upon a pedal state change indicated by a change in the at least one operational parameter. 2. The watercraft of claim 1 , wherein the sensor arrangement includes a speed sensor and a torque sensor. 3. The watercraft of claim 2 , wherein the speed sensor is arranged to monitor the revolutions per minute of an upper gear rotatable about the pedal axis. 4. The watercraft of claim 2 , wherein the torque sensor is arranged on a crank associated with one of the pair of pedals. 5. A pedal drive system for a watercraft, comprising: a manual drive train comprising a pair of pedals; a lower unit having a propeller, the lower unit mechanically coupled to the pair of pedals such that rotation of the pair of pedals about a pedal axis results in a thrust output at the lower unit; an assist drive train, the assist drive train having an engaged position and a disengaged position, wherein in the engaged position a torque from a motor of the assist drive train is transferred to the manual drive train; a sensor arrangement for monitoring at least one operational parameter of the pedal drive system; a controller in operable communication with the sensor arrangement to interpret information from the sensor arrangement regarding the at least one operational parameter; and wherein the controller is operably connected to the assist drive train to selectively transition the assist drive train from the disengaged position to the engaged position and from the engaged position to the disengaged position. 6. The pedal drive system of claim 5 , wherein in the engaged position the torque from the motor of the assist drive train is transferred to the manual drive train to supplement a manual pedal force input from a user operating the pair of pedals, and wherein in the disengaged position, a portion of the assist drive train is mechanically coupled to the manual drive train and the motor is mechanically decoupled from the manual drive train. 7. The pedal drive system of claim 5 , wherein the at least one operational parameter includes pedaling speed or pedaling direction. 8. The pedal drive system of claim 5 , wherein the at least one operational parameter is a pedaling direction, the controller transitions the assist drive train from the engaged position to the disengaged position when the sensor arrangement senses that the pedaling direction is in a reverse direction that would drive the lower unit in a direction opposite a direction the assist drive train drives the lower unit. 9. The pedal drive system of claim 5 , wherein: the at least one operational parameter of the pedal drive system is pedaling of the manual drivetrain, and the controller transitions the assist drive train from the disengaged position to the engaged position when the sensor arrangement senses that pedaling of the manual drivetrain has begun. 10. The pedal drive system of claim 5 , wherein the controller is configured to control the assist drive train to provide at least two different levels of torque to the lower unit. 11. The pedal drive system of claim 10 , further comprising a user interface operably communicating with the controller for switching between the at least two different levels. 12. The pedal drive system of claim 5 , wherein the controller is configured to control the assist drive train to provide varying levels of torque to the lower unit; and further comprising a user interface operably communicating with the controller for selecting a level of torque. 13. The pedal drive system of claim 5 , wherein the controller is configured operate in a first mode in which the controller controls the assist drive train to provide all of the torque for generating the thrust provided by the lower unit. 14. The pedal drive system of claim 13 , wherein, when in the first mode, the assist drive train remains in the engaged position even if no input force is provided by the manual drive train. 15. The pedal drive system of claim 5 , wherein the controller is configured to maintain a desired speed or thrust even when no force input is provided by the manual drive train. 16. A watercraft, comprising: a hull; a pedal drive system of claim 5 mounted to the hull; wherein: the manual drive train includes a drive shaft, the pair of pedals mechanically coupled to the drive shaft such that rotation of the pedals about a pedal axis results in rotation of the drive shaft; the lower unit is mechanically coupled to the drive shaft such that rotation of the pedals about the pedal axis results in rotation of the propeller to generate the thrust output; in the disengaged position, a portion of the assist drive train is mechanically coupled to the manual drive train and the motor is mechanically decoupled from the manual drive train. 17. A method of operating a pedal drive system of a watercraft, the pedal drive system including a manual drive train, the manual drive train including a pair of pedals, a lower unit for converting a manual pedal force input at the pedals to a thrust output at the lower unit, and an assist drive train operable to produce a torque output for the lower unit, the method comprising: transitioning the assist drive train from a disengaged position to an engaged position, wherein in the engaged position, a torque from a motor of the assist drive train is transferred to the manual drive train, and wherein in the disengaged position that motor is mechanically decoupled from the manual drive train; monitoring at least one operational parameter of the pedal drive system using a sensor arrangement and a controller; automatically transitioning the assist drive train from the engaged position to the disengaged position or from the disengaged position to the engaged position based upon a pedal state change indicated by a change in the at least one operational parameter. 18. The method of claim 17 , wherein the step of transitioning the assist drive train from the disengaged to the engaged position includes actuating a cam. 19. The method of claim 18 , wherein the ste