Method of planting multiple seed varieties

We claim: 1. A method of planting multiple seed varieties during a single planting session with a multiple variety seed planter with a direct vacuum system, the method comprising: delivering seed of a first seed variety from a seed meter having a metering member of a row unit of a multiple variety planter; operating a fan associated with the row unit to apply a first vacuum pressure to the metering member of the seed meter independently of at least one other row unit to hold the seeds of the first seed variety against the metering member with the first vacuum pressure that corresponds to a characteristic of the first seed variety; switching delivery of seed to the seed meter from the first seed variety to a second seed variety; and operating a fan associated with the row unit to apply a second vacuum pressure to the metering member of the seed meter to hold the seeds of the second seed variety against the metering member with the second vacuum pressure that corresponds to a characteristic of the second seed variety. 2. The method of claim 1 , further comprising: determining a mixture phase corresponding to a switchover event for changing between which of the first and second seed types is delivered from the seed meter and during which seeds of both of the first and second seed varieties are in a seed pool of the seed meter; and controlling a vacuum unit at the row unit based on the mixture phase. 3. The method of claim 2 , further comprising: wherein the vacuum unit is controlled to apply a greater one of the first and second vacuum pressures to the seed meter during the mixture phase. 4. The method of claim 3 , wherein during the mixture phase, while applying the greater one of the first and second vacuum pressures to the seed meter, the method further comprises: evaluating occurrences of multiples corresponding to multiple seeds being released from the seed meter during a release event and when multiples are detected, and controlling the vacuum unit to decrease the vacuum pressure. 5. The method of claim 4 , further comprising: controlling the vacuum unit to decrease the vacuum pressure to an intermediate vacuum pressure that has a value between the first and second vacuum pressures. 6. The method of claim 5 , further comprising: continuing to evaluate occurrences of multiples while the vacuum unit applies the intermediate vacuum pressure and when multiples are detected, controlling the vacuum unit to decrease the vacuum pressure to apply the lower one of the first and second vacuum pressures to the seed meter during the mixture phase. 7. The method of claim 3 , further comprising: wherein the vacuum unit is controlled to apply a lower one of the first and second vacuum pressures to the seed meter during the mixture phase. 8. The method of claim 7 , wherein during the mixture phase, while applying the lower one of the first and second vacuum pressures to the seed meter, further comprises: evaluating occurrences of skips corresponding to no seeds being released from the seed meter during a release event, and when skips are detected, controlling the vacuum unit to increase the vacuum pressure. 9. The method of claim 8 , further comprising: controlling the vacuum unit to increase the vacuum pressure to an intermediate vacuum pressure that has a value between the first and second vacuum pressures. 10. The method of claim 9 , further comprising: continuing to evaluate occurrences of skips while the vacuum unit applies the intermediate vacuum pressure and when skips are detected, controlling the vacuum unit to increase the vacuum pressure to apply the greater one of the first and second vacuum pressures to the seed meter during the mixture phase. 11. A method of planting multiple seed varieties during a single planting session with a multiple variety seed planter with a direct vacuum system, the method comprising: delivering seed of a first seed variety from a seed meter having a metering member of a row unit of a multiple variety planter; rotating a fan supported by the row unit at a first rotational speed to generate a first vacuum pressure to the metering member of the seed meter independently of at least one other row unit to hold the seeds of the first seed variety against the metering member with the first vacuum pressure that corresponds to a characteristic of the first seed variety; switching delivery of seed to the seed meter from the first seed variety to a second seed variety; and rotating the fan supported by the row unit at a second rotational speed to generate a second vacuum pressure to the metering member of the seed meter to hold the seeds of the second seed variety against the metering member with the second vacuum pressure that corresponds to a characteristic of the second seed variety. 12. The method of claim 11 , further comprising: determining a mixture phase corresponding to a switchover event for changing between which of the first and second seed types is delivered from the seed meter and during which seeds of both of the first and second seed varieties are in a seed pool of the seed meter; and controlling a vacuum unit at the row unit based on the mixture phase. 13. The method of claim 12 , further comprising: wherein the vacuum unit is controlled to apply a greater one of the first and second vacuum pressures to the seed meter during the mixture phase. 14. The method of claim 13 , wherein during the mixture phase, while applying the greater one of the first and second vacuum pressures to the seed meter, the method further comprises: evaluating occurrences of multiples corresponding to multiple seeds being released from the seed meter during a release event and when multiples are detected, and controlling the vacuum unit to decrease the vacuum pressure. 15. The method of claim 14 , further comprising: controlling the vacuum unit to decrease the vacuum pressure to an intermediate vacuum pressure that has a value between the first and second vacuum pressures. 16. A method of planting multiple seed varieties during a single planting session with a multiple variety seed planter with a direct vacuum system, the method comprising: delivering seed of a first seed variety from a seed meter having a metering member of a row unit of a multiple variety planter; operating a vacuum unit supported by the row unit at a first vacuum pressure to the metering member of the seed meter independently of at least one other row unit to hold the seeds of the first seed variety against the metering member with the first vacuum pressure that corresponds to a characteristic of the first seed variety; and operating a vacuum unit supported by the row unit at a second vacuum pressure to the metering member of the seed meter to hold the seeds of the second seed variety against the metering member with the second vacuum pressure that corresponds to a characteristic of the second seed variety. 17. The method of claim 16 , further comprising: wherein the vacuum unit is controlled to apply a greater one of the first and second vacuum pressures to the seed meter during the mixture phase. 18. The method of claim 17 , further comprising: wherein the vacuum unit is controlled to apply a lower one of the first and second vacuum pressures to the seed meter during the mixture phase. 19. The method of claim 18 , wherein during the mixture phase, while applying the lower one of the first and second vacuum pressures to the seed meter, the method further comprises: evaluating occurrences of skips corresponding t