Systems, methods, and apparatus for agricultural implement trench depth control and soil monitoring

The invention claimed is: 1. A control and monitoring system for an agricultural implement having a plurality of row units, comprising: a depth control actuator associated with at least one of the plurality of row units and configured to adjust a depth of a trench opened by the at least one of the plurality of row units; a seed firmer having a lower portion resiliently contacting a bottom of said trench and capable of firming seeds into the bottom of said trench; a soil temperature sensor associated with the at least one of the plurality of row units and configured to measure soil temperature at a lower portion of said trench, wherein said soil temperature sensor is mounted to said seed firmer and is in contact with said lower portion of said trench; and a processor in electrical communication with said depth control actuator and said soil temperature sensor, said depth control actuator responsive to said processor to modify said depth of said trench based on said measured soil temperature. 2. The control and monitoring system of claim 1 , wherein said soil temperature sensor comprises a thermocouple. 3. The control and monitoring system of claim 1 , further comprising: a soil moisture sensor associated with the at least one of the plurality of row units and configured to measure moisture at the bottom of said trench, wherein said processor is in electrical communication with said soil moisture sensor, said depth control actuator responsive to said processor to modify said depth of said trench based on said measured soil moisture. 4. The control and monitoring system of claim 1 , wherein said soil temperature sensor is housed at least partially within said seed firmer. 5. The control and monitoring system of claim 1 , wherein said processor compares said measured soil temperature to a desired temperature range and reduces said depth if said measured soil temperature is less than said desired temperature range. 6. The control and monitoring system of claim 1 , wherein said processor causes said depth control actuator to reduce said depth of said trench to a modified depth and determines whether said measured soil temperature is greater at said modified depth, and wherein said processor causes said depth control actuator to increase said depth of said trench if said measured soil temperature is not greater at said modified depth. 7. A control and monitoring system for an agricultural implement having a plurality of row units, comprising: a depth control actuator associated with at least one of the plurality of row units and configured to adjust a depth of a trench opened by the at least one of the plurality of row units; a seed firmer having a lower portion resiliently contacting a bottom of said trench and capable of firming seeds into the bottom of said trench; a soil moisture sensor associated with the at least one of the plurality of row units and configured to measure soil moisture at a lower portion of said trench, wherein said soil moisture sensor is mounted to said seed firmer and is in contact with said lower portion of said trench; and a processor in electrical communication with said depth control actuator and said soil moisture sensor, said depth control actuator responsive to said processor to modify said depth of said trench based on said measured soil moisture. 8. The control and monitoring system of claim 7 , wherein said soil moisture sensor comprises a reflectivity sensor. 9. The control and monitoring system of claim 7 , wherein said soil moisture sensor is housed at least partially within said seed firmer. 10. The control and monitoring system of claim 9 , further comprising: a soil temperature sensor associated with the at least one of the plurality of row units and configured to measure a temperature at the bottom of said trench, wherein said processor is in electrical communication with said soil moisture sensor, said depth control actuator responsive to said processor to modify said depth of said trench based on said measured soil temperature. 11. The control and monitoring system of claim 10 , wherein said soil temperature sensor is housed at least partially within said seed firmer. 12. The control and monitoring system of claim 7 , wherein said processor compares said measured moisture to a desired moisture range and causes said depth control actuator to increase said depth of said trench if said measured soil moisture is less than said desired moisture range. 13. The control and monitoring system of claim 7 , wherein said processor causes said depth control actuator to increase said depth of said trench to a modified depth and determines whether said soil moisture is greater at said modified depth, and wherein said processor causes said depth control actuator to reduce said depth of said trench if said measured soil moisture is not greater at said modified depth. 14. A monitoring system for an agricultural implement having a plurality of row units, comprising: a soil temperature sensor associated with at least one of the plurality of row units and configured to measure a soil temperature at a lower portion of a trench opened by the at least one of the plurality row units; a processor in electrical communication with said soil temperature sensor; a display in electrical communication with said processor, said display displaying said measured soil temperature; and a seed firmer disposed to firm seeds in said trench, a lower portion of said seed firmer resiliently contacting a bottom of said trench and capable of firming seeds into the bottom of said trench, wherein said soil temperature sensor is mounted to said seed firmer and is in contact with a lower portion of said trench. 15. The monitoring system of claim 14 , wherein said soil temperature sensor comprises a thermocouple. 16. The monitoring system of claim 14 , further comprising: a soil moisture sensor associated with at least one of the plurality of row units and configured to measure soil moisture at the bottom of said trench, wherein said processor is in electrical communication with said soil moisture sensor, said display displaying said measured soil moisture. 17. The monitoring system of claim 16 , wherein said soil moisture sensor is housed at least partially within said seed firmer. 18. A monitoring system for an agricultural implement having a plurality of row units, comprising: a soil moisture sensor associated with at least one of the plurality of row units and configured to measure soil moisture at a lower portion of a trench opened by the at least one of the plurality of row units; a processor in electrical communication with said soil moisture sensor; a display in electrical communication with said processor, said display displaying said measured soil moisture; and a seed firmer disposed to firm seeds in said trench, a lower portion of said seed firmer resiliently contacting a bottom of said trench and capable of firming seeds into the bottom of said trench, wherein said soil moisture sensor is mounted to said seed firmer and is in contact with a lower portion of said trench. 19. The monitoring system of claim 18 , further comprising: a soil temperature sensor associated with the at least one of the plurality of row units and configured to measure soil temperature at the bottom of said trench, wherein said processor is in electrical communication with said soil temperature sensor, said display displaying said measured soil moisture. 20. The monitoring system of claim 19 , wherein said soil temperature sen