Agricultural data analysis

The invention claimed is: 1. A computer-implemented method of monitoring operations of agricultural regions, comprising: receiving, by a processor, a real-time identification of one or more agricultural regions from a first device traveling in the one or more agricultural regions; transmitting data for a first graphical user interface (GUI) to be displayed to a user, the first GUI comprising one or more selectable user interface objects enabling the user to identify changes to one or more of an agricultural region of the one or more agricultural regions, soil, crops, tillage, or nutrient practices, wherein the changes can be used to generate trial information for an agricultural trial for the one or more agricultural regions; receiving, by the processor, trial information from the user, wherein the trial information is generated based on the changes identified via selection of one or more of the user interface objects; sending, by the processor, a command to vary a value of a specific agricultural variable in each of the one or more agricultural regions based on the received trial information; receiving, after the sending, current yield data of a crop yield for each of the one or more agricultural regions; determining a correlation between the specific agricultural variable and the crop yield over the one or more agricultural regions based on the command and the current yield data; receiving cost data related to the specific agricultural variable; generating a recommendation for improving the crop yield in the one or more agricultural regions based on the correlation and the cost data; sending data related to the recommendation to a second device for implementing the recommendation in the one or more agricultural regions or a user device coupled to the second device, wherein the data is for a second GUI that displays information corresponding to the recommendation for the one or more agricultural regions. 2. The computer-implemented method of claim 1 , the specific agricultural variable being a farming practice, a planting parameter, or a nutrient application parameter. 3. The computer-implemented method of claim 1 , the receiving the real-time identification comprising: receiving, in real time, a first selection of an option and a first indication of a first location of the first device; receiving, in real time, a second selection of the option and a second indication of a second location of the first device different from the first location, the real-time identification of an agricultural region of the one or more agricultural regions being based on the first location and the second location of the first device. 4. The computer-implemented method of claim 1 , the first device or a separate device physically attached to the first device being configured to perform a farming operation corresponding to the specific agricultural variable. 5. The computer-implemented method of claim 1 , the command being sent to a third device, the third device being configured to vary the value of the specific agricultural variable in an agricultural region, the current yield data being received from the third device, the current yield data being already partitioned based on the real-time identification of the one or more agricultural regions when received from the third device. 6. The computer-implemented method of claim 1 , the command indicating creating one or more trials involving varying a value of each of one or more agricultural variables, the determining comprising detecting a correlation between an agricultural variable of the one or more agricultural variables and the crop yield from a trial of the one or more trials. 7. The computer-implemented method of claim 1 , further comprising receiving price data related to the crop yield, the recommendation being generated further based on the price data. 8. The computer-implemented method of claim 1 , further comprising sending, to the second device, information indicating a relationship between a cost of varying a value of the specific agricultural variable in an agricultural region and a profit of an increased crop yield, where the increased crop yield is based on comparing a first yield corresponding to not varying the value of the specific agricultural variable in the agricultural region with a second yield corresponding to varying the value of the specific agricultural variable in the agricultural region. 9. The computer-implemented method of claim 1 , further comprising causing a display of a comparison screen including values of a plurality of agricultural variables for two agricultural regions of the one or more agricultural regions or for two seasons of an agricultural region of the one or more agricultural regions. 10. The computer-implemented method of claim 9 , the plurality of agricultural variables including the specific agricultural variable and a second agricultural variable a value of which was not varied in the trial. 11. One or more non-transitory computer-readable storage media storing instructions which when executed cause one or more processors to perform a method of monitoring operations of agricultural regions, the method comprising: receiving a real-time identification of one or more agricultural regions from a first device traveling in the one or more agricultural regions; transmitting data for a first graphical user interface (GUI) to be displayed to a user, the first GUI comprising one or more selectable user interface objects enabling the user to identify changes to one or more of an agricultural region of the one or more agricultural regions, soil, crops, tillage, or nutrient practices, wherein the changes can be used to generate trial information for an agricultural trial for the one or more agricultural regions; receiving trial information from the user, wherein the trial information is generated based on the changes identified via selection of one or more of the user interface objects; sending a command to vary a value of a specific agricultural variable in each of the one or more agricultural regions based on the received trial information; receiving, after the sending, current yield data of a crop yield for each of the one or more agricultural regions; determining a correlation between the specific agricultural variable and the crop yield over the one or more agricultural regions based on the command and the current yield data; receiving cost data related to the specific agricultural variable; generating a recommendation for improving the crop yield in the one or more agricultural regions based on the correlation and the cost data; sending data related to the recommendation to a second device for implementing the recommendation in the one or more agricultural regions or a user device coupled to the second device, wherein the data is for a second GUI that displays information that corresponds to the recommendation for the one or more agricultural regions. 12. The one or more non-transitory computer-readable storage media of claim 11 , the specific agricultural variable being a farming practice, a planting parameter, or a nutrient application parameter. 13. The one or more non-transitory computer-readable storage media of claim 11 , the receiving the real-time identification comprising: receiving, in real time, a first selection of an option and a first indication of a first location of the first device; receiving, in real time, a second selection of the option and a second indication of a second location of the first device different from the first location, the real-time identification of an agricultural region of the one or more agricultural regions