Cartridge-based sensor system for monitoring properties of field soils and wastewater

What is claimed is: 1. A sensor system for monitoring properties of field soils and wastewater, the sensor system comprising: a cartridge system implemented with an integrated circuit, the cartridge system comprising: a chemical sensor including a chemically-sensitive field effect transistor (ChemFET) and a micro-reference electrode; the chemical sensor configured to receive a sample of a test material; the chemical sensor configured to detect the sample of the test material; the chemical sensor configured to determine, based on the ChemFET and micro-reference electrode interacting with the detected sample of the test material, a measure of a property in the test material; a computer processor that is coupled to the chemical sensor and that is configured to receive, from the chemical sensor, the measure of the property in the test material; the computer processor configured to compute, based on, at least in part, the measure of the property in the test material, a concentration level of the property in the test material; the computer processor configured to generate an output that includes the concentration level of the property in the test material; and a transmitter that is coupled to the chemical sensor and the computer processor; the transmitter configured to establish a communications connection with at least one computer device and to communicate the output to the at least one computer device. 2. The sensor system of claim 1 , further comprising an agricultural machine including the at least one computer device; and wherein the at least one computer device uses the output to control the at least one agricultural machine as the at least one agricultural machine performs agricultural tasks in an agricultural field. 3. The sensor system of claim 1 , wherein calculating the concentration level of the property in the test material includes calculating a concentration level of nitrate. 4. The sensor system of claim 1 , wherein the test material is any of: soil, wastewater, standing water, or irrigation system water. 5. The sensor system of claim 1 , wherein the cartridge system implemented in the integrated circuit is integrated in any of: a soil probe system, a wastewater monitoring system, an irrigation monitoring system, an on-the-go monitoring system, or a handheld spot measurement system. 6. The sensor system of claim 1 , wherein the micro-reference electrode includes an ion selective electrode (“ISE”). 7. The sensor system of claim 1 , wherein the chemical sensor includes a nitrate selective membrane in communication with the ChemFET, and wherein the nitrate selective member is configured to cause an electrochemical response; and wherein the ChemFET is configured to measure the electrochemical response as a direct log function of a concentration of nitrate at a surface of the nitrate selective membrane. 8. The sensor system of claim 1 , wherein the cartridge system implemented in the integrated circuit is installed in any of: a field soil probe, a handheld device, a soil sampler, an on-the-go system, or water lines; wherein the water lines include one or more of: tile lines, irrigation lines, or wastewater effluent collection lines. 9. The sensor system of claim 1 , wherein the cartridge system implemented in the integrated circuit is installed in a sealed housing that protects the chemical sensor from ingress of moisture and dust; wherein the sealed housing is installed on a measurement platform. 10. A computer-implemented method for determining properties of field soils and wastewater, the method comprising: receiving, by a chemical sensor of a cartridge system implemented with an integrated circuit, a sample of a test material; detecting, by the chemical sensor, the sample of the test material; determining, by the chemical sensor, based on a chemically-sensitive field effect transistor (ChemFET) and a micro-reference electrode of the chemical sensor interacting with the detected sample of the test material, a measure of a property in the test material; receiving, by a computer processor of the cartridge system implemented in an integrated circuit, from the chemical sensor, the measure of the property in the test material; calculating, by the computer processor, based on, at least in part, the measure of the property in the test material, a concentration level of the property in the test material; generating, by the computer processor, an output that includes the concentration level of the property in the test material. 11. The method of claim 10 , further comprising: transmitting the output to at least one computer device configured on at least one agricultural machine; and controlling the at least one agricultural machine, based on the output, as the at least one agricultural machine performs agricultural tasks in an agricultural field. 12. The method of claim 10 , wherein calculating the concentration level of the property in the test material includes calculating a concentration level of nitrate. 13. The method of claim 10 , wherein the test material is any of: soil, wastewater, standing water, or irrigation system water. 14. The method of claim 10 , wherein the cartridge system implemented in the integrated circuit is integrated in any of: a soil probe system, a wastewater monitoring system, an irrigation monitoring system, an on-the-go monitoring system, or a handheld spot measurement system. 15. The method of claim 10 , wherein the micro-reference electrode includes an ion selective electrode (“ISE”). 16. The method of claim 10 , wherein determining the measure of the property in the test material comprises: causing, by a nitrate selective member, an electrochemical response; and measuring, by the ChemFET, the electrochemical response as a direct log function of a concentration of nitrate at a surface of a nitrate selective membrane. 17. The method of claim 10 , wherein the cartridge system implemented in the integrated circuit is installed in any of: a field soil probe, a handheld device, a soil sampler, an on-the-go system, or water lines; wherein the water lines include one or more of: tile lines, irrigation lines, or wastewater effluent collection lines. 18. The method of claim 10 , wherein the cartridge system implemented in the integrated circuit is installed in a sealed housing that protects the chemical sensor from ingress of moisture and dust; wherein the sealed housing is installed on a measurement platform.