Smart environmental probe for defensible space monitoring

The invention claimed is: 1. An environmental probe configured to be at least partially inserted into the ground at a location, the environmental probe comprising: one or more environmental sensors configured to generate environmental measurement data indicating one or more environmental measurements at the location; one or more wireless interfaces comprising: a first wireless communication interface configured to communicate with a remote device; and a second wireless communication interface configured to communicate with one or more additional environmental probes; a memory; and a processor coupled to the memory, the one or more wireless interfaces, and the one or more environmental sensors, wherein the processor is configured to: determine an alert state at the location based on the environmental measurement data; and initiate transmission of an indicator of the alert state to the remote device via the first wireless communication interface. 2. The environmental probe of claim 1 , wherein: the one or more environmental sensors comprise an air temperature sensor, a gas sensor, or both, and the environmental measurement data indicates an air temperature at the location, one or more gasses or particulates detected at the location, or both. 3. The environmental probe of claim 1 , wherein: the one or more environmental sensors comprise a soil surface temperature sensor, a moisture sensor, a soil pH sensor, or a combination thereof, and the environmental measurement data indicates a soil temperature at the location, a soil pH level at the location, a moisture level of soil at the location, or a combination thereof. 4. The environmental probe of claim 1 , wherein the processor is further configured to receive additional environmental measurement data from the one or more additional environmental probes via the second wireless communication interface, wherein the alert state is further based on the additional environmental measurement data. 5. The environmental probe of claim 1 , further comprising: a storage chamber configured to store a substance for dispersal at the location; and a detachable nose cone, the detachable nose cone comprising one or more dissolvable walls configured to dissolve to cause dispersal of the substance at the location. 6. The environmental probe of claim 1 , wherein the substance comprises weedicide, soil nutrients, insect pathogenic nematodes, water retaining hydrogels, or a combination thereof. 7. The environmental probe of claim 1 , further comprising a solar panel configured to power the one or more environmental sensors, the one or more wireless interfaces, the memory, the processor, or a combination thereof. 8. The environmental probe of claim 1 , further comprising a removable battery configured to power the one or more environmental sensors, the one or more wireless interfaces, the memory, the processor, or a combination thereof. 9. The environmental probe of claim 1 , further comprising a visual indicator configured to indicate the alert state, an error state associated with the environmental probe, or a combination thereof. 10. A method comprising: performing, using one or more environmental sensors of an environmental probe, one or more environmental measurements at a location to generate environmental measurement data, wherein the environmental probe is configured to be at least partially inserted into the ground at the location, and wherein the environmental probe comprises: a first wireless communication interface configured to communicate with a remote device; and a second wireless communication interface configured to communicate with one or more additional environmental probes; determining, at the environmental probe, an alert state based on the environmental measurement data; and transmitting an indicator of the alert state from the environmental probe to the remote device via the first wireless communication interface. 11. The method of claim 10 , wherein determining the alert state comprises: comparing the environmental measurement data to a gas level threshold, a particle level threshold, an air temperature increase rate threshold, a soil temperature increase rate threshold, a soil pH level threshold, a moisture threshold, or a combination thereof; and determining that the alert state exists based on the environmental measurement data satisfying the gas level threshold, the particle level threshold, the air temperature increase rate threshold, the soil temperature increase rate threshold, the soil pH level threshold, the moisture threshold, or a combination thereof. 12. The method of claim 10 , further comprising: determining whether an error condition is associated with the environmental probe; determining whether a power level associated with the environmental probe fails to satisfy a power level threshold; and transmitting a message to the remote device based on a determination of the error condition, the power level failing to satisfy the power level threshold, or a combination thereof, the message indicating the error condition, a low power condition, or a combination thereof. 13. A system for defensible space monitoring, the system comprising: one or more environmental probes configured to be at least partially inserted into the ground at one or more locations, wherein each of the one or more environmental probes include: one or more environmental sensors configured to generate environmental measurement data indicating one or more environmental measurements at one of the one or more locations; one or more wireless interfaces; a memory; and a processor coupled to the memory, the one or more wireless interfaces, and the one or more environmental sensors; and a hub device associated with a structure and configured to communicate with the one or more environmental probes to receive one or more alert messages from the one or more environmental probes based on the environmental measurement data generated by the one or more environmental probes, wherein the hub device is further configured to communicate with one or more smart devices associated with the structure to control the one or more smart devices based on receipt of the one or more alert messages. 14. The system of claim 13 , further comprising: at least one substance dispersal device configured to be at least partially inserted into the ground at one or more locations, wherein a first substance dispersal device of the at least one substance dispersal device comprises: one or more outer walls that define a storage chamber within the first substance dispersal device, the storage chamber configured to store a substance for dispersal; and a nose cone configured to enable insertion of the first substance dispersal device into the ground at a first location, wherein the nose cone and the one or more outer walls are configured to dissolve to cause dispersal of the substance at the first location. 15. The system of claim 14 , wherein: the first substance dispersal device further comprises one or more additional walls within a cavity of the first substance dispersal device that is defined by the one or more outer walls; and the one or more additional walls surround and define the storage chamber. 16. The system of claim 14 , wherein the one or more outer walls and the nose cone are formed entirely of biodegradable materials. 17. The system of claim 14 , wherein the first substance dispersal device further comprises: one or more environmental sensors configured to generate environmental measurements corresponding to the