Multiple subterranean probes at an area of land detect soil conditions and wirelessly transmit soil condition information to a service provider's backend server or to a technician's hand-held wireless device. The server provides multiple user interface screens of a customer application that display soil condition information and irrigation system status. Local micro weather stations may determine and wirelessly transmit weather condition information to the server. An energy emission detecting appliance may be used to acquire information usable to determine fluorescence of grass. The determined fluorescence may be used to train a learning model. The learning trained model may use historical soil condition and fluorescence information to determine a stress level corresponding to the grass. The stress level may be used to modify an irrigation or fertilization schedule.

In various embodiments of an analytics system, a spike-in including synthetic constructs of nucleic acid is added to soil samples for processing. The analytics system determines sequence reads classified to a microbe in the soil sample. The analytics system determines one or more measures of soil texture of the soil sample, for example, indicating percentages of sand, silt, and clay. The analytics system determines a measure of the microbe as a function of at least the classified sequence reads, the one or more measures of soil texture, and a mass of the spike-in. The analytics system can transmit the measure of the microbe to a client device for display on a user interface. A field where the soil sample was obtained can be treated according to the measure of the microbe.

An integrated stratigraphic method for determining total organic carbon (TOC) in a rock formation is provided, The method includes performing a geochemical analysis method to create a geochemical dataset; performing a chronostratigraphic method to create a chronostratigraphic dataset; performing a graphic correlation of the chronostratigaphic dataset from at least one location in the rock formation; determining a sequence stratigraphic model based on the graphic correlation; and generating a palaeogeographic reconstruction at one or more time periods by integrating the sequence stratigraphic model with the geochemical dataset to construct a predictive depositional model and determine a location and areal extent of total organic carbon within the rock formation.

An analytics system uses soil health indicators to determine metrics for soil samples. In an embodiment, the analytics system receives metadata describing a soil sample, where the metadata indicates one or more types of crops grown in a geographical location having the soil sample. The analytics system determines nucleic acid sequence reads of the soil sample. The analytics system determines taxonomic information of the nucleic acid sequence reads. The analytics system determines microbial composition of the soil sample using the taxonomic information. The analytics system determines reference metrics of soil samples from geographical locations in which the one or more types of crop were grown. The analytics system determines a metric of the soil sample using the microbial composition and the reference metrics. The analytics system transmits the metric to a client device.

The present invention provides a water quality analysis system capable of making multiple simultaneous measurements of different water quality parameters and saving or transmitting this data for analysis. A housing surrounds a data processor and a water sensor flow cell. The flow cell incorporates a channel through which a stream of water flows. Multiple probe bores within the flow cell house different sensor probes used to measure different water quality parameters of the stream. The data processor receives and digitizes data for the different water quality parameters.

A rotating apparatus and a method for measuring acid-rock reaction characteristics in high temperature and pressure are provided. The apparatus for measuring the acid-rock reaction characteristics includes: a first reactor configured to react a rock disk with an acid; a second reactor configured to produce a spent acid through reaction of a rock with an acid aqueous solution, and to introduce the spent acid into the first reactor; and a sample extractor configured to extract a predetermined amount of acid reacting with the rock disk in the first reactor. Accordingly, the rock disk is rotated in the acid at high temperature and pressure in consideration of the reaction characteristics of the rock dissolved in the acid, and then a predetermined amount of acid reacting the rock is obtained with time. In addition, a flow of an acid in a real reservoir can be implemented by producing a spent acid and then reacting the rock disk with the spent acid at a reservoir condition.

A soil profile sensing and sampling device has a soil probe and a linear actuator for applying downforce to insert the soil probe into the soil. The soil probe can be a soil sensing probe or a soil coring probe. A shuttle system is configured to allow insertion of the soil probe into the soil to a depth that exceeds a stroke length of the linear actuator. The sensing probe can be equipped with a plurality of sensors for sensing soil EC, soil optical reflectance, soil capacitance, and soil compactness. The soil data collected by the sensors can be used in a pedotransfer function to estimate soil bulk density. The soil probe can be operated in an automatic probe sampling sequence to insert the soil probe into the soil when a sampling distance interval has been met and a horizontal speed of the soil probe is approximately zero.

A biological sample analysis device that is an easily portable free-standing device for determining the rate of deterioration of biological samples.

The present disclosure proposes a portable, battery operated, calibration free, soil independent electrochemical nutrient testing device for soil health monitoring that is designed for in-field nutrient analysis and aids to monitor soil health accurately on a regular basis. The portable electrochemical nutrient testing device for soil health monitoring, comprises a function generator block, at least one screen-printed electrochemical sensor, working electrode, counter electrode, reference electrode, plurality of contact pads, voltage control module, data acquisition module, micro-controller unit, display unit, a processing module, and a location intelligence module. The portable electrochemical nutrient testing device doesn't require prior conditioning and calibration of the electrodes and does not require complex sample preparation using multiple reagents.

Systems, methods and apparatus are provided for monitoring soil properties including soil moisture, soil electrical conductivity and soil temperature during an agricultural input application. Embodiments include a soil reflectivity sensor and/or a soil temperature sensor mounted to a seed firmer for measuring moisture and temperature in a planting trench. A thermopile for measuring temperature via infrared radiation is described herein. In one example, the thermopile is disposed in a body and senses infrared radiation through an infrared transparent window. Aspects of any of the disclosed embodiments may be implemented in or communicate with an agricultural intelligence computer system as described herein.