Computer-based representation of precipitation

What is claimed is: 1 . A method comprising: receiving, over a computer network, one or more digital precipitation records comprising a plurality of digital data values representing an occurrence of precipitation at a first plurality of locations and an intensity of precipitation at the first plurality of locations; using digitally programmed logic in an occurrence estimation module of a digital electronic weather computer, creating and storing in a precipitation database one or more precipitation occurrence fields by: repeating the following steps for each location of a second plurality of locations for each of any number of iterations: a) selecting a particular location of the second plurality of locations; b) creating a probabilistic estimate of the occurrence of precipitation at the particular location based on the occurrences of precipitation at the first plurality of locations and one or more probabilistic estimates describing the occurrence of precipitation at one or more other locations of the second plurality of locations; c) updating the one or more probabilistic estimates of the occurrence of precipitation at the one or more other locations of the second plurality of locations based on the probabilistic estimate of the occurrence of precipitation at the particular location; determining whether, during a particular iteration, one or more values changed by more than a threshold value; in response to determining that one or more values changed by more than the threshold value, performing a next iteration; in response to determining that the one or more values did not change by more that the threshold value, aggregating the probabilistic estimates of the occurrence of precipitation at the second plurality of locations into the one or more precipitation occurrence fields; using digitally programmed logic in an intensity estimation module of the weather computer, creating and storing in the precipitation database one or more precipitation intensity fields by: for each location of the second plurality of locations: creating and storing one or more data values that describe relationships between an intensity of precipitation at the location and an intensity of precipitation at one or more other locations of the second plurality of locations; creating and storing one or more distributions of the intensity of precipitation at the location, including digitally constraining the distributions by the intensity of precipitation at the one or more other locations of the second plurality of locations and/or the data values representing the intensity of precipitation at the first plurality of locations; extracting one or more data values representing probabilistic estimates for intensity based on the one or more data values that describe relationships and the one or more distributions of the intensity of precipitation at the location; aggregating the extracted one or more data values into the one or more precipitation intensity fields; using digitally programmed logic in a climate estimating module, creating and digitally storing final estimates for precipitation occurrence and intensity at one or more locations of the second plurality of locations based on the one or more precipitation occurrence fields and the one or more precipitation intensity fields. 2 . The method of claim 1 wherein creating and storing the one or more precipitation occurrence fields further comprises: creating, in digital memory of the weather computer, a coarse grid representing the occurrence of precipitation at generalized locations of the second plurality of locations; using the occurrence estimating module, creating the probabilistic estimates of the occurrence of precipitation at each of the second plurality of locations based, at least in part, on estimated occurrences from one or more of the generalized locations represented by the coarse grid. 3 . The method of claim 1 further comprising generating and storing one or more agronomic models in digital memory of the weather computer based at least in part on the final estimates for precipitation occurrence and intensity. 4 . The method of claim 3 wherein the final estimates for precipitation occurrence and intensity include one or more estimates of uncertainty, the method further comprising modifying the agronomic models and storing modified agronomic models in the digital memory by propagating the one or more estimates of uncertainty into the one or more agronomic models. 5 . The method of claim 1 further comprising: creating one or more elevation dependent variables in digital memory of the weather computer; wherein the occurrence estimation module factors in the one or more elevation dependent variables in creating the one or more precipitation occurrence fields; wherein the intensity estimation module factors in the one or more elevation dependent variables in creating the one or more precipitation intensity fields. 6 . The method of claim 1 wherein extracting one or more data values representing probabilistic estimates for intensity comprises: sampling values from the one or more distributions of the intensity of precipitation at each of the locations for one or more parameters; computing one or more likely intensities for each of the locations of the second plurality of locations based on the one or more parameters and on one or more covariates. 7 . The method of claim 6 wherein the one or more covariates include latitude, longitude, and altitude. 8 . The method of claim 6 wherein computing the one or more likely intensities comprises: creating one or more covariance matrices that includes distances of each of the second plurality of locations to each of the first plurality of locations; applying a tapering function to the one or more covariance matrices to create one or more computationally efficient covariance matrices; calculating the one or more likely intensities using the one or more computationally efficient covariance matrices. 9 . The method of claim 1 further comprising digitally augmenting the one or more precipitation intensity fields using the one or more precipitation occurrence fields. 10 . The method of claim 1 further comprising: using digitally programmed logic in a weather forecast module, generating and displaying one or more weather forecasts based, at least in part, on the final estimates for precipitation occurrence and intensity. 11 . One or more non-transitory computer readable media storing instructions which, when executed by one or more computing devices, cause performance of: receiving, over a computer network, one or more digital precipitation records comprising a plurality of digital data values representing an occurrence of precipitation at a first plurality of locations and an intensity of precipitation at the first plurality of locations; using digitally programmed logic in an occurrence estimation module of a digital electronic weather computer, creating and storing in a precipitation database one or more precipitation occurrence fields by: repeating the following steps for each location of a second plurality of locations for each of any number of iterations: a) selecting a particular location of the second plurality of locations; b) creating a probabilistic estimate of the occurrence of precipitation at the particular location based on the occurrences of precipitation at the first plurality of locations and one or more probabilistic estimates describing the occurrence of precipitation at one or more other locations of the second plurality of locations; c) updating the one or more probabilistic estimates of the occurrence of precipitation at the first plurality of l