Аннотация:In complex physiographic studies, microclimate observations have been widely used, which are carried out at several points or along a profile. The basic principle of such observations is the simultaneous determination of meteorological elements. However, these studies are very time consuming and require a large number of measurements, which limits their use. Therefore, in practice, they are most often limited to semi-stationary studies, which are short repeated observations that do not give a complete picture of natural regimes in geosystems. With the advent of modern low-cost information and measurement systems, it became possible to experimentally determine the meteorological parameters in stationary studies. In our opinion, the greatest perspective is the use of a combination of modern software (information) mathematical means for modeling soil and atmospheric heat and moisture transport and measurement systems that allow us to obtain experimental values of the boundary and initial conditions of the design schemes. Such an approach will significantly reduce the share of instrumental resources in obtaining meteorological information without loss of accuracy and minimization of the work on experimental provision of input parameters. The article deals with the organization of distributed networks for solving monitoring tasks in landscape and geoecological research. The description of the created model of the information-measuring system for microclimatic observations, including all hierarchical levels of the information-measuring system - from the sensor to the user (client), is described. To connect sensors via GPRS-channel to the "cloud" service, a network gateway is used. The test tests of the created model sample of the information and measuring system confirm the correctness of the chosen approach. The instruments of this system can be easily replicated and, if detailed instructions are available, be used by specialists in the field of landscape and geoecological research