SU490436A1 - Method for maintaining optimal water regime of heavy soils during drainage - Google Patents

Description

The invention relates to drainage amelioration, it can be used in agriculture and forestry. There is a known method for maintaining the optimum soil water regime, which includes determining the soil moisture and the groundwater level and maintaining the latter at a predetermined level that ensures the moisture content of the soil layer within 60-80% of the relative soil moisture. The disadvantage of this method is unsatisfactory moisture supply of plants in certain phenological phases of their development, as well as in conditions of increased intensity of the meteorological situation. The purpose of the invention is to obtain maximum yield on the heavy soils of the humid zone. This goal is achieved due to the fact that the moisture distribution of the capillary rim is determined and the groundwater is maintained at a level at which the upper boundary of the transition zone is located on the surface of the soil. The determination of the optimum level of groundwater can be carried out in field (option 1) and in laboratory (option 2) conditions. Option 1. On the site of the soil to be drained, free from vegetation and isolated from atmospheric precipitation, a well is laid and the groundwater level relative to the soil surface is determined. Then, from the soil surface to the groundwater table, the soil moisture (as a percentage of the absolute dry weight) is determined in layers, with a gradation of 10 cm and the moisture distribution in the capillary border (above the groundwater level) is found, the height of the lower zone is determined ( full saturation zone) and the height of the mid-transition zone (the zone where humidity decreases from bottom to top). The optimum level of groundwater is the sum of the heights of the lower and middle zones of the capillary rim in the soil. If, for example, the height of the lower zone, starting from the groundwater level to the lower boundary of the middle transition zone, is 30 cm, and the height of the middle transition zone from its lower to upper border is 60 cm, then the optimum groundwater level will be 90 cm (30 cm + 60 cm 90 cm). Therefore, at the level of groundwater in the study area 70 cm, it must be lowered to the optimum by 20 cm (90 cm-70 cm 20 cm).

Option 2.

The soil monolith is separated from the soil, immersed in water at one or another depth, the distribution of backed capillary moisture in the soil monolith over water is determined, and the position of the monolith in the latter is found at which the upper boundary of the transition zone of the capillary border would be located on surface of the soil monolith. The height from the water level to the surface of the soil monolith will be the optimum groundwater level for the soil.

Subject invention

The method of maintaining the optimum water regime of heavy soils during drainage, including the determination of soil moisture, groundwater depth and maintaining it at a predetermined level, characterized in that, in order to obtain maximum yield on heavy soils of the humid zone,

the distribution of capillary moisture over the groundwater, the depth of the latter is set and maintained at a level at which the upper boundary of the transition zone of the capillary rim is located on the soil surface.