SU1395209A1 - Model of root system of plants - Google Patents

Abstract

The invention relates to agriculture, in particular to a device: -; to simulate the process of absorbing water by the root system of a plant. The purpose of the invention is to provide a study of water transfer in the soil by simulating the process of water absorption by the root system during its development, ii iiiiTdTopo; roots in the form of per- nirpunoBariHL.ix TpvuOK 2 placed; in the lysimeter 1 s: yuch} 3rd. Inside the perforated BcHiit-vx of tubes C: the capillary tubes of the tube 4 "on; -; which are primed; lgs are rods 3 with pistons 6. The capillary tubes with porous to - and move in the perforative tubes, change the area of the absorptive zone - 1; and the water of the limited lower ends of the capillary tubes and pistons The size of the absorption zone is changed by moving the piston 6 along the rod 5, Water from the soil is sucked in by the stimulator pacxozia 9 through the hydraulic collector 7 B herme TiiuKyic drain tank 8, where it is shrunk from ep etc 1 C. U-JTIJ, C (O

Description

The invention relates to agriculture, and in particular to devices for modeling the process of water absorption by the root system of a plant.

Stump of invention - providing

J studying water transport in soil by simulating the process of water absorption by the root system in the process of its development.

The drawing shows a diagram of a model of the root system.

The model includes a lysimeter 1 with soil, in which root simulators are placed, made in the form of perforated tubes 2 fixed in a plate 3. Inside the perforated tubes 2, capillary tubes 4 are placed with the possibility of longitudinal movement. A rod 5 is attached to the lower end of each capillary tube 4 with a fixed on it with the possibility of movement by the piston 6, and the upper ends of the capillary tubes 4 are fixed in an airtight collector 7 "Collector 7 is connected in series with an airtight drain tank 8 and flow driver 9" Kapil The inner tubes 4 and pistons 6 are placed with the possibility of contacting the inner walls of the perforated tubes 2. The perforation area is made decreasing along the length of the perforated tubes 2 in the direction of the collector 7.

The device operates as follows

The capillary tubes 4 are lowered in the perforated tubes 2 so that the absorbing part between the piston 6 and the lower ends of the tubes 4 is at the root propagation depth in the initial stage of vegetation. As the root system grows, the tubes 4 with pistons 6 sink to the corresponding depth. In this case, the plowing of the absorption zone is regulated by changing the position of the piston 6 on the rod 5,

A flow driver, for example a vacuum pump, draws water from a lysimeter 1 through tubes 2 and 4 into a collector 7 and then into a drain tank 8: The amount of absorbed water is measured in a drain tank,

Claims (2)

1 _; A model of plant coony. Including spatially located root simulators. It is not necessary with ₅ that, in order to ensure the study of water transfer in soil by simulating the process of water absorption by the root system in the process of its development, root simulators are made in the form of perforated tubes , inside which capillary tubes are placed with the possibility of longitudinal movement, while a rod is attached to the lower end of each capillary tube with a piston fixed to it, and the upper ends of the capillary tubes are fixed in g rmetichnom collector connected in series with a sealed drain flow capacity and driving force, wherein the capillary tube and the pistons are arranged to contact with the inner walls of the perforated tubes. 2. The model according to claim 1; It is important that the perforation area is made with a decrease in the length of the perforated tubes towards the collector.