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• W1983713424 abstract "Abstract An artificial osmotic cell has been constructed using reverse osmosis membranes. The cell consisted of a thin film of an osmotic solution (thickness: 100 to 200 μm) containing a non-permeating solute and was bounded between the membrane and the front plate of a pressure transducer which continuously recorded cell turgor. The membrane was supported by metal grids to withstand positive and negative pressures (P). At maximum, negative pressures of up to –0.7 MPa (absolute) could be created within the film on short-term and pressures of up to –0.3 MPa could be maintained without cavitation for several hours. As with living plant cells, the application of osmotic solutions of a non-permeating solute resulted in monophasic relaxations of turgor pressure from which the hydraulic conductivity of the membrane (Lp) and the elastic modulus of the cell (ɛ) could be estimated. The application of solutions with permeating solutes resulted in biphasic pressure relaxation curves (as for living cells) from which the permeability (Ps) and reflection (σs) coefficients could be evaluated for the given membrane. Lp, Ps, and σs were independent of P and did not change upon transition from the positive to the negative range of pressure. It is concluded that the artificial cell could be used to simulate certain transport properties of living cells and to study phenomena of negative pressure as they occur in the xylem and, perhaps, also in living cells of higher plants." @default.
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• W1983713424 date "1988-09-01" @default.
• W1983713424 modified "2023-10-18" @default.
• W1983713424 title "An artificial osmotic cell: a model system for simulating osmotic processes and for studying phenomena of negative pressure in plants" @default.
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• W1983713424 doi "https://doi.org/10.1111/j.1365-3040.1988.tb01805.x" @default.
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