W. Michael scite author profile

W. Michael

3Publications

24Citation Statements Received

56Citation Statements Given

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Humboldt-Universität zu Berlin

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Exchange diffusion of alkali ions through the apoplast of the potato (Soianum tuberosum L.) storage parenchyma

Michael

Ehwald

1996

Plant Cell & Environment

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Interdiffusion coefficients of K and Na for tangential transport through cell walls were found to be independent of ion strength and only moderately (c. 50%) lower than values known for diffusion in water. Although at low salt concentrations alkali ion exchange diffusion on the cell wall pathway is facilitated by accumulation of diffusing species in the Donnan space, at all concentrations the resistance of the whole tissue for apoplastic cation exchange diffusion remained significantly higher than that of unstirred liquid of equal thickness, as the area fraction of the cell wall pathway in the parenchyma is small.

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Apoplasmic and Protoplasmic Water Transport through the Parenchyma of the Potato Storage Organ

Michael

Schultz

Meshcheryakov

et al. 1997

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(W.M., A.S., R.E.); and Timiryasev-lnstitute of Plant Physiology, Russian Academy of Sciences, 127 276 MOSCOW, Botanicheskaya Ulica, 35, Russia (A.B.M.) Stationary volume fluxes through living and denatured parenchyma slices of the potato (Solanum tuuberosum L.) storage organ were studied to estimate the hydraulic conductivity of the cell wall and to evaluate the significance of water transport through protoplasts, cell walls, and intercellular spaces. Slices were placed between liquid compartments, steady-state fluxes induced by pressure or concentration gradients of low-and high-molecular-mass osmotica were measured, and water transport pathways were distinguished on the basis of their difference in limiting pore size. The protoplasts were the dominating route for osmotically driven water transport through living slices, even in the case of a polymer osmoticum that is excluded from cell walls. The specific hydraulic conductivity of the cell wall matrix is too small to allow a significant contribution of the narrow cell wall bypass to water flow through the living tissue. This conclusion is based on (a) ultrafilter coefficients of denatured parenchyma slices, (b) the absence of a significant difference between ultrafilter coefficients of the living tissue slices for osmotica with low and high cell wall reflection coefficients, and (c) the absence of a significant interaction (solvent drag) between apoplasmic permeation of mannitol and the water flux caused by a concentration difference of excluded polyethylene glycol. Liquid-filled intercellular spaces were the dominating pathways for pressure-driven volume fluxes through the parenchyma tissue.In textbooks and reviews (Anderson, 1976; Lauchli, 1976;Pitman, 1977), the nonspecialized apoplast is usually considered more permeable to water than the protoplast or the symplast. However, severa1 authors (

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Gas and Liquids in Intercellular Spaces of Maize Roots

Michael¹,

Cholodova²,

Ehwald³

1999

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W. Michael

Exchange diffusion of alkali ions through the apoplast of the potato (Soianum tuberosum L.) storage parenchyma

Apoplasmic and Protoplasmic Water Transport through the Parenchyma of the Potato Storage Organ

Gas and Liquids in Intercellular Spaces of Maize Roots

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