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Operation of contractile vacuoles in the euryhaline green flagellate Chlamydomonas pulsatilla (Chlorophyceae) as a function of salinity (1989)

Hellebust, J. A. ; Mérida, T. ; Ahmad, I.

Springer

Marine biology 100 (1989), S. 373-379

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ISSN: 1432-1793

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Chlamydomonas pulsatilla Wollenweber, a euryhaline, marine flagellate (isolated from rockpool at St. Andrew's, New Brunswick, Canada in 1980 by J. A. Hellebust), shows decreasing rates of activity of its four contractile vacuoles in the salinity range of 0 to 15% artificial seawater (ASW). Electron microscopy shows that the contractile vacuole complex persists as a spongiome (collection of small vesicles or tubules) in cells grown at salinities above the range for operation of contractile vacuoles. From calculations of rates of water expulsion, based on size and frequency of contraction of individual vacuoles determined by light microscopy, the time necessary to empty one cell volume increased from ca 20 min at 1% ASW to ca 600 min at 15% ASW. Analysis of inorganic and organic solute contents of cells grown at 1 and 5% ASW allowed the calculation of internal osmotic pressures. Estimates of hydraulic conductivities based on rates of water expulsion via contractile vacuoles and differences in internal and external osmotic pressures resulted in values ranging from 1.1 to 1.4×10-14 m s-1 Pa-1 for individual cells. Growth experiments at low photon flux densities over a salinity range of 1 to 15% ASW, over which contractile vacuole activity varied by a factor of 30, showed little difference in growth rates. This indicates that the cost for operation of contractile vacuoles must be very low. The secretion of large molecular weight organic substances does not appear to be associated with the functioning of contractile vacuoles.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00391153

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Distribution of aluminium in accumulator plants by X-ray microanalysis in Richeria grandis Vahl leaves from a cloud forest in Venezuela (1991)

CUENCA, G. ; HERRERA, R. ; MÉRIDA, T.

Oxford, UK : Blackwell Publishing Ltd

Plant, cell & environment 14 (1991), S. 0

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ISSN: 1365-3040

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: Abstract. The leaf cells of a tropical tree which accumulates more than 1mg per gram dry weight of Al in its leaves were studied by X-ray microanalysis. The analyses made in cell walls, vacuoles and chloroplasts of a mature leaf showed that A1 is accumulated preferentially in the cell wall. In the pre-senescent leaf, A1 also invades the interior of cells and is deposited in chloroplasts and vacuole. Aluminium was found also in xylem vessels but only in traces in phloem tissue. It was not found in spongy parenchyma cells. The observed A1 distribution, i.e. at the adaxial leaf face, coincides with observed damage in tissues of pre-senescent leaves. The means by which this plant copes with Al under natural conditions seems to be partially preventing it from entering the cell by deposition in cell walls. A hypothesis about the pathways of Al in accumulator plants is proposed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1365-3040.1991.tb00954.x

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Fine structure of plant cuticles in relation to water permeability: The fine structure of the cuticle of Clivia miniata reg. leaves (1981)

Mérida, T. ; Schönherr, J. ; Schmidt, H. W.

Springer

Planta 152 (1981), S. 259-267

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ISSN: 1432-2048

Keywords: Clivia ; Cuticle development and fine structure ; Water permeability

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The fine structure of the upper cuticular membrane (CM) of Clivia miniata leaves was investigated using electron microscopy. The CM is made up of a thin (130 nm) lamellated cuticle proper (CP) and a thick (up to 7 μm over periclinal walls) cuticular layer (CL) of marbled appearance. Evidence is presented to show that the electron lucent lamellae of the CP do not simply represent layers of soluble cuticular lipids (SCL). Instead, the lamellation is probably due to layers of cutin differing in polarity. It is argued that the SCL in the Cp are the main barrier to water. Thickening of the CM during leaf development takes place by interposition of cutin between the CM and the cellin wall. The cutin of young, expanding leaves has a high affinity for KMnO4 and is therefore relatively polar. As leaves mature, the external CL underneath the CP becomes non-polar, as only little contrast can be obtained with permanganate as the post fixative.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00385154

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