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Diversity and Integration in Mycorrhizas : Proceedings of the 3rd International Conference on Mycorrhizas (ICOM3) Adelaide, Australia, 8-13 July 2001. (2002)

Smith, Sally E.

Dordrecht :Springer Netherlands,

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Keywords: Mycorrhizas-Congresses. ; Electronic books.

Description / Table of Contents: Proceedings of the 3rd International Conference on Mycorrhizas (ICOM3), 8-13th July 2001, Adelaide, Australia.

Type of Medium: Online Resource

Pages: 1 online resource (322 pages)

Edition: 1st ed.

ISBN: 9789401712842

Series Statement: Developments in Plant and Soil Sciences Series ; v.94

URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=6303926

DDC: 579.51785

Language: English

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Calcium/aluminium interactions in the cell wall and plasma membrane of Chara (1995)

Reid, Robert J. ; Tester, Mark A. ; Smith, F. Andrew

Springer

Planta 195 (1995), S. 362-368

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ISSN: 1432-2048

Keywords: Aluminium toxicity ; Calcium influx ; Cellwall and calcium ; Chara Lanthanum

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The proposal that aluminium (Al) toxicity in plants is caused by either inhibition of Ca2+ influx or by displacement of Ca2+ from the cell wall, was examined. For this study the giant alga Chara corallina Klein ex Will. em. R.D. Wood was selected because it shows a similar sensitivity to Al as in roots of higher plants and, more importantly, it is possible to use the large single internodal cells to make accurate and unambiguous measurements of Ca2+ influx and Ca2+ binding in cell walls. Growth of Chara was inhibited by Al at concentrations comparable to those required to inhibit growth of roots, and with a similar speed of onset and pH dependence. At Al concentrations which inhibited growth, influx of calcium (Ca2+) was only slightly sensitive to Al. The maximum inhibition of Ca2+ influx at 0.1 mol·m−3 Al at pH 4.4 was less than 50%. At the same concentration, lanthanum (La3+) inhibited influx of Ca2+ by 90% but inhibition of growth was similar for both La3+ and Al. Removal of Ca2+ from the external solution did not inhibit growth for more than 8 h whereas inhibition of growth by Al was apparent after only 2.5 h. Ca2+ influx was more sensitive to Al when stimulated by addition of high concentrations of potassium (K+) or by action potentials generated by electrical stimulation. Other membrane-related activities such as sodium influx, rubidium influx and membrane potential difference and conductance, were not strongly affected by Al even at high concentrations. In isolated cell walls equilibrated in 0.5 mol·m−3 Ca2+ at pH 4.4, 0.1 mol·m−3 Al displaced more than 80% of the bound Ca2+ with a half-time of 25 min. From the poor correlation between inhibition of growth and reduction in Ca2+ influx, it was concluded that Al toxicity was not caused by limitation of the Ca2+ supply. Short-term changes in other membrane-related activities induced by Al also appeared to be too small to explain the toxicity. However the strong displacement, and probable replacement, of cell wall ca2+ by Al may be sufficient to disrupt normal cell development.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00202593

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The mechanism of zinc uptake in plants (1996)

Reid, Robert J. ; Brookes, Justin D. ; Tester, Mark A. ; [et al.]

Springer

Planta 198 (1996), S. 39-45

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ISSN: 1432-2048

Keywords: Chara ; Cell wall and zinc ; Micronutrient ; Triticum ; Zinc uptake

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The mechanism of zinc influx was investigated using giant algal cells (Chara corallina Klein ex Will.esk. R.D. Wood), in which it was possible to discriminate clearly between tracer zinc bound in the cell wall and actual uptake into the cell. It was shown that despite lengthy desorption, retention of zinc in slowly exchanging zinc pools in the cell wall can invalidate tracer influx measurements. A comparative study of zinc desorption from isolated cell walls of wheat (Triticum aestivum L.) roots indicated exchange characteristics similar to that of Chara. Fractionation of Chara internodal cells taken directly from cultures showed that most of the cell-associated zinc was in the cell walls. The cytoplasmic and vacuolar zinc concentrations were 56 mmol·m−3 and 32 mmol·m−3, respectively, for cells grown in a zinc concentration of 0.1 mmol·m−3. Influx of 65Zn in Chara was linear over several hours, with rapid transfer to the vacuole, but only slow efflux. Influx occurred in a biphasic manner, which was tentatively attributed to the operation of two separate transport systems, a high-affinity system which is saturated at 0.1 mmol·m−3 and a low-affinity system which showed a linear dependence on concentration up to at least 50 mmol·m−3. Only the low-affinity system was examined in detail. Influx through this system showed a strong dependence on external pH with an optimum around 7 and was also stimulated by cytoplasmic acidification. Influx was sensitive to metabolic inhibition, but not to blockers of Ca2+ and K+ channels. Other characteristics included a slight sensitivity to Mn2+ and Fe2+ but little sensitivity to high concentrations of K+ or Na+. Influx was independent of membrane potential difference in cells voltage-clamped at − 65 to − 300 mV.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00197584

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Effects of endomycorrhizal infection on phosphate and cation uptake byTrifolium subterraneum (1981)

Smith, Sarah E. ; Smith, F. Andrew ; Nicholas, D. J. Donald

Springer

Plant and soil 63 (1981), S. 57-64

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ISSN: 1573-5036

Keywords: Cations ; Interaction ; Mycorrhiza ; Nodulation ; Phosphate ; Trifolium subterraneum ; VAM

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Conclusions Mycorrhizal fungi increase the rate of phosphate uptake by roots (P inflow) over a range of soil P levels even when mycorrhizal growth increases no longer occur. It is likely that the fungi play a direct part in uptake and translocation of P to the roots. V.A.M. effects on nodulation and N2 fixation are largely indirect, probably resulting from improved P nutrition and growth at low soil P levels. Work on inorganic cation nutrition is much less advanced, but it is already clear that there are interactions between P nutrition and cation uptake which may also be indirect. The pattern of N assimilation (N2 fixation vis-à-vis NaNO3 or (NH4)2SO4 uptake) may modify cation/P interactions. Further work is required to distinguish cause and effect and to clarify the role played by V.A.M. fungi.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02374257

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