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Effect of Cl on Cd uptake by Swiss chard in nutrient solutions (1996)

Smolders, E. ; McLaughlin, M. J.

Springer

Plant and soil 179 (1996), S. 57-64

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ISSN: 1573-5036

Keywords: Cd2+ activity ; Cd-Cl interaction ; chelator-buffered nutrient solution ; salinity ; speciation ; Swiss chard

Source: Springer Online Journal Archives 1860-2000

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

Notes: Abstract Swiss chard (Beta vulgaris L., cv. Fordhook Giant) was grown in nutrient solution with Cl concentrations varying between 0.01 mM and 120 mM. Solution Na concentration and ionic strength were maintained in all treatments by compensating with NaNO3. All solutions contained Cd (50 nM, spiked with 109Cd). Three different Cd2+ buffering systems were used. In one experiment, Cd2+ activity was unbuffered; its activity decreased with increased Cl concentration as a result of the formation of CdCln 2−n species. In the other experiments, Cd2+ activity was buffered by the chelator nitrilotriacetate (NTA, 50 μM) and ethylene-bis-(oxyethylenenitrilo)-tetraacetate (EGTA, 50 μM) at about 10−9 M and 10−11 M, respectively. Plant growth was generally unaffected by increasing Cl concentrations in the three experiments. In unbuffered solutions, Cd concentrations in plant tissue decreased significantly (p〈0.01) (approximately 2.4-fold) as solution Cl concentration increased from 0.01 mM to 120 mM. However, this decrease was smaller in magnitude than the 4.7-fold decrease in Cd2+ activity as calculated by the GEOCHEM-PC program for the same range of Cl concentrations. In solutions where Cd2+ activity was buffered by NTA, Cd concentrations in plant tissue increased approximately 1.4-fold with increasing Cl concentration in solution, while the Cd2+ activity was calculated to decrease 1.3-fold. In solutions where Cd2+ activity was buffered by EGTA, Cd concentrations in the roots increased 1.3-fold with increasing Cl concentration in solution but there was no effect of Cl on shoot Cd concentrations. The data suggest that either CdCln 2−nspecies can be taken up by plant roots or that Cl enhances uptake of Cd2+ through enhanced diffusion of the uncomplexed metal to uptake sites.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00011642

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Effect of current-season application of calcitic lime on soil pH, yield and cadmium concentration in potato (Solanum tuberosum L.) tubers (1996)

Maier, N. A. ; McLaughlin, M. J. ; Heap, M. ; [et al.]

Springer

Nutrient cycling in agroecosystems 47 (1996), S. 29-40

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ISSN: 1573-0867

Keywords: cadmium ; chloride ; lime ; potato ; soil acidity

Source: Springer Online Journal Archives 1860-2000

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

Notes: Abstract Cadmium (Cd) has accumulated in many agricultural soils in Australia due to fertilization with phosphatic fertilizers that contained Cd as an impurity. Nine field and seven glasshouse experiments using light-textured soils were conducted to investigate the effect of current-season applications of calcitic lime on i) soil pHw, ii) tuber yield, and iii) Cd accumulation in tubers of a range of processing (Russet Burbank, Atlantic, Shepody and Kennebec) and fresh market (Crystal, Pontiac and Desiree) potato cultivars. Liming increased soil pH values by up to 2 units. Yields of potato tubers were generally unaffected by liming. Under glasshouse conditions, significant reductions in tuber Cd concentrations were found after liming of soils. In contrast, in the field, application of calcitic lime at rates up to 20 t ha−1 had either no effect or significantly (p〈0.05) increased tuber Cd concentrations. Concentrations of Cd in tubers were closely correlated (R2=0.74,p〈0.001) with concentrations of chloride (Cl). The lack of any beneficial effect of lime application in reducing tuber Cd concentrations under field conditions is attributed to a combination of ineffective mixing of lime throughout the whole root zone, inadequate time of reaction of lime with soil, competitive desorption of Cd2+ by Ca2+ and low soil moisture inhibiting lime dissolution under field conditions. Further work is required to resolve which mechanisms are most important.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01985716

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