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Arbuscular mycorrhizal contribution to heavy metal uptake by maize (Zea mays L.) in pot culture with contaminated soil (1995)

Weissenhorn, I. ; Leyval, C. ; Belgy, G. ; [et al.]

Springer

Mycorrhiza 5 (1995), S. 245-251

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ISSN: 1432-1890

Keywords: Glomus mosseae ; Heavy metals Indigenous mycorrhiza ; Tolerance ; Transfer

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract In two pot-culture experiments with maize in a silty loam (P2 soil) contaminated by atmospheric deposition from a metal smelter, root colonization with indigenous or introduced arbuscular mycorrhizal (AM) fungi and their influence on plant metal uptake (Cd, Zn, Cu, Pb, Mn) were investigated. Soil was γ-irradiated for the nonmycorrhizal control. In experiment 1, nonirradiated soil provided the mycorrhizal treatment, whereas in experiment 2 the irradiated soil was inoculated with spores of a fungal culture from P2 soil or a laboratory reference culture, Glomus mosseae. Light intensity was considerably higher in experiment 2 and resulted in a fourfold higher shoot and tenfold higher root biomass. Under the conditions of experiment 1, biomass was significantly higher and Cd, Cu, Zn and Mn concentrations significantly lower in the mycorrhizal plants than in the nonmycorrhizal plants, suggesting a protection against metal toxicity. In contrast, in experiment 2, biomass did not differ between treatments and only Cu root concentration was decreased with G. mosseae-inoculated plants, whereas Cu shoot concentration was significantly increased with the indigenous P2 fungal culture. The latter achieved a significantly higher root colonization than G. mosseae (31.7 and 19.1%, respectively) suggesting its higher metal tolerance. Zn shoot concentration was higher in both mycorrhizal treatments and Pb concentrations, particularly in the roots, also tended to increase with mycorrhizal colonization. Cd concentrations were not altered between treatments. Cu and Zn, but not Pb and Cd root-shoot translocation increased with mycorrhizal colonization. The results show that the influence of AM on plant metal uptake depends on plant growth conditions, on the fungal partner and on the metal, and cannot be generalized. It is suggested that metal-tolerant mycorrhizal inoculants might be considered for soil reclamation, since under adverse conditions AM may be more important for plant metal resistance. Under the optimized conditions of normal agricultural practice, however, AM colonization even may increase plant metal absorption from polluted soils.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00204957

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Cd-tolerant arbuscular mycorrhizal (AM) fungi from heavy-metal polluted soils (1993)

Weissenhorn, I. ; Leyval, C. ; Berthelin, J.

Springer

Plant and soil 157 (1993), S. 247-256

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ISSN: 1573-5036

Keywords: cadmium ; ecotypes ; AM fungi ; Glomus mosseae ; heavy metals ; soil pollution ; spore germination ; tolerance

Source: Springer Online Journal Archives 1860-2000

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

Notes: Abstract Spores of arbuscular mycorrhizal (AM) fungi were isolated from two heavy-metal polluted soils in France via trap culture with leek (Allium porrum L.). Preliminary identification showed that the predominant spore type of both cultures (P2 and Cd40) belongs to the Glomus mosseae group. Their sensitivity to cadmium was compared to a laboratory reference strain (G. mosseae) by in vitro germination tests with cadmium nitrate solutions at a range of concentrations (0 to 100 mg L−1) as well as extracts from a metal-polluted and unpolluted soils. Both cultures of AM fungi from heavy-metal polluted soils were more tolerant to cadmium than the G. mosseae reference strain. The graphically estimated EC50 was 0.8 mg L−1 Cd (concentration added to the test device) for G. mosseae and 7 mg L−1 for P2 culture, corresponding to effective Cd concentrations of approximately 50–70 μg L−1 and 200–500 μg L−1, respectively. The extract of the metal-polluted soil P2 decreased germination of spores from the reference G. mosseae but not from P2 culture. However, the extracts of two unpolluted soils with different physico-chemical characteristics did not affect G. mosseae, whereas germination of P2 spores was markedly decreased in the presence of one of the extracts. These results indicate a potential adaptation of AM fungi to elevated metal concentrations in soil. The tested spores may be considered as metal-tolerant ecotypes. Spore germination results in presence of soil extracts show the difficulty of assessing the ecotoxic effect of metals on AM fungi without considering other soil factors that may interfere in spore germination and hyphal extension.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00011053

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Root colonization of maize by a Cd-sensitive and a Cd-tolerant Glomus mosseae and cadmium uptake in sand culture (1995)

Weissenhorn, I. ; Leyval, C.

Springer

Plant and soil 175 (1995), S. 233-238

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ISSN: 1573-5036

Keywords: arbuscular mycorrhiza (AM) ; Cd ; Glomus mosseae ; phytotoxicity ; tolerance ; Zea mays

Source: Springer Online Journal Archives 1860-2000

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

Notes: Abstract A Cd-tolerant arbuscular mycorrhizal fungus, Glomus mosseae, isolated from a polluted soil (P2 culture), was compared with a Cd-sensitive reference Glomus mosseae (Gm) for its capacity to colonize maize (Zea mays L.) roots and to affect plant growth and Cd uptake in sand culture at increasing exposure to Cd added with the nutrient solution (0, 0.1, 1, 5 and 10 mg L-1). After eight weeks, mycorrhizal colonization by P2 culture was relatively high (50% of the control without Cd added) up to 5 mg L-1 Cd, whereas colonization by Gm was almost totally suppressed at that Cd level. However, even mycorrhizal colonization by the Cd-tolerant P2 culture appeared more sensitive to Cd than plant growth and was completely suppressed at 10 mg L-1 Cd. AM colonization did not alleviate the negative effect of Cd on plant growth compared to the non-mycorrhizal treatment. On the contrary, at the 5 mg L-1 Cd level non-mycorrhizal plants were greater than mycorrhizal plants with lower Cd concentration.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00011359

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