Extension of the phosphorus depletion zone in VA-mycorrhizal white clover in a calcareous soil

Li, Xin; George, Eckhard; Marschner, H.

doi:10.1007/bf02465218

Cited by 313 publications

(150 citation statements)

References 14 publications

(15 reference statements)

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“…The total EM increased with time and reached about 19 m g -1 in the substrate with +AMF plants at 90 DAT, in all P levels. These data are in agreement with previous works (Abbott et al, 1984;Schubert et al, 1987;Sylvia, 1988;Li et al, 1991), in which the total EM ranged from less than 1 to about 26 m g -1 .…”

Section: Resultssupporting

confidence: 93%

“…It is notorious that mycorrhizal citrus have higher P concentrations than control plants (Peng et al, 1993;Melloni et al, 2000) but, in this case, only at 25 and 200 mg kg -1 P. In these cases, shoot P concentrations in +AMF plants were above the sufficiency level of 1.9 g kg -1 for citrus, whereas the -AMF plants remained below the deficiency level of 1 g kg -1 (Graham et al, 1997). The EM may be responsible for more than 75% of the plant P uptake (Li et al, 1991). Based on the specific P uptake rate it could be seen that similar values were achieved by roots of +AMF plants, at the two lowest P levels.…”

Section: Resultsmentioning

confidence: 85%

“…Total EM and active EM always had higher figures in the substrate with +AMF plants, at all P levels, along the experiment. Although some authors (Abbott et al, 1984;Sylvia, 1988;Li et al, 1991) suggested the subtraction of the mycelium estimated in -AMF treatments from their respective +AMF counterparts, both data were presented, because it is quite difficult to distinguish mycorrhizal mycelium from that from other filamentous fungi (Sylvia, 1988;Kabir et al, 1996;. In addition, interactions between AMF and saprophytic fungi are unknown, whether stimulating or inhibiting each other.…”

Section: Resultsmentioning

confidence: 99%

“…There are evidences that plant response to mycorrhiza cannot be explained solely by the internal colonization. The beneficial effect of mycorrhiza is mainly attributed to the fungal hyphae spreading up to 11 cm through the soil beyond the rhizosphere, which enables more efficient soil exploitation for nutrients (Li et al, 1991), being responsible for up to 80% of the P and 60% of the Cu uptaken by plant (Marschner & Dell, 1994).…”

Section: Introductionmentioning

confidence: 99%

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Plant growth and phosphorus uptake in mycorrhizal rangpur lime seedlings under different levels of phosphorus

Nogueira

Cardoso²

2006

Pesq. agropec. bras.

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-The objective of this work was to evaluate the response of rangpur lime (Citrus limonia) to arbuscular mycorrhiza (Glomus intraradices), under P levels ranging from low to excessive. Plants were grown in three levels of soluble P (25, 200 and 1,000 mg kg -1 ), either inoculated with Glomus intraradices or left noninoculated, evaluated at 30, 60, 90, 120 and 150 days after transplanting (DAT). Total dry weight, shoot P concentration and specific P uptake by roots increased in mycorrhizal plants with the doses of 25 and 200 mg kg -1 P at 90 DAT. With 1,000 mg kg -1 P, mycorrhizal plants had a transient growth depression at 90 and 120 DAT, and nonmycorrhizal effects on P uptake at any harvesting period. Root colonization and total external mycelium correlated positively with shoot P concentration and total dry weight at the two lowest P levels. Although the highest P level decreased root colonization, it did not affect total external mycelium to the same extent. As a result, a P availability imbalance affected negatively the mycorrhizal symbiosis and, consequently, the plant growth.Index terms: Citrus, Glomus, active external mycelium, growth depression, rootstock, total external mycelium. Crescimento e absorção de fósforo por plântulas de limão 'Cravo' micorrizadas sob diferentes níveis de fósforoResumo -O objetivo deste trabalho foi avaliar a resposta do limão 'Cravo' (Citrus limonia) à micorriza arbuscular (Glomus intraradices), com variações de níveis de P de baixo a excessivo. As plantas foram cultivadas em três níveis de P solúvel (25, 200 e 1.000 mg kg -1 ), com inoculação de Glomus intraradices ou sem inoculação, e avaliadas aos 30, 60, 90, 120 e 150 dias depois do transplantio (DAT). A biomassa seca total, a concentração de P na parte aérea, e a absorção específica de P pelas raízes aumentaram nas plantas micorrizadas nas doses de 25 e 200 mg kg -1 de P aos 90 DAT. Na dose de 1.000 mg kg -1 de P, houve depressão transiente de crescimento nas plantas micorrizadas, aos 90 e 120 DAT, e não houve efeito micorrízico sobre a absorção de P em qualquer época de colheita. A colonização radicular e o micélio externo total correlacionaram-se positivamente com a concentração de P na parte aérea e biomassa seca total, nos dois menores níveis de P. Embora o maior nível de P tenha causado redução da colonização radicular, isto não afetou o micélio externo total na mesma extensão. Como resultado, um desequilíbrio na disponibilidade de P afetou negativamente a simbiose micorrízica e, conseqüen-temente, o crescimento da planta.Termos para indexação: Citrus limonia, Glomus intraradices, micélio externo ativo, depressão de crescimento, porta-enxerto, micélio externo total.

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Section: Resultssupporting

confidence: 93%

Section: Resultsmentioning

confidence: 85%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Plant growth and phosphorus uptake in mycorrhizal rangpur lime seedlings under different levels of phosphorus

Nogueira

Cardoso²

2006

Pesq. agropec. bras.

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“…The role of AMF in plant nutrition is likely to be important even when plants are genetically modified with other traits, such as root exudation of citrate (Lopez-Bucio et al 2000;Zhu et al 2001). The beneficial effects of AMF are due mainly to the ability of mycorrhizal fungal hyphae to acquire P well beyond the limits of the rhizosphere depletion zone (Li et al 1991). It has been widely reported that responsiveness to (or dependency on) mycorrhizal colonisation, in terms of improved growth and/or P uptake, varies between crop cultivars (Krishna et al 1985;Koide et al 1988;Bryla and Koide 1990;Rao et al 1990;Mercy et al 1990;Baon et al 1993;Hetrick et al 1993;Khalil et al 1994;Hetrick et al 1995).…”

Section: Introductionmentioning

confidence: 99%

Phosphorus efficiencies and responses of barley (Hordeum vulgare L.) to arbuscular mycorrhizal fungi grown in highly calcareous soil

Zhu

Smith

2003

Mycorrhiza

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Two experiments were carried out to investigate phosphorus efficiencies and mycorrhizal responsiveness in an improved cultivar (Clipper) and a landrace (Sahara) of barley (Hordeum vulgare L.). In experiment 1, two pot sizes were used to evaluate the effect of soil volume on P uptake and mycorrhizal responsiveness. In experiment 2, a compartmented ('cross-pot') system was used to monitor 32 P delivery by external hyphae of arbuscular mycorrhizal fungi (AMF) to the host plant. Results showed that, irrespective of growth conditions, Sahara had much larger root biomass than Clipper and consequently substantially more P was allocated to roots in Sahara than in Clipper. Specific root length in Clipper was much longer than in Sahara. Increase in soil volume enhanced percentage root length colonised by AMF, plant growth and P uptake, and Sahara was more sensitive to changes in soil volume than Clipper. Pot size (soil volume) used to assess responsiveness to AMF by different plant species or genotypes with different root/ shoot ratios might be a confounding factor. Clipper was more responsive to AMF than Sahara in terms of tissue P concentrations, which is partly related to their differences in root/shoot ratios. However, increases in SPU [specific P uptake, mg P (g root biomass) -1 ] caused by AMF were bigger in Clipper, suggesting that AMF played a larger role in P uptake. In accordance with the larger increase in SPU, Clipper took up more 32 P via AMF hyphae than Sahara. The compartmented system using radioactive P might be an alternative approach to directly investigate mycorrhizal responsiveness of different plant species or varieties than conventional pot experiments, provided that the same AM fungus is used.

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Biogeochemistry of Metals and Metalloids at the Soil–Root Interface

Hinsinger

Courchesne

2007

Biophysico‐Chemical Processes of Heavy Metals and Metalloids in Soil Environments

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Extension of the phosphorus depletion zone in VA-mycorrhizal white clover in a calcareous soil

Cited by 313 publications

References 14 publications

Plant growth and phosphorus uptake in mycorrhizal rangpur lime seedlings under different levels of phosphorus

Plant growth and phosphorus uptake in mycorrhizal rangpur lime seedlings under different levels of phosphorus

Phosphorus efficiencies and responses of barley (Hordeum vulgare L.) to arbuscular mycorrhizal fungi grown in highly calcareous soil

Biogeochemistry of Metals and Metalloids at the Soil–Root Interface

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