Arbuscular Mycorrhizal Fungi Induced Changes of Pb Migration and Bacterial Community in Both the Rhizosphere and Non-rhizosphere Soils of Paspalum notatum

Feng, Z.; Ren, H.; Song, H.; Zou, Y.; Vosátka, Miroslav; Huang, S.; Lu, H.; Cheng, F.

doi:https://dx.doi.org/10.1007/s11270-023-06082-5

Number of the records: 1

Arbuscular Mycorrhizal Fungi Induced Changes of Pb Migration and Bacterial Community in Both the Rhizosphere and Non-rhizosphere Soils of Paspalum notatum

1.

SYSNO ASEP	0571581
Document Type	J - Journal Article
R&D Document Type	Journal Article
Subsidiary J	Článek ve WOS
Title	Arbuscular Mycorrhizal Fungi Induced Changes of Pb Migration and Bacterial Community in Both the Rhizosphere and Non-rhizosphere Soils of Paspalum notatum
Author(s)	Feng, Z. (CN) Ren, H. (CN) Song, H. (CN) Zou, Y. (CN) Vosátka, Miroslav (BU-J)_ORCID Huang, S. (CN) Lu, H. (CN) Cheng, F. (CN)
Article number	156
Source Title	Water, Air, and Soil Pollution. - : Springer - ISSN 0049-6979 Roč. 234, č. 3 (2023)
Number of pages	13 s.
Language	eng - English
Country	NL - Netherlands
Keywords	arbuscular mycorrhizal fungi (AMF) ; heavy metal ; rhizosphere ; nNon-rhizosphere ; bacteria community ; soil
OECD category	Ecology
Method of publishing	Limited access
Institutional support	BU-J - RVO:67985939
UT WOS	000945065100003
EID SCOPUS	85148852079
DOI	10.1007/s11270-023-06082-5
Annotation	Arbuscular mycorrhizal fungi (AMF) can form symbiosis with many plants and the effect of AMF on phytoremediation of heavy metal has been a hot topic. But the effects of AMF on pollutants and microbes in rhizosphere and non-rhizosphere soil are still scarce. Therefore, the effects of AMF on plant growth, Pb translocation, and bacteria community in rhizosphere and non-rhizosphere soils spiked with Pb were investigated. It was found that AMF could significantly increase the uptake of Pb by Paspalum notatum, and Pb content was about 11 to 197 times higher in the root than that in the leaves. Besides, concentration of soil exchangeable Pb was significantly reduced after plant cultivation, and application of AMF increased the reduction (the exchangeable Pb concentrations of Pb300M and Pb3000M in the rhizosphere were 26.3% and 23.6% lower than that of Pb300 and Pb3000, respectively). The reduction was generally higher in the rhizosphere soil than that in the non-rhizosphere soil. The amount of Pb uptake by plants only accounted for a small part (4.9-21.7%) of the soil decreased exchangeable Pb, irrespective of AMF application, and most of the original exchangeable Pb was transformed into stabilized forms. Although bacteria community exhibited some differences between rhizosphere and non-rhizosphere soils, PCoA analysis indicated that both AMF and Pb were stronger impact factors affecting the beta-diversity of soil bacteria community than rhizosphere. The results of this study can help to clarify the impacts of AMF on phytoremediation of heavy metal.
Workplace	Institute of Botany
Contact	Martina Bartošová, martina.bartosova@ibot.cas.cz, ibot@ibot.cas.cz, Tel.: 271 015 242 ; Marie Jakšová, marie.jaksova@ibot.cas.cz, Tel.: 384 721 156-8
Year of Publishing	2024
Electronic address	https://doi.org/10.1007/s11270-023-06082-5

Number of the records: 1