Nodulated White Lupin Plants Growing in Contaminated Soils Accumulate Unusually High Mercury Concentrations in Their Nodules, Roots and Especially Cluster Roots

Two white lupin (Lupinus albus L.) cultivars were tested for their capacity to accumulate mercury when grown in Hg-contaminated soils. Plants inoculated with a Bradyrhizobium canariense Hg-tolerant strain or non-inoculated were grown in two highly Hg-contaminated soils. All plants were nodulated and...

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Bibliographic Details
Published in:Horticulturae 2021-09, Vol.7 (9), p.302
Main Authors: Quiñones, Miguel A., Fajardo, Susana, Fernández-Pascual, Mercedes, Lucas, M. Mercedes, Pueyo, José J.
Format: Article
Language:English
Subjects:
Abiotic stress
Bioaccumulation
Biomass
Bradyrhizobium canariense
Clusters
Cultivars
Flowers & plants
Food contamination & poisoning
Heavy metals
Hydroponics
Immobilization
Inoculation
Legumes
lupin
Lupins
Lupinus albus
Mercury
Mercury (metal)
Mining
Nitrogen
Nodules
Nutrients
Outdoor air quality
Phytoremediation
rhizobia
Roots
Scientific imaging
Sediment pollution
Seeds
Soil contamination
Soil pollution
Soils
Statistical analysis
Symbiosis
Translocation
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Summary:Two white lupin (Lupinus albus L.) cultivars were tested for their capacity to accumulate mercury when grown in Hg-contaminated soils. Plants inoculated with a Bradyrhizobium canariense Hg-tolerant strain or non-inoculated were grown in two highly Hg-contaminated soils. All plants were nodulated and presented a large number of cluster roots. They accumulated up to 600 μg Hg g−1 DW in nodules, 1400 μg Hg g−1 DW in roots and 2550 μg Hg g−1 DW in cluster roots. Soil, and not cultivar or inoculation, was accountable for statistically significant differences. No Hg translocation to leaves or seeds took place. Inoculated L. albus cv. G1 plants were grown hydroponically under cluster root-promoting conditions in the presence of Hg. They accumulated about 500 μg Hg g−1 DW in nodules and roots and up to 1300 μg Hg g−1 DW in cluster roots. No translocation to the aerial parts occurred. Bioaccumulation factors were also extremely high, especially in soils and particularly in cluster roots. To our knowledge, Hg accumulation in cluster roots has not been reported to date. Our results suggest that inoculated white lupin might represent a powerful phytoremediation tool through rhizosequestration of Hg in contaminated soils. Potential uptake and immobilization mechanisms are discussed.
ISSN:2311-7524
2311-7524
DOI:10.3390/horticulturae7090302