Hyperaccumulation of nickel by Alyssum corsicum is related to solubility of Ni mineral species

Tiziana Centofanti; Matthew G. Siebecker; Rufus L. Chaney; Allen P. Davis; Donald L. Sparks

doi:10.1007/s11104-012-1176-9

Hyperaccumulation of nickel by Alyssum corsicum is related to solubility of Ni mineral species

Tiziana Centofanti^*, Matthew G. Siebecker, Rufus L. Chaney, Allen P. Davis, Donald L. Sparks

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract (may include machine translation)

Aims: Past studies have demonstrated that hyperaccumulators absorb Ni from the same labile pools in soil as normal plant species. This study investigated whether the Ni hyperaccumulator plant Alyssum corsicum possesses distinct extraction mechanisms for different Ni species present in soils. Different Ni species have different solubilities and potential bioavailabilities to roots.

Methods: Uptake of Ni in shoots of A. corsicum was analyzed after four weeks of plant growth in nutrient solution with 17 different Ni compounds or soils.

Results: The results indicate that Ni uptake is related to Ni solubility and plant transpiration rate. The most soluble compounds had the highest Ni uptake, with the exception of Ni ₃(PO ₄) ₂, Ni phyllosilicate, Ni-acid birnessite which showed a low solubility but a relatively high plant uptake and transpiration rate. In serpentine soils and insoluble NiO plant transpiration rate was high but uptake was very low and statistically comparable to the control.

Conclusions: It appears that Ni uptake is driven by convection, which depends on the initial concentration of Ni in solution and the plant transpiration rate.

Original language	English
Pages (from-to)	71-83
Number of pages	13
Journal	Plant and Soil
Volume	359
Issue number	1-2
DOIs	https://doi.org/10.1007/s11104-012-1176-9
State	Published - 2012
Externally published	Yes

Keywords

Alyssum
Hyperaccumulators
Ni minerals
Ni solubility

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title = "Hyperaccumulation of nickel by Alyssum corsicum is related to solubility of Ni mineral species",

abstract = "Aims: Past studies have demonstrated that hyperaccumulators absorb Ni from the same labile pools in soil as normal plant species. This study investigated whether the Ni hyperaccumulator plant Alyssum corsicum possesses distinct extraction mechanisms for different Ni species present in soils. Different Ni species have different solubilities and potential bioavailabilities to roots. Methods: Uptake of Ni in shoots of A. corsicum was analyzed after four weeks of plant growth in nutrient solution with 17 different Ni compounds or soils. Results: The results indicate that Ni uptake is related to Ni solubility and plant transpiration rate. The most soluble compounds had the highest Ni uptake, with the exception of Ni 3(PO 4) 2, Ni phyllosilicate, Ni-acid birnessite which showed a low solubility but a relatively high plant uptake and transpiration rate. In serpentine soils and insoluble NiO plant transpiration rate was high but uptake was very low and statistically comparable to the control. Conclusions: It appears that Ni uptake is driven by convection, which depends on the initial concentration of Ni in solution and the plant transpiration rate.",

keywords = "Alyssum, Hyperaccumulators, Ni minerals, Ni solubility",

author = "Tiziana Centofanti and Siebecker, {Matthew G.} and Chaney, {Rufus L.} and Davis, {Allen P.} and Sparks, {Donald L.}",

year = "2012",

doi = "10.1007/s11104-012-1176-9",

language = "English",

volume = "359",

pages = "71--83",

journal = "Plant and Soil",

issn = "0032-079X",

number = "1-2",

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T1 - Hyperaccumulation of nickel by Alyssum corsicum is related to solubility of Ni mineral species

AU - Centofanti, Tiziana

AU - Siebecker, Matthew G.

AU - Chaney, Rufus L.

AU - Davis, Allen P.

AU - Sparks, Donald L.

PY - 2012

Y1 - 2012

N2 - Aims: Past studies have demonstrated that hyperaccumulators absorb Ni from the same labile pools in soil as normal plant species. This study investigated whether the Ni hyperaccumulator plant Alyssum corsicum possesses distinct extraction mechanisms for different Ni species present in soils. Different Ni species have different solubilities and potential bioavailabilities to roots. Methods: Uptake of Ni in shoots of A. corsicum was analyzed after four weeks of plant growth in nutrient solution with 17 different Ni compounds or soils. Results: The results indicate that Ni uptake is related to Ni solubility and plant transpiration rate. The most soluble compounds had the highest Ni uptake, with the exception of Ni 3(PO 4) 2, Ni phyllosilicate, Ni-acid birnessite which showed a low solubility but a relatively high plant uptake and transpiration rate. In serpentine soils and insoluble NiO plant transpiration rate was high but uptake was very low and statistically comparable to the control. Conclusions: It appears that Ni uptake is driven by convection, which depends on the initial concentration of Ni in solution and the plant transpiration rate.

AB - Aims: Past studies have demonstrated that hyperaccumulators absorb Ni from the same labile pools in soil as normal plant species. This study investigated whether the Ni hyperaccumulator plant Alyssum corsicum possesses distinct extraction mechanisms for different Ni species present in soils. Different Ni species have different solubilities and potential bioavailabilities to roots. Methods: Uptake of Ni in shoots of A. corsicum was analyzed after four weeks of plant growth in nutrient solution with 17 different Ni compounds or soils. Results: The results indicate that Ni uptake is related to Ni solubility and plant transpiration rate. The most soluble compounds had the highest Ni uptake, with the exception of Ni 3(PO 4) 2, Ni phyllosilicate, Ni-acid birnessite which showed a low solubility but a relatively high plant uptake and transpiration rate. In serpentine soils and insoluble NiO plant transpiration rate was high but uptake was very low and statistically comparable to the control. Conclusions: It appears that Ni uptake is driven by convection, which depends on the initial concentration of Ni in solution and the plant transpiration rate.

KW - Alyssum

KW - Hyperaccumulators

KW - Ni minerals

KW - Ni solubility

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DO - 10.1007/s11104-012-1176-9

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SN - 0032-079X

VL - 359

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EP - 83

JO - Plant and Soil

JF - Plant and Soil

IS - 1-2

ER -

Hyperaccumulation of nickel by Alyssum corsicum is related to solubility of Ni mineral species

Abstract (may include machine translation)

Keywords

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