Telford, Kristy; Maher, William; Krikowa, Frank; Foster, Simon; Ellwood, Michael J; Ashley, Paul; Lockwood, Peter; Wilson, Susan C

Author(s)

Telford, Kristy

Maher, William

Krikowa, Frank

Foster, Simon

Ellwood, Michael J

Ashley, Paul

Lockwood, Peter

Wilson, Susan C

Publication Date

2009

Abstract

Bioaccumulation and uptake of antimony (Sb) were investigated in a highly contaminated stream, Bakers Creek, running adjacent to mining and processing of Sb–As ores at Hillgrove Mine, NSW, Australia. Comparisons with arsenic (As) were included owing to its co-occurrence at high concentrations. Mean metalloid creek rhizome sediment concentrations were 777±115μgg⁻¹ Sb and 60±6μgg⁻¹ As, with water concentrations at 381±23μgL⁻¹ Sb and 46±2μgL⁻¹ As. Antimony and As were significantly elevated in aquatic autotrophs (96–212μgg⁻¹ Sb and 32–245μgg⁻¹ As) but Sb had a lower uptake efficiency. Both metalloids were elevated in all macroinvertebrates sampled (94–316μgg⁻¹ Sb and 1.8–62μgg⁻¹ As) except Sb in gastropods. Metalloids were detected in upper trophic levels although biomagnification was not evident. Metalloid transfer to riparian vegetation leaves from roots and rhizome soil was low but rhizome soil to leaf As concentration ratios were up to 2–3 times greater than Sb concentration ratios. Direct exposure to the rhizosphere sediments and soils, water ingestion and consumption of aquatic autotrophs appear to be the major routes of Sb and As uptake for the fauna of Bakers Creek.

Citation

Environmental Chemistry, 6(2), p. 133-143

ISSN

1449-8979

1448-2517

Link

https://hdl.handle.net/1959.11/5004

Publisher

CSIRO Publishing

Title

Bioaccumulation of antimony and arsenic in a highly contaminated stream adjacent to the Hillgrove Mine, NSW, Australia

Type of document

Journal Article

Entity Type

Publication

Author(s)	Telford, Kristy Maher, William Krikowa, Frank Foster, Simon Ellwood, Michael J Ashley, Paul Lockwood, Peter Wilson, Susan C
Publication Date	2009
Abstract	Bioaccumulation and uptake of antimony (Sb) were investigated in a highly contaminated stream, Bakers Creek, running adjacent to mining and processing of Sb–As ores at Hillgrove Mine, NSW, Australia. Comparisons with arsenic (As) were included owing to its co-occurrence at high concentrations. Mean metalloid creek rhizome sediment concentrations were 777±115μgg⁻¹ Sb and 60±6μgg⁻¹ As, with water concentrations at 381±23μgL⁻¹ Sb and 46±2μgL⁻¹ As. Antimony and As were significantly elevated in aquatic autotrophs (96–212μgg⁻¹ Sb and 32–245μgg⁻¹ As) but Sb had a lower uptake efficiency. Both metalloids were elevated in all macroinvertebrates sampled (94–316μgg⁻¹ Sb and 1.8–62μgg⁻¹ As) except Sb in gastropods. Metalloids were detected in upper trophic levels although biomagnification was not evident. Metalloid transfer to riparian vegetation leaves from roots and rhizome soil was low but rhizome soil to leaf As concentration ratios were up to 2–3 times greater than Sb concentration ratios. Direct exposure to the rhizosphere sediments and soils, water ingestion and consumption of aquatic autotrophs appear to be the major routes of Sb and As uptake for the fauna of Bakers Creek.
Citation	Environmental Chemistry, 6(2), p. 133-143
ISSN	1449-8979 1448-2517
Link	https://hdl.handle.net/1959.11/5004
Publisher	CSIRO Publishing
Title	Bioaccumulation of antimony and arsenic in a highly contaminated stream adjacent to the Hillgrove Mine, NSW, Australia
Type of document	Journal Article
Entity Type	Publication

Bioaccumulation of antimony and arsenic in a highly contaminated stream adjacent to the Hillgrove Mine, NSW, Australia

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