- Title
- Accumulation and partitioning of metals and metalloids in the halophytic saltmarsh grass, saltwater couch, Sporobolus virginicus
- Creator
- Tran, Thi Kim Anh; Islam, Rafuquel; Le Van, Diep; Rahman, Mohammad Mahmudur; Yu, Richard Man Kit; MacFarlane, Geoff R.
- Relation
- Science of the Total Environment Vol. 713, Issue April 2020, no. 136576
- Publisher Link
- http://dx.doi.org/10.1016/j.scitotenv.2020.136576
- Publisher
- Elsevier
- Resource Type
- journal article
- Date
- 2020
- Description
- Remnant endangered saltmarsh communities in Australia often occur in urbanised estuaries where industrial processes have contaminated sediments with metal(loid)s. Despite this issue, virtually nothing is known on local plant species exposure to metal contaminants, nor their ability to uptake and translocate metal(loid)s from contaminated estuarine sediment. In the current study, we assessed the accumulation and partitioning of the metal(loid)s Zn, Cu, Pb, Cd and Se in the dominant saltmarsh primary producer, Sporobolus virginicus, across three urbanised estuaries in NSW Australia. Lake Macquarie was the most contaminated estuary, while Sydney Olympic Park, Port Jackson exhibited intermediate metal(loid) loadings and Hunter Wetlands exhibited the lowest loadings among estuaries. Essential metals (Zn and Cu) were more mobile, with sediment:root bioconcentration factors (BCFs) greater than unity and translocation among plant organs greater than, or equal to, unity. Other metal(loid)s were less mobile, with BCFs equal to unity and translocation factors among organs much reduced. Despite these barriers to translocation, all metal(loid)s were accumulated to roots with dose, and further accumulative relationships between metal(loid)s in roots and culms, and culms and leaves, were evidenced (with the exception of Cu). Along with sediment metal(loid)s, increases in sediment pH predicted Cu uptake in roots and increases in soil organic matter predicted Se uptake in roots. Although significant positive linear relationships were observed between sediment metal(loid)s and plant organ metal(loid)s(withholding Cu), the variance explained was low to intermediate for most metal(loid)s suggesting employing S. virginicus as an accumulative bioindicator would be impractical.
- Subject
- accumulation; halophyte; metalloids; saltmarsh; trace metals; SDG 14; Sustainable Development Goals
- Identifier
- http://hdl.handle.net/1959.13/1452846
- Identifier
- uon:44521
- Identifier
- ISSN:0048-9697
- Language
- eng
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