MAGNETIK PROPERTIES OF NICKEL HYPERACCUMULATING PLANTS FROM ULTRAMAFIC REGION
Nickel (Ni) hyperaccumulating plants are plants that can accumulate Ni higher than 1.000 ?g/g in their dry biomass. These plants were considered potentially for remediation and mining. Remediation with hyperaccumulating plants termed as phytoremediation, meanwhile mining with hyperaccumulating pl...
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| Format: | Dissertations |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/37228 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Nickel (Ni) hyperaccumulating plants are plants that can accumulate Ni higher
than 1.000 ?g/g in their dry biomass. These plants were considered potentially for
remediation and mining. Remediation with hyperaccumulating plants termed as
phytoremediation, meanwhile mining with hyperaccumulating plants termed as
phytomining. Ni phytomining was considered as a green and low cost method for
applying on ultramafic regions. Indonesia has large ultramafic regions, but native
Ni hyperaccumulators Indonesia from ultramafic areas are still very limited. Even
though, species variety is a one of factor of phytomining successful. Thus,
identifications of Ni hyperaccumulators are needed to support applying of Ni
phytomining.
Magnetic methods were considered as rapid and efficient method to analysing
minerals and metals in natural matters. Meanwhile, beside on their ability to
absorb Ni in extreme concentrations, Ni hyperaccumulators also have ability to
absorb the others metals simultaneously. Even, these abilities are correlated to Ni
accumulating. Among metals absorbed by Ni hyperaccumulators, there are
elements that have magnetic properties, including iron and cobalt. Therefore,
magnetic methods suspected can be used to identify new Ni hyperaccumulators,
especially species from ultramafic regions.
This study aimed to investigate the ability of magnetic method to identify Ni
hyperaccumulating plants. Characterized species are Planchonella oxyhedra and
Rinorea bengalensis. As comparison, magnetic characterizations also conducted to
non-native Ni hyperaccumulators Indonesia that consisted of: Alyssum murale and
Alyssum corsicum. For Ni concentrations analyses in the samples by atomic
absorption spectroscopy (AAS) analysis. Those measurements were supported by
x-ray diffraction (XRD), x-ray fluorescence (XRF) and scanning electron
microscopy energy dispersion spectroscopy (SEM-EDS) analysis.
Ni hyperaccumulators have positive magnetic susceptibility, ?, meanwhile, nonhyperaccumulators
have negative ? values. ? values of P. oxyhedra are 12 to 21
(×10–9) m3/kg, with an average value of 17.83? 3.07 (×10–9) m3/kg, meanwhile ?
values of R. bengalensis are 23 to 33 (× 10–9) m3/kg with average value of 30.16? 5.84 (× 10–9) m3/kg. These results indicate that Ni hyperaccumulators and nonhyperaccumulators
can be identified by ? values. By the magnetic method, two
species were found i.e. Caesarea halmaherensis and Piper sp., respectively Ni
concentration of the samples are 2,546? 230.4 ?g/g and 2745.4? 990 ?g/g. These
finding indicate that magnetic method can be used as a supplementary method to
identify new Ni hyperaccumulators species. |
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