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  1. Mohd Izuan Effendi Halmi, Wan Lutfi Wan Johari, Mohd Shukuri Mohd Ali, Noor Azmi Shaharuddin
    MyJurnal
    Molybdenum is reported to be very toxic to ruminants and shows evidence of spermatogenesis
    toxicity in animals and insects. Hence, its removal is important. In this study, we report on the
    first isolation of molybdenum-reducing bacterium from agricultural soil. The bacterium reduces
    hexavalent molybdenum (sodium molybdate) to molybdenum blue (Mo-blue); a colloidal
    product, which can be trapped and removed from solution. Phylogenetic analysis resulted in a
    tentative identification of the bacterium as Serratia sp. strain MIE2. The optimum conditions for
    Mo-blue production using the normal one-variable-at-a-time (OVAT) approach were 10 mM of
    sodium molybdate, pH 6.0, a temperature of 35°C, ammonium sulphate at 10 g/L as the nitrogen
    source and sucrose concentrations of between 30-50 g/L as the carbon source and electron donor
    for molybdate. Studies on the effects of pesticides and solvents on Mo-blue production showed
    that Mo-blue production from whole cells was relatively more affected by these xenobiotics
    compared to the crude enzyme. Nevertheless, the strain was resistant to most of the xenobiotics
    tested. Based on the strain MIE characteristics, the bacterium will be a suitable candidate for the
    remediation of aquatic bodies and agricultural soils contaminated with molybdenum.
  2. Wan Noraina Atikah Wan Mohd Musdek, Mohd Khalizan Sabullah, Nor Mustaiqazah Juri, Norliza Abu Bakar, Noor Azmi Shaharuddin
    MyJurnal
    Bioremediation is a new green economic approach in providing solutions for cleaning up
    contaminated sites. Phytoremediation uses plants as a tool for remediation purposes. The usage
    of plant species offers higher potential solution to remediate heavy metal contaminated sites.
    This study aimed on screening potential plant species for phytoremediation of heavy metal
    contaminated water. The potential of three aquatic macrophytes species (Eichorrnia crassipes,
    Pistia stratiotes and Ipomoea aquatica) for chromium and nickel phytoremediations was tested.
    The plants were exposed for 10 days under hydroponic conditions in heavy metal contaminated
    water. E. crassipes showed the highest chromium and nickel concentrations in its biomass, 1.60
    and 2.40 μg/L respectively. Meanwhile, P. stratiotes had chromium and nickel concentrations
    detected at 0.89 and 0.081 μg/L, respectively; chromium and nickel concentrations of I.
    aquatica detected were, 0.49 and 0.08 μg/L, respectively. The ability of these plants to
    accumulate heavy metals and survived throughout the experiment demonstrates the potential of
    these plants to remediate metal-enriched water. Among the three tested aquatic plants, E.
    crassipes was proven to be the most suitable plant species that can phytoremediate heavy metal
    contaminated water followed by P. stratiotes and I. aquatica.
  3. Siti Fadhilah Abd. Rahim, Normala Masrom, Muhamad Cyrill Kamal, Noor Azmi Shaharuddin, Khairul Basyar Baharudin, Norliza Abu Bakar
    MyJurnal
    Water contamination by herbicides and chelating agents is increasing mainly due to the
    increasing agricultural activities. Water contamination by these compounds has become a
    concern due to their adverse effects to the environment and humans. Seven sampling sites of
    water sources in Selangor and Johor were chosen for the study. Contamination level of
    Mecoprop (MCCP), Nitrilotriacetic acid (NTA) and Ethylenediaminetetraacetic acid (EDTA) in
    these water body areas was determined by using Gas Chromatography-Electron Capture
    Detector (GC-ECD). Our results indicated that water samples of Sungai Melot in Selangor
    showed the highest presence of EDTA. MCCP was detected at a high level at Sungai Sarang
    Buaya, Johor while NTA showed similar level of concentration at three different sites, Ladang
    10, Ladang Sayur and Mardi, Selangor.
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