In this study, a polluted site at Kg. Pasir Puteh was assessed for heavy metal pollution by using
transplanted caged mussel (Perna viridis) from a relatively clean population, Sg. Melayu; both are located in the Strait of Johore. For control purposes, the P. viridis from Kg. Pasir Puteh were also simultaneously transplanted in Sg. Melayu at the same time. It was found that Zn was the metal which got accumulated fastest in the transplanted mussel while Cd was the slowest. This study indicated that the byssus of Perna viridis was most effective for biomonitoring of Cd, Ni, Pb and Zn, while the shell could be used for the biomonitoring of Cu, Ni and Pb and the total soft tissue for the biomonitoring of Ni since they were able to accumulate and eliminate the respective metals well. By using mussel as a biomonitor, the present study found that Kg. Pasir Puteh, which is located in the eastern part of the Strait of Johore, had significantly higher contamination and bioavailabilities of Cd, Cu, Fe, Ni, Pb and Zn. Therefore, the use of the transplanted caged mussels is very useful for heavy metal assessment purposes since it can increase the validity of data interpretation by minimizing ecological factors.
Surface coverage and some properties soil chemicals were assessed at the Punta Fort William, Greenwich Island during the summer from 1–11 February 2008. Twenty sampling points were established along two strip transects covering a total area of 160 m2. Punta Fort William was basically barren. Rocks, stones and pebbles covered 89.4% of the Punta Fort William. The diversity of vegetation in Punta Fort William was relatively low as compared to other South Shetland Islands. Mosses predominated the area and covered 9.1% of the total surface. Colobantus quitensis was the only vascular plant found at the Punta Fort William. It covered 0.5% of the total surface area. Lichens contributed 0.2% of the surface coverage. Although lichen coverage was low, its frequency of occurrence was among the highest. Total organic carbon (TOC) and total nitrogen (TN) in the study area ranged from 1 g to 39 g C kg–1 and 12 μg to 3892 μg N kg–1, respectively. The level of TOC and TN were comparable to those reported in other maritime locations in Antarctic. Higher levels of TOC and TN were detected in the areas with intensive biological activities. Hydrocarbon concentration was very low in this area and the sources of hydrocarbons were both natural and anthropogenic. The natural hydrocarbons source was mostly biogenic while the petrogenic hydrocarbons input was anthropogenic.