Gold mining activities have recently increased in many areas. Contamination with heavy metals, mainly mercury due to illegal mine (PETI) have been in concern to residents around the area. One approach to remediate risks from some toxic metal pollutants is phytoextraction using hyperaccumulator plants. These remarkable plant species accumulate appreciable high concentrations of metals than do normal plants when the normal plants suffers yield reduction from metal phytotoxicity. Possible solution of using indigenous plants for phytoremediation has been studied. Performance of four selected plant species i.e Paspalum conjugatum, Centrosema pubescens, Commelina nudiflora and Mikania cordata were examined. In this study the plants were grown in PETI waste media contaminated with 25.733 ppm mercury (Hg), added with mercury (II) chloride (HgCl2) with different levels of concentrations i.e. 0 ppm Hg (HO), 10 ppm Hg (H10) and 20 ppm Hg (H20). To increase mercury uptake from the media, chelating agent, ammonium thiosulfat (NH4),S2O, was applied with concentration of 0 ppm (KO) dan 50 ppm (50). Plants biomass and mercury accumulation in plant shoots and roots were assessed at one and two months after treatments. The results showed that all of the plant species under study were highly tolerant to Hg. It was indicated by plant normal performances and high biomass production even in the highest level of Hg concentration and high Hg accumulation in the plant shoot and roots that reached 41.860 ppm in the shoot of P. conjugatum (H10 with chelate), 40.054 ppm in the shoot of C. pubescens (H20 no chelate),41.089 ppm in the shoot of C. nudiflora (H10 no chelate) and 42.610 ppm in the shoot of M. cordata (H10 no chelate). At the highest concentration levels of Hg under study there was no effects of toxicity on the plants, indicated by normal plant growth and high biomass production. Higher accumulation of Hg were found in the plants treated with higher level of Hg concentrations.

Paspalum conjugatum, Centrosema pubescens, Commelina nudiflora dan Mikania cordata, PETI, Hg, kelat amonium tiosulfat.

Brown SL, RL Chaney, JS Angle and JM Baker. 1995. Zinc and cadmium uptake by hyperaccumulator Thlaspi caerulescens grown in nutrient solutionn. Soil Sci. Soc. Am. J 59, 125-133.

Gabbrielli R, C Mattioni and 0 Vergnano. 1991. Accumulation mechanisms and heavy metal tolerance of a nickel hyperaccumulator. J Plant Nutr 14,1067- 1080.

Hidayati N, F Syarif, T Juhaeti, E Komarudin dan Suwanto. 2004. Karakterisasi Limbah dan Vegetasi yang Tumbuh pada Penambangan Emas Rakyat dan Penambangan Emas Skala Besar. Laporan Teknik Pusat Penelitian Biologi-LIPl, 2004, 103-109.

Hidayati N, T Juhaeti and F Syarif. 2006. Mercury and cyanide contamination in aquatic environments around two gold mine areas and possible solution of using green technology of phytoremediation. Abstract. International Symposium on Nature and Land Management of Tropical Peat Land in South East Asia, 47. Bogor, Indonesia, 20-21 September 2006. LIPI-JSPS Core University Program.

Juhaeti T, F Syarif, N Hidayati, EN Sambas, DSH Hoesen, Suwanto dan Komarudin E. 2005. Karakterisasi Jenis Tumbuhan Pada Vegetasi di Lokasi Tailing Pond Pasir Gombong PT Antam dan Penambangan Emas Tanpa tain (PETI) Cikotok. Laporan Tehnik Pusat Penelitian Biologi-LIPl 2005, 459-466.

Moreno FN, CWN Anderson, RB Stewart and BH Robinson. 2004. Phytoremediation of mercurycontaminated mine tailings by induced plant-mercury accumulation. Environ. Practices 6(2), 165-175

Moreno FN, CWN Anderson and RB Stewart. 2005a. effect of thioligands on plant-Hg accumulation and volatilisation from mercury-contaminated mine tailings. Plant and Soil 275, 233-246.

Moreno FN, CWN Anderson, RB Stewart and BH Robinson. 2005b. Mercury volatilisation and phytoextraction from base-metal mine tailings. Environmental Pollution 136, 341-352.

Reeves RD. 1992. The Hyperaccumulation of nickel by serpentine plants. In: The Vegetation of Ultramafic (Serpentine) Soils, 253-277. Baker AJM, J Proctor and RD Reeves (Eds). Intercept Ltd., Andover Hampshire, UK.

Rodriguez L, J Rincon, I Asencio and CL Rodriguez. 2007. Capability of selected crop plants for shoot mercury accumulation from polluted soils phytoremediation perspectives. Int. J Phytoremediation 9(1), 1-13.

Yustiawati M, S Syawal, M Terashima and T Kimura. 2003. Speciation Analysis of Mercury in River Water and Sediment in West-Jawa and Central Kalimantan, Indonesia, 210-218. Annual Report JSPS March 2001.