DAFTAR PUSTAKA
Abdel-Aty, A.M., N.S. Amar, H.H.A. Ghafar, and R.K. Ali. 2013. Biosorption of cadmium and lead from aqueous solution by fresh water alga Anabaena sphaerica biomass. Journal of Anvanced reserch. 4: 367-374. Adamson, A.W. and A.P. Gast. 1990. Physical Chemistryof Surface. 6th edition. John Wiley & Sons Inc. New York. Alberty, R.A. and F. Daniel. 1987. Physical Chemistry. 5th edition SI Version. John Willey & Sons Inc. New York. Al-Homaidan, A.A., H.J. Al-Houri, A.A. Al-Hazzani, G. Elgaaly, and N.M.S. Moubayed. 2013. Biosorption of copper ions from aqueous solutions by Spirulina plantesis biomass. Arabian Journal of Chemistry. 7 (1): 57–62. Alloway, B.J. and D.C. Ayres. 1997. Chemical Principles of Environment Pollution. 2nd edition. Blackie Academic & Profesional. London. Alluri, H.K., S.R. Ronda, V.S. Settalluri, J.S. Bondili, V. Suryanarayana, and P. Venkateshwar. 2007. Biosorption: an eco-friendly alternative for heavy metal removal. African Journal Biotechnology. 6 (25): 2924–2931. Al-Rub, F.A.A., M.H. El-Naas, I. Ashour, and M. Al-Marzouqi. 2006. Biosorption of copper on Chlorella vulgaris from single, binary and ternarymetal aqueous solutions. Process Biochemistry. 41 (2): 457–464. Arad, S.M., M. Adda, and E. Cohen. 1985. The potential of production of sulfate polysaccharide from Porphyridium. Plant and Soil. 89: 117-127. Arad, S.M. and Cohen. 1989. Closed system for outdoor cultivation of Porphyridium. Biomass. 18: 59-67. Atkins, P.W. 1999. Kimia Fisika Jilid 3. Erlangga. Jakarta. Atkins, P.W. 1990. Kimia Fisika Jilid 3. Erlangga. Jakarta.
47
Barbier, F., G. Duc, and M.R. Petit. 2000. Adsorption of lead and cadmium ions from aqueous solution to the montmorillonite: water interface, colloids surf. Physicochem Engineering Aspects. 166: 153–159. Blais, J.F., B. Dufresne, and G. Mercier. 2000. State of the art of technologies for metal removal from industrial effluents. Revue des Sciences de I’eau. 12 (4): 687-711. Buhani, Narsito, Nuryono and E.S. Kunarti. 2009. Amino and mercaptosilica hybrid for Cd(II) adsorption in aqueous solution. Indonesian Journal Chemistry. 9 (2): 170-176. Buhani, Narsito, Nuryono and E.S. Kunarti. 2010. Production of metal ion imprinted polymer from mercapto–silica through sol–gel process as selective adsorbent of cadmium. Desalination. 251: 83-89. Buhani, Suharso dan S.E. Putra. 2007. Isoterm adsorpsi ion logam Pb (II), Cd (II) dan Cu (II) pada Biomassa Nannochloropsis sp. yang diimobilisasi polietilamina-glutaraldehida. Prosiding Seminar Ilmiah Hasil Penelitian di Universitas Lampung. Lampung. Buhani, Suharso, and Sumadi. 2012. Production of ionic imprinted polymer from Nannochloropsis sp biomass and its adsorption characteristic toward Cu (II) ion in solutions. Asian Journal of Chemistry. 24(1): 133-140. Castellan, G.W. 1982. Physical Chemistry.Third Edition. General Graphic Servies. New York. Cerventes, C., J. Compos-Garcia, D. Silvia, F.G. Corona, H.L. Tavera, J. Gusman, and R.M. Sanchez. 2001. Interaction of chromium with microorganisms and plant. FEMS Microbiology Reviews. 25: 335- 347. Chang, R. 2005. Kimia Dasar Jilid 1. Erlangga. Jakarta. Chen, Z., W. Ma, M. Han. 2008. Biosorption of nickel and copper onto treated alga (Undaria pinnatifida): Application of isotherm and kinetic models. Journal Hazardous Materials. 155: 33-327. Cossich, E.S., C.R.G. Tavares, and T.M.K. Ravagnani. 2002. Biosorption of chromium (III) by Sargassum sp. biomass. Electronic Journal of Biotechnology. 5: 1-6. Cotton, F.A. dan G. Wilkinson. 1989. Kimia Anorganik Dasar. Universitas Indonesia (UI Press). Jakarta. Dahiya, S., R.M. Tripathi, and A.G. Hegde. 2008. Biosorption of heavy metals and radionuclide from aqueous solutions by pre-treated arca shell biomass. Journal Hazardous Materials.150: 86-376.
48
Dyke, S.F., A.J. Floyd, M. Sainsbury and R.S. Theobald. 1978. Organic Spectroscopy. An Introduction. Longman. London. Fu, F. and Q. Wang. 2011. Removal of heavy metal ions from wastewater: A review. Journal Enveromental Manageent. 92 (3): 407-418. Fuentes, M.M.R., G.G.A. Fernandez, J.A.S. Perez, and J.L.G. Guerrero. 2000. Biomass nutrient profiles of the microalga Porphyridium cruentum. Food Chemistry 70: 345-353. Gong, R., Y. Ding, H. Lio, Q. Chen, and Z. Liu. 2005. Lead biosorption and desorption by intact and pretreated Spirulina maxima biomass. Chemosphere. 58: 125-130. Gupta, S.S. and K.G. Bhattacharyya. 2006. Adsorption of Ni (II) on clay. Journal Chemistry Science. 295: 21-32. Harris, O. P. and J. G. Ramelow. 1990. Binding of metal ions by particulate quadricauda. Environt Scient and Technology. 24: 220-227. Huheey, J.E., E.A. Keiter and R.L. Keiter. 1993. Inorganic Chemistry :Principles of Structure and Reactivity. 4th edition.Harpelcolling College Publisher. New York. Husin, H. dan C.M. Rosnelly. 2005. Studi Kinetika Adsorpsi Larutan Logam Timbal (Pb) Menggunakan Karbon Aktif dari Batang Pisang, [Tesis]. Fakultas Teknik Universitas Syiah Kuala. Banda Aceh. Karaca, M. 2008. Biosorption of aqueous Pb2+, Cd2+, and Ni2+ ions by Dunaliella salina, Oocystis sp.,Porphyridium cruentum, and Scenedesmusprotuberans prior to atomic spectrometric determination, [Thesis]. İzmir Institute of Technology. Turki. Keenan, C.W. dan W. Kleinfelter. 1984. Ilmu Kimia untuk Universitas Edisi keenam. Erlangga. Jakarta. Khopkar, S.M. 2001. Konsep Dasar Kimia Analitik. UI Press. Jakarta. Lee, R.S. 2008. Phycology. Cambridge University Press. New York. Mahan, C.A., V. Majidi and J.A. Helcombe. 1989. Evaluation of the metal uptake of several algae strain in multicomponent matrixultizung. Jounal Environmental. Analyttical Chemistry. New York. 61: 624−627. Martadinata, I. 2001. Penetuan Kadar Logam Kadmium (Cd) dan Kromium (Cr) pada Alga Merah (Rhodophyta) Jenis Euchema sp, Secara AAS, [Skripsi]. Universitas Lampung. Bandar Lampung.
49
Martell, A.E. and R.D. Hancock. 1996. Metal Complexes in Aqueose Solution. Plenum Press. New York. Meitei, M.D and M.N.V. Prasad. 2013. Lead(II) and cadmium(II) biosorption on spirodela polyrhiza schleiden biomass. Journal of Evironmental Chemical Engineering. 1: 200-207. Oscik, J. 1982. Adsorption. Ellis Horwood Limited. Chichester. Patnaik, P. 2003. Handbook of Inorganic Chemicals. McGraw-Hill Book Company. New York. Paulino, A.T., F.A.S. Minasse, M.R. Guilherme, A.V. Reis, E.C. Muniz, and J. Nozaki. 2006. Novel adsorbent based on silkworm chrysalides for removal of heavy metal from wastewaters. Journal Colloid and Interface Science. 301 (2): 479-487. Pearson, R.G. 1968. Hard soft acids and bases, HSAB, Part I. Fundamental Principles. Journal of Chemical Education. 45: 581. Peraturan Pemerintah Lingkungan No. 82 Tahun 2001 tentang Pengolahan Kualitas Air dan Pengendalian Pencemaran Air. IPB. Bandung. Putra, S.E. 2006. Tinjauan Kinetika dan Termodinamika Proses Adsorpsi Ion Logam Pb, Cd, dan Cu oleh Biomassa Alga Nannochloropsis sp yang Diimmobilisasi Polietilamina-Glutaraldehid. Laporan Penelitian. Universitas Lampung. Bandar Lampung. Quintanilla, D.P., A.S. Sanchez, I. Del Heirro, Fajardum, and I. Sierra. 2008. Amino and mercapto silica hybrid for Cd (II) adsorption in aqueous solution. Indonesian Journal Chemistry. Reynold, T.D. 1982. Unit Operation and Process in Environmental Engineering. Woods Worths Inc. Texas. Rome, L. and G.M. Gadd. 1987. Copper asorption by Rhyzopus arrhizus, Cladosorium resinae and Penicillium italicum. Applied Microbiology and Biotechnology. 26: 84-90. Sari, A. and M. Tuzen. 2008. Biosorption of Pb (II) and Cd (II) from aqueous solution using green alga (Ulva lactuca) biomass. Journal Hazardous Materials. 152: 8–302. Silverstein, R.M., G.C. Bassler, and Morrirr. 1999. Penyidikan Spektrometrik Senyawa Organik. Erlangga. Jakarta.
50
Sinaga, S. 2009. Studi Pemanfaatan Silika Gel Tersalut Kitosan Untuk Menurunkan Kadar Logam Besi dan Seng Dalam Larutan Kopi.(Tesis). Medan. Singh, S., B.N. Kate, and U.C. Banerjee. 2005. Bioactive compounds from cyanobacteria and microalgae: an overview. Critical Reviews in Biotechnology. 25: 73-95. Singh, B. and B.J. Alloway. 2006. Adsorptive Minerals To Reduce The Availability Of Cadmium And Arsenic In Contaminated Soils. School of Land, Water and Crop Science.University of Sidney. Soeprijanto, F. Ryan, dan A. Bambang. 2006. Kinetika Biosorpsi Ion Logam Berat Cu(II) dalam Larutan Menggunakan Biomassa Phanerochaetechryso sporium, [Tesis]. Fakultas Teknologi Industri. Institut Teknologi Sepuluh November. Surabaya. Stum, Z. and J.J. Morgan. 1996. Aquatic Chemistry : Chemical Equilibria in Natural Water. 3rd ed. John Willey & Sons Inc. New York. Suhendrayatna. 2001. Bioremoval Logam Berat Dengan Menggunakan Mikroorganisme: Suatu Kajian Kepustakaan. Seminar On-Air Bioteknologi untuk Indonesia Abad 21, 1-14 Februari 2001. Sunardi. 2008. 116 Unsur Kimia Deskripsi dan Pemanfaatannya. Yrama Widya. Bandung. Supratman, U. 2010. Equilibrium Penentuan Senyawa Organik. Padjajaran. Bandung. Susilawati. 2009. Studi Biosorpsi Ion Logam Cd(II) Oleh Biomassa Alga Hijau yang Diimobilisasi pada Silika Gel. (Skripsi). FMIPA UI. Depok. Sutamihardja, R.T.M., K. Adnan, dan Sanusi. 1982. Perairan Teluik Jakarta Ditinjau dari Tingkat Pencemarannya. Fakultas Pascasarjana, Jurusan PSL. IPB. Bandung. Syukri, S. 1999. Kimia Dasar 1. Penerbit ITB. Bandung. Vijayaraghavan, K., K. Palanivelu, and M. Velan. 2006. Biosorption of copper(II) and cobalt (II) from aqueous solutions by crab shell particles. Bioresource Technology. 97 (12): 1411–1419. Volesky, and Z.R. Holan. 1995. Biosortion of heavy metals. Biotechnology Progress. 11 : 235-250. Vonshak, A. 1988. Porphyridium. Microalgal Biotechnology.Cambridge University Press. New York.
51
Welz, B. 1985, Atomic Absorption Spectrometry, 2th ed.Verlagh Chemie Inc. Germany. Yuliasari, L. 2003. Studi Penentuan Logam Berat Timbal (Pb) dan Kadmium (Cd) Dalam Organ Tubuh Ayam Broiler Secara Spektrofotometri Serapan Atom. (Skripsi). FMIPA Unila. Bandar Lampung. Zhang, L.,L. Zhao, Y. Yu, and C. Chen. 1998. Removal of lead from aqueous solution by non-living. Analitica Chimica Acta.124: 57-63.
