41

DAFTAR PUSTAKA

Adamson, A.W., 1990, Physical Chemistry of Surface, Fifth edition, John Wiley &

sons, Inc., New York.

Adiningsih, J. dan M. Sudjadi, 1993, Peranan sistem bertanam lorong (Alleycropping dalam meningkatkan kesuburan tanah pada lahan kering masam. Risalah Seminar, Hasil Penelitian Tanah dan Agroklimat, Pusat Penelitian dan Pengembangan Tanah dan Agroklimat, Bogor.

Anhar, Sahrul, 2006, Kandungan Magnesium pada Biomassa Tanaman Acacia mangium Willd dan pada Podsolik Merah Kuning di HPHTI PT Musi Hutan Persada, Sumatera Selatan, Fakultas Kehutanan Institut Pertanian Bogor, Bogor.

Anonim, 2010, Carbohydrates Compositions of IHSS Samples, International Humic Substances Society.

Ambarsari, Ika, 2014, Studi Desorpsi Urea pada Humin Sintetis, Skripsi, Universitas Gadjah Mada, Yogyakarta.

Baldock, J.A., dan Smernik, R.J., 2002, Chemical Composition and Bioavailability of Thermally Altered Pinur resinosa (Red pine) Wood, Org. Geochem., 33, 1093–1109.

Bulut, E., Ocazar, M., Sengil, A., 2008, Adsorption of Malachite Green Onto Bentonite: Equilibrium and Kinethics Studies And Process Design, Micropor. Mesopor. Mater., 115, 234–256.

Calderon, F.J., McCarty, G.W., Reeves III, J.B., 2005, Pyrolisis-MS and FT–IR Analysis of Fresh and Decomposed Dairy Manure, J. Anal. Appl. Pyrolisis, 76, 14–23.

Charlina, C., 2015, Karakterisasi Fraksi Humin, Asam Humat, dan Asam Fulvat pada CRH (Carbonized Rice Husk) dan Humus Sintetis, Skripsi, Universitas Gadjah Mada, Yogyakarta.

Cheng, C.H., Lehmann, J., Thies, J.E., Burton, S., 2008, Stability of Black Carbon in Soils Across a Climatic Gradient, J. Geophys. Res., 13, G02027.

Chia, C.H., Sigh, B.P., Joseph, S., Graber, E.R., Munroe, P., 2014, Characterization of An Enriched Biochar, J. Anal. Appl Pyro., 108, 26-34.

Eykelbosh, A. J., Johnson, M. S., Couto, E. G., 2014, Biochar Decreases Dissolved Organic Carbon But Not Nitrate Leaching in Relation to Vinasse Application in A Brazilian Sugarcane Soil, J.Environ. Manage., 149, 9-16.

Drake, J. A., Carrucan, A., Jackson, W. R., Cavagnaro, T. R., Patti, A. F., 2015, Biochar Application During Reforestation Alters Species Present and Soil Chemistry, Sci Total Environ., 514, 359-365.

Firmantianingrum, E. J., 2014, Humin Sintesis sebagai Penangkap dan Penyimpan Karbon dan Nitrogen serta Sebagai Solusi Pengurangan Emisi Gas Rumah Kaca Sektor Pertanian, Skripsi, Universitas Gadjah Mada, Yogyakarta.

Francisco, M., Mlinar, A. N., Yoo, B., Bell, A. T., Prausnitz, J. M., 2011, Recovery of Glucose From An Aqueous Ionic Liquid by Adsorption onto A Zeolite- Based Solid, Chem. Eng. J., 172, 184–199.

Harumi, M., 2015, Termodinamika dan Isoterm Adsorpsi Au (III) oleh Kulit Manggis, Skripsi, Universitas Gadjah Mada, Yogyakarta.

Hayes, M.H.B., and Swift, R.S., 1978, The Chemistry of Soil Organic Colloids in the Chemistry of Soil Constituents, Ed DJ Greenland, MHB Hayes, Wiley, Chichester, 179-320.

Hayes, M.H.B., Byrne, C.J.M.P., Ferreira, J.A., Novotny, E.H., dan Song, G., 2010, Acquisition of Essensial Data for Assessements of Carbon Sequestation by Soils, STRIVE Environmental Protection Agency Programme 2007- 2013,Department Chemical and Environmental Science, University of Limerick, Ireland.

Javadian, H., 2014, Application of Kinetic, Isoterm, and Thermodynamic Models for The Adsorption of Co(II) Ions on Polyaniline/Polypyrrole Copolymer nanofibers from Aqueous Solution, J. Ind. Eng. Chem., 20, 4233–4241.

Jindo, K., Mizumoto, H., Sawada, Y., Sanchez-Monodero, M.A., Sonoki, T., 2014, Physical and Chemical Characterization of Biochar Derived from Different Agricultural Residues, Biogeosciences, 11, 6613–6621.

Joseph, S., Lehmann, J., Amonette, J., Camps, M., Munroe, P., Muller, P., Yun, Y., Chia, C., 2011, The Nanostructure of Fresh and Aged Biochar and its Potential Significance for Changes in Soil Properties and Plant Nutrient Uptake, Towards Human and Environmental Symbiosis using Biochar Asia Pacific Biochar Conference, Kyoto.

Kennedy, L. J., Vijaya, J. J., Sekaran, G., 2005, Electrical conductivity study of porous carbon composite derived from rice husk, Mater. Chem. Phys., 91, 471–476.

Kimber, S., 2008, Characterization of Biochar by Cryo-Focusing Double-Shot Py- GC-MS, Confrance of International Biochar Intiative:

Biochar,Sustainability and Security in Changing Climate, New Castle, UK.

Kuncaka, A., 2013, Slow Release Organic Paramgnetic (SROP) Fertilizer sebagai Model Humus Sintetis untuk Mengantarkan Terwujudnya Industri Pertanian Raksasa Nasional yang Berkelanjutan, Pidato Dies Natalis Universitas Gadjah Mada ke-58, Fakultas Matematika dan Ilmu Pengetahuan Alam, Universitas Gadjah Mada, Yogyakarta, 19 Desember 2013.

Kuncaka, A., 2014, Metode Memproduksi Pupuk Organik Paramagnetik Pelepasan Lambat (Pupuk Slow Release Organic Paramagnetic/Pupuk SROP), Direktorat Jenderal Hak Kekayaan Intelektual, Kementrian hokum dan Hak Asasi Manusia Republik Indonesia, No. Pendaftaran Paten P00201401530 tanggal 17 Maret 2014.

Laksono, Endang Widjajanti, 2002, Analisis Daya Adsorpsi suatu Adsorben, Makalah PPM 26 Oktober 2002, Universitas Negeri Yogyakarta.

Lai, W. Y., Lai, C. M., Ke, G. R., Chung, R. S., Chen, C. T., Cheng, C. H., Pai, C. W., Chen, S. Y., Chen C. C., 2013, The Effect of Woodchip Biochar Applications on Crop Yield, Carbon Sequestration and Greenhouse Gas Emissions from Soils Planted with Rice or Leaf Beet, J. Taiwan Inst. Chem. Eng., 44, 1039- 1044.

Lehmann, J., Gaunt, J., and Rondon, M., 2006, Bio-char Sequestration in Terrestrial Ecosystems- a Review, Mitig. Adapt. Strat. Gl., 11, 403–427.

Lehmann, J., 2009, Terra Preta de Indio, Soil Sci., 1, 1-4.

Liu, H., Dong, Y., Wang, H., Liu., 2010, Adsorption Behaviour by bioadsorbent- Boston ivy leaf powder, J. Environ. Sci., 22(10) 1513–1518.

Lodygin, E.D., Beznosikov, V.A., Chukov, S.N., 2005, Paramagnetic Properties ofHumic SubstancesExtracted from Albeluvisols of North-Eastern European Russia, Scientific Papers University of Latvia, Earth and Environmental Sciences, Character of Natural Organic Matter and Its Role in the Environment, Volume 692 halaman 49-55.

Luo, Y., Durenkamp, M., Nobili, M. De., Lin, Q., Brookes, P. C., 2011, Short Term Soil Priming Effects and the Mineralisation of Biochar Following Its Incorporation to Soils of Different pH, Soil Biol. Biochem., 43, 2304-2314.

Malghani, S., Gleixner, G., Trumbore, S. E., 2013, Chars Produce by Slow Pyrolisis and Hydrothermal Carbonization Vary in Carbon Sequestration Potential and Greenhouse Gases Emissions, J.Soil.Biochem., 62, 137–146.

Manya, J. J., 2012, Pyrolisis for Biochar Purposes: A Review To Establish Current Knowledge Gaps and Research Needs, Environ. Sci. Tech., 46, 7639–7954.

Marolt, M., 2014, Superparamagnetic Materials, University of Ljubjana, Faculty of Mathematics and Physics, Kranj, Russia.

Mas’ud, Poerwowidodo, 1992, Telaah Kesuburan Tanah, Angkasa, Bandung Matasova, G.G., Kazansky, A.Y., Pozdnyakova, O.A., 2014, Rock Magnetik

Properties of Archelogical Sites in Different Geological Environments, J. Geophy., SB RAS, Evora, Rusia.

Mulyani, A., Hikmatullah, dan H. Subagyo, 2004, Karakteristik dan potensi tanah masam lahan kering di Indonesia. hlm. 1–32 dalam Prosiding Simposium Nasional Pendayagunaan Tanah Masam. Hasil Penelitian Tanah dan Agroklimat, Pusat Penelitian dan Pengembangan Tanah dan Agroklimat, Bogor.

Naidja, A., Huang, P. M., Anderson, D. W., Kessel, C., 2002, Fouries Transform Infrared, UV–Visible, and X–ray Diffraction Analyses of Organic Matter in Soil Exposed to Elevated CO2 and N Fertilization, Appl. Spectrosc., 56(3), 318–324.

Notohadiprawiro, Tejoyuwono, 2006, Persoalan tanah masam dalam pembangunan pertanian di Indonesia, Repro: ilmu tanah UGM.

Novotny, E. H., Hayes, M. H. B., Madari, B. E., Bonogamba, T. J., deAzevedo, E. R., deSouza, A. A., Song, G., Nogueira, C. M., Mangrich, A. S., 2009, Lesson

from the Terra Preta de Indios of the Amazon Region for the Utilisation of Charcoal for Soil Amenment, J. Braz. Chem. Soc., 20, 1003-1010.

Oscik, J., 1982, Adsorption, John Wiley and Sons Inc., New York.

Piccolo, A., 2002, The Supramolekular Structure of Humic Substance: A Novel Understanding of Humus Chemistry and Implications in Soil Science, Adv.

Agro, 75, 57-134.

Prasasti, D., 2011, Studi Adsorpsi-Reduksi pada Asam Humat, Asam Humat Teresterifikasi, Asam Humat Tereterifikasi, Tesis, Program Pasca Sarjana, UGM, Yogyakarta.

Prasetyo dan Suriadikarta, 2006, Karakteristik, Potensi dan Teknologi Pengelolaan Tanah Ultisol untuk Pengembangan Pertanian Lahan Kering di Indonesia, Jurnal Litbang Pertanian, 25(2), Bogor.

Prayogo, C., Jones, J. E., Baeyens, J., Bending, G. D., 2013, Impact of Biochar on Mineralisation of C and N From Soil and Willow Litter and Its Relationship with Microbial Community Biomass and Structure, Bio Fertil Soils.

Rio, 2011, Pengaruh Agen Hayati Terhadap Serapan Hara Nitrogen (N) dan Kalium (K) Titonia (Tithoniadiversifolia) pada Ultisol,Skripsi, Fakultas Pertanian, Universitas Andalas, Padang.

Saikia, B. J., Parthasarathy, G., Sarmah, N. C., 2008, Fourier Transform Infrared Spectrscopic Estimation of Crystallinity in SiO2 Based Rocks, Bull. Matter.

Sci., 31(5), 775–779.

Santiko, E. B., 2014, Studi Pemisahan Magnetik untuk Analisis Zat Humat dan pengaruh Pemberian Humus Sintetik terhadap Senyawa Magnetik dalam Tanah, Skripsi, Universitas Gadjah Mada, Yogyakarta.

Schnitzer, M., 1986, “ Pengikatan Bahan Humat oleh Koloid Mineral Tanah”, dalam Huang, P.M, dan Schnitzer, M., 1986, “Interaksi Mineral Tanah dengan Organik Alami danMikroba”, Terjemahan : Goenadi, D.H., 1997), Gadjah Mada University Press, Yogyakarta.

Sevilla, 2011, Hydrothermal Carbonization of Biomass as a Route for the Sequestration of CO2, Chemical and Structural Properties of the Carbonized Products, Biomass Bioenergy, 35, 3152–3159.

Sevilla, M., Fuestes, A. B., 2009, The Production of Carbon Materials by Hydrothermal Carbonization of Cellulose, Carbon, 47, 2281–2289.

Shabala, S., 2010, Physiological and Cellular Aspects of Phytotoxicity Tolerance in Plants: the Role of Membrane Transporters and Implications for Crop Breeding for Waterlogging Tolerance, New Phytologist, Hobart, Australia.

Shaw, P.J., 1983, Introduction to Colloid and Surface Chemistry, Butterworth &

Co, Ltd., New York.

Smejkalova, D., Piccolo, A., 2008, Host-Guest Interactions between 2,4–

Dichlorophenol and Humic Substances as Evaluated by ¹H NMR Relaxation and Diffusion Ordered Spectroscopy, Environ. Sci. Technol., 42, 699–706.

Soepardi, H. G., 2001, Strategi usahatani agribisnis berbasis sumber daya lahan.

hlm. 35-52 dalamProsiding Nasional Pengelolaan Sumber daya Lahan dan

Pupuk Buku I. Pusat Penelitian dan Pengembangan Tanah dan Agroklimat, Bogor.

Song, G., Novotny, E. H., Simpson, A. J., Hayes, M. H. B., 2008, Sequensial Exhausetive Extraction of Mollisol Soil, and Characterizations of Humic Components, including Humin, by Solid and Solution State NMR, Eur.

J.Soil Sci., 59, 505-516.

Stevenson, F.J., 1994, Humus Chemistry : Genesis, Composition, Reaction, 2^nd edition, Wiley, New York.

Subagyo, H., Nata Suharta, dan Agus. B. Siswanto, 2000, Sumber Daya Lahan Indonesia dan Pengelolaannya. Pusat Penelitian Tanah dan Agroklimat, Bogor.

Sutton, R., Sposito, G., 2005, Molecular Structure in Soil Humic Substance, The New View, Environ. Sci. Technol., 39, 9009-9015.

Wahyuningtyas, A., 2015, Studi Adsorpsi Desorpsi Glukosa pada Humin Sintetik, Tesis, Universitas Gadjah Mada, Yogyakarta.

Winarso S.E., 2005, Kesuburan Tanah: Dasar Kesehatan dan Kualitas Tanah, Gaya Media, Yogyakarta.

Yao, Y., Gao, B., Chen, J., Yang, L., 2012, Engineered Biochar Reclaiming Phosphate from Aqueous Solutions, Mechanisms and Potential Application as a Slow-Release Fertilizer, Environ. Sci. Technol., 47, 8700- 8708.

Young,A., 1989, Agroforestry for Soil Conservation, ICRAF Acince and Practice in Agroforestry–CAB International, Wallingford.

Yuniarti, M., 2013, Studi Adsorpsi-Reduksi Ion [AuCl4]^- pada Magnetit Terlapis Asam Humat (Fe3O4/HA), Skripsi, FMIPA, UGM, Yogyakarta.

Zafira, 2010, Studi Kemampuan Lumpur Alum untuk Menurunkan Konsentrasi Fluorida dalam Air Limbah Industri Pupuk, Skripsi, Institut Teknologi Sepuluh November, Surabaya.

Zhu, K., Fu, H., Zhan, J., Lv, X., Tang, J., Xu, X., 2012, Studies on removal of NH4–N from aqueous solution by using the activated carbons derived from rice husk, Biomass Bioenergy, 43, 18–25.