8/19/2019 its coa

http://slidepdf.com/reader/full/its-coa 1/4

49

DAFTAR PUSTAKA

Andrianto TT; Indarto N. 2004. Kedelai Kacang Hijau Kacang

Panjang. Budi Daya dan Analisis Usaha Tani. Absolut.

Yogyakarta.

Anonimus. 2003. www.google.com.

Azmat R; Hasan S, 2008, Photochemistry of Light Harvesting

Pigments and Some Biochemical Change Under

Aluminium Stress, Pak. J. Bot Vol. 4(2) pp: 779-784.

BIO-RAD,Mini-PROTEAN® II Dual Slab Cell

, InstructionManual.

Blancheteau CI., Soto B., Ulloa P., Aquea F., Diaz MR., 2008,

Resistance Mechanisms of Aluminum (Al3+)

Phytotoxicity in Cereals: Physiological, Genetic andMolecular Bares, R.C.Suelo Nutr.Veg.8(4) pp: 57-71,

J.Soil Sc. Plant Nutr.8(4)pp:(57-71).

Caldwell C.R, 1989, Analysis of Aluminum and Divalent

Cation Binding to Wheat Root Plasma Membrane

Protein Using Terbium Phosphorescence, Plant Physiol91, pp. 233-241.

Chaffai et al.,  2006, Aluminum-induced Change in Organic

Acid and Lipid Content in Maize ( Zea mays  L.),

Research Journal of Botany 1(2): 52-63.

Delhaize E; Ryan PR.1995. Aluminum Toxicity and Tolerance

in Plants. Plant Physiol. 107: 315-321.

Fatchiyah, Arumingtyas EL, Widyarti S, Rahayu S, 2009, Dasar-

Dasar Analisa Biologi Molekuler, Brawijaya Press,Malang.

Firmansyah MA. 2003. Respon Tanaman Terhadap

Aluminium. Pengantar Falsafah Sains ( PPS702). S3.

IPB. Bogor.

Hanum et al,. 2007. Pertumbuhan Akar Kedelai pada

Cekaman Aluminium, Kekeringan dan Cekaman

8/19/2019 its coa

http://slidepdf.com/reader/full/its-coa 2/4

 50

Ganda Aluminium dan Kekeringan. Jurnal

AGRITROP, 26 (1): 13 – 18.

Harder R.D., 2002, ACID SOILS OF THE TROPICS. An EchoTechnical Note.

Horst W.J., Schmohl N., Kollmeier M., Baluska F., Sivaguru M.,

1999, Does aluminum affect root growth of maize

through interaction with the cell wall – plasma

membrane – cytoskeleton continuum ?, Plant and Soil

215, pp. 163-174.

http://images.google.co.id/images

http://pasca.uns.ac.id/wp-content/uploads/2009/02/suranto-ekspresi-protein.pdf

Inostroza et al.,  2008, Resistance Mechanisms Of Aluminum

(Al3+

) Phytotoxicity In Cereals: Physiological, Genetic

and Molecular Bases. R.C.Suelo Nutr. Veg. 8(4) and J.

Soil Sc. Plant Nutr. 8(4).

Kinroide TB.1991. Identity of the rhizotoxic aluminum species.

Plant Soil 134.

Kochian LV, 1995, Cellular mechanisms of aluminum toxicity

and resistance in plant. Annu, Rev.Plant Physiol, PlantMol, Biol (46), pp: 237-260

Kochian LV, 2001, The Physiology, Genetics and Molecular

Biology of Plant Aluminum Resistance and Toxicity,

Plant Soil 274:175-195.

Lakitan B, 2001, Dasar – dasar FISIOLOGI TUMBUHAN,

Raja Grafindo Persada, Jakarta.

Lea Peter J dan Richard C. Leegood. 1993. Plant Biochemistry

and Molecular Biology. John Wiley & Sons Ltd. USA.Loboda T; Wolejko E., 2006, Effect of pH and Al3+ 

Concentration On Growth Of Spring brewer’s barley,

Agronomy Research (42) pp: 517 – 529.

Ma J.F, Ryan P.R, Delhaize E, 2001, Aluminum tolerante in

plants and the complexing role of organic acids,

TRENDS in Plant Science Vol.6 No.6, pp.273-278.

8/19/2019 its coa

http://slidepdf.com/reader/full/its-coa 3/4

  51

MacDiarmid CW dan Gardner RC.1996. Al toxicity in yeast. A

role for Mg. Plant Physiol 112.

Meda A.R, Furlani P.R., 2005, Tolerance to Aluminum Toxicityby Tropical Leguminous Plants Used as Cover Crops,

Brazilian Archives of Biology And Technology Vol.48,

No.2.pp: 309-317

Oktavidiati E. 2002. Mekanisme Toleransi Tanaman

Terhadap Stres Aluminium. Makalah Falsafah Sains

Program Pasca Sarjana. IPB.

Palar, H., 1994. “Pencemaran dan Toksikologi Logam Berat”.

Jakarta:Rineke CiptaPanda S.K., 2007, Molecular Physiology of Aluminum

Toxicity and Tolerance in Plants, The Botanical

Review 73(4): 326 – 347.

Pietraszewska MT, 2001, Effect of Aluminium On Plant

Growth and Metabolism, Acta Biochimica Polonica,

Vol.48, No.3, pp: 673-686.

Pineros M.A, Magalhaes J.V, Alves V.M.C, Kochian L.V, 2002,

The Physiology and Biophysics of an Aluminum

Tolerance Mechanism Based on Root CitrateExudation in Maize, Plant Physiology Vol. 129, pp.

1194-1206.

Ryan PR, DiTomaso JM dan Kochian LV. 1993. Aluminum

toxicity in root: a investigation of spatial sensitivity

and the role of the root cap. J Exp Bot 44.

Ryan PR, Liu Q, Sperling P, Dong B, Franke S, Delhaize E,

2007, A Higher Plant ∆8 Sphingolipid Desaturase

With A Preference For (Z)-Isomer FormationConfers Aluminum Tolerance of Yeast and Plant,

Plant Physiology, Vol. 144, pp: 1968-1977.

Rout G.R., Samantaray S., Das P, 2001, Aluminum toxicity in

plant: a review, Agronomie 21, pp. 3-21.

Salisbury dan Ross. 1995. Fisiologi Tumbuhan dan Fisiologi

Lingkungan Jilid III. Edisi ke IV. Bandung. ITB press.

8/19/2019 its coa

http://slidepdf.com/reader/full/its-coa 4/4

 52

Sofia D. 2007. Respon Tanaman Kedelai ( Glycine max  L )

Pada Tanah Masam. Karya Tulis Fakultas Pertanian

Universitas Sumatera Utara.Sopandie D, Marzuki I, Jusuf M., 2003. Aluminum Tolerance in

Soybean: Protein Profiles and Accumulation of Al in

Roots.Hayati Vol.10 (1) Marzuki I; Sopandie D. 2000.Stres Aluminium pada Kedelai. Bionature Vol. 1 ( 1 ). 

Sutedjo M.M dan Kartasapoetra A.G., 2005, PENGANTAR

ILMU TANAH Terbentuknya Tanah dan Tanah

Pertanian, Penerbit Rineka Cipta, Jakarta, Hal: 134.

Wiranadikusumah M. 1989.BIOKIMIA Protein, Enzim dan

Asam Nukleat. ITB. Bandung.

Yatim, W. 2003. BIOLOGI MODERN BIOLOGI SEL.

Tarsito. Bandung.