DAFTAR PUSTAKA

Abidin, Z. 1994. Dasar-Dasar Pengetahuan Tentang Zat Pengatur Tumbuh.
Penerbit Angkasa. Bandung.
Adie, M. M. dan Krisnawati, A. 2007. Biologi Tanaman Kedelai. Dalam
Sumarno, Suyamto, Widjono, A., Hermanto. dan Kasim, H (Ed.).
Kedelai Teknik Produksi dan Pengembangan. Pusat Penelitian dan
Pengembangan Tanaman Pangan. Badan Penelitian dan Pengembangan
Pertanian. Bogor.
Afzal, I., Basra, S. M. A., Ahmad, N. and Farooq, M. 2005. Optimization of
hormonal priming techniques for alleviation of salinity stress in wheat
(Triticum aestivum L.). Cardeno de Pesquisa Sė r. Bio., Santa Cruz do
sul. 17(1):95-109.
Aldesuquy, H. S. 1992. Growth and pigment content of wheat as influenced by
the combined effects of salinity and growth regulators. Biol. Plant., 34:
275-283.
Aldesuquy, H. S. and Gaber, A. M. 1993. Effect of growth regulators on Vicia
faba plants irrigated by seawater, leaf area, pigment content and
photosynthetic activity. Biol. Plant., 35, 519–527.
Aldesuquy, H. S. 1995. Hormones induced modifications in the response of wheat
flag leaf area to NaCl. Biol. Plant, 387: 605-611.

Aldesuquy, H. S. and Ibrahim, A. H. 2001. Interactive effect of seawater and
growth bio-regulators on water relations, absicisic acid concentration,
and yield of wheat plants. J. Agron. Crop. Sci., 187, 185-193.
Ali. H. M., Siddiqui, M. H., Basalah, M. O., Al-Whaibi, M. H., Sakran, A. M.
And Al-Amri, A. 2011. Effects of gibberellic acid on growth and
photosynthetic pigments of Hibiscus sabdariffa L. under salt stress. Afr J
Biotechnol 11:800–804.
Apel, K. and Hirt, H. 2004. Reactive oxygen species metabolism, oxydative
stress, and signal transduction. Plant Biol 55:373-399.
Ardiansyah, M., Mawarni, L. dan Rahmawati, N. 2014. Respon Pertumbuhan dan
Produksi Kedelai Hasil Seleksi Terhadap Pemberian Asam Askorbat dan
Inokulasi Fungi Mikoriza Arbuskular di Lahan Salin. Program Studi
Agroekoteknologi. Fakultas Pertanian. USU. Jurnal Online
Agroekoteknologi. ISSN No. 2337-6597.

Aroca, R., Juan, J. I. and Manuel, S. D. 2001. Photosynthetic characteristica and
protective mechanisms against oxidative stress during chilling and
subsequent recovery in two maize varieties differing in chilling
sensitivity. Plant Sci 161:719-726.
Arora, A., Sairam, R. K. and Srivastava, G. C. 2002. Oxidative stress and

antioxidative system in plants. Current Science. 82(10):1227-1238.
Arrigoni, O., De Gara, L., Tomasi, F. and Liso, R. 1992. Changes in the ascorbate
system during seed development of Vicia faba L. Plant Physiology.
99:235-238.
Ashraf, M., Karim, F. and Rasul, E. 2002. Interactive effects of gibberellic acid
(GA3) and salt stress on growth, ion accumulation and photosynthetic
capacity of two spring wheat (Triticum aestivum L.) cultivars differing in
salt tolerance. Plant Growth Regul., 36(1): 49-59.
Bari, A., Musa, S., Syamsuddin, E. 1974. Pengantar Pemuliaan Tanaman.
Departemen Agronomi. Fakultas Pertanian Institut Pertanian Bogor,
Bogor.
Basra, S. M. A., Farooq, M., Wahid, A. and Khan, M. B. 2006. Rice seed
invigoration by hormonal and vitamin priming. Seed Sci. & Technol.,
34:753-758.
Begum, H., Lavania, M. L. and Babu, G. G. V. 1988. Seed studies in papaya. II.
Effect of pre-soaking treatment with GA and thiourea on germination and
vigor of aged seed. Seed Res. 16(1): 51-56.
Bejaoui, M. 1985. Interaction between NaCl and some phytohormones on
soybean growth. J. Plant Physiol., 120: 95-110.
Bernstein, L. 2003. Effects of salinity and sodicity on plant growth. Phytopathol

13: 295-312.
Bidwell, R. G. S. 1979. Plant Physiology. 2Nd. Mc Milan Pub. Co. inc. New
York.
Bintaro, M. H. 1990. Pengaruh NaCl Terhadap Pertumbuhan Kultivar Tomat,
Bull. Agron. XIV 1: 13-28.
Bintoro, M. H. 1999. Pengaruh NaCl terhadap pertumbuhan tanaman terung
kultivar senryo dan kultivar akanasu. Bul. Agr. 3:126-134.
Blokhina, O., Virolainen, E. and Fagerstedt. 2003. Antioxidant, oxidative damage
and oxygen deprivation stress [review]. Ann Bot 91:179-194.
Bohnert, H. J., Nelson, D. E. and Jensen, R. G. 1995. Adaptations to
Environmental Stresses. The plant Cell 7: 1099-111.

Bosabalidis, A. M. and Kofidis, G. 2002. Comparative Effects of Drought Stress
on Leaf Anatomy of Two Olive Cultivars. Plant Science 163 : 375-379.
Carlson, J. B. 1973. Morphology. In: B. E. Caldwell (Eds.). Soybean:
Improvement, Production and Uses. Amer. Soc. of Agron. Wisconsin. P.
17-95.
Choudhuri, M. A. 1988. Free radicals and leaf senescence - a review. Plant
Physiol Biochem 15: 18-29.
Choudhury, N. K., Cho, T. H. And Huffaker, R. C. 1993. Ascorbate induced

Zeaxanthin formation in wheat leaves and photoprotection of pigment
and photochemical activities during aging of chloroplasts in light.
J. Plant Physiol., 141: 551-556.
Conklin, P. L. 2001. Recent advances in the role and biosynthesis of ascorbic acid
in plants. Plant Cell Environ 24: 383-394.
Conklin, P. L. and Barth, C. 2004. Ascorbic acid, a familiar small molecule
intertwined in the response of plants to ozone, pathogens and the onset of
senescence. Plant Cell Environ 27: 959-970.
Debolt, S., Melino, V. and Ford, C. M. 2007. Ascorbate as a biosynthetic
precursor in plants. Ann Bot 99: 3-8.
Departemen Pertanian, 1990. Upaya Peningkatan Produksi Kedelai. Balai
Informasi Pertanian, Sumatera Utara, Medan. Hal 5-7.
Dolatabadian, A. and Modarressanavy, S. A. M. 2008. Effect of the ascorbic acid,
pyridoxine and hydrogen peroxide treatments on germination, catalase
activity, protein and malondialdehyde content of three oil seeds. Not. Bot.
Hort. Agrobot. Cluj. 36(2):61-66.
El-Bastawisy, Z. M. 1999. Hormonal control of growth and metabolism of water
stressed C3 and C4 plants Ph.D. Thesis Fac. of Sci. Mansoura Univ.
Egypt.
Ermolayev, Vladimir. 2001. Isolation of genes involved in soybean response to Al

toxicity under Low pH condition.p.15–24 In Proceeding of Workshop on
Soybean Biotechnology for Aluminum Tolerance on Acid Soils and
Disease Resistance. Federal Ministry for Education and Research,
Germany. Central Research Institute for Food Crops, Bogor.
Evelin, H., Kapoor, R. and Giri, B. 2009. Arbuscular mycorrhizal fungi in
allevation of salt stress. Invit. Rev. Annals of Botany. 1-18.
FAO. 2005. 20 Hal Untuk Diketahui Tentang Dampak Air Laut Pada Lahan
Pertanian di Propinsi NAD. Panduan Lapang FAO. United Nations Food
and Agriculture Organization (UN-FAO).

Farid, M. dan Sjahril, R. 2006. Mekanisme Ketahanan Kedelai Terhadap Salinitas
dan Kekeringan Berdasarkan Karakter Morfofisiologis. UNHAS.
Makassar. Buletin Penelitian, Vol.9 (2), hal.146-153.
Farooq, M., Basra, S. M. A. and Wahid, A. 2006. Priming of field-sown rice seed
enhances germination seedling establishment, allometry and yield. Plant
Growth Regul. 49:285-294.
Farooq, M., Basra, S. M. A. and Ahmad, N. 2007. Improving the performance of
transplanted rice by seed priming. Plant Growth Regul. 51:129-137.
Follet, R. H., Murphy, L. S. and Donahue, R. L. 1981. Fertilizers and Soil
Amendments. Prentice-Hall Inc., Englewood Cliffs, NJ. 557 pp.

Foy, C. D. 1984. Physiological effect of hydrogen, aluminum, and manganese
toxicities in acid soil. p.57–97. In F. Adams (Ed.) Soil Acidity and
Liming.. American Society of Agronomy, Inc. Crop Science Society of
America, Inc. Soil Science Society of America, Inc. Madison, Wisconsin
USA.
Fukazawa, J., Sakai, T., Ishida, S., Yamaguci, I., Kamijaya, Y. and Takahashi, Y.
2000. Respiration of Shoot Growth, ab ZIP Transcriptional Activator
Regulates Cell Elongation by Controlling The Level of Gibberellins.
Plant Cell. 12(6):901-916.
Gale, J., Kohl, H. C. and Hagan, R. M. 1999. Changes in water balance and
photosynthesis on bean and cotton plants under saline conditions.
Physiologia 20 : 408-420.
Gill, S. S. and Tuteja, N. 2010. Reactive Oxygen Species And Antioxidant
Machinery In Abiotic Stress Tolerance In Crop Plants. Plant Physiology
and Biochemistry 48 (2010) 909-930.
Grattan, S. R. 2005. Irrigation water salinity and crop production. ANR
Publication 8066. University of California Agriculture and Natural
Resources in partnership with Natural Resources Conservation Service.
Greenway, H. and Munns, R. 2001. Mechanism of salt tolerance in nonhalophytes. Plant Physiol 31: 149-190.
Hadiarto, T. 2010. Faktor Transkripsi OsDREB1A dan OsDREB1B pada Padi

[Artikel]. BB Biogen. http://biogen.litbang.pertanian.go.id/index.php/
2010/11/faktor-transkripsi-osdreb1a-dan-osdreb1b-pada-padi/
[24 Februari 2015].
Hakim, N., Nyakpa, Y. M., Lubis, A. M., Sutopo, G. N., Rusdi, S. M., Amin,
D. M., Hong, G. B. and Bailey, H. H. 1986. Dasar-dasar Ilmu Tanah.
Universitas Lampung. Lampung.

Hamada, A. M. 1998. Effect of exogenously added ascorbic acid, thiamin or
aspirin on photosynthesis and some related activities of drought-stressed
wheat plants. In: Proceedings of XI th International Photosynthesis
Conference. Budapest, Hungary, August, pp. 17-22.
Hardiyanto. 1995. Pengaruh Giberelin dan Asam Askorbat terhadap
Perkecambahan dan Pertumbuhan Markisa. Instalasi Penelitian dan
Pengkajian Teknologi Pertanian Tlekung. J. Hort. 5(4):61-66, 199.
Haroun, S. A., 2002. Fenugreek growth and metabolism in response to gibberellic
acid and sea water. Bull. Fac. Sci. Assiut Univ. 31: 11-21.
Heddy, S. 1986. Hormon Tumbuh Tanaman. Sinar Baru. Bandung.
Hisamatsu, T., Koshioka, M., Kubota, S., Fujime, Y., King, R. W. and Mander, L.
N. 2000. The role of gibberellin in the control of growth and flowering in
Matthiola incana. Physiol Plantarum 109: 97-105.

Huber, W., Rustagi, P. N. and Sankhla, N. 1974. Eco-physiological studies on
Indian arid zone plants. III. Effect of sodiumchloride and gibberellin on
the activity of the enzymes of carbohydrate metabolism in leaves of
Pennisetum typhoides. Oecologia, 15, 77-86.
Iqbal, N., Nazar, R., Khan, M. I. R., Masood, A. and Khan, N. A. 2011. Role of
gibberellins in regulation of source-sink relations under optimal and
limiting environmental conditions. Department of Botany, Aligarh
Muslim University, India. Current Science, Vol. 100, No. 7.
Ishibashi, Y. and Iwaya-Inoue, M. 2006. Ascorbic acid suppresed germination and
dynamic states of water in wheat seeds. Plant Prod. Sci. 9(2) : 172-175.
Kaur, S., Gupta, A. K. and Kaur, N. 1998. Gibberellin A3 reverses the effect of
salt stress in chickpea (Cicer arietinum L.) seedlings by enhancing
amylase activity and mobilization of starch in cotyledons. Plant Growth
Regul., 26, 85-90.
Kefeli, V. I. 1981. Vitamins and some other representatives of non hormonal plant
growth regulators. Prible. Biochem. Microbiol., 17: 5-15.
Khan, A. Iqbal, I. and Shah, A. 2010. Alleviation of adverse effects of salt stress
in brassica (Brassica campestris) by pre-sowing seed treatment with
ascorbic acid. Am Eurasian J Agric Environ Sci 7: 557-560.
Khan, M. M. A., Gautam, C., Mohammad, F., Siddiqui, M. H., Naeem, M. and

Khan, M. N. 2006. Effect of Gibberelic Acid Spray on Performance of
Tomato. Plant Physiology Section 30 (06) : 11-16.
Khan, N. A. 1996. Effect of gibberellic acid on carbonic anhydrase,
photosynthesis, growth and yield of mustard. Biol. Plant., 38, 145–147.

Khosravinejad, H. F. R. and Farboondia, T. 2008. Effect of salinity on
photosynthetic pigments, respiration and water content in barley
varieties. Pak. J. Biol. Sci. 11: 2438-2442.
Knight, R. 1979. Plant breeding. Australian vice chancellor committe. Australian.
Kumar, B. and Singh, B. 1996. Effect of plant hormones on growth and yield of
wheat irrigated with saline water. Ann. Agric. Res., 17, 209-212.
Lakitan, B. 1996. Fisiologi Pertumbuhan dan Perkembangan Tanaman. PT Raja
Grafindo Persada. Jakarta
Lehmann, J., Atzorn, R., Bruckner, C., Reinbothe, S., Leopold, J., Wasternack, C.
and Parthier, B. 1995. Accumulation of jasmonate, abscisic acid, specific
transcripts and proteins in osmotically stressed barley leaf segments.
Planta 197: 156-162.
Lin, J. And Wang, G. 2002. Doubled CO2 Could Improve the Drought Tolerance
Better in Sensitive Cultivars Than in Tolerant Cultivars in Spring Wheat.
Plant Science 163 627-637.

Lindasari. 2011. Pengaruh Perlakuan Asam Askorbat dalam Meningkatkan
Toleransi Terhadap Kekeringan pada Dua Varietas Padi Gogo (Oryza
sativa L.) [Skripsi]. Departemen Agronomi dan Hortikultura. Fakultas
Pertanian. Institut Pertanian Bogor. Bogor.
Maggio, A., Barbieri, G., Raimondi, G. and De Pascale, S. 2010. Contrasting
Effects of GA3 Treatments on Tomato Plants Exposed to Increasing
Salinity. J Plant Growth Regul 29: 63–72.
Marschner, H. 2005. Mineral Nutrition of Higher Plants. Academic Press.
Harcourt Brace and Company, Publishers. London. San Diego. New
York. Boston. Sydney. Tokyo and Toronto.
McConn, M., Creelman, R. A., Bell, F., Mullet, J. E. and Browse, J. 1997.
Jasmonate is essential for insect defense in Arabidopsis. Proc Natl Acad
Sci USA 94: 5473-5477.
McKersie, B. D. and Leshem, Y. Y. 1994. Stress and Stress Coping in Cultivated
Plants. Netherlands: Kluwer Academic Publishers.
Mohammed, A. H. M. A. 2007. Physiological aspects of mungbean plant
(Vigna radiata L. Wilczek) in response to salt stress and gibberellic acid
treatment. Department of Biological and Geological Sciences, Faculty of
Education, Ain Shams Univ., Cairo, Egypt. Research Journal of
Agriculture and Biological Sciences 3(4):200-213.

Munns, R. 2002. Comparative physiology of salt and water stress. Plant Cell
Environ., 25: 239–250.

Nandini-Chakrabarti, Mukherji, S. and Chakrabarti, N. 2002. Effect of
phytohormone pretreatment on metabolic changes in Vigna radiate under
salt stress. J. of Environ. Biol., 23: 295-300.
Nandini-Chakrabarti. and Mukherjee, S. 2003. Effect of Phytohormone
pretreatment on DNA, RNA, amino acid and protein content in different
plant parts of Vigna radiate under salt stress. Indian-Agriculturist.
47: 57-78.
Naqvi, S. S. M. 1999. Plant hormones and stress phenomena. In: Handbook of
Plant and Crop Stress, Ed. M. Pessarakli, Marcel Dakker, New York,
709-730.
Noctor, G. and Foyer, G. H. 1998. Ascorbate and glutathione: Keeping active
oxygen under control. Plant Physiol 49:249-279.
Patel, J. N., Jadeja, D. B., Patel, K. N., Joshi, A. K. And Chinoy, J. J. 1980. Study
of some aspect of ascorbic acid metabolisme and growth in Brassica
seeds pre treated with high temperature and ascorbic acid free radical.
Indian. J. Plant Physiol. XXIII (1): 33-38.
Phang, T. H., Shao, G. and Lam, H. M. 2008. Salt tolerance in soybean. J. Integr.
Plant Biol. 50 (10): 1196-1212.
Poljakoff-Mayber, A. and Gale, J. 2002. Morphological and anatomical changes
in plants as a response to salinity stress. Plant Physiol 14: 97-117.
Prakash, L. and Prathapasenan, G. 1990. NaCl and gibberellic acid induced
changes in the content of auxin, the activity of cellulose and pectin lyase
during leaf growth in rice (Oryza sativa). Ann Bot 365: 251-257.
Priyansyah, D. P. 2012. Keragaman dan Identifikasi Genotipe Padi Sawah Toleran
Terhadap Cekaman Salinitas Tinggi. Skripsi. Fakultas Pertanian.
Universitas Winaya Mukti. Tanjungsari.
Rachman, A., Subiksa, I. G. M. dan Wahyunto. 2007. Perluasan areal tanaman
kedelai ke lahan suboptimal. Kedelai: Teknik produksi dan
pengembangan, p. 185-226. Puslitbangtan, Bogor.
Rahmawati, N. dan Rosmayati. 2010. Penapisan varietas kedelai (Glycine max L.
Merril) toleran cekaman salinitas [Laporan topik khusus]. Program
Doktor Ilmu Pertanian. Fakultas Pertanian. Universitas Sumatera Utara.
Medan.
Rahmawati, N. 2015. Peningkata Hasil Kedelai di Tanah Salin dengan
Penggunaan Genotipa Tahan, Asam Askorbat dan Fungi Mikoriza
Arbuskular [Disertasi]. Program Doktor Ilmu Pertanian. Fakultas
Pertanian. Universitas Sumatera Utara. Medan.

Sakr, M. T. 1996. Some physiological studies on the role of GA3, Kinetin and
Ethrel on inducing salt tolerance of cotton seedlings, J. Agric. Sci.
Mansoura Univ., 21: 633-642.
Salama, K. H. A. 2009. Amelioration of NaCl-induced alterations on the plasma
membrane of Allium cepa L. by ascorbic acid. Aust J Basic Appl Sci 3:
990-994.
Salisbury, F. B dan Ross, C. W. 1995. Fisiologi Tumbuhan, Jilid 3. Penerbit ITB
Press, Bandung.
Sembiring H. dan Gani A. 2010. Adaptasi Varietas Padi Pada Tanah Terkena
Tsunami. Balai Besar Penelitian Tanaman Padi.
Shaddad, M. A., Radi, A. F., Abdel-Rahman, A. M. and Azooz, M. M. 1989.
Response of seeds of Lupinus termis and Vicia faba to the interactive
effect of salinity and ascorbic acid or pyridoxine. Plant and Soil. 177183.
Shomeili, M., Nabipour, M., Meskarbashee, M. And Memari, H. R. 2011. Effects
of gibberellic acid on sugarcane plants exposed to salinity under a
hydroponic system. Agronomy Department, College of Agriculture,
Shahid Chamran University, Ahvaz, Iran. African Journal of Plant
Science Vol. 5 (10), pp. 609-616.
Simatupang, P., Marwoto. dan Swastika, D. K. S. 2005. Pengembangan Kedelai
dan Kebijakan Penelitian di Indonesia. Lokakarya Pengembangan
Kedelai di Lahan Suboptimal. BALITKABI Malang.
Sipayung, R. 2003. Stres Garam dan Mekanisme Toleransi Tanaman. Fakultas
Pertanian, Jurusan Budidaya Pertanian, Universitas Sumatera Utara,
Medan. Digitized by USU digital library.
Sivakumar, P., Sharmila, P. and Pardha, S. P. 2000. Proline alleviates salt-stressinduced enhancement in ribulose-1,5-biphosphate oxygenase activity.
Biochem. biophys. Res. Commun., 279, 512-515.
Smirnoff, N. 1996. The function and metabolism of ascorbic acid in plants.
[botanical briefing]. Ann Bot 78:661-669.
Sonja, D., Veljovic-Jovanovic, Cristina, P., Graham, N. and Christine, H. F. 2001.
Low askorbic acid in the vtc-1 mutant of Arabidopsis is associated with
decreased growth and intracellular redistribution of the antioxidant
system. Plant Physiol 127:426–435.
Sumarno. 2005. Strategi Pengembangan Kedelai di Lahan Masam. Prosiding
Lokakarya Pengembangan Kedelai di Lahan Suboptimal. Puslitbangtan
Bogor.

Sunarto. 2001. Toleransi Kedelai Terhadap Tanah Salin. Fakultas Pertanian
Universitas Jenderal Soedirman. Bul. Agron. (29) (1) : 27-30.
Tan, K. H. 2004. Dasar-dasar kimia tanah. Gadjah Mada University Press.
Yogyakarta.
Tin, T. 2009. Interaksi Antara Dosis Fungi Mikoriza Arbuskula Terhadap
Pertumbuhan, Kuantitas dan Kualitas Tiga Kultivar Kedelai. Faperta
Unwim-Kopertis Wilayah IV Jawa Barat. Panel. Hayati Edisi Khusus.
3C:79-83.
Tuna, A. L., Kaya, C. and Dikilitas, M. 2008. The combined effects of gibberellic
acid and salinity on some antioxidant enzyme activities, plant growth
parameters and nutritional status in maize plants. Environ Exp Bot
62:1-9.
Utama, M. Z. H., Haryoko, W., Munir, R. dan Sunadi. 2009. Penapisan varietas
padi toleran salinitas pada lahan rawa di Kabupaten Pesisir Selatan.
Journal Agronomi Indonesia 37 (2) : 101 – 106.
Van Huizen, R., Ozga, J. A. and Reinecke, D. M. 1997. Seed and hormonal
regulation of gibberellins 20-oxidase in pea pericarp. Plant Physiol 115:
123-128.
Wahid, A., Perveen, M., Gelani, S. and Basra, S. M. A. 2007. Pretreatment of
seed with H2O2 improves salt tolerance of wheat seedlings by alleviation
of oxidative damage and expression of stress proteins. J. Plant Physiol.,
164: 283-294.
Wattimena, G. A. 1991. Bioteknologi Tanaman. Pusat Antar Universitas. Institut
Pertanian Bogor. Bogor.
Widjaja Adhi, I. P. G., Nugroho, K., Ardi, D. S. dan Karama, S. A. 1992.
Sumberdaya Lahan Rawa: Potensi, Keterbatasan dan Pemanfaatan.
Dalam Portohardjono, S. Dan Syam, M. (eds.) : Pengembangan Terpadu
Pertanian Lahan Rawa Pasang Surut dan Lebak. SWAMPS IIPuslitbangtan. Bogor.
Wieczorek-Zeul, H. 2008. Ways out of the silent tsunami. International J. Of Dev.
and Coop. 35 (6): 250-252.
Wolucka, B. A., Goossens, A. and Inze, D. 2005. Methyl Jasmonate Stimulates
the de novo Biosynthesis of Vitamin C in Plant Cell Suspensions, J. Exp.
Botany, 56: 2527-2538.
Yang, T., Davies, P. J. and Reid, J. B. 1996. Genetic dissection of the relative
roles of auxin and gibberellin in the regulation of stem elongation in
intact light-grown peas. Plant Physiol 110:1029-1034.

Yuan, L. and Xu, D. Q. 2001. Stimulation effect of gibberellic acid short-term
treatment on leaf photosynthesis related to the increase in Rubisco
content in broad bean and soyabean. Photosynth. Res., 68, 39-47.
Yuniati, R. 2004. Penapisan Galur Kedelai (Glycine max (L.) Merrill) Toleran
Terhadap NaCl Untuk Penanaman Di Lahan Salin. Makara, Sains, Vol.
8, No. 1: 21-24.
Zhang, S. J., Weng, J. J., Pan, T., Tu, S., Yao. and Xu, C. 2003. Study on the
photogeneration of superoxide radicals in Photosystem II with EPR spin
trapping techniques‖ , Photosynth Res. 75:41–48.