DAFTAR PUSTAKA

Annis DC, Starman TW, Gibson PT. 1992. Photoperiod and gibberellic acid modify growth and flowering of Craspedia globosa. Hortscience 27:1082–1084.

Arteca RN. 1995. Plant Growth Substances: Principle and Applications. New York: Chapman & Hall.

Audus LJ. 1972. Plant Growth Substances. Volume 1 : Chemistry and Physiology. London: Leonard Hill.

Badr SA, Hartmann HT, Martin GC. 1970. Endogenous gibberellins and inhibitors in relation of flower induction and inflorescence development in the olive. Plant Physiol

46:674–679.

Basuki RS. 2009. Analisis kelayakan teknis dan ekonomis teknologi budidaya bawang merah dengan benih biji botani dan benih umbi tradisional. J Hort 19: 214–227.

Bernier G, Kinet JM, Sachs RM. 1985. The Physiology of Flowering. Vol I. The Initiation of Flowers. Florida: CRC Press Inc.

Bernier G, Havelange A, Houssa C, Petitjean A, Lejeune P. 1993. Physiological signals that induce flowering. The Plant Cell 5:1147–1155.

Berninger E. 1965. Contribution a l’etude de la sterilite male de l’oignon (Allium cepa L).

Annales de l’Amelalioration des Plantes 15:183–199.

Besnard-Wibaut C. 1981. Effectiveness of gibberellins and 6-benzyladenine on flowering of

Arabidopsis thaliana. Physiol Pl 53:205-212.

Bey Y, Syafii W, Sutrisna. 2006. Pengaruh pemberian giberelin (GA3) dan air kelapa

terhadap perkecambahan bahan biji anggrek bulan (Phalaenopsis amabilis BL) secara in vitro. J Biogenesis 2 (2):41–46.

Bidwell SGR. 1979. Plant Physiology. Ed ke-2. New York: McMillan Publishing Co. Inc. Blazquez MA. 2000. Flower development pathways. J Cell Sci 113:3547–3548.

Brewster JL. 1994. Onion and other vegetable allium. Cambridge: Cab. International.

Brutch N, Koshkin V, Matvienko L, Pookhovinova E, Tavares D Sousa M, Damantovich A. 2008. Influence of low temperature and short photoperiode on the time of flowering in flax. International Conference on Flax and Other Bast Plants 18: 81–91.

Chailakhyan MK, Lozhinkova VN. 1960. Gibberelin like-substances in higher plants and their effects on growth and flowering. Fiziol Rast 7:521-530.

Chailakhyan MK. 1968. Internal factors of plant flowering. Annu Rev Plant Physiol 19:1-36. Christiningsih R. 2008. Pengaruh triakontanol dan giberelin terhadap pertumbuhan dan

persentase kapsul jadi tanaman buncis. Agros 10 (2):35–42.

Cogins Jr, Hield CW, Burns RM, Eaks IL, Lewis LN. 1996. Gibberelin research with citrus.

Calif Agro 20:12-13.

Crane JC, Primer PE, Campbell RC. 1960. Gibberellin-induced parthenocarpy in Prunus.

Crane JC, Rebeiz CA, Campbell RC. 1961. Gibberellin-induced parthenocarpy in the J. H. Hale peach and the probably cause of button production. Proc Amer Soc Hort Sci 78: 111-118.

Corbesier L, Coupland G. 2006. The quest for florigen: a review of recent progress. J of Exp Botany 57:3395-3403.

Davies PJ. 1995. Plant Hormones Physiology Biochemistry and Molecular Biology. Ed ke-2. London: Kluwer Acad, Publ.

Dias-Tagliacozzo GM, Valio IFM. 1994. Effect of vernalization on flowering of Daucus carota (cvs. Nantes and Brasilia). R Bras Fisiol Veg 6:71–73.

Dwidjoseputro D. 1990. Pengantar Fisiologi Tumbuhan. Jakarta: Gramedia Pustaka Utama. Ekmekci Y, Terzioglu S. 2000. Interactive effects of vernalization, photoperiod and light

intensity on reproductive development of wheat cultivars. Turk J Agri For 4:475–486. Erwin J. 2002. Factors affecting flowering in ornamental plants. Di dalam: McDonald MB and Kwong FK, editor. Flower Seeds Biology and Technology. UK: CABI Publ. hlm 87–115.

Evans LT. 1964. Inflorescence inititation in Lolium temulentum L. the role of gibberellins.

Aust J Biol Sci 17:10-23.

Farooqi AHA, Sangwan NS, Sangwan RS.1999. Effect of different regimes on growth, flowering and essential oil in Mentha species. Plant Growth Regulation 29:181–187. Fritsch RM, Friesen N. 2002. Evolution, domestication and taxonomy. Di dalam:

Rabinowitch HD and Currah L, editor. Allium Crop Science: Recent Advances. UK: CABI Publ. hlm 5-30.

Gardner FP, Pearce RB, Mitchell RL. 2008. Fisiologi Tanaman Budidaya. Herawati Susilo, penerjemah. Jakarta: UI Press. Terjemahan dari Physiology of Crop Plants.

Garner WW, Allard HA. 1920. Effect of the relative length of day and night and other factors of the environment on growth and reproduction in plants. J Agric Res 18:553-606. Gent MPN, McAvoy RJ. 2000. Plant growth retardants in ornamental horticulture. Di dalam:

Basra AS. Plant Growth Regulators in Agriculture and Horticulture Their Role and Commercial Uses. FPP. hlm 89-130.

Gianfagna TU. 1986. Effect of etephon and GA3 on time of flowering in Peach. HortScience

21:69-70.

Grant RH. 1997. Partitionong of biologically active radiation in plant canopies. Int J Biometeorol 40:26-40.

Greulach VA, Haesloop JG. 1958. Influence of gibberellin on Xanthium flowering as realated to number of photoinductive cycles. Science 127:646-647.

Grubben GJH. 1994. Constraints for shallot, garlic and welsh onion in Indonesia: a case study on the evolution of allium crops in the equatorial tropics. Acta Horticulturae

Harkess LR, Lyons RE. 1994. Gibberelin and cytokinin-induced growth and flowering responses in Rudbeckia hirta L. HortScience 29:141–142.

Heath OVS, Mathur PB. 1944. Studies in the physiology of the onion plant. II. inflorescence initiation and development, and other changes in the internal morphology of onion sets, as influenced by temperature and day length. Annals of Applied Biology 31:173– 187.

Hempel FD, Welch DR, Feldman LJ. 2000. Floral induction and determination: where is flowering cotrolled?. Trends in Plant Science Reviews 5: 17-21.

Herlina D, Asgar A, Sutater T. 1995. Penggunaan bahan kimia untuk memacu pertunasan subang galdiol kultivar Dr Mansoer. J Hort 5:1-6.

Hillman WS. 1962. The Physiology of Flowering. New York: Hotl, Rinehart, and Winston. Hilman Y, Suwandi. 1990. Pengaruh penggunaan pupuk nitrogen dan dosis fosfor terhadap

pertumbuhan dan hasil bawang merah. Bul Penel Hort 19:25–31.

Iannucci A, Terribile MR, Martiniello P. 2008. Effects of temperature and photoperiod on flowering time of forage legumes in a Mediteranian environment. Field Crops Research 106:156-162.

Kamenetsky R. 2000. Florogenesis of ornamental allium species as an ecological and physiological phenomenon [abstrak]. VIII International Symposium on Flowerbulbs. ISHS Acta Horticulturae. Abstrak no 570.

Kamenetsky R, Rabinowitch HD. 2002. Florogenesis. Di dalam: Rabinowitch HD and Currah L, editor. Allium Crop Science: Recent Advances. UK: CABI Publ. hlm 31– 58.

Keller ERJ, Senula A, Lesseman DE. 2000. Elimination of viruses through meristem culture and thermotherapy for the establishment of an in vitro collection of garlic (Allium sativum) in the genebank of the IPK Gatersleben. Acta Horticulturae 530:121-127. Khokar KK, Hadley P, Pearson S. 2007. Effect of photoperiod and temperature on

inflorescence appearance and subsequent development towards flowering in onion raised from sets. Scientia Horticulturae 112:9–15.

Knott JE. 1934. Effect of localized photoperiod on spinach. Proc Amer Soc Hort Sci 31:152-154.

Kramer DM, Avenson TJ, Edwards GE. 2004. Dynamic flexibility in the light reaction of photosynthesis governed by both electron and proton transfer reactions. Plant Science

9: 349–357.

Krontal Y, Kamenetsky R, Rabinowitch HD. 1998. Lateral development and florogenesis of a tropical shallot – a comparison with blub onion. Int J of Plant Science 159:57–54. Krontal Y, Kamenentsky R, Rabinowitch HD. 2000. Flowering physiology and some

vegetatif traits of short day shallot – a comparison with bulb onion. J of Hort Sci and Biotech. 75:35–41.

Kusumawati A, Hastuti ED, Setiary N. 2009. Pertumbuhan dan pembungaan tanaman jarak pagar setelah penyemprotan GA3 dengan konsentrasi dan frekuensi yang berbeda. J

Penel Sains dan Teknologi 10:18–29.

Kuhleimer C, Reinhardt D. 2001. Auxin and phyllotaxis. Trends in Plant Science. 6:187– 189.

Lang A. 1952. Physiology of flowering. Ann Rev of Pl Phy 3:305–306.

Lang A. 1956. Induction of flower formation in biennial Hyoscyamus by treatments with gibberellin. Naturwiss 43:284-285.

Lang A. 1957. The effect of gibberellin upon flower formation. Proc Nat Acad Sci 43:709-717.

Larson AR. 1960. Introduction of floriculture. New York: Departemen of Horticultural Science North Caroline State University. hlm 327–351.

Las I, Rachman AS, Sutaryo B, Guswara A, Setiobudi D. 2006. Pengaruh iklim terhadap pertumbuhan dan sinkronisasi pembungaan beberapa galur padi hibrida. J Tanah dan Iklim 24:80–93.

Lewis PM. 2000. Photoperiod effect growth and flowering of Lysmachia cleithroides duby.

HortScience 35:596-599.

Lonergan TA. 2000. The photosynthetic dark reaction do not operate in the dark. The American Biology Teacher 6:166–170.

Mandang JP. 2003. Pengaruh GA3 terhadap pertumbuhan awal bibit beberapa varietas

kentang. Eugenia 9:156–160.

McComb AJ. 1967. The control by gibberellic acid of stem elongation and flowering in biennial plants of Centaurium minus Moench. Planta 76:242-251.

Mathew D, Forer Y, Rabinowitch HD, Kamenetsky R. 2011. Effect of long photoperiod on the reproductive and bulbing processes in garlic (Allium sativum L) genotipes.

Environmental and Experimental Botany 71:166–173.

Michniewicz M, Kamienska A. 1964. Flower formation induced by kinetin and vitamin E treatment in long day plant (Arabidopsis thaliana) grown in short day. Naturwiss

52:623.

Michniewicz M, Lang A. 1962. Effects of nine different gibberellins on stem elongation and flower formation in cold-requiring and photoperiodic plants grown under non-inductive conditions. Planta 58:549-563.

Michaels SD, Amasino RM. 2000. Memories of winter : vernalization and competence to flower. Plant, Cell and Environment 23:1145–1153.

Ogawa Y. 1981. Stimulation of the flowering of Pharbitis nil Chois. by gibberellin A3 : time

dependent action at the apex. Cell Physiol 22:675-681.

Park KH, Lee CG. 2001. Effectiveness of flashing light for increasing photosynthetic efficiency of microalgal cultures over a critical cell density. Biotechnol Bioproceess Eng 6:189–193.

Permadi AH. 1993. Growing shallot from true seed. Research results and problems. Onion Newsletter for the Tropics 3:35–38.

Protasova NN, Lozhnikova PV, Nichiporivich AA, Sharipov GD, Kof EM, Sidorova KK, Keveli VI, Chailakyan MKh. 1980. Growth, activity of phytohormones and inhibitors and photosynthesis of dwarf pea mutants under different conditions of illumination.

Bio Bul Accad Sci 7(1):62–68.

Purwoko BS, Sulistiyani DS, Gunawan LW. 1997. Pengaruh aplikasi GA3 terhadap

pembungaan tanaman Anthurium adreanum cv. Avo Cuba. Bul Agron 25 (3):20–24. Puspitaningtyas DM, Mursidawati S, Wijayanti S. 2006. Studi fertilitas anggrek

Pharapaleonopsis serpentilingua (J. J. Sm) A. D. Hawkes. Biodiversitas 7:237–241. Putrasamedja S, Permadi AH. 1994. Pembungaan beberapa kultivar bawang merah di dataran

tinggi. Bul Penel Hort 26:128-133.

Putrasamedja S. 1995. Pengaruh jarak tanam pada bawang merah (Allium ascalonicum

Bacher) berasal dari biji terhadap produksi. J Hort 5:76–80.

Rabinowitch HD. 1990. Physiology of flowering. Di dalam: Rabinowitch HD and Brewster JL, editor. Onions and Allied Crops, I. Botany, Physiology and Genetics. Florida: CRC Press. hlm 113-134.

Rabinowitch HD, Kamenetsky R. 2002. Shallot (Allium cepa, Aggregatum Group). Di dalam: Rabinowitch HD and Currah L, editor. Allium Crop Science : Recent Advances. UK: CABI Publ. hlm 410-430.

Ridwan H, Sutapradja H, Margono. 1989. Daya produksi dan harga pokok benih/ biji bawang merah. Bul Penel Hort 17:57–61.

Rosliani R, Suwandi, Sumarni N. 2005. Pengaruh waktu tanam dan zat pengatur tumbuh mepiquat klorida terhadap pembungaan dan pembijian bawang merah (TSS). J Hort

15:192–198.

Ryugo K. 1990. Flowering and pembentukan buah in temperate fruit trees. Off-Season Production of Horticultral Crops Proc. International Seminar. hlm 21-26.

Salisbury FB, Ross CW. 1995. Fisiologi Tumbuhan. Jilid 3. Lukman DR, Sumaryono, penerjemah; Bandung: ITB. Terjemahan dari: Plant Physiology.

Soedomo RP. 2006. Seleksi induk tanaman bawang merah. J Hort 16 (4):269–282.

Streck NA. 2003. A vernalization model in onion (Allium cepa L). Agrociencia 9 (2):99-105. Stuart NW, HM Cathey. 1961. Applied aspects of the gibberellins. Ann Rev Plant Physiol

12:369.

Sutisna A. 2010. Teknik mempercepat pembungaan lili (Lilium spp.) dengan pemberian GA3

dan aplikasi hari panjang. Bul Teknik Pertanian 15 (1):19–23.

Suherman R, Basuki RS. 1990. Strategi luas usahatani bawang merah (Allium cepa

ascalonicum) di Jawa Bali. tinjauan dari segi usahatani terendah. Bul Penel Hort 28 (3):11–18.

Sulistyaningsih E. 2004. Fertilitas tanaman bawang merah doubled haploid. Ilmu Pertanian

11:1–4.

Sumarni N, Soetiarso TA. 1998. Pengaruh waktu tanam dan ukuran umbi bibit terhadap pertumbuhan, produksi dan ukuran umbi bibit terhadap pertumbuhan, produksi dan biaya produksi biji bawang merah. J Hort 8:1085–1094.

Sumarni N, Sumiati E. 2001. Pengaruh vernalisasi, giberelin dan auksin terhadap pembungaan dan hasil biji bawang merah. J Hort 11:1–8.

Sumarni N, Sumiati E, Suwandi. 2005. Pengaruh kerapatan tanaman dan aplikasi zat pengatur tumbuh terhadap produksi umbi bibit bawang merah asal biji kultivar Bima.

J Hort 15:208–214.

Sumiati E, Sumarni N. 2006. Pengaruh kultivar dan ukuran umbi bibit bawang bombay introduksi terhadap pertumbuhan, pembungaan dan introduksi benih. J Hort 16:12– 20.

Taiz L, Zeiger E. 2002. Plant Physiology. Ed ke-3. Massachusetts: Sinauer Associates, Inc. Publ.

Takahashi N, Phinney BO, McMillan J. 1991. Gibberellins. Berlin: Springers-Verlag.

Takimoto A. 1969. Pharbitis nil Chois. Di dalam: Evans LT, editor. The Induction of Flowering. Evans. Melbourne: Mc Millan. hlm 90-115.

Tanimoto S, Harada H. 1984. Hormonal regulation of flowering. Di dalam: Purohit SS, editor. Hormonal Regulation of Plant Growth and Development. Dordrecht: Martinus Nijhoff/Dr. W. Junk Publ. hlm 41-93.

Tjasyono BHK. 2004. Klimatologi. Bandung: ITB.

Vergara BS, Chang TT. 1976. The flowering response of the rice plant to photoperiod : a review of literature. Ed ke-3. Los Banos: International Rice Research Institute.

Vince-Prue D. 2002. Seasons and Weather, p. 181-201. Di dalam: D. S. Ingram, D. Vince-Prue and P. J Gregory, editor. Science and The Garden. UK: Wiley- Blackwell Publishing. hlm 290.

Walkey D. 1990. Virus disease. Di dalam: Rabinowitch HD and Brewster JL, editor. Onion and Allied Crops. Vol II. Agronomy, Biotic Interactions, Pathology, and Crop Protection. Florida: CRC Press. hlm 191–212.

Wellensiek SJ. 1972. A dwarf Silene armeria which does not respond to gibberellic acid with stem elongation. Proc Kon Ned Akad Wet C75:179-184.

Wilkaniec Z, Giejdasz K, Proszynski G. 2004. Effect of pollination of onion seeds under isolation by the red mason bee (Osmia rufa L), (Aphidea, Megachilidae) on the setting and quality of obtained seeds. J of Apicultural Science 48 (2):35–41.

Wittwer SH, Bukovac MJ. 1957. Gibberellin effects on temperature and photoperiodic requirements for flowering of some plants. Science 126:30-31.

Wittwer SH, Bukovac MJ. 1958. The effects of gibberellin on economic crops. Econ Bot

Wuryaningsih S, Kartapradja R, Tiwar MM. 1995. Pengaruh jumlah batang utama dan giberelin terhadap pertumbuhan dan hasil mawar kultivar cherry brandy. J Hort 5:76– 81.

Yuniastuti S, Widjajanto DD, Kusworini S. 1994. Pengaruh waktu pemberian GA4+7 + BA

terhadap hasil beberapa varietas anggur. J Hort 4:24–27.

Yursak Z. 2003. Induksi pembungaan nomor-nomor persilangan interspesifik lily (Lilium spp.) melalui aplikasi giberelin dan modifikasi fotoperiodisitas [tesis]. Bogor: Program Pascasarjana, Institut Pertanian Bogor.