PERTUMBUHAN DAN TANGGAPAN ANATOMIS TANAMAN CABAI KERITING

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84

DAFTAR PUSTAKA

Agustina, I. 1990. Dasar Nutrisi Tanaman. PT Rineka Cipta. Jakarta.

Alam, M.S. 1999. Nutrient Uptake by Plants Under Stress Conditions. Pakistan, Nuclear Institute of Agriculture: 295-299.

Alfocea, F.P., Estan, M.T., Caro, M., and Bolarin, M.C. 1993. Response of Tomato Cultivars to Salinity. Plant Soil, 150: 203.

Anonim. 2008. Cabai (Family Solanaceae). Diakses pada tanggal 22 Mei 2014 melalui http://www.dinpertantph.jawatengah.go.id.

Aronoff, S. 1950. Chlorophyll. Springer, New York Botanical Garden. Pp.542- 545.

Badan Pusat Statistika (BPS). 2012. Produksi Cabai Besar , Bawang Merah, dan Mangga Tahun 2011. Diakses pada tanggal 28 Mei 2014 melalui http:/www.bps.go.id.

Badan Pusat Statistika (BPS). 2013. Produksi Cabai Besar, Cabai Rawit, dan Bawang Merah Tahun 2012. Diakses pada tanggal 28 Mei 2014 melalui http:/www.bps.go.id.

Basuki, T. 2014. Kontribusi Senyawa Kompatibel Ekstrak Daun Tumbuhan Halofit sebagai Anti-Salinitas dalam Amandemen Fisiologis Padi (Oryza sativa L.). UGM: Disertasi.

Bates, L.S. 1973. Rapid Determination of Free Proline for Water-Stress Studies.

Plant and Soil, 39: 205-207.

Bintoro, M. H. 1989. Toleransi Tanaman Jagung Terhadap Salinitas. Program Pascasarjana IPB Bogor.

Boboy, W. 2011. Tanggapan Tanaman Tomat terhadap Salinitas. Yogyakarta.

UGM: Tesis.

Boudsocq, M. and Lauriere, C. 2005. Osmotic Signaling in Plants: Multiple Patways Mediated by Emerging Kinase Families. Plant Physiology, 138:

1185-1194.

Boughalleb, F., Denden, M. and Tiba, B.B. 2009. Anatomical Changes Induced by Increasing NaCl Salinity in Three Fodder Shrubs, Nitraria retusa, Atriplex halimus and Medicago arborea. Acta Physiol Plant, 31: 947-960.

Campbell, N. A., Reece, J.B., and Mitchell, L.G. 2002. Biologi, Jilid 1, edisi ke-5.

Jakarta. Penerbit Erlangga.

Chhabra, R. 1996. Soil Salinity and Water Quality. A.A.

Balkema/Rotterdam/Brookfield.

Cuartero, J., Yeo, A.R., Flowers, T.J. 1992. Selection of Donors for Salt Tolerance in Tomato Using Physiological Traits. New Phytol,121: 63-69.

Cuartero, J.R. dan Fernandez, M. 1999. Tomato and Salinity. Scientia Horticulturae, 78: 83–125.

Debez, A., Saadaoui, D., Ramanib, B., Ouerghi, Z., Koyro, H.W., Huchzermeyer,

B., and Abdelly, C. 2006. Leafe H

⁺

-ATPase Activity and Photosynthetic

Capacity of Cakile maritima Under Increasing Salinity. Environ Exp Bot,

57: 285-295.

(2)

Delauney, A.J., and Verma, D.P.S. 1993. Proline Biosynthesis and Osmoregulation in Plants. The Plant Journal, 4 (2) : 215-223.

Djarwaningsih, T. 2005. Capsicum spp. (Cabai): Asal, Persebaran dan Nilai Ekonomi. Biodiversitas, 6 (4): 292-296.

Dwidjoseputro. 1980. Pengantar Fisiologi Tanaman. Jakarta: Pt Gramedia.

Fahn, A. 1985. Plant Anatomy. Third Edition. Pergamon Press Ltd

Follet, R.H., Murphy, L.S., and Donahue, R.L. 1981. Fertilizer and Soil Amandements. Prentice Hall Inc. Englewwod. New Jersey.

Foolad, M.R., Stoltz, T., Dervinis, C., Rodriguez, R.L., and Jones, R.A. 1997.

Mapping QTLs Conferring Salt Tolerance During Germination in Tomato By Selective Genotyping. Mol Breed, 3: 269-277.

Foolad. M.R. 2004. Recent Advances in Genetics of Salt Tolerance in Tomato.

Plant Cell, Tissue and Organ Culture, 76:101-119.

Goldsworthy, P.R., and Fisher, N.M. 1984. The Physiology of Tropical Field Crops. Syria: The International Center for Agricultur Research.

Gomez, K.A. and Gomez, A.A. 1984. Prosedur Statistik untuk Penelitian Pertanian. Jakarta: Universitas Indonesia.

Hameed, M., and Ashraf, M. 2011. Anatomical and Physiological Characteristics Grasses from the Salt Range, Pakistan. Acta Physiol Plant, 33: 1399-1409.

Harjadi S.S., dan Yahya, S. 1988. Fisiologi Stress Lingkungan. Bogor: IPB.

Hendriyani, I.S., dan Setiari, N. 2009. Kandungan Klorofil dan Pertumbuhan Kacang Panjang (Vigna sinensis) pada Tingkat Penyediaan Air yang Berbeda. Jurnal Sains dan Matematika, 17 (3): 145-150.

Hodson, M.J., Smith, M.M., Wainwright, S.J., and Opik, H. 1982. Cation Cotolerance in A Salt-Tolerant Alone of Agrostis stolonifera L. New Phytol, 90: 253.

Ismail, M.R. and Davies, W.J. 1997. Water Relations of Capsicum Genotypes Under Water Stress. Biologia Plantarum, 39 (2): 111-118.

Joly, R.J. 1989. Effectof Sodium Cloride on The Hydraulic Conductivity of Soybean Root Sistem. Plant Physiol, 91: 1262-1265.

Jupp., A.P., and Newman, E.I. 1987. Morphological and Anatomical Effects of Severe Drought On The Roots of Lolium perenne L. New Phytologist. 105 (3) : 393-402.

Kavi, K.P.B., Sagam, S., Amrutha, R.N., Sri, L.P., Naidu, K.R., Rao, K.R.S.S., Rao, S., Reddy, K.J., Theriappan, P., and Sreenivasulu, N. 2005.

Regulation of Proline Biosynthesis, Degradation, Uptake and Transport in Higer Plants: Its Implications in Plant Growth and Abiotic Stress Tolerance. Curr Sci, 88: 424-438.

Lehman, S., Frunck, D., Szabados, L. 2010. Prolin Metabolism and Transport in Plant Development. Amino Acid, 39 (4): 949-962.

Lehninger, A. 1982. Dasar-Dasar Biokimia. Bogor: Erlangga.

Lerner, H.R. 1999. Plant Responses to Environmental Stresses: from Phytohormones to Genome Reorganization. Marcel Dekker, Inc.

Levitt, J. 1980. Response of Plant to Environmental Stress. Academic Press. New

York.

(3)

Lisar, S.Y.S., Motafakkerazad, R., Hossain, M.M., and Rahman, I.M.M. 2012.

Water Stress in Plants: Causes, Effects and Responses. In: Rahman, I.M.M

& Hasegawa, H. Water Stress, InTech, Croatia, p: 1-14.

Lopes, M.S., Araus, J.L., Herdeen, P.D.R., and Foyer, C.H. 2011. Enhancing drought tolerance in C4 crops. Journal of Experimental Botany, 62 (9) : 3135-3153.

Makbul, S., guler, N.S., Durmus, N., Guven, S. 2011. Changes in Anatomical and Physiological Parameters of Soybean Under Drought Stress. Turki Journal of Botany, 35 : 369-377.

Marschner, H. 1986. Mineral Nutrion of Higher Plants. London: Academic Press.

Marsh, J.H.V., Evans, H.J., and Matrone. 1963. Investigation of The Role of Iron in Chlorophyll Metabolism: I. Effect of Iron Deficiency on Chlorophyll and Heme Content and on The Activities of Certain Enzymes in Leaves.

Plant Physiology, 38 (6) : 632-638.

Maslahah, N., Lesmana, D., dan Zaubin, R. 2001. Pengaruh Nisbah K/Na terhadap Pertumbuhan 2 Tipe Bibit Lada: Balai Penelitian Tanaman Rempah dan Obat.

Miranti, I.P. 2013. Pengaruh Tekanan Lingkungan Pantai Parangtritis terhadap Struktur Morfologi dan Anatomi Tanaman. FMIPA UNY: Skripsi.

Misra, N., and Saxena, P. 2009. Effect of Salicylic Acid on Proline Metabolisem in Lentil Grown Under Salinity Stress. Plant Sci, 177: 181-189.

Munns, R. and Mark, T. 2008. Mechanisms of Salinity Tolerance: a Case Study with Tetraploid Wheat. Plant and Soil, 253: 201-218.

Murni, A. M. dan Sudiadi, E. 1992. Pengaruh Salinitas terhadap Pertumbuhan Tanaman Lada. Bul Littro, 7 (1): 15-16.

Mustafa, Y.N.A. 2013. Cekaman/ Stress pada Tanaman. Diakses melalui http://nuriyahniedam.blogspot.com/2013/05/cekaman-stress-pada

tanaman.html pada tanggal 24 Desember 2014.

Naiola, B.P. 1996. Regulasi Osmosis pada Tumbuhan Tinggi. Jurnal Hayati, 3 (1): 1-6.

Neumann, P.M., Volkenburgh, E.V., and Cleland, R.E. 1988. Salinity Stress Inhibits Bean Leaf Expansion by Reducing Turgor Not Wall Extensibility.

Plant Physiol, 88: 233.

Nio, S.A. 2011. Biomasa dan Kandungan Klorofil Total Daun Jahe (Zingiber officinale L.) yang Mengalami Cekaman Kekeringan. Jurnal Ilmiah SAINS 11: 190-195.

Notohadiprawiro, T. 1986. Tanah Estuarin, Watak, Sifat dan Kesuburannya.

Jakarta: Ghalia Indonesia.

Nugroho, L.H., Purnomo dan Sumardi, I. 2012. Struktur dan Perkembangan Tumbuhan. Jakarta: Penebar Swadaya. Hal. 104-119.

Oliveira, A.B., Alencar, N.L.M., and Filho, E.G. 2013. Comparison Between the Water and Salt Stress Effects on Plant Growth and Development:

INTECH.

Pandey, B.P. 1982. Plant Anatomy. New Delhi: Chan and Company Ltd.

(4)

Poethig, R.S. (1984). Cellular Parameters of Leaf Morphogenesis in Maize and Tobacco. In Contemporary Problems of Plant Anatomy (ed. R. A. White and W. C. Dickinson). New York, Academic Press: 235-259.

Pradnyawathi, N.L.M. 1999. Ketahanan Tanaman Kedelai Terhadap Cekaman Salinitas pada Berbagai Stadia Pertumbuhan. Agronomi Ilmu Pertanian UGM: Tesis.

Pranasari, R.A., Nurhidayati, T., dan Purwani, K.I. 2012. Persaingan Tanaman Jagung (Zea mays) dan Rumput Teki (Cyperus rotundus) pada Pengaruh Cekaman Garam (NaCl). Jurnal Sains dan Seni ITS, 1 (1): 2301-928X.

Purnama, P.C. 2009. Perkembangan dan Kandungan Kapsaisin Buah Cabai Merah (Capsicum annuum L.) yang Ditumbuhkan pada Medium Tanam Tanah Pantai. Fakultas Biologi UGM: Tesis.

Pusat Penelitian dan Pengembangan Holtikultura (PPPH). 2011. Pengelolaan Tanaman Terpadu pada Budidaya Cabai Merah Sistem Tanam Tumpang Gilir dengan Bawang Merah. Jakarta: PPPH, Badan Penelitian dan Pengembangan Pertanian Kementrian Pertanian RI.

Reddy, G.V., Heisler, M.G., Ehrhardt, D.W., and Meyerowitz, E.M. 2004. Real- Time Lineage Analysis Reveals Oriented Cell Divisions Associated with Morphogenesis at The Shoot Apex of Arabidopsis thaliana. Development, 131: 4225-4237.

Robinson, M.F., Very, A.A., Sanders, D., and Mansfield, T.A. 1997. How Can Stomata Contribute to Salt Tolerance. Annals of Bot, 80: 387-393.

Rohmatussolihat. 2009. Antioksidan dan Penyelamat Sel-Sel Tubuh Manusia.

Majalah BioTrends, 4 (1):5-9.

Ruzin, S.E. 1999. Plant Microtechnique and Microscopy. Oxford University Press, Inc. p: 61-66.

Salisbury, F.B., dan Ross, C.W. 1995. Fisiologi Tumbuhan Jilid I. ITB. Bandung:

67-72.

Scanlon, M.J., and Freeling, M. 1997. Clonal Sectors Reveal That A Specific Meristematic Domain is Not Utilized in The Maize Mutant Narrow Sheath.

Dev. Biol, 182: 52-66.

Schneeberger, R., Tsiantis, M., Freeling, M., and Langdale, J.A. 1998. The Rough sheath2gen Negatively Regulates Homeobox Gene Expression During Maize Leafe Development. The Company of Biologists, 125: 2857-2865.

Shannon, M.C. 1993. Adaptation of Plant Salinity. Advance in Agronomy.

Deleware Acadmic Press. San Diego.

Sinaga, R. 2008. Keterkaitan Nisbah Tajuk Akar dan Efisiensi Penggunaan Air Pada Rumput Gajah dan Rumput Raja Akibat Penurunan Ketersediaan Air Tanah. Jurnal Biologi Sumatera, 3: 29-35.

Song, J.Q., and Fujiwara, H. 1996. Ameliorative Effect of Potassium on Rice and Tomato Subjected to Sodium Salinization. Soil Sci Plant Nutr, 42: 493.

Staples R.C. and Toenniessen G.H. 1984. Salinity Tolerance In Plants. Wiley- Interscience, New York.

Suwignyo dkk, R.A., Renih, H., dan Mardiyanto. 2010. Induced Salt Tolerance of Maize Crop by Low Salinity Pretreatment. Fakultas Pertanian Unsri:

Journal Agrivigor, 10 (1) : 73-83.

(5)

Syakir, M., Nur, M. dan Januwati, M. 2008. Pengaruh Salinitas terhadap Pertumbuhan, Produksi dan Mutu Sambiloto (Andrographis paniculata Nees). Balai Penelitian Tanaman Obat dan Aromatik: Buletin Littro, 19 (2): 129-137.

Taiz, L. and Zeiger, E. 2010. Plant Physiology, Fifth Edition. Sinauer Associates.

Sunderland, MA.

Tavakkoli, E., Fatehi, F., Coventry, S., Rengasamy, P., and McDonald, G.K.

2011. Additive Effects of Na

⁺

and Cl

^-

Ions on Barley Growth Under Salinity Stress. Journal of Experimental Botany, 62 (6): 2189-2203.

Tjitrosoepomo, G. 2004. Taksonomi Tumbuhan (Spermatophyta). Yogyakarta.

Gadjah Mada University Press.

United Nations Food and Agriculture Organization (UN-FAO). 2005. 20 Hal untuk Diketahui Tentang Dampak Air Laut pada Lahan Pertanian. Diakses

pada tanggal 17 Juni 2014 melalui www.UN-

FAO.org/ag/tsunami/docs/20_things_on_salinity_bahasa.pdf.

United States Departement of Agriculture (USDA). 2014. Plants Profile for Capsicum L. Diakses pada tanggal 15 Juni 2014 melalui http://plants.usda.gov/core/profile?symbol=CAPSI.

Utaminingsih. 2012. Mikrosporogenesis Cabai Merah Besar (Capsicum annuum L.) Akibat Cekaman Kekeringan. Fakultas Biologi UGM: Tesis.

Vijayan K. 2009. Approaches for Enhanching Salt Tolerance in Mulberry (Morus L.)- A review. Plant Omics Journal, 2 (1): 41-59.

Vuleta, A., Manitasevic, J.S., and Ticic, B. 2011. Light Intensity Influences Variations in The Structural and Physiological Traits in The Leves of Iris pumila L. Archives of Biological Science, 63 (4): 1099-1110.

Waisel, Y. 1972. Biology of Halophytes. New York: Academic Press.

Wilkinson, R. E. 1994. Plant Environment Interactions. Maecel Dekker, Inc. New York.

Yiu, J.C, Tseng, M.J., Liu, C.W., and Kuo, C.T. 2012. Modulation of NaCl Stress in Capsicum annuum L. Seedlings by Catechin. Scientia Holticulturae, 134: 200-209.

Yiu, J.C., Liu, C.W., Fang, D.Y.T., and Lai, Y.S. 2009. Waterloging Tolerance of Welsh Onion (Allium fistulosum) Enhanced by Exogenous Spermidine and Spermine. Plant Physiol. Biochem., 47: 710-716.

Yoshida, S., Forno, D.A., Cock, J., and Gomez, K.A.1976. Laboratory Manual for Physiological Studies of Rice. The Internasional Rice Research Institute, Manila. p: 43-44.

Yuniati, R. 2004. Penapisan Galur Kedelai Glycine max (L.) Merrill Toleran terhadap NaCl untuk Penanaman di Lahan Salin. Departemen Biologi, FMIPA, Universitas Indonesia. Depok. Makara, Sains, 8 (1): 21-24.

Yuwono, N.W. 2009. Membangun Kesuburan Tanah Marginal. Fakultas Pertanian UGM: Jurnal Ilmu Tanah dan Lingkungan, 9 (2): 137-141.

Zheng, C., Jiang, D., Liu, F., Dai, R., Jing, Q., and Cao, W. 2009. Effects of Salt

and Waterlogging Stresses and Their Combinsation on Leaf

Photosynthesis, Chloroplast ATP Synthesis, and Antioxidant Capacity in

Weat. Plant Sci, 176: 575-582.