Keragaan Pertumbuhan Vegetatif Batang Bawah Bibit Manggis dan Tiga Kerabatnya

Authors

  • Bambang Hariyanto Balai Penelitian Tanaman Buah Tropika
  • Dian Meitha Sari Balai Penelitian Tanaman Buah Tropika
  • Danarsi Diptaningsari Balai Penelitian Tanaman Buah Tropika

DOI:

https://doi.org/10.25181/prosemnas.v0i0.379

Abstract

The plant growth was influenced by plant genetic and growth environment. In a homogeneous growth environment, the difference variables plant growth caused by plant genetic differences. Early growth of the plants will produce good production. In the field, the vegetative growth performance of mangosteen and related species seedling is not yet well defined. The research which aim to find rootstock vegetative growth performance of mangosteen and three related species seedling, was conducted in Indonesian Tropical Fruit Research Institute, Solok from June 2012-August 2013. Four spesies Garcinia which consist of mangosteen and three related species G. porrecta, G. celebica, and G. redia were arranged in randomized block design and five replications. The results showed that there were different performance of mangosteen and three related species at growth variables i.e. plant height, leaf length, leaf width, number of leaf, leaf area per strand, leaf area, specific leaf weight, stem diameter, number of branch, canopy diameter, plant dry weight, shoot dry weight, root dry weight, shoot/root ratio, bast dry weight, and leaf dry weight. In generally, G. porrecta was the most rapid growth at 12 months than the other species, while G. celebica was the slowest growth than the other species. G. porrecta could be used as rootstock candidate at 12 months. Keywords : Mangosteen, genetic character, vegetative growth

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References

Bambang Hariyanto: Keragaan Pertumbuhan Vegetatif Batang Bawah Bibit Manggis dan Tiga Kerabatnya

Prosiding Seminar Nasional Pengembangan Teknologi Pertanian Polinela 2014

Ganefianti, D.W., Yulian, dan A.N. Suprapti. 2006. Korelasi dan sidik lintas antara pertumbuhan,

komponen hasil, dan hasil dengan gugur buah tanaman cabai. Jurnal Akta Agrosia 9 (1) :

-6.

Hume, E. P. 1947. Difficulties in mangosteen culture. Tropical Agriculture XXIV (1-3) : 32-36.

Jawal, M.A., Ismiyati, S. Soegito. 1991. Stimulasi pertumbuhan semai manggis (Garcinia

mangostana). Jurnal hortikultura 1(2): 8-12.

Khan, M.M.A., C. Gautam, F. Mohammad, M.H. Siddiqui, M. Naem, and M.N. Khan. 2006. Effect

of gibberellic acid spray on performance of tomato. Plant Physiology 30(6): 11-16.

Krishnamoorthy, H. N. 1981. Plant growth substances. Tata MCGraw-Hill Publishing Co. Ltd.,

New Delhi. 214 p.

Kristiana, N. N. 2009. Induksi tunas tabat barito (Ficusdeltaidea Jack) secara in vitro menggunakan

Benzil Adenin (BA) dan Naphthalene Acetic Acid (NAA). Jurnal Littri. 15 (1) : 33-39.

Mansyah, E., M. J. Anwarudin, A. Susiloadi dan I. Muas. 1997. Pertumbuhan batang bawah

manggis dan tiga spesies kerabatnya. Stigma 5 ( 2) : 104- 111.

Mudyantini, W. 2008. Pertumbuhan, kandungan selulosa, dan lignin pada rami (Boehmeria nivea

L. Gaudich) dengan pemberian asam giberelat (GA3). Biodiversitas 9 (4) : 269-274.

Panou-Philotheou, H., M. Koukourikou-Petridou, A. Bosabalidis, and S. Karataglis. 2002.

Relations of endogenous and applied gibberellins to growth and accumulation of essential

elements in oregano plant grown in copper rich soils. Advance in Horticultural Science 2:

-71.

Poerwanto, R., R. Hidayat, E. Diana, R. Zahara. 1994. Usaha mempercepat pertumbuhan batang

bawah manggis. Makalah simposium nasional hortikultura. 8-9 Nopember 1995. Malang.

hal.

Setyobudi, L. dan M. J. Anwarudin. 1995. Teknologi budidaya hortikultura manggis. Makalah pada

seminar sehari Hortikultura manggis, peluang bisnis dan investasi yang menjanjikan. 7 Juni

Jakarta. 14 hal.

Shimizu-Sato, S., M. Tanaka, and H. Mori. 2009. Auxin-cytokinin interactions in the control of

shoot branchimg. Plant Mol. Biol. 69(4): 429-435.

Sunaryono, H. 1988. Memperpendek masa remaja tanaman manggis. Warta penelitian pertanian 9

(4-6): 9-10.

Uji, T. 2007. Keanekaragaman jenis buah-buahan asli Indonesia dan potensinya. Biodiversitas 8

(2): 157-167.

Yaacob, Othman, H.D. Tindall, U.G. Menini and A. Hodder. 1995. Mangosteen cultivation. FAO

plant production and protection paper 129. Food and agricultural organization of the

united nations. Rome. 100 p. Almeyda, N. and F. W. Martin. 1976. Cultivation of neglected tropical fruits with promise. Part I.

The mangosteen.Agricultural research service. U. S. department of agriculture. November

18 p.

Anwar, S. 2007. Keragaman genetik-fenotipik dan hubungan antara karakter anaoti-morfologi-

fisiologi dengan produksi bahan kering rumput pakan hasil poliploidisasi dalam kondisi

tercekan aluminium. Animal Production 9 (1) : 23-29.

Bidwell, R. G. S. 1974. Plant physiology. Macmillan Publishing Co. Inc., New York. 643 p.

Bush, L. P. 1999. Alcaloid biosynthesis. P. 285-291. In Tobacco : Production, Chemistry, and

Technology. D. L. Davis and M. T. Nielsen (Eds.). Blackwell Science, Oxford.

Djukri. 2006. Karakter tanaman dan produksi umbi talas sebagai tanaman sela di bawah tegakan

karet. Biodiversitas 7 (3) : 256-259

Djukri dan B. S. Purwoko. 2003. Pengaruh naungan paranet terhadap sifat toleransi tanaman talas

(Colocasia seculenta (L.) Schott). Ilmu Pertanian 10 (2) : 17-25.

Djumali. 2008. Produksi dan mutu tembakau temanggung (Nicotiana tabacum L) di daerah

tradisional serta faktor-faktor yang mempengaruhinya. Disertasi. Fakultas Pertanian,

Universitas Brawijaya, Malang.

Djumali. 2010. Tembakau temanggung : fotosintesis, respirasi, partisi karbohidrat, serta

keterkaitannya dengan hasil dan mutu rajangan kering. Buletin Tanaman Tembakau, Serat

dan Minyak Industri 2 (2) : 60-74.

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2017-10-30

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