This study aims to get the response of plant vegetative growth banana (Musa
paradisiaca sapientum L) effect to the use of goat manure and fungus
Trichoderma harzianum and the combination of both treatments. The
research was conducted in the area of the garden village Selamat District of
Biru-Biru with altitude 200 m above sea level. The study was conducted from
April 2014 through August 2014. This study used a randomized block design
factorial consisting of two factors, namely goat manure dose factor (K)
consists of 3 levels of treatment: K0 = 0 kg/plant, K1 = 2.5 kg/plant, K2 = 5
kg/plant and dosing frequency factor fungus Trichoderma harzianum (T)
consists of 3 levels of treatment are: T0 = 0 g/plant, T1 = 25 g/plant and T2 =
50 g/plant. Parameters were observed in this study is plant height (cm),
number of leaves (pieces), stem diameter (cm). The results showed goat
manure significantly affected plant height and diameter growth of banana
stem. Goat manure is best obtained at a dose of 5 kg/plant. Fungus
Trichoderma harzianum significant effect on plant height at a dose of 50
g/plant, but no real effect on the number of leaves and stem diameter.
Interaction dose goat manure and fungus Trichoderma harzianum giving no
real effect on the vegetative growth of banana.

Bertham, Y.H. 2004. Potensi

Pupuk Hayati dalam

Peningkatan Produksi

Kacang Tanah dan Kacang

Kedelai pada Tanah Seri

Kotoranlimun Bengkulu, Jurnal Ilmu-ilmu Pertanian

Indonesia, Volume 4 No.1.

Hakim, N., M.Y. Nyakpa, A.M.

Lubis, S.G. Nogroho, M.

Rusdi Saul, M.A. Diha, Go

Ban Hong, dan H.H. Bayle.

Dasar-Dasar Ilmu

Tanah. Universitas

Lampung, Bandar Lampung.

Harman, G.E. 2000. Changes in

Perceptions Derived from

Research on Trichoderma

harzianum T-22. Plant

Disease. Vol. 84 No. 4 :

-392.

Harman, G.E. 2001. Microbial

Tools to Improve Crop

Performance and

Profitability and to Control

Plant Diseases. Pages 4-1–4-

in: Int. Sympos. Biol.

Control Plant Dis. New

Century-Mode Action

Application Technol.

Hoitink, H.A.J., L.V. Madden, dan

M.J. Boehm. 1996.

Relatinship among Organic

Matter Decomposition

Level, Microbial Species

Diversity, and Soil Borne

Disease. APS. Press. St.

Paul Minesota. Pp. 427-446.

Howell, C.R. 2003. Mechanisms

Employed by Trichoderma

Species in the Biological

Control of Plant Diseases:

The History and Evolution

of Current Concepts. Plant

Disease Vol. 87 No. 1 : 4-

Kristalisasi, E.N. 2007.

Pemanfaatan Bahan Organikuntuk Meningkatkan

Aktivitas Trichoderma sp.

dalam Menekan Penyakit

Layu pada Tomat, Buletin

Ilmiah Istiper, Vol. 14 No. 2

: 33-41.

Panjaitan, E. 2005. Pengaruh EM-4

terhadap Pertumbuhan dan

Produksi Kentang. Makalah

disampaikan pada Seminar

Pupuk Organik.

Rifai, M.A. 1969. A Revision of the

Genus Trichoderma. Mycol

Pap. 116:1-56

Rinsema, W.T. 1993, Pupuk dan

Cara Pemupukan,

Diterjemahkan oleh H.M.

Saleh, Bratakarya Aksara,

Jakarta.

Samuels Gary, J. 2006.

Trichoderma: Systematics,

the Sexual State, and

Ecology. Symposium The

Nature and Application of

Biocontrol Microbes II:

Trichoderma spp.Phytopathology, Vol. 96

No. 2 : 195-206.

Sastrosupadi, A. 2000. Rancangan

Percobaan Praktis Bidang

Pertanian, Kanisius,

Yogyakarta.

Simanungkalit, R.D.M., Didi, A.S.,

Rasti, S., Diah. S., dan

Wiwik Hartatik, 2006.

Pupuk Organik dan Pupuk

Hayati, Balai Besar Litbang

Sumberdaya Lahan, Badan

Penelitian dan

Pengembangan Pertanian,

Bogor.

Yedidia, I., Benhamou, N., and

Chet, I. 2001. Induction of

Defense Responses in

Cucumber Plants (Cucumis

sativus L.) by the Biocontrol

Agent Trichoderma

harzianum. Appl. Environ.

Microbiol. 65:1061-1070.