REGROWTH ABILITY OF ARBILA (Phaseolus lunatus L.) AFTER GRASSED AT DIFFERENT DOSAGE OF RHIZOBIUM INOCULANT AND AGE OF PLANT WHEN START GRAZED AT DRY LAND
Bernadete Barek Koten(1*), Redempta Wea(2), Bambang Hadisutanto(3), Maria Klara Salli(4), Agustinus Semang(5)
(1) Politeknik Pertanian Negeri Kupang
(2) Politeknik Pertanian Negeri Kupang
(3) Politeknik Pertanian Negeri Kupang
(4) Politeknik Pertanian Negeri Kupang
(5) Politeknik Pertanian Negeri Kupang
(*) Corresponding Author
Abstract
The study was conducted to evaluate regrowth ability of arbila (Phaseolus lunatus L.) after grazed at different rhizobium inoculants dosage and age of plant to be grassed, have conducted during 6 month at Noelbaki village and Politani Kupang General Laboratory. Factorial design with 3 dose levels of rhizobium inoculants ei: I0 = without inoculant, I10 = 10 g/kg seed dan I20 = 20 g/kg seed) and 3 dose of initial grazing time ei: G20 = 20 days, G30 = 30 days, dan G40 = 40 days, and 3 replications. The variables were number of shoots (shoot, plants vitality (%), covered area (cm), space between crops (crops/ m2), and chlorophyll (mg/ml). Obtained data were tested using analysis of variance followed by Duncan test (Duncan’s new multiple range test / DMRT). Result shows that interaction between inoculant dose with crops’ age when grazed greatly influence the size of covered area (P<0.01), eventhough other variable not influence Duncan test showed, the most extensive covered area are shown by I10G30 (262 cm), I0G40 (126 cm), and I2G40 (123 cm). As single factor, inoculant dose only affect to the size covered area, which the most extensive is shown by I10, and crops’ age when grazed affect the number of shoots, vitality, size of covered area (cm) and space between crops (crops/ m2. It can be concluded, the interaction between inoculum dose and age of plant to be grassed was affecting the ability of regrowth of arbila, rhizobium inoculum caused arbila to withstand grazing stress, and arbila which is added inoculant 20 g/kg seed and were grazed at age 40 days can regrowth post grazed. It was concluded that the interaction between inoculum dose and age of plant to be grassed was affecting the ability of regrowth of arbila, rizobium inoculum caused arbila to withstand grazing stress, and rhizobium inoculum with dose of 20 g /kg of seed and started grazing at age 40 days which was most able to guarantee the regrowth of plant arbila post-shepherd.
Keywords
Full Text:
PDFReferences
Barnes, R. F., C. J. Nelson., K. J. Moore and M. Collins. 2007. Forages. The Science of Grassland Agriculture. Volume II. 6th edn. Blackwell Publishing, USA.
Budiman, R. D. Soetrisno, S. P. S. Budhi and A. Indrianto. 2011. Total non structural carbohydrate (TNC) of three cultivar of napier Grass (Pennisetum purpureum Schum) at vegetatif and generatif phase. J. Indon. Trop. Anim. Agric. 36: 126-130.
Figuelredo, M. V. R., H. A. Burity, C. R. Martinez, and C. P. Chanway. 2008. Alleviation of drought stress in the common bean (Phaseolus vulgaris L.) by co-inoculation with Paenibacillus polymyxa and Rhizobium tropici. J. Applied Soil Ecology. 40: 182-188.
Fuskhah, E., S. Anwar, E. D. Purbajanti, R. D. Soetrisno, S. P. S. Budhi, dan A. Maas. 2007. Eksplorasi dan seleksi ketahanan rhizobium terhadap salinitas dan kemampuan berasosiasi dengan leguminosa pakan. J. Indon. Trop. Anim. Agric. 32: 179-185.
Gardner, F. P., R. B. Pearce and R. L. Mitchell. 2008. Physiology of Crop Plants (Fisiologi Tanaman Budidaya. Alih bahasa H. Susilo). UI Press, Jakarta.
Gomez, K. A. dan A. A. Gomez. 2010. Statistical Procedures for Agricultural Research (Prosedur Statistik Untuk Penelitian Pertanian. Alih bahasa oleh E. Syamsuddin dan J. S. Baharsyah). Edisi Kedua. UI Press, Jakarta.
Herdiawan, I., L. Abdullah, D. Sopandie, P. D. M. H. Karti, dan N. Hidayati. 2013. Respon fisiologis tanaman pakan Indigofera zollingeriana pada berbagai tingkat cekaman kekeringan dan interval pemangkasan. Jurnal Ilmu Ternak Veteriner 18: 54-62.
Khan, M. S., A. Zaidi, and J. Musarrat. 2010. Microbes For Legume Improvement. Springer Wien, New York.
Koten, B. B., R. D. Soetrisno, N. Ngadiyono, dan B. Suwignyo. 2012. Forage productivity of arbila (Phaseolus lunatus) at various levels of rhizobium inoculants and harvesting times. J. Indonesian Trop. Anim. Agric. 37: 286-293.
Koten, B. B., R. Wea, R. D. Soetrisno, N. Ngadiyono, dan B. Soewignyo. 2014. Konsumsi nutrien ternak kambing yang mendapat hijauan hasil tumpangsari arbila (Phaseolus lunatus) dengan sorgum sebagai Tanaman sela pada jarak tanam arbila dan jumlah baris sorgum yang berbeda. Jurnal Ilmu Ternak 1: 38-45.
Koten, B. B, dan R. Wea. 2014a. Kecernaan in vitro hijauan arbila (Phaseolus lunatus L) sebagai pakan pada umur panen dan dosis inokulum rizobium yang berbeda. Proseding Seminar Nasional Fapet Undana Tahun 2014.
Koten, B. B, dan R. Wea. 2014b. Kecernaan nutrien ternak kambing terhadap hijauan hasil tumpangsari arbila dan sorgum pada jarak tanam arbila dan jumlah baris sorgum yang berbeda. Proseding Seminar Nasional Volume 1 Bidang Sains Undana Tahun 2014.
Koten, B. B., R. Wea, dan A. Semang. 2015. Produksi biji arbila (Phaseolus lunatus L.) sebagai pakan akibat level inokulum rizobium yang berbeda. Buletin Partner 15: 321-329.
Koten, B. B., R. Wea, A. Semang, dan V. Lenda. 2016. Kajian peningkatan produktivitas pastura alam Tuatuka sebagai sumber pakan berkualitas melalui introduksi tanaman dan pengaturan penggembalaan ternak. Laporan Penelitian PNBP Politeknik Pertanian Negeri Kupang.
Manu, A. E. 2013. Produktivitas padang penggembalaan sabana Timor Barat. Jurnal Pastura 3: 25-29.
Masy,ud, B, I. H. Kusuma, dan Y. Rachmandani. 2008. Potensi vegetasi pakan dan efektivitas perbaikan habitat rusa timor (Cervus timorensis, de Blaiville 1822) di Tanjung Pasir Taman Nasinal Bali Barat. Media konservasi 13: 59-64.
Mullik, M. dan I. G. N. Jelantik. 2009. Strategi peningkatan produktivitas sapi bali pada sistem pemeliharaan ekstensif di daerah lahan kering: Pengalaman Nusa Tenggara Timur. Makalah Seminar Nasional Pengembangan Sapi Bali Berkelanjutan dalam Sistem Peternakan Rakyat. Mataram.
Purbajanti, E. D. 2013. Rumput dan Legum Sebagai Hijauan Makanan Ternak. Graha Ilmu. Yogyakarta.
Saptiningsih, E. 2007. Peningkatan produktivitas tanah pasir untuk pertumbuhan tanaman kedelai dengan inokulasi mikorhiza dan rhizobium. Jurnal Bioma 9: 58 - 61.
Soetrisno, R. D. 2002. Potensi Tanaman Pakan untuk Pengembangan Ternak Ruminansia. Pidato Pengukuhan Jabatan Guru Besar pada Fakultas Peternakan. Universitas Gadjah Mada, Yogyakarta.
Subantor, R., P. Yudono, dan B. Suwignyo. 2012. Pertumbuhan dan hasil tiga varietas alfalfa (Medicago sativa L.) dengan perlakuan tiga macam rhizobium pada media tanam regosol asal Banguntapan. Jurnal Ilmu Pertanian 15: 69-84.
Sumiahadi, A., M. A. Chozin, dan D. Guntoro. 2016. Evaluasi pertumbuhan dan perkembangan Arachis pintoi sebagai biomulsa pada budidaya tanaman di lahan kering tropis. J. Agron. Indonesia 44: 98-103.
Tillak. K. V. B. R., N. Ranganayaki, and C. Manoharachari. 2006. Synergistic effects of plant-growth promoting rhizobacteria and rhizobium on nodulation and nitrogen fixation by pigeonpea (Cajanus cajan). European Journal of Soil Science 57: 67-71.
DOI: https://doi.org/10.21059/buletinpeternak.v41i4.25302
Article Metrics
Abstract views : 2406 | views : 6325Refbacks
- There are currently no refbacks.
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
Buletin Peternakan (Bulletin of Animal Science) Indexed by:
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.