HUBUNGAN POPULASI CACING TANAH TERHADAP C-ORGANIK DAN N-TOTAL DI LAHAN BUDIDAYA HORTIKULTURA DAN MONOKLUTUR TANAMAN KOPI DI DESA NDUARIA KECAMATAN KELIMUTU
DOI:
https://doi.org/10.37478/agr.v14i1.1007Abstract
This study aims to determine the relationship between Earthworm Population and C-organic and N-total in Horticulture and Coffee Monoculture cultivation in Nduaria Village, Kelimutu District. This research was conducted using an exploratory method that is carried out by direct observation from the observation location. How to calculate earthworms using the hand sorting method. The method commonly used for the determination of C-organic is the Walkley and Black method, while the method used for the determination of N-total is the Kjehdahl method. This method is used because it is considered simple, fast, easy to do, and requires little equipment. The results of this study indicate that in horticultural land there is no earthworm population found at all depths. Earthworm populations were found at all depths in the coffee plantation monoculture, the highest population was at a depth of 0-10 cm as many as 41 m2, Biomass was 9 g, and Biomass vs Population 0.21 m2. In horticultural fields, the highest c-organic and n-total is at a depth of 0-10 cm, the c-organic value is 3.03% (high criteria) and n-total is 0.47% (medium criteria). The close relationship between the earthworm population, biomass, and biomass versus population was positively correlated with c-organic and n-total in horticultural land and coffee monoculture.
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Keywords:
C-organic, eartworm, N-total, populationReferences
Anwar, E.K. 2007. Pengaruh Inokulan Cacing Tanah dan Pemberian Bahan Organik Terhadap Kesuburan dan Produktivitas Tanah. Jurnal Tanah Tropika, 12 (2) : 121-130.
Barciha, M.F,2009. Agroekosistem Tanah Mineral Masam . Yogyakarta. Gadjah Mada University Press
Bangun, I. 2002. Pengembangan Metode Penetapan Biomassa Karbon Mikroorganisme Tanah (C-mik) dengan Menggunakan Ultrasonik Processor. Skripsi. Institut Pertanian Bogor
Dewi, W. S. 2007. Dampak Alih Guna Hutan Menjadi Lahan Pertanian: Perubahan Diversitas Cacing Tanah dan Fungsinya Dalam Mempertahankan Pori Makro Tanah. Disertasi. Program Pasca Sarjana Fakultas Pertanian Universitas Brawijaya. Malang. 145 hlm.
Handayanto, E dan K. Hairiah. 2007. Biologi Tanah. Pustaka Adipura. Yogyakarta. 62 hlm.
Islam, K.R. and R.R. Weil. 2000. Soil quality indicator properties in mid-Atlantic soils as influenced by conservation management. J. Soil and Water Cons. 55:69-78.
Jhayanti, S. 2013. Komposisi Komunotas Cacing Tanah Pada Lahan Pertanian Organic Dan Anorganik ( Studi Kasus Kajian Cacing Tanah Untuk Meningkatkan Kesubutan Tanah Di Desa Raya Kecamatan Berastagi Kabupaten Karo). Tesis. Universitas Sumatara Uatara Fakultas Matematika Dan Ilmu Pengetahuan Alam Program Pascasarjana.
Muys, B. and P.H. Granval. 1997. Earthworms as Bio-indicators of Forest Site Quality. Journal of Soil Biology and Biochemistry, 29(1): 323-328
Nuril, H., B. P. Naiola, E. Sambas, F. Syarif, M. Sudiana, J. S. Rahajoe, Suciatmih, T. Juhaeti, dan Y. Suhardjono. 1999. Perubahan Bioekofisik Lahan Bekas Penambangan Emas di Jampang dan Metoda Pendekatannya untuk upaya reklamasi. Laporan Teknik Proyek Penelitian Pengembangan dan Pendayagunaan Potensi Wilayah, Tahun 1998/1999. Puslitbang Biologi LIPI. 25 hlm.
Russle, E.J. (1950). Soil condition and plant growth. Longman. London.
Yasin, S. 2004. Degradasi Lahan Akibat Berbagai Jenis Penggunaan Lahan di Kabupaten Dharmasraya. Jurnal Solum Vol. I No 2 Juli 2004 : 69-73.
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