Kajian Biofisik Lahan Untuk Tanaman Porang Sebagai Anasir Konservasi Pada Sistem Agroforestri Di Pulau Lombok
DOI:
https://doi.org/10.29303/jstl.v0i0.264Keywords:
degradation, erosion, agroforestry, porang, sustainable agricultureAbstract
Agricultural land in North Lombok is dominated by a typology of sub-optimal land, physically, chemically and biologically. These properties make it vulnerable to degradation. In such land, agroforestry system is highly recommended, where the porang plant can be included as a component. Nowdays, porang is gaining popularity as a commodity with economic value, and is suitable as an intercropping plant. It is easy to grow on almost all types of soil, and is resistant to shade, making it adaptive to agroforestry systems as non-timber under standing plants in community forest systems. It is believed that this will provide multiple benefits economicly and environmentaly, if it accompanied by the principles of soil and water conservation. The role of porang as a conservative agent has been investigated through a scientific approach as the basis for the domistication of porang in agroforestry systems. The results showed that agroforestry with porang could help improve the stability of the soil aggregates as indicated by the soil aggregate stability index 59 which means rather stable. Soil moisture of wilting point in agroforestry system with porang increased from 3.0% (without porang) to 5.4%. In addition, the soil organic matter content increased to 3.94% (quite high) on the system with porang because the stems and leaves of porang plant are quickly weathered. The ground cover is relatively tight, so it can prevent soil erosion. Porang also play a role in increasing water infiltration due to the presence of porang’s roots and tubers. Thus the domistication of porang fulfills the requirements as an agent of soil conservation, as non-timber plant in the agroforestry system, if it is cultivated according to the principles of soil and water conservation on the typology of sub-optimal land in North Lombok.References
Blake, G.R., 1986. Particle density. In A. Klute (Ed.), Methods of Soil Analysis (Part I). Agronomy 9. Soil Sci. Soc. Amer., Inc. Madison, USA.
Blake, G.R. and K.H. Hartge, 1986. Bulk density. In A. Klute (Ed.), Methods of Soil Analysis (Part I). Agronomy 9. Soil Sci. Soc. Amer., Inc. Madison, USA.
BMKG, 2019. Buletin Prakiraan Musim Hujan 2019/2020 Provinsi Nusa Tenggara Barat.Stasiun Klimatologi Lombok Barat. NTB.
Baon, J.B., Sukasih, R. dan Nurkholis. 2005. Laju dekomposisi dan kualitas kompos limbah padat kopi: pengaruh aktivator dan bahan baku kompos. Pelita Perkebunan 21, 31-42.
Barzegar, A.R., Yousefi, A. dan Daryashenas, A. 2002. The effect of addition of different amounts and types of organic materials on soil phsical properties and yield of wheat. Plant and Soil 247, 295-301.
Chenu, C., Y. Le Bissonnais, and D. Arrouays, 2000. Organic matter influence on clay wettability and soil aggregate stability. Soil Sci. Soc. Am. J., 64: 1479-1486.
FAO (Food and Agriculture Organization). 2015. Crop Water Information. Glosarry. Fao.org. available from http://www.fao.org.html [23 Feb. 2020].
Gee, G.W. and J.W. Bauder, 1986. Particle size analysis. In A. Klute (Ed.) Methods of Soil Analysis (Part I). Agronomy 9. Soil Sci. Soc. Amer., Inc. Madison, USA.
Goenadi, D.H. 2006. Pupuk dan Teknologi Pemupukan Berbasis Hayati. Dari Cawan Petri ke Lahan Petani. Yayasan John Hi-Tech. Idetama. Jakarta.
Hartanto, E.S., 1994. Iles-iles Tanaman Langka yang Laku Diekspor. Buletin Ekonomi.PT. Bank Pembangunan Indonesia (PERSERO), September-Oktober 19(5):21-25.
Heyne, K. (1987). Tumbuhan Berguna Indonesia (Terjemahan). Badan Litbang Kehutanan-Jakarta. Departemen Kehutanan, Jakarta.
Herlina, R. dan S Siburian, 2016. Sistim Agroforestri pada lahan bekas hutan sagu di kampung Baraway Kabupaten Kepulauan Yapen Papua. Prosiding Seminar Hasil Penelitian Kanoppi. (Optimalisasi Pengelolaan Hutan Berbasis Agroforestri untuk Mendukung Peningkatan Produktifitas Kayu dan HHBK, serta Pendapatan Petani). Cisarua Bogor
https://www.researchgate.net/publication/331523137_Sistim_Agroforestri_pada_lahan_bekas_hutan_sagu_di_kampung_Baraway_Kabupaten_Kepulauan_Yapen_Papua [accessed Feb 19 2020].
Hermanto, D., S.R. Kamali, R. Kurnianingsih, dan N. Ismillayli, 2013. Optimalisasi Lahan Kering Kecamatan Bayan-Lombok Utara Menggunakan Asam Humat Terimmobil Dalam Rumput Laut Sebagai Pelengkap Pupuk Pada Tanaman Jagung (Zea Mays L)
Hidayat, R., F.D Dewanti, dan Hartojo. 2013. Tanaman porang karakter, manfaat dan budidaya. Graha ilmu. Yogjakarta.
Hillel, D. 1980. Fundamental of Soil Physics. Academic Press Inc. London.
Jansen, PCM., C. van der Wikl, dan W.L.A. Hetterscheid. Amorphophallus Blume ex Decaisne. In M. Flach and F. Rumawas (Eds), 1996. PROCEA: Plant Resources of Soth-East Asia No.9. Plant yielding non-seeds carbohydrates. Backhuys Publisher, Leiden. pp. 45-50.
Kertonegoro, B.D., S.H. Suparnawa, S. Notohadisuwarno, S. Handayani, 1998. Panduan Analisis Fisika Tanah. Laboratorium Fisika Tanah, Jurusan Tanah, Fakultas Pertanian Universitas Gajah Mada, Yogyakarta.
Kusnarta, I.G.M., B.D. Kertonegoro, B.H. Sunarminto, dan D. Indradewa, 2011. Beberapa Faktor yang berpengaruh Dominan terhadap Struktur Vertisol Tadah Hujan Lombok. Agroteksos Jurnal Ilmiah Ilmu Pertanian, Vol. 21, No. 2-3, pp:120-128.
Lahiya, A.A., 1993. Budidaya Tanaman Iles-iles dan Penerapannya untuk Sasaran Konsumsi serta Industri. Seri Himpunan Peninggalan Penulisan Yang Berserakan. Terjemahan J.V. Scheer, GHWD Dekker, and E.R.E. Helewijn. 1937/1938/1940. De Fabrikasi Van Iles-Iles mannaanmee uit Amorphophallusknolle en enigetoepassingmogelijkheden Bergcultures). Bandung.
Lase, E. 2007. Budidaya Umbi Hutan (Porang). Biro Pembinaan dan Konservasi SDH Perhutani. Jawa Timur. http://www.smallcrab.com/ Mengenal-tanamanporang [19 Feb. 2020].
Nelson, D.W. and L.E. Sommers, 1982. In Klute (Ed.), Methods of Soil Analysis (Part II). Agronomy 9. Soil Sci. Soc. Amer., Inc. Madison, USA.
Oldeman, L. I. (1980). The Agroclimatic Maps of Kalimantan, Maluku, Irian Jaya and Bali, West and East Nusa Tenggara. Bogor: Contributions No. 60, Central Research Institute for Agriculture, 32 p.
Priyono, J., I Yasin, Dahlan, dan Bustan, 2019. Identifikasi Sifat, Ciri, dan Jenis Tanah Utama di Pulau Lombok. Jurnal Sains Teknologi & Lingkungan Vol.5,No.1. pp:19-24
Rofik, K., R. Setiahadi, I. R. Puspitawati, M. Lukito, 2017. Potensi Produksi Tanaman Porang (Amorphophallus muelleri Blume) di Kelompok Tani MPSDH Wono Lestari Desa Padas, Kecamatan Dagangan, Kabupaten Madiun. Agri-tek: Jurnal Ilmu Pertanian, Kehutanan dan Agroteknologi. Vol.17 No.2, pp. 1411-5336.
Rosman, R. dan S. Rusli, 1991. Tanaman Iles-iles. Edisi khusus Littro. VII (2): 17-21.
Sumarwoto, 2011. Budidaya Iles-iles (Amorphophallus muelleri Blume). Di Bawah Tegakan Tanaman Hutan. Workshop Pengembangan Agroforestri dalam Mendukung Ketahanan Pangan dan Kesehatan Masyarakat. Program I-MHERE B.2.c. KP4, UGM. Yogyakarta.
Suprayogo, H., D.K. Hairiah, N. Wijayanto, Sunaryo, dan M. Noordwijk, 2003. Peran Agroforestri pada Skala Plot: Analisis Komponen Agroforestri sebagai Kunci Keberhasilan atau Kegagalan Pemanfaatan Lahan Indonesia. World Agroforestri Centre (ICRAF), Southeast Asia Regional Office. P0 Box 161 Bogor.
Vuksan, V., J.L. Sievenpiper, R. Owen, J.A. Swilley, P. Spadafora, D.J. Jenkins, E. Vidgen, Brighenti, R.G. Josse, L.A. Leiter, Z. Xu, and R. Novokmet, 2000. Benefecial effects of viscous dietary fiber from konjuc-mannan in subjects with the insulin resistance syndrome: results of a controlled metabolic trial. Diabetes Care, Jan. 23(1): 9-14.
Wuddivira, M.N., R.J. Stone and E.I. Ekwue, 2008. Clay Organic Matter and Wetting Effect on Splsh Detachment and Aggregate Breakdown under Inense Rainfall. Soil Sci. Scoc. A. J., 73, 226-232.