Jurnal Wasian

Some people still thinks  that bamboo has a low economic value. Many bamboo plants in the community are removed or replaced with other commodities. Sukaharja Village in Ciamis Regency is one of the centers that produce of bamboo. The community feels the economic benefits of the existence of the bamboo, so the existence of bamboo plants is still sustained. Bamboo management in Sukaharja Village can be used as a learning for bamboo farmers in other places. The study aims to determine the potential of agroforestry bamboo in Sukaharja Village. Potency  of bamboo was collected by survey method. The observation plot was made as many as 39 plots. Vegetation observation and measurement was done by census (100 %) in all selected land area so that all types of compiler can be known. Parameters recorded/measured were bamboo species, number of clumps, number of tillers, number of young stems, number of old stems, stem height and stem circumference. Data related to socioeconomic obtained through interview. Respondents interviewed was chosen purposively by 69 respondents. Secondary data was obtained from literature study and data from agencies that are related to research objectives, such as District Forestry office, village office, and Agricultural Extension Agency, Fisheries, Livestock and Forestry. Bamboo in Sukaharja Village has a potential of 765 bamboo stems per hectare with 53 % composition of young bamboo and 47 % old bamboo, dominated by 92 % Gigantlochoa apus. Bamboo in Sukaharja village can be sustainable because it is cultivated with agroforestry pattern. The pattern of bamboo agroforestry in Sukaharja village community is a) Bamboo + wood, b) Bamboo + HHBK, c) Bamboo + plantation crop, d) Bamboo + horticulture.

Keywords: agroforestry, bamboo, Sukaharja village, sustainability

Bahruni, Suhendang, E., Darusman, D. & Alikodra, H. S. Pendekatan sistem dalam pendugaan nilai ekonomi total ekosistem hutan: nilai guna hasil hutan kayu dan non kayu. Jurnal Penelitian Sosial dan Ekonomi Kehutanan, 4(3), 369-378.

Charomaini, M.Z. (2014). Budidaya Bambu Jenis Komersial. Bogor: IPB Press. Bogor.

Christanty, L., Kimmins, J. P., & Mailly, D. (1997). ‘Without bamboo, the land dies’: A conceptual model of the biogeochemical role of bamboo in an Indonesian agroforestry system. Forest Ecology and Management, 91(1), 83-91.

Diniyati, D. & Fauziyah, E.. (2012). Pemilihan jenis tanaman penyusun hutan rakyat pola agroforestri berdasarkan keputusan petani di Kabupaten Tasikmalaya. dalam Widiyatno, Prasetyo, E., Widyaningsih, T. S. dan Kuswantoro, D. P. (eds). Seminar Nasional Agroforestry III: Balai Penelitian Teknologi Agroforestry, Fakultas Kehutanan (IMHERE) dan Kebun Pendidikan Penelitian dan Pengembangan Pertanian (KP4) dan Indonesia Networks for Agroforestry Education (INAFE).

Dinas Kehutanan Propinsi Jawa Barat. 2018. Statistik Kehutanan Jawa Barat Tahun 2016. Bandung.

Dinas Kehutanan Propinsi Jawa Barat. 2018. Statistik Kehutanan Jawa Barat Tahun 2017. Bandung

Endalamaw, T. B., Lindner, A., & Pretzsch, J. (2013). Indicators and determinants of small-scale bamboo commercialization in Ethiopia. Forests, 4(3), 710-729.

Ferawati, C. F., Barus, H. N., & Aiyen. (2014). Pengaruh pupuk organik mikroba rumpun bambu terhadap pertumbuhan tanaman cabai. E-J. Agrotekbis, 2(3), 269-276.

Hakim, T. F. P., Widodo, P., & Sudiana, E. (2015). Variasi morfologi bambu tali (Gigantochloa apus (Schult. F.) Kurz.) pada berbagai ketinggian tempat di Sub Daerah Aliran Sungai Pelus. Biosfera, 32(1), 42-50.

Hilmanto, R. (2010). Peran bambu betung (Dendrocalamus asper) pada kualitas pengelolaan lahan. Widyariset, 13(2), 23-28.

Hiwale, S. (2015). Bamboo (Bambusa vulgaris sp.). in Sustainable Horticulture in Semiarid Dry Lands (pp. 311-316). India: Springer India.

Kementerian Kehutanan. (2007). Peraturan Menteri Kehutanan nomor 35 tahun 2007 tentang Hasil Hutan Bukan Kayu. Jakarta: Kementerian Kehutanan.

Kittur, B. H., Sudhakara, K., Kumar, B. M., Kunhamu, T. K., &

Sureshkumar, P. (2016). Bamboo based agroforestry systems in Kerala, India: performance of turmeric (Curcuma longa L.) in the subcanopy of differentially spaced seven year-old bamboo stand. Agroforestry Systems, 90(2), 237-250.

Kosuke, M., Mugniesyah, S. S., Herianto, A. S., & Horishi, T. (2013). Talun-huma, Swidden agriculture and rural economy in West Java, Indonesia. Southeast Asian Studies, 2(2), 351-381.

Lobovikov, M., Schoene, D., & Yping, L. (2012). Bamboo in climnate change and rural livelihoods. Mitigation and Adaptation Strategies For Global Change, 17(3), 261-276.

Ly, P., Pillot, D., Lamballe, P., & de Neergaard, A. (2012). Evaluation of bamboo as an alternative cropping strategy in the northern central upland of Vietnam: Above-ground carbon fixing capacity, accumulation of soil organic carbon, and socio-economic aspects. Agriculture, Ecosystems & Environment, 149, 80-90.

Nath, A. J., Lal, R., & Das, A. K. (2015). Ethnopedology and soil properties in bamboo (Bambusa sp.) based agroforestry system in North East India. Catena, 135, 92-99.

Salam, R. J. A. (2001). Pengaruh Jarak Tanam Bambu Betung (Dendrocalamu Asper Backer) Terhadap Persentase Tumbuh dan Produksi Empat Jenis Tanaman Obat di Kebun Bambu Blok Cikabayan, Kampus IPB Darmaga. Skripsi tidak diterbitkan, Fakultas Kehutanan, Institut Pertanian Bogor, Bogor.

Simatupang, R. F., Latifah, S., & Afifuddin, Y. (2013). Nilai ekonomi dan kontribusi hutan rakyat bambu (Bambusa sp.) (Studi Kasus di Desa Telagah, Kecamatan Sei Bingai, Kabupaten Langkat). Peronema Forestry Science Journal, 2(1), 22-29.

Sujarwo, W., Arinasa, I. B. K., & Peneng, I. N. (2010). Potensi bambu tali (Gigantochloa apus) sebagai obat di Bali. Buletin Littro, 21, 129-137.

Suprihatno, B., Hamidy, R., & Amin, B. (2012). Analisis biomassa dan cadangan karbon tanaman bambu belangke (Gigantochloa pruriens). Jurnal Ilmu Lingkungan, 6(1), 82-92.

Sutiyono, Mile, Y., & Wardani, M. (2010). Pengaruh teknik perbaikan tegakan rumpun terhadap peningkatan produktivitas batang bambu tali (Gigantochloa apus Kurz.). dalam Seminar Nasional Biologi VII. Program Studi Pendidikan Biologi FKIP Universitas Sebelas Maret.

Widjaja E.A. (2011). The utilization of bamboo: at present and for the future, dalam Ginting, A.N. & Wijayanto, N (eds), International Seminar Strategies and challanges on bamboo and potencial non timber forest product (NTFPs) management and utilization.Centre for Forest Productivity Improement Research and Development.

Widnyana, K. (2008). Bambu dengan berbagai manfaatnya. Bumi Lestari, 8 (1), 1-10.

Widyaningsih, T. S., Fauziyah, E., dan Kuswantoro, D. P. (2015). Persepsi masyarakat terhadap bambu. dalam Rahman, E., Kusumawardhana, D., Widyaningsih, T.S.& Kuswantoro, D. P. (eds), Seminar Nasional Agroforestry 2015. Ciamis: Balai Penelitian dan Pengembangan Teknologi Agroforestry.

Wijaya, E. A., & Kartikasari, S. N. (2001). Identikit Jenis-Jenis Bambu di Kepulauan Sunda Kecil. Puslitbang Biologi, LIPI.

Wijaya, I. B., & Utama, M. S. (2016). Analisis faktor-faktor yang mempengaruhi pendapatan industri kerajinan bambu di kabupaten bangli. E-Jurnal Ekonomi Pembangunan Universitas Udayana, 5(4), 434-459.

Wiyono, W. W., Winarni, Winastuti, D. A., & Aristiatmoko, P. (2012). Sebaran dan potensi pemanfaatan bambu di Desa Purwobinangun Kecamatan Pakem Kabupaten Sleman Yogyakarta. dalam Widiyatno, Prasetyo, E., Widyaningsih, T.S. & Kuswantoro, D. P. (eds), Seminar Nasional Agroforestry III. Balai Penelitian Teknologi Agroforestry, Fakultas Kehutanan (IMHERE) dan Kebun Pendidikan Penelitian dan Pengembangan Pertanian (KP4) dan Indonesia Networks for Agroforestry Education (INAFE).