ABSTRAK

Emisi metana (CH₄) dari pertanian padi lahan sawah dapat dipengaruhi oleh faktor-faktor seperti cara pemberian air, pengolahan tanah, varietas padi, dan iklim. Pada penelitian ini dikaji tahap penentuan musim tanam, pemilihan varietas padi, dan tahap terakhir adalah teknik budidaya pertanian padi lahan sawah yang terkait mitigasi emisi CH₄. Hasil kajian menunjukkan bahwa musim tanam padi pada musim kemarau menghasilkan emisi CH₄ lebih kecil daripada di musim hujan dengan pengurangan emisi CH₄ sebesar 18,13%. Indonesia yang memiliki tiga tipe pola curah hujan tahunan (monsunal, equatorial, lokal) mengakibatkan periode musim tanam rendah emisi CH₄ berbeda antara tipe curah hujan yang satu dengan lainnya. Varietas padi Way apo buru adalah varietas yang menghasilkan emisi CH₄ terendah tetapi tetap optimum dalam produksi gabah sehingga dapat dipilih menjadi prioritas pertama untuk ditanam. Teknik budidaya pertanian padi lahan sawah yang menghasilkan rendah emisi CH₄ dapat dilakukan dengan membuat genangan air yang dangkal saja, dengan cara pemberian air berselang, dan kombinasi antara pemeliharaan padi, ganggang, tanaman paku air, ikan air tawar, dan bakteri metanotrof dalam satu petak lahan sawah (mina padi plus). Pemberian air dengan cara berselang menurunkan emisi CH₄ pada musim kemarau sebesar 59,36% dan pada musim hujan sebesar 51,68% jika dibandingkan dengan pemberian air secara terus-menerus (kontinyu). Teknik budidaya mina padi plus mengurangi emisi CH₄ sebesar 21,5 kg/ha/musim tanam dan bakteri metanotrof mengurangi emisi CH₄ ke atmosfer sebesar 20-60 Tg. Sawah dapat dijadikan sebagai instalasi terbuka pengolahan udara berlimbah CH₄. 

ABSTRACT

Methane (CH₄) emissions from rice cultivation can be influenced by several factors i.e. the provision of water, soil cultivation, varieties of rice, and the climate. This study will examine the determination of the growing season, the selection of rice varieties and cultivation techniques of rice agriculture-related wetland mitigation of the CH₄ emission. The results showed that the rice planting season in the dry season produces CH₄ emissions is smaller than in the rainy season with CH₄ emission reduction of 18.13%. Indonesia, which has three types of annual rainfall patterns resulting in periods of low growing season CH₄ emissions differ between types of rainfall each other. Way apo buru rice species are varieties that produce low emissions of CH₄ but remains optimum in grain production. Cultivation techniques of rice farming rice fields that produce low emissions of CH₄ can be done by creating a pool of shallow water only, by way of provision of water intermittent, and the combination of maintenance of rice, algae, plants salviniales, freshwater fish, and bacteria metanotrof in a wetland. The provision of water by intermittent lowering emissions of CH₄ in the dry season by 59.36% and in the rainy season amounted to 51.68% when compared to the provision of water continuously (continuous). Mina padi plus cultivation techniques reduce CH₄ emissions by 21.5 kg/ha/planting and metanotrof bacteria can reduce CH₄ emissions to the atmosphere by 20-60 Tg.

Aldrian, E dan Susanto, R.D., 2003. Identification of Three Dominant Rainfall Regions within Indonesia and Their Relationship to Sea Surface Temperature. International Journal of Climatology, 23:1435-1452.

Arsyad, S., 1989, Konservasi Tanah dan Air, IPB Press, Bogor.

Biswas, A. K., dan Biswas, M. R., 1979. “The Ozone Layer” in Proceeding of The Meeting of Experts Designated by Governments, Intergovernmental and Non Governmental Organizations on The Ozone Layer, Pergamon Press, Washington DC.

BPS, 2014. Neraca Bahan Pangan 2014, Badan Pusat Statistik, Jakarta.

Das, K., dan Baruah, K.K., 2008, A Comparison of Growth and Photosynthetic Characteristics of Two Improved Rice Cultivars on Methane Emission from Rainfed Agroecosystem of Northeast India. Agricultural Ecosystem Environment. 124:105-113.

DNPI, 2010, Kurva Biaya (Cost Curve) Pengurangan Gas Rumah Kaca di Indonesia. Dewan Nasional Perubahan Iklim Jakarta.

IPCC, 1994, Greenhouse Gas Inventory Workbook, Volume 2, US EPA. Intergovernmental Panel on Climate Change Cambridge.

IPCC, 1995, Climate Change 1994. Eds. J. T. Houghton, L. Meira Filho, J. Bruce, H. Lee, B. Callander, E. Haites, N. Harris and K. Maskell. 399 pp. Cambridge University Press, Intergovernmental Panel on Climate Change Cambridge.

IRRI. 1967. Rice Production Manual. International Rice Research Institute Los Banos.

Jaatinen, K., Knief, C., Dunfield, P. F., Yfjala, K., dan Fritze, H., 2004, Methanotrophic Bacteria in Boreal Forest Soil After Fire, FEMS Microbiol. Ecol. 50(3):195-202.

Karim, K, 1985, Analisa Curah Hujan dan Penggunaannya untuk Menyusun Pola Tanam Tanaman Pangan di Beberapa Lahan Tadah Hujan di Provinsi Daerah Istimewa Aceh, Fakultas Pasca Sarjana, IPB, Bogor.

Kiehl, J.T., dan Dickinson, R.E., 1987. A Study of Radiative Effects of Enhanced Atmospheric CO2 and CH4 on Early Earth Surface Temperatures. Journal Geophysics. Res. 92:2991-2998.

Lelieveld, J., dan Crutzen, P.J., 1993. Methane Emission into The Atmosphere, An Overview. p. 17-25 in van Amstel, A.R. (Ed.). Methane and Nitrous Oxide, Methods in National Emission Inventories and Option for Control. Proceeding International IPCC Workshop. Amsterdam.3-5 February 1993.

Madigan, M.T., Martinko, J., Dunlap, P.V., dan Clark, D.P., 2009. Brock Biology of Microorganisms, 12th Ed. ‎Upper Saddle River, New Jersey.

Mosier, A.R., Bronso, K. F., Freny, J.R., dan Keerthsinghe, D.G., 1994. Use in Nitrification Inhibitors to Reduce Nitrous Oxide Emission from Urea Fertilized Soils. In CH4 and N2O; Global Emission and Controls from Rice Fields and Other Agricultural and Industrial Sources. NIAES. p. 122-124.

Panjaitan, E., Indradewa, D., Martono, E., dan Sartohadi, J., 2015, Sebuah Dilema Pertanian Organik Terkait Emisi Metan, Jurnal Manusia dan Lingkungan; 22(1):66-72.

Pschorn, A. H., dan Seiler, W., 1986, Methane Emission During Cultivation Period from An Italian Rice Paddy. Journal of Geophysical Research: Atmosphere, 91: 11803-11814.

Rahmansyah, M., dan Sudiana, I.M., 2010, Soil Microbial Enzymatic Activity Relate to Role Of methanotrophic Bacteria in The Tropical Forest Soil of Gunung Salak National Park, ARPN Journal of Agricultural and Research, 5(2):51-57.

Roslev, P., Iversen, N., and Henriksen, K., 1997, Oxidation and Assimilation of Atmospheric Methane by Soil Methane Oxidizers. Journal of Applied and Environemnatl Microbiology 63:874-880.

Sasa, J. J, 2003, Azolla (Azolla microphylla) dan Emisi Gas Metan Pada Sistem Minapadi di Lahan Sawah Irigasi, Prosiding Seminar Nasional Pengelolaan Lingkungan Pertanian, Surakarta, 21 Oktober 2003, Fakultas Pertanian Universitas Negeri Sebelas Maret, Surakarta.

Sanchez, P. A, 1995, Sifat dan Pengelolaan Tanah Tropika, ITB Press, Bandung.

Schmidheiny, S, 1992, A Global Business Perspective on Development and The Environment. Cambridge, Mass: The MIT Press

Setyanto, P., dan Suharsih, 2005, Mitigasi Gas Metan dari Lahan Sawah, Laporan Tahunan Lokal Penelitian Tanaman Pangan, Jakenan, Pati. Balai Penelitian Lingkungan Pertanian, Kementerian Pertanian. Jakarta.

Suharsih, P. Setyanto, A.K. Makarim, 1999, Emisi Gas Metan dari Lahan Sawah Akibat Pengaturan Air Tanaman Padi, dalam Risalah Seminar Hasil Penelitian Emisi Gas Rumah Kaca dan Peningkatan Produktivitas Padi di Lahan Sawah, Bogor, 24 April 1999, Puslitbang Tanaman Pangan, Balitbang Pertanian, Bogor.

Suharsih, P. Setyanto, A.K. Makarim, 2000, Pengaruh Pengelolaan Air Terhadap Emisi Gas CH4 Pada Lahan Sawah di Jakenan, Jawa Tengah, dalam Proseding Seminar Nasional Budi Daya Tanaman Pangan Berwawasan Lingkungan, Jakenan, 7 Maret 2000, Puslitbang Tanaman Pangan, Balitbang Pertanian, Bogor.

Susilawati, H.L, Setyanto, P., Kartikawati, R., 2009, Karakteristik Tanaman Padi Pasang Surut dan Perbedaannya Terhadap Fluks CH4 di Tanah Gambut, Jurnal Tanah dan Iklim, 30:67-79.

Sumirat, U., dan Solehudin A., 2009. Nitrous Oksida (N2O) dan Metana (CH4) Sebagai Gas Rumah Kaca, TORSI 7(2):13-20.

Treenberth, K, 1994, Climate System Modelling, Academy Press, New York.

Warneck, 1988, in Climate Science of Methane, Chapter II, www.ourenergypolicy.org/wp-content/upload/2013/10/chapter02.pdf.

Yagi, K., dan Minami, K., 1990. Effect of Organic matter Application of Methane Emission from Some Japanese Paddy Fields. Soil Science Plant Nutrition. 36:599-610.