Aktivitas oksidasi metana oleh bakteri metanotrof yang terjadi pada lahan persawahan dapat dipengaruhi oleh penambahan pupuk. Umumnya, pemupukaan pada lahan persawahan menggunakan pupuk berbahan dasar nitrogen (sumber nitrogen), kehadiran sumber nitrogen dalam suatu ekosistem dinilai sangat penting. Pengaruh aplikasi sumber mineral nitrogen spesifik seperti nitrit, nitrat, dan amonium terhadap aktivitas oksidasi metana telah dilakukan penelitian. Konsorsium methanotrophic bacteria dikulturkan dalam medium nitrate mineral salts (NMS) dan diberi perlakuan aplikasi sumber nitrogen spesifik sebesar 0,05% dan 0,1% (nitrit, nitrat, dan amonium). Aplikasi sumber mineral nitrogen spesifik dapat berperan sebagai faktor inhibisi dan stimulasi. Aplikasi mineral nitrogen dapat menstimulasi oksidasi metana, dengan laju oksidasi metana tertinggi yaitu pada aplikasi mineral amonium (NH4 +) konsentrasi 0,1 % (SN.NH4.0,01) sebesar 8.619 ppm/L-1.m-1. Aplikasi mineral nitrogen dapat pula menghambat oksidasi metana yaitu pada aplikasi nitrat (NO3 -) 0,1%, dengan laju oksidasi metana terendah sebesar 3.925 ppm/L-1.m-1. Tinggi-rendahnya pemanfaatan mineral nitrogen di dalam sistem tergantung pada jenis dan konsentrasi mineral nitrogen yang ditambahkan. Penggunaan sumber N tertinggi yaitu pada aplikasi amonium (NH4 +) konsentrasi 0,1%.

The methane oxidation activity by methane-oxidizing bacteria that occur in paddy fields can be influenced by fertilizer addition. Generally, fertilization in paddy fields are using nitrogen-based fertilizer (i.e. nitrogen source), the presence of nitrogen source in an ecosystem is considered to be very important, because its presence can influence methane oxidation activity by methanotrophic bacteria. The effect of spesific nitrogen application such as nitrite, nitrate, and ammonium to methane oxidation activity was investigated. Methanotrophic bacteria consortium was cultivated in nitrate mineral salts medium (NMS), treatment with 0.05% and 0,1% concentration of specific nitrogen (nitrite, nitrate, and ammonium). Specific nitrogen source application takes as inhibition and stimulation factor. The application of nitrogen source can stimulate methane oxidation, with the highest methane oxidation rate on 0.1% concentration of ammonium application (SN.NH4.0,01) was 8.619 ppm/L-1.m-1. Nitrogen source application also can inhibit methane oxidation, with the lowest methane oxidation rate on 0,1% concentration of nitrate application was 3.925 ppm/L-1.m-1. High and low of utilization nitrogen source in system based on type and concentration of nitrogen source application. The highest utilization of nitrogen source was on ammonium application with 0.1% concentration.

Kata Kunci : Bakteri metanotrof, Oksidasi metana, Sumber N, Pemupukan