Emisi Gas Rumah Kaca adalah salah satu penyebab terjadinya pemanasan global. Ada tiga GRK utama yaitu CO2, N2O, dan CH4. Walaupun N2O jumlahnya lebih sedikit jika dibandingkan CO2, Nilai Global Warming Potential N2O 310 kali lebih besar jika dibandingkan dengan CO2. Sekitar 55.46% emisi N2O berasal dari lahan pertanian. N2O di lahan pertanian dapat berasal dari proses denitrifikasi dan nitrifikasi. Pengaplikasian Biochar yang dapat menurunkan emisi N2O dan logam oksida Fe dinilai mampu berperan sebagai katalisator dapat mengurangi produksi emisi N2O. Penelitian ini bertujuan untuk mengevaluasi pengaruh perlakuan biochar dan logam oksida Fe terhadap emisi N2O. Penelitian ini dilakukan dengan pengaplikasian biochar daun gelam, biochar sekam padi, dan kombinasi biochar-Fe3O4. Pengambilan sampel gas dilakukan sebanyak 6 kali dengan menggunakan alat Closed Chamber. Hasil penelitian menunjukkan bahwa perlakuan duble dosis Biochar Sekam Padi 5 ton.ha-1 kombinasi Fe 5% (BSP4) dapat mendukung pertumbuhan tanaman kedelai, mengurangi populasi nematoda parasitik, dan menghasilkan total emisi N2O yang rendah serta peningkatan emisi N2O yang rendah.

Greenhouse Gas (GHG) emissions are one of the main causes of global warming. There are three primary GHGs: CO2, N2O, and CH4. Although N2O is present in smaller quantities compared to CO2, its Global Warming Potential is 310 times greater than that of CO2. Approximately 55.46% of N2O emissions originate from agricultural land. In agricultural fields, N2O can result from denitrification and nitrification processes. The application of biochar, which can reduce N2O emissions, and iron oxide metals, which can act as catalysts, is considered effective in reducing N2O emissions. This study aims to evaluate the effect of biochar and iron oxide treatments on N2O emissions. The study was conducted using gelam leaf biochar, rice husk biochar, and a combination of biochar-Fe3O4. Gas sampling was carried out six times using a Closed Chamber device. The results showed that the double dose treatment of rice husk biochar at 5 tons.ha?¹ combined with 5? (BSP4) supported soybean plant growth, reduced parasitic nematode populations, and resulted in both low total N2O emissions and minimal increases in N2O emissions.

Kata Kunci : N2O, biochar, logam oksida Fe