Pengaruh Emisi global muncul dari adanya proses nitrifikasi dan denitrifikasi di dalam tanah yang menghasilkan GRK N2O dari pemupukan nitrogen yang over dosis. Penggunaan biochar yang diperkaya oksida logam dapat mengurangi laju emisi gas N2O. Penelitian ini dilaksanakan di rumah kaca Kebun Tridharma Banguntapan, Sleman, Daerah Istimewa Yogyakarta. Penelitian ini disusun dalam Rancangan Acak Lengkap dengan dua faktorial. Faktor pertama adalah variasi dosis biochar yaitu, biochar 5 ton/ha, dan biochar 10 ton/ha, sedangkan faktor kedua yaitu jenis oksida logam Fe3O4, CuO, Al2O3, dan ZnO 10?ri dosis biochar. Sedangkan pengambilan sampel gas dilakukan sebanyak lima kali yaitu 13 HST, 17 HST, 19 HST, 22 HST, dan 26 HST. Pengambilan sampel dilakukan sebanyak empat kali ulangan dengan interval waktu 10 menit. Hasil penelitian menujukkan pada perlakuan kombinasi biochar 5 ton/ha dengan oksida logam 10?ri dosis biochar mampu menurunkan emisi N2O. Laju emisi pada sebelum pemupukan memiliki laju emisi terendah, kemudian laju emisi setelah pemupukan fluktuatif cenderung menigkat dan pengambilan sampel fase vegetatif meningkatkan laju emisi N2O. Oleh karena itu, biochar yang diperkaya oksida logam sebagai katalis menghasilkan pengurangan kadar N2O melalui dekomposisi langsung menjadi molekul yang tidak berbahaya yaitu nitrogen dan oksigen. 

Global emissions arise from the nitrification and denitrification processes in the soil that produce GHG N2O from overdosing nitrogen fertilization. The use of biochar enriched with metal oxides can reduce the rate of N2O gas emissions. This research was conducted in the greenhouse of Tridharma Banguntapan, Sleman, Special Region of Yogyakarta. This research was arranged in a Completely Randomized Design with two factorials. The first factor is the variation of biochar doses, namely, biochar 5 tons/ha, and biochar 10 tons/ha, while the second factor is the type of metal oxide Fe3O4, CuO, Al2O3, and ZnO 10% of the biochar dose. Meanwhile, gas sampling was carried out five times, namely 13, 17, 19, 22, and 26 day after planting. Sampling was carried out four times with a time interval of 10 minutes. The results of the study showed that the combination treatment of 5 tons/ha biochar with 10% metal oxide of the biochar dose was able to reduce N2O emissions. The emission rate before fertilization had the lowest emission rate, then the emission rate after fertilization fluctuated tending to increase and sampling of the vegetative phase increased the N2O emission rate. Therefore, biochar enriched with metal oxides as a catalyst resulted in a reduction in N2O levels through direct decomposition into harmless molecules, namely nitrogen and oxygen.

Kata Kunci : emisi gas rumah kaca, biochar, oksida logam, greenhouse gas emissions, biochar, metal oxides