Combined effects of nitrification inhibitor and zeolite on greenhouse gas fluxes and corn growth

Jumadi, Oslan and Hala, Yusminah and Iryani, Neni and Andi, Takdir Makkulawu and baba, Junja and Hartono, Hartono and Hiola, St. Fatmah and Inubushi, Kazuyuki Combined effects of nitrification inhibitor and zeolite on greenhouse gas fluxes and corn growth. Jurnal Environmental Science and Pollution Research.

[img] Text (Artikel Internasional)
Combined effects of nitrification inhibitor and zeolite on greenhouse gas fluxes and corn growth.pdf
Download (114kB)
[img] Text (Peer Review Artikel)
Peer Review Combined effects of nitrification inhibitor and zeolite on greenhouse gas fluxes and corn growth.pdf
Download (1MB)
[img] Text (Turnitin)
Combined effects of nitrification inhibitor and zeolite on greenhouse gas fluxes and corn growth.pdf.pdf
Download (150kB)

Abstract

Field and incubation experiments were conducted to determine the emission rate of greenhouse gases, nitrogen change, popu- lations of AOB, NOB, and fungi as well as growth of corn in response to amendment of urea granulated with and without nitrification inhibitors and zeolite. The application of urea with neem, urea with zeolite, urea with zeolite + neem, urea with zeolite + dicyandiamide, and urea with dicyandiamide (UD) decreased the N2O emissions by 16.3%, 59.6%, 66.8%, 81.9%, 16.3%, and 86.7%, respectively. Meanwhile, patterns of CH4 fluxes were mostly determined by small emissions. Increase in corn height, weight of cobs, biomass, and chlorophyll leaf contents were not significantly different between urea alone and urea with NIs and zeolite. In the incubation experiment, the highest concentration of NH4+ and N2O production was detected during the first week and it remained high up to the second week of incubation in the combination of urea with NIs and zeolite treatments, although there was no significant difference compared with urea. During NH4+ decrease, the concentration of NO3− started to accumulate from the second to the third weeks. Production of CO2 showed no significant differences among treatments. The static production of CO2 could also explain that NIs and zeolite additions did not change AOB, NOB, and fungi activities after the fourth week of incubation.

Item Type: Article
Subjects: FMIPA > PENDIDIKAN BIOLOGI - (S1)
FMIPA
KARYA ILMIAH DOSEN
Universitas Negeri Makassar > KARYA ILMIAH DOSEN
Depositing User: Arsad Bahri
Date Deposited: 03 May 2023 03:51
Last Modified: 06 May 2023 07:20
URI: http://eprints.unm.ac.id/id/eprint/28266

Actions (login required)

View Item View Item
Test Repository is powered by EPrints 3 which is developed by the School of Electronics and Computer Science at the University of Southampton. More information and software credits.