Net Greenhouse Gas Budget and Soil Carbon Storage in a Field with Paddy–Upland Rotation with Different History of Manure Application

Fumiaki Takakai,Takashi Sato,Yoshihiro Kaneta,Kensuke Sato,Kazuhiro Kon,Shinpei Nakagawa

doi:10.3390/agriculture7060049

Fumiaki Takakai, Takashi Sato + Show 4 more

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https://doi.org/10.3390/agriculture7060049

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Journal: Agriculture	Publication Date: Jun 10, 2017
Citations: 10	License type: CC BY 4.0

Affiliation: Akita Prefectural University

Abstract

Methane (CH4) and nitrous oxide (N2O) fluxes were measured from paddy–upland rotation (three years for soybean and three years for rice) with different soil fertility due to preceding compost application for four years (i.e., 3 kg FW m−2 year−1 of immature or mature compost application plots and a control plot without compost). Net greenhouse gas (GHG) balance was evaluated by integrating CH4 and N2O emissions and carbon dioxide (CO2) emissions calculated from a decline in soil carbon storage. N2O emissions from the soybean upland tended to be higher in the immature compost plot. CH4 emissions from the rice paddy increased every year and tended to be higher in the mature compost plot. Fifty-two to 68% of the increased soil carbon by preceding compost application was estimated to be lost during soybean cultivation. The major component of net GHG emission was CO2 (82–94%) and CH4 (72–84%) during the soybean and rice cultivations, respectively. Net GHG emissions during the soybean and rice cultivations were comparable. Consequently, the effects of compost application on the net GHG balance from the paddy–upland rotation should be carefully evaluated with regards to both advantages (initial input to the soil) and disadvantages (following increases in GHG).

Highlights

Faculty of Bioresource Sciences, Akita Prefectural University, 241-438 Aza Kaidobata-Nishi, Akita Prefectural Agricultural Experiment Station, 34-1, Aza Genpachizawa, Yuwa Aikawa, Academic Editor: Ryusuke Hatano
Flooded paddy fields are a major source of methane
Soil fertilities differed among the plots due to preceding compost application to forage rice

Summary

Introduction

Faculty of Bioresource Sciences, Akita Prefectural University, 241-438 Aza Kaidobata-Nishi, Akita Prefectural Agricultural Experiment Station, 34-1, Aza Genpachizawa, Yuwa Aikawa, Academic Editor: Ryusuke Hatano. CH4 emissions from the rice paddy increased every year and tended to be higher in the mature compost plot. “Paddy–upland rotation” involves alternating between rice cultivation in paddy fields and upland crops cultivation in drained paddy fields every few years. This has become a popular practice for adjusting rice production to decreasing demands in Japan. In the northern part of Japan that has heavy snow in winter, cultivation of rice or upland crops generally occurs once a year. Soil conditions in such rotated paddy fields could change drastically along with the cycle of flooding and drainage. Flooded paddy fields are a major source of methane

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