No-weeding suppressed methane emissions by Takanari and Koshihikari rice varieties under organic farming

IF 1.4 4区农林科学 Q2 AGRICULTURE, MULTIDISCIPLINARY

Journal of Agricultural Meteorology Pub Date : 2024-01-10 DOI:10.2480/agrmet.d-23-00031

Jean Yves DUKUZUMUREMYI, Samuel Munyaka KIMANI, Weiguo CHENG, Christian NKURUNZIZA, Margi Asih MAIMUNAH, Eric CANTONA, Shuirong TANG, Shigeto SUDO, Yuka SASAKI, Hideki MURAYAMA

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Abstract

To determine the difference in greenhouse gas emissions between two rice (Oryza sativa L.) varieties; Takanari (Tak) and Koshihikari (Kos), under organic rice cultivation with or without weeds management, a pot experiment was conducted at Tsuruoka, Yamagata, Japan. The Tak and Kos varieties were transplanted individually and interplanted as Tak+Kos, with the main treatments of weeding (w) and no-weeding (nw). Methane (CH₄), nitrous oxide (N₂O), and plant night respiration (CO₂ emission) fluxes were measured once weekly or biweekly during the rice growth period. As the results, N₂O fluxes were not detected but CH₄ fluxes varied with the rice growth stage for all treatments. Compared with the Kos(w), Tak(w) and Tak+Kos(w) significantly decreased total seasonal CH₄ emissions by 12.4% and 19.1%, respectively. This was attributed to higher rhizospheric CH₄ oxidation and the offset of potential methanogenic activities because of the larger root biomass and a higher harvest index for both Tak(w) and Tak+Kos(w) compared with Kos(w). Conversely, Kos(nw) significantly reduced cumulative CH₄ emissions by 31.7% and 48.6% compared with Tak(nw) and Tak+Kos(nw), respectively. This was ascribed to high rhizospheric CH₄ oxidation promoted by the presence of significantly higher weed biomass for Kos(nw) at 65.0% and 44.0% compared with Tak(nw) and Tak+Kos(nw), respectively. On average, the no-weeding practice significantly decreased cumulative CH₄ emissions by 50.5% compared with the weeding practice, with a significantly high (P<0.001) interaction between weed management and variety differences observed. The CH₄ emissions and plant biomass under variety interplanting (Tak+Kos) were not significantly different to Tak individual planting, but were significantly different to Kos individual planting, which implied variety Tak had strong competition to variety Kos. More studies on appropriate variety choice and pairs, and the effect of aquatic weeds presence in no-weeding organic paddy fields are necessary to estimate CH₄ emission and attenuation.

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免耕抑制了有机耕作下高成和越光水稻品种的甲烷排放

为了确定两种水稻（Oryza sativa L.）品种 Takanari（Tak）和 Koshihikari（Kos）在有无杂草管理的有机水稻栽培条件下的温室气体排放量差异，在日本山形县鹤冈市进行了一项盆栽试验。Tak 和 Kos 品种被单独移栽，并以 Tak+Kos 的形式间种，主要处理为除草（w）和不除草（nw）。在水稻生长期间，每周或每两周测量一次甲烷（CH4）、一氧化二氮（N2O）和植物夜间呼吸（CO2 排放）通量。结果表明，在所有处理中，N2O 通量均未检测到，但 CH4 通量随水稻生长阶段而变化。与 Kos(w) 相比，Tak(w) 和 Tak+Kos(w) 的季节性甲烷总排放量分别显著减少了 12.4% 和 19.1%。这归因于根瘤层 CH4 氧化率较高，以及与 Kos(w) 相比，Tak(w) 和 Tak+Kos(w) 的根瘤生物量较大，收获指数较高，从而抵消了潜在的甲烷生成活动。相反，与 Tak(nw) 和 Tak+Kos(nw) 相比，Kos(nw) 显著减少了 31.7% 和 48.6% 的累积甲烷排放量。这是因为与 Tak（nw）和 Tak+Kos（nw）相比，Kos（nw）的杂草生物量明显较高，分别为 65.0% 和 44.0%，从而促进了根瘤层 CH4 的高度氧化。平均而言，与除草实践相比，免除草实践显著减少了 50.5% 的累积 CH4 排放量，并且观察到杂草管理与品种差异之间存在显著的交互作用（P<0.001）。品种间套种（Tak+Kos）的 CH4 排放量和植株生物量与单独种植 Tak 的差异不显著，但与单独种植 Kos 的差异显著，这意味着品种 Tak 对品种 Kos 有很强的竞争性。要估算 CH4 排放量和衰减量，有必要对无除草有机稻田中适当的品种选择和配对以及水生杂草存在的影响进行更多研究。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Agricultural Meteorology AGRICULTURE, MULTIDISCIPLINARYMETEOROLOGY-METEOROLOGY & ATMOSPHERIC SCIENCES

CiteScore

2.70

自引率

7.70%

发文量

期刊介绍： For over 70 years, the Journal of Agricultural Meteorology has published original papers and review articles on the science of physical and biological processes in natural and managed ecosystems. Published topics include, but are not limited to, weather disasters, local climate, micrometeorology, climate change, soil environment, plant phenology, plant response to environmental change, crop growth and yield prediction, instrumentation, and environmental control across a wide range of managed ecosystems, from open fields to greenhouses and plant factories.