森林火災によるチャーのメタン抑制能力を研究（UD’s Chiu studies capacity of wildfire chars to suppress methane）

2025-08-19 デラウェア大学 (UD)

＜関連情報＞

• https://www.udel.edu/udaily/2025/august/wildfire-char-biochar-methane-engineering-environment/
• https://pubs.acs.org/doi/10.1021/acs.est.5c05709

山火事の炭化物による新たな気候影響：反復的な酸化還元サイクルにおける生物起源メタン生成の抑制 A New Climate Impact of Wildfire Chars: Suppression of Biogenic Methane Production Over Repeated Redox Cycles

Jiwon Choi,Danhui Xin,Pei C. Chiu
Environmental Science & Technology  Published: July 29, 2025
DOI:https://doi.org/10.1021/acs.est.5c05709

Abstract

The warming climate has increased the frequency and intensity of wildfires, which can further exacerbate climate change. Here we report the suppression of biogenic methane (CH₄) by wildfire chars, a previously unrecognized, potentially beneficial impact of wildfires on global climate. We hypothesized that char derived from wildfires possess an electron storage capacity (ESC) that can support char-respiring microbes, enabling them to outcompete methanogens. A total of 18 chars from fires that occurred between March and October 2023 were collected from across the U.S. All chars possessed sizable ESC, from 0.54 to 2.85 mmol e^–/g in the E_H range of −0.36 to +0.81 V. Without char, singly ¹³C-labeled acetate (¹³CH₃¹²COO^–) was converted by a wastewater culture into equimolar ¹³CH₄ and ¹²CO₂. In the presence of an air-oxidized char, ¹³CO₂ was produced at the expense of ¹³CH₄, as anaerobic char respirers outcompeted acetoclastic methanogens. Char electron contents measured before and after acetate degradation showed that, electrons that would otherwise end up in CH₄ were deposited into char instead. On average, 28.4 ± 2.2% of the wildfire chars’ ESC was utilized to divert electrons away from CH₄. Aeration of microbially utilized chars restored the chars’ capacity to suppress CH₄, confirming the redox-reversible nature of ESC. These results improve our understanding of, and ability to assess, the full climate impacts of wildfires and deforestation. This study provides the first significant data set of wildfire char ESC, and the first quantitative demonstration of CH₄ suppression by wildfire chars.