Iron mineral type controls organic matter stability and priming in paddy soil under anaerobic conditions
文献类型: 外文期刊
第一作者: Wang, Shuang
作者: Wang, Shuang;Ma, Zhi;Zhu, Zhenke;Wei, Liang;Ge, Tida;Wang, Shuang;Ma, Zhi;Zhu, Zhenke;Wei, Liang;Ge, Tida;Gao, Wei;Yuan, Hongzhao;Gao, Wei;Yuan, Hongzhao;Luo, Yu;Chen, Song;Ying, Chaoyun;Ying, Chaoyun;Mason-Jones, Kyle;Kuzyakov, Yakov;Kuzyakov, Yakov
作者机构:
关键词: Carbon sequestration; Fe reduction; Mineral-associated organic matter; Iron-bound organic carbon; Priming effect; Methane
期刊名称:SOIL BIOLOGY & BIOCHEMISTRY ( 影响因子:9.8; 五年影响因子:10.4 )
ISSN: 0038-0717
年卷期: 2024 年 197 卷
页码:
收录情况: SCI
摘要: Associations of iron (hydr)oxides (FeOx) with organic carbon are vital in regulating the stability of soil organic carbon (SOC). Like SOC, FeOx is chemically dynamic in soils, particularly under anaerobic conditions. However, previous research has not clarified how the stability of FeOx (goethite versus ferrihydrite) and the formation pathway of FeOx-OC associations (adsorption versus coprecipitation) affect the stability of FeOx-bound OC and, subsequently, the priming effect (PE) under anaerobic conditions. With an aim to bridge this gap, we incubated paddy soils for 80 d under anaerobic conditions after adding free 13 C-glucose, ferrihydrite- or goethite-bound 13 C-glucose formed by either adsorption or coprecipitation. Compared with the free glucose addition, the FeOx-bound glucose addition increased 13 CO 2 production by 8% -21% but reduced 13 C -CH 4 production by 7% - 10%. Ferrihydrite-bound glucose was mineralised more than goethite-bound glucose; this is consistent with its lower crystallinity facilitating reduction and, thus, higher OC bioavailability. Glucose induced a negative priming effect (PE) for CO 2 but a positive PE for CH 4 , whereas FeOx-bound glucose showed the opposite trend. This may be because FeOx-bound glucose provides an energy source and electron acceptor for Fe-reducing bacteria; this promotes the dissimilating reduction of iron and combines with an aggravated microbial P limitation resulting from the FeOx input. The crystallinity of FeOx affected the amount of primed CH 4 rather than its formation pathway. In conclusion, the crystallinity of FeOx controls the stability of FeOx-OC associations and the PE of SOC decomposition under anaerobic conditions.
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