| 农田土壤碳循环过程及其量化方法 |
| 摘要点击 1213 全文点击 383 投稿时间:2022-12-25 修订日期:2023-02-21 |
| 查看HTML全文
查看全文 查看/发表评论 下载PDF阅读器 |
| 中文关键词 土壤碳 根际沉积碳 激发效应 秸秆还田 多碳源体系 |
| 英文关键词 soil carbon rhizodeposit-C priming effect straw returning multi-carbon source system |
|
| 中文摘要 |
| 已有研究表明除了作物碳(根际沉积碳和秸秆碳)对农田土壤有机碳(SOC)的输入外,土壤碳还来源于土壤自养微生物固定SOC的贡献以及土壤无机碳(SIC)的固定(无机化学途径和微生物的生物矿化途径).农田SOC的高低主要受到外源作物碳输入和原有SOC分解的平衡作用.作物碳输入在短期内通常促进SOC的分解,呈现正(根际)激发效应.通过整合分析主要作物的根际激发效应和秸秆还田的激发效应的研究,发现作物根系生长和秸秆还田引起的(根际)激发效应大小平均值分别为75%和67%.尽管秸秆还田通过激发效应引起SOC分解的额外释放,但是土壤残留秸秆碳通常大于激发效应导致SOC的额外损失,因此秸秆还田可能增加SOC的储量.在农田系统中,秸秆碳和根际沉积碳往往共存,这导致土壤碳输入和输出至少有3个碳源(根际沉积碳、秸秆碳和土壤碳),由于多碳源体系的区分方法存在挑战,目前这两种作物碳(根际沉积碳和秸秆碳)对SOC分解的激发效应影响是不清晰的.最后,提出了新量化方法,可以多源区分根际CO2排放以及SOC中作物碳输入的碳源,以及区分碱性土壤中无机化学和微生物途径对SIC的贡献.研究有助于提高对农田土壤SOC和SIC输入和输出途径的理解,以及农田土壤碳平衡评估的精确度. |
| 英文摘要 |
| Recent studies have shown that the source of soil carbon(C) includes not only the input of crop C(rhizodeposit- and residue-C) to soil organic C(SOC) but also the contribution of soil autotrophic microorganisms to SOC and the fixation of soil inorganic C(SIC) from the soil inorganic chemical pathway and microbial biomineralization pathway. The level of SOC in croplands is mainly controlled by the balance between the input of crop C and the loss of SOC via decomposition. In the short term, the input of crop C usually promotes the SOC decomposition, showing a positive(rhizosphere) priming effect. We analyzed the literature on the rhizosphere priming effect of major crops and the priming effect of straw additions and found that they were on average 75% and 67%, respectively. The residual straw C in the soil could completely compensate for the SOC loss caused by the priming effect of straw returning. In croplands, rhizodeposit- and residue-C often coexisted, which resulted in at least three C sources(rhizodeposit-, straw-, and soil-C) for soil C input and output. Finally, we proposed a new method to distinguish the contribution of multiple C sources to the CO2 emission and the SOC input in rhizosphere soils, as well as the contribution of inorganic chemistry and microbial pathways to the SIC input in calcareous soils. This review is helpful to improve the understanding of the input and output pathways of SOC and SIC in croplands and to improve the accuracy of soil C assessment in croplands. |
|
|
|
