Contribution of soil microbial necromass carbon to soil organic carbon in grassland under precipitation change and its influencing factors in loess hilly region, Northwest China.

Q3 Environmental Science

应用生态学报 Pub Date : 2024-09-18 DOI:10.13287/j.1001-9332.202409.011

Yue Zhou, Ya-Yun Li, Na Li, Hui-Jun Li, Yu-Han Zhang, Shao-Shan An, Bao-Rong Wang

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Abstract

To investigate the contribution of microbial necromass carbon (MNC) to soil organic carbon (SOC) and its influencing factors under precipitation changes in grassland, we conducted a precipitation experiment with seven different precipitation levels in the Bothriochloa ischaemum restoration area in the loess hilly region. We analyzed the contents and characteristics of fungal necromass carbon (FNC), bacterial necromass carbon (BNC), and MNC in different fractions of SOC under different treatments, including natural precipitation (CK), and increased and decreased 20%, 40%, 60% of natural precipitation (I₂₀, I₄₀, I₆₀, D₂₀, D₄₀, D₆₀) . The results showed that 1) MNC content in mineral organic carbon (MAOC) ranged from 1.62 g·kg^-1 to 2.17 g·kg^-1, which was higher than that in particulate organic carbon (POC) ranging from 0.69 g·kg^-1 to 1.31 g·kg^-1. The former was approximately 1.4 to 2.8 times as that of the latter. 2) FNC and MNC exhibited similar changes in both MAOC and POC fractions. BNC content in MAOC was approximately 1-3.1 times as that of FNC. FNC content in POC was generally higher than BNC except for I₄₀ and I₆₀ where BNC exceeded FNC. 3) Overall, both increases and decreases in precipitation resulted in elevated MNC/MAOC and BNC/MAOC ratios, but decreased MNC/POC and FNC/POC ratios. The MNC/MAOC ratios in I₆₀ and D₆₀ were 33.2% and 18.1% higher than CK, respectively. The BNC/MAOC ratios in D₆₀, I₄₀ and I₆₀ were 28.0%, 23.0% and 19.1% higher than those in CK, respectively. Except for D₆₀, the FNC/POC and MNC/POC ratios were significantly lower than CK under other treatments. In terms of POC fractions, the MNC/POC ratios of D₄₀, D₂₀, I₂₀, I₄₀ and I₆₀ were 28.4%, 23.3%, 28.8%, 23.3% and 32.2% lower than that of CK, respectively. The FNC/POC ratio of D₄₀, D₂₀, I₂₀, I₄₀ and I₆₀ was found to be lower by 23.3%, 16.1%, 21.0%, 27.0% and 31.0% compared to that of CK, respectively. 4) NH₄⁺-N and pH were the primary factors influencing the content of MNC in different carbon fractions under varying precipitation conditions. In summary, alterations in precipitation (either increase or decrease) enhanced the contribution of BNC-dominated MNC to MAOC, but reduced the contribution of FNC-dominated MNC to POC. This study was of significance for understanding the distribution of microbial necromass across different organic carbon fractions under precipitation alterations.

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西北黄土丘陵区降水变化下草地土壤微生物尸碳对土壤有机碳的贡献及其影响因素

为了研究降水变化条件下草地微生物尸质碳（MNC）对土壤有机碳（SOC）的贡献及其影响因素，我们在黄土丘陵区的Bothriochloa ischaemum恢复区进行了7个不同降水水平的降水试验。我们分析了在不同处理（包括自然降水（CK）、自然降水增加和减少 20%、40%、60%（I20、I40、I60、D20、D40、D60））下 SOC 不同组分中真菌坏死碳（FNC）、细菌坏死碳（BNC）和 MNC 的含量和特征。结果表明：1）矿物有机碳（MAOC）中的 MNC 含量为 1.62 克-千克-1 至 2.17 克-千克-1，高于颗粒有机碳（POC）中的 MNC 含量（0.69 克-千克-1 至 1.31 克-千克-1）。前者约为后者的 1.4 至 2.8 倍。2) FNC 和 MNC 在 MAOC 和 POC 部分中表现出相似的变化。MAOC 中的 BNC 含量约为 FNC 的 1-3.1 倍。POC 中的 FNC 含量普遍高于 BNC，只有 I40 和 I60 中 BNC 的含量超过 FNC。3) 总体而言，降水的增加和减少都导致 MNC/MAOC 和 BNC/MAOC 比率升高，但 MNC/POC 和 FNC/POC 比率下降。I60 和 D60 的 MNC/MAOC 比率分别比 CK 高 33.2% 和 18.1%。D60、I40 和 I60 的 BNC/MAOC 比率分别比 CK 高 28.0%、23.0% 和 19.1%。除 D60 外，其他处理的 FNC/POC 和 MNC/POC 比率均明显低于 CK。就 POC 分数而言，D40、D20、I20、I40 和 I60 的 MNC/POC 比率分别比 CK 低 28.4%、23.3%、28.8%、23.3% 和 32.2%。与 CK 相比，D40、D20、I20、I40 和 I60 的 FNC/POC 比率分别低 23.3%、16.1%、21.0%、27.0% 和 31.0%。4) 在不同沉淀条件下，NH4+-N 和 pH 是影响不同碳组分中 MNC 含量的主要因素。总之，降水量的变化（增加或减少）提高了以 BNC 为主的 MNC 对 MAOC 的贡献，但降低了以 FNC 为主的 MNC 对 POC 的贡献。这项研究对于了解降水变化条件下微生物尸体在不同有机碳组分中的分布具有重要意义。

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