厌氧和好气条件下油菜秸秆腐解的红外光谱特征研究

FTIR characteristic of rapeseed straw decomposition under anaerobic and aerobic conditions

  • 摘要: 采用尼龙网袋法, 研究了油菜(Brassica campestris L.)秸秆在厌氧和好气条件下的腐解规律及其红外光谱特征。结果表明: 油菜秸秆还田后, 腐解速率表现为前期快、后期较慢的规律。在360 d培养时间内, 厌氧和好气条件下的油菜秸秆腐解率分别为60.50%和68.20%, 腐解速率常数(k)分别为0.004d-1和0.010d-1, 腐解1/2时所需时间分别为229 d和117 d。在厌氧和好气条件下, 油菜秸秆的碳释放率分别为70.33%和77.43%, 厌氧条件下的释放速率常数(0.025d-1)低于好气条件(0.026d-1)。油菜秸秆中氮的释放率分别为82.20%和87.48%, 油菜秸秆在厌氧条件下的氮残留量比其在好气条件下高38.25%, 且达到显著性差异水平(P<0.05)。厌氧条件下的氮残留率始终高于好气条件下, 且在60~90 d培养期内差异最大。红外图谱分析显示, 油菜秸秆腐解过程最明显的变化在波数为3 430~3 410 cm-1、2 930 cm-1处, 吸收峰吸收强度降低, 表明油菜秸秆的脂族性下降。在波数为1 740 cm-1、1 419~1 425 cm-1处的吸收峰吸收强度降低, 表明油菜秸秆木质素含量下降, 且厌氧条件下的吸收强度高于其在好气条件下, 表明厌氧条件的木质素残留较多。结果表明, 油菜秸秆中羟基、甲基、亚甲基含量随腐解时间延长而降低, 碳水化合物减少, 脂族性下降, 芳构化程度增强。好气条件有利于秸秆中纤维素、半纤维素和脂肪族化合物的分解, 提高其芳香性, 对土壤碳、氮的补充作用更大。

     

    Abstract: As a vital biological resource in agricultural production system, crop straws returned into soil are crucial for maintaining and improving soil fertility and crop yield. There are differences in straw decomposition between anaerobic and aerobic conditions. FTIR (Fourier transform infrared spectroscopy) can indicate the dynamic changes in organic components during decomposing process of straws. In this study, the net-bag method was used to determine the decomposition dynamic of rapeseed straw and the characteristics of FTIR under anaerobic and aerobic conditions. The results showed a rapid decomposition rate of rapeseed straw at the start of the decomposing process, and then a slow rate with time. Within 360 days of decomposition, the rates of decomposition of rapeseed straw under anaerobic and aerobic conditions were respectively 60.50% and 68.20%, with corresponding decomposition rate constants (k) of 0.004d-1 and 0.010d-1, and rapeseed straw mass decomposition half-lives (t 1/2) of 229 days and 117 days. Carbon (C) releasing rates of rapeseed straw under anaerobic and aerobic conditions were 70.33% and 77.43%, respectively. Also C releasing rate constant (k) under anaerobic condition (0.025d-1) was smaller than that under aerobic condition (0.026d-1). Then nitrogen (N) releasing rates of rapeseed straw under anaerobic and aerobic conditions were 82.20% and 87.48%, respectively. Also N residues under anaerobic condition was 38.25% higher than that under aerobic condition (P < 0.05) within 360 days decomposition, with the highest difference during the 6090 day incubation period. Infrared spectrum analysis showed that absorption intensities at 3 4303 410 cm1 (stretched hydroxyl), 2 930 cm-1 (stretched methylene) bands significantly decreased. This suggested that the decomposition of organic matter such as carbohydrate and aliphatic compounds decreased. Absorption intensities at 1 4191 425 cm-1 and 1 740 cm-1 (assigned to C=O stretching as well as C—O stretching and C—H deformation of carboxylic acid functional groups) weakened. This suggested that carboxylic acid lipid compounds and lignin contents decreased and that there was higher absorption intensity under anaerobic condition than aerobic condition. Silicon released from rapeseed straw accumulated as oxides such as SiO2. During the process of straw decomposition, aliphatic compounds declined while aromatic compounds increased. Also aerobic condition was beneficial to the decomposition of straw cellulose and hemicellulose, largely supplementing soil C and N.

     

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