有机肥和解磷固氮菌配施对缺碳黄棕壤养分特性的协同效应

研究不同有机肥配比下解磷固氮细菌对土壤养分和相关酶活性的动态影响,可为筛选合适的菌肥类型、有机肥配比和施肥周期提供参考。试验设置0%、4%、8%、12%(质量比)4种有机肥配比,选择巨大芽孢杆菌、荧光假单胞菌2种解磷菌和褐球固氮菌、巴西固氮螺菌2种固氮菌,以亚热带贫瘠黄棕壤为研究对象,在控制条件下(28 ℃、避光)持续土壤培养60 d,以探讨不同有机肥水平和不同取样时间(培养第3、8、16、30、45、60天)4种细菌单独或混合接种对土壤有效态养分和相关酶活性的影响。结果表明: 随着有机肥含量的增加,菌肥处理土壤的有效氮和有效磷含量逐渐提高,表现为12%>8%>4%>0%。随着培养时间的延长,各处理土壤养分基本呈现先增加后降低的趋势。相对于单施有机肥,配施有机肥和菌肥能够显著提高和延长菌肥对土壤养分含量和酶活性的增益。菌肥对土壤养分特性的影响在不同有机肥配比下呈现不同的规律: 有机肥含量较低(0%～4%)时,虽然菌肥显著提高了土壤有效养分含量,但在初期各菌肥间差异并不显著;随着有机肥含量的提高和培养时间的延长,解磷菌(尤其是巨大芽孢杆菌)显著提高了有效磷含量,固氮菌(尤其是巴西固氮螺菌)显著提高了有效氮含量。4种细菌混合菌肥主要呈现解磷功能,比单施解磷菌具有更明显的优势,而固氮功能未得到显著提高。相关分析表明,土壤养分含量和酶活性大小呈显著正相关关系,而酶活性受土壤培养时间和碳氮比的影响。因此,针对该土壤类型,菌肥能够在短期内显著提高土壤养分含量,但菌肥特定功能的发挥依赖于有机碳的输入和土壤碳氮比的大小,配施合适比例的有机肥(8%～12%)能够提高并延长菌肥的改良效果;每45～60 d需进行菌肥复施,以保证其存活率和持续效果。

Synergistic effects of organic fertilizer coupled with phosphate-solubilizing and nitrogen-fixing bacteria on nutrient characteristics of yellow-brown soil under carbon deficiency

Understanding the dynamics of phosphate-solubilizing and N₂-fixing bacteria on soil nutrient and related enzyme activity under different organic fertilizer proportions (OFP) could provide references for screening appropriate inoculant type, OFP, and fertilization period. Here, we set four OFP levels (mass ratio: 0%, 4%, 8%, 12%) and inoculated two phosphate-solubilizing bacteria (Bacillus megaterium, Pseudomonas fluorescens) and two N₂-fixing bacteria (Azotobacter chroococcum, Azospirillum brasilence) in the subtropical yellow-brown barren soil. After a 60-day soil incubation under controlled conditions (28 ℃, darkness), we examined the impacts of single/mixed applications of beneficial bacteria on soil available nutrients and related enzyme activities at different OFP levels and different sampling times (3rd, 8th, 16th, 30th, 45th, 60th day). The results showed that soil available nutrient contents increased with the elevated OFP levels, and exhibited as 12%>8%>4%>0%. With the extension of culture time, soil nutrient contents in all treatments first increased and then decreased. Compared with the single application of organic fertilizer, combined application of organic fertilizer and bacterial inoculants resulted in higher and longer improvement of soil nutrient contents and enzyme activities. The effects of inoculants on soil nutrient properties varied across four OFP levels. When the OFP was low (0-4%), inoculation significantly increased soil available nutrient contents, with no the differences between inoculants at the initial stage. However, with the extension of the culture time and the elevation of OFP, phosphate-solubilizing bacteria (especially for B. megaterium) significantly increased available phosphorus content while N₂-fixing bacteria (especially for A. brasilence) significantly increased available nitrogen content. The mixed inoculant with four strains showed phosphate-solubilizing effect on soil and performed better than the single application of phosphate-solubilizing bacteria, but without prominent effect on nitrogen fixation. Soil nutrient contents were positively correlated with enzyme activity, which was affected by both cultural time and carbon-nitrogen ratio. Bacterial inoculations could significantly increase nutrient contents in the short term, but the specific functions of beneficial bacteria on soil were highly dependent on organic carbon input and carbon-nitrogen ratio. Coupled application of inoculants and organic fertilizer at an appropriate OFP level (8%-12%) could increase and extend the soil-remediating effects, while the inoculation should be conducted with an interval of 45-60 days to ensure the survival rate and the consecutive effect on soil.