不同肥料对烟草单作根际土壤微生物区系功能多样性的影响

Q3 Agricultural and Biological Sciences Acta Agronomica Sinica Pub Date : 2011-01-01 DOI:10.1016/S1875-2780(11)60003-5
Yu-Hong YANG , Dong-Mei CHEN , Yan JIN , Hai-Bin WANG , Yu-Qi DUAN , Xu-Kui GUO , Hai-Bin HE , Wen-Xiong LIN
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引用次数: 20

摘要

连作障碍是烟草生产中最重要的问题之一。为从土壤生态管理的角度缓解连作障碍,以烟草品种K326为研究对象,在连作12年的大田上进行了不同施肥效果的试验。研究了不同处理对根际土壤微生物区系功能多样性的影响。结果表明,施用传统复混肥的单作土壤的自毒化感电位最大,施用农家肥的土壤的自毒化感电位最小。根据BIOLOG分析结果,传统复合肥有利于以氨基酸和胺为碳源的微生物菌群生长,商品有机肥有利于以羧酸为碳源的微生物菌群生长,农家肥有利于以碳水化合物、脂肪酸和酚酸为碳源的微生物菌群生长。主成分分析表明,前2个成分与碳源有关,分别占数据变异的74.37%和25.63%。碳水化合物、脂肪酸和酚酸的碳源对两种主成分的分离起主要作用。烟草根际土壤自毒化感电位与以碳水化合物和酚酸为碳源的微生物区系的平均井色发育(AWCD)值呈正相关,与以脂肪酸为碳源的微生物区系的平均井色发育(AWCD)值呈负相关。此外,对单一栽培土壤微生物区系的生长影响,农家肥最好,商品有机肥次之,传统复混肥最差。
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Effect of Different Fertilizers on Functional Diversity of Microbial Flora in Rhizospheric Soil Under Tobacco Monoculture

Continuous cropping obstacle is one the most important problems in tobacco (Nicotiana tabacum L.) production. To alleviate continuous cropping obstacle based on management of soil ecology, the effects of different fertilizers were tested using tobacco cultivar K326 growing in a field with 12-year consecutive cultivation. The rhizospheric soil was sampled to investigate the changes in functional diversity of microbial flora in different treatments. The results showed that the autotoxic allelopathic potential was maximal for the monoculture soil treated with traditional compound fertilizer, and minimal for the soil treated with farmyard manure. According to the result of BIOLOG analysis, traditional compound fertilizer was conducive to the growth of microbial flora feeding on amino acids and amine as carbon sources, the commercial organic fertilizer to the growth of microbial flora using carboxylic acids as a carbon source, and farmyard manure to the growth of microbial flora using carbohydrate, fatty acids, and phenolic acids as carbon sources. Principal component analysis indicated that the first 2 components were related to carbon sources, which accounted for 74.37% and 25.63% of the data variation. The carbon source of carbohydrate, fatty acids, and phenolic acids mainly contributed to the separation of the 2 principal components. The autotoxic allelopathic potential of tobacco rhizospheric soil was positively correlated with the average well color development (AWCD) value of microbial flora feeding on carbohydrate and phenolic acids as carbon sources, and negatively correlated with that of the microbial flora using the carbon source of fatty acids. In addition, for the growth of microbial flora in monoculture soil, farmyard manure was the best, followed by commercial organic fertilizer, and traditional compound fertilizer was the worst.

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