中国生态农业学报
中國生態農業學報
중국생태농업학보
CHINESE JOURNAL OF ECO-AGRICULTURE
2009年
6期
1206-1210
,共5页
臧威%孙剑秋%王鹏%蒋本庆%王登宇%张建%李铁
臧威%孫劍鞦%王鵬%蔣本慶%王登宇%張建%李鐵
장위%손검추%왕붕%장본경%왕등우%장건%리철
东北地区%农作物%根际土壤%磷细菌%解磷菌%溶磷菌%种群结构%多样性相似性
東北地區%農作物%根際土壤%燐細菌%解燐菌%溶燐菌%種群結構%多樣性相似性
동북지구%농작물%근제토양%린세균%해린균%용린균%충군결구%다양성상사성
Northeastern China%Crop%Rhizosphere soil%Phosphobacteria%Phosphate-dissolving bacteria%Phosphate-solubilizing bacteria%Community structure%Biodiversity%Similarity
从小麦、水稻、玉米,大豆根际土壤中磷细菌数量及其群落结构、多样性和相似性等几个方面,对东北地区代表性农作物根际磷细菌生态分布规律进行了系统研究.结果表明,4种作物根际土壤中分布大量解磷菌和溶磷菌,其中解磷菌达到2.15~6.68×10~5 cfu·g~(-1)、溶磷菌达到0.7~3.9×10~4 cfu·g~(-1),解磷菌数量多于溶磷菌;作物根际土壤有效磷含量与磷细菌数量问无直接相关性;东北地区农作物根际磷细菌种群结构复杂,小麦、玉米、水稻、大豆根际土壤解磷菌分别涉及9个、11个、13个、12个菌属,溶磷菌分别涉及9个、8个、9个、7个菌属:4种主要农作物根际土壤中分布的磷细菌具有较高的多样性指数,且一般来说根际土壤中解磷菌多样性更高;作物根际磷细菌组成相似性系数在0.50~1.00之间,总体处于较高水平,且溶磷菌的相似性系数高于解磷菌.
從小麥、水稻、玉米,大豆根際土壤中燐細菌數量及其群落結構、多樣性和相似性等幾箇方麵,對東北地區代錶性農作物根際燐細菌生態分佈規律進行瞭繫統研究.結果錶明,4種作物根際土壤中分佈大量解燐菌和溶燐菌,其中解燐菌達到2.15~6.68×10~5 cfu·g~(-1)、溶燐菌達到0.7~3.9×10~4 cfu·g~(-1),解燐菌數量多于溶燐菌;作物根際土壤有效燐含量與燐細菌數量問無直接相關性;東北地區農作物根際燐細菌種群結構複雜,小麥、玉米、水稻、大豆根際土壤解燐菌分彆涉及9箇、11箇、13箇、12箇菌屬,溶燐菌分彆涉及9箇、8箇、9箇、7箇菌屬:4種主要農作物根際土壤中分佈的燐細菌具有較高的多樣性指數,且一般來說根際土壤中解燐菌多樣性更高;作物根際燐細菌組成相似性繫數在0.50~1.00之間,總體處于較高水平,且溶燐菌的相似性繫數高于解燐菌.
종소맥、수도、옥미,대두근제토양중린세균수량급기군락결구、다양성화상사성등궤개방면,대동북지구대표성농작물근제린세균생태분포규률진행료계통연구.결과표명,4충작물근제토양중분포대량해린균화용린균,기중해린균체도2.15~6.68×10~5 cfu·g~(-1)、용린균체도0.7~3.9×10~4 cfu·g~(-1),해린균수량다우용린균;작물근제토양유효린함량여린세균수량문무직접상관성;동북지구농작물근제린세균충군결구복잡,소맥、옥미、수도、대두근제토양해린균분별섭급9개、11개、13개、12개균속,용린균분별섭급9개、8개、9개、7개균속:4충주요농작물근제토양중분포적린세균구유교고적다양성지수,차일반래설근제토양중해린균다양성경고;작물근제린세균조성상사성계수재0.50~1.00지간,총체처우교고수평,차용린균적상사성계수고우해린균.
Ecological distribution of phosphobacteria in soil rhizosphere of four typical crops (Triticum aestivum, Oryza saliva, Zea mays and Glycine max) in the northeastern China was determined based on four principal features (bacteria quantity, community structure, diversity and similarity). The results show vast amounts of both phosphate-dissolving and phosphate-solubilizaing bacteria, which are in the ranges of 2.15~6.68×10~5 cfu · g~(-1) and 0.7~3.9×10~4 cfu · g~(-1) respectively. Correlation analysis shows no significant correlation between available P content and phosphobacteria amount in the rhizosphere soils of the four crops. Population structure of phosphobacteria is very complicated in the northeastern China. The phosphate-dissolving bacteria in rhizosphere soils of T. aestivum, O. sativa, Z. mays and G. max consist of 9, 11, 13 and 12 genera respectively, while phosphate-solubilizaing bacteria consist of 9, 8, 9 and 7 genera respectively. Shannon-Weiner biodiversity of phosphobacteria in rhizosphere soils of the four crops is high. Shannon-Weiner biodiversity index of phosphate-dissolving bacteria is higher than that of phosphate-solubilizing bacteria. Sorenson similarity coefficient is also high (0.50~1.00), and higher for phosphate-solubilizing bacteria.
