农业资源与环境学报
農業資源與環境學報
농업자원여배경학보
Journal of Agricultural Resources and Environment
2015年
4期
354-362
,共9页
覃潇敏%郑毅%汤利%龙光强
覃瀟敏%鄭毅%湯利%龍光彊
담소민%정의%탕리%룡광강
玉米/马铃薯间作%施氮量%土壤微生物群落%功能多样性
玉米/馬鈴藷間作%施氮量%土壤微生物群落%功能多樣性
옥미/마령서간작%시담량%토양미생물군락%공능다양성
maize/potato intercropping%nitrogen application rate%soil microbial community%functional diversity
通过田间试验,采用平板培养法和BIOLOG技术研究了不同施氮水平N0(0 kg·hm-2),N1(125 kg·hm-2),N2(250 kg·hm-2)和N3(375 kg·hm-2)对玉米//马铃薯间作作物根际微生物群落及代谢功能多样性的影响。结果表明,间作条件下,施氮(N1、N2、N3)处理显著提高了玉米、马铃薯根际细菌、放线菌数量及微生物总量,在N2处理微生物数量最高,却显著降低了真菌的数量。与N0处理相比,施氮均显著提高了间作条件下玉米、马铃薯根际微生物群落碳源利用率、丰富度和功能多样性,N3处理的玉米根际微生物群落的碳源利用率(A W CD)、Shannon-Wiener(H)、Simpson指数(D)、均匀度指数(E)及碳源利用丰富度指数(S)最高,而马铃薯在N2处理时最高,但对6类碳源的利用存在一定的差异。聚类和主成分分析表明,间作玉米、间作马铃薯各施氮处理土壤微生物在碳源利用上出现较大差异,土壤微生物群落代谢特征发生改变。表明适量施氮对调控间作作物根际土壤微生物群落结构和提高其功能多样性均具有积极作用。
通過田間試驗,採用平闆培養法和BIOLOG技術研究瞭不同施氮水平N0(0 kg·hm-2),N1(125 kg·hm-2),N2(250 kg·hm-2)和N3(375 kg·hm-2)對玉米//馬鈴藷間作作物根際微生物群落及代謝功能多樣性的影響。結果錶明,間作條件下,施氮(N1、N2、N3)處理顯著提高瞭玉米、馬鈴藷根際細菌、放線菌數量及微生物總量,在N2處理微生物數量最高,卻顯著降低瞭真菌的數量。與N0處理相比,施氮均顯著提高瞭間作條件下玉米、馬鈴藷根際微生物群落碳源利用率、豐富度和功能多樣性,N3處理的玉米根際微生物群落的碳源利用率(A W CD)、Shannon-Wiener(H)、Simpson指數(D)、均勻度指數(E)及碳源利用豐富度指數(S)最高,而馬鈴藷在N2處理時最高,但對6類碳源的利用存在一定的差異。聚類和主成分分析錶明,間作玉米、間作馬鈴藷各施氮處理土壤微生物在碳源利用上齣現較大差異,土壤微生物群落代謝特徵髮生改變。錶明適量施氮對調控間作作物根際土壤微生物群落結構和提高其功能多樣性均具有積極作用。
통과전간시험,채용평판배양법화BIOLOG기술연구료불동시담수평N0(0 kg·hm-2),N1(125 kg·hm-2),N2(250 kg·hm-2)화N3(375 kg·hm-2)대옥미//마령서간작작물근제미생물군락급대사공능다양성적영향。결과표명,간작조건하,시담(N1、N2、N3)처리현저제고료옥미、마령서근제세균、방선균수량급미생물총량,재N2처리미생물수량최고,각현저강저료진균적수량。여N0처리상비,시담균현저제고료간작조건하옥미、마령서근제미생물군락탄원이용솔、봉부도화공능다양성,N3처리적옥미근제미생물군락적탄원이용솔(A W CD)、Shannon-Wiener(H)、Simpson지수(D)、균균도지수(E)급탄원이용봉부도지수(S)최고,이마령서재N2처리시최고,단대6류탄원적이용존재일정적차이。취류화주성분분석표명,간작옥미、간작마령서각시담처리토양미생물재탄원이용상출현교대차이,토양미생물군락대사특정발생개변。표명괄량시담대조공간작작물근제토양미생물군락결구화제고기공능다양성균구유적겁작용。
Field trials were carried out to investigate the effects of different nitrogen application rates N0(0 kg·hm-2), N1(125 kg·hm-2), N2 (250 kg·hm-2)and N3(375 kg·hm-2)on the rhizosphere microbial population and metabolic function diversity of maize and potato under intercropping using plate culture method and BIOLOG technique. The results indicated that nitrogen(N1, N2 and N3)application in-creased the amounts of bacteria, actinomyces and total microbes, but decreased the quantities of fungi significantly in rhizosphere soil of maize and potato in intercropping, and the highest increment was with N2 treatment. In comparison with N0, nitrogen fertilizer application could increase significantly the diversities of soil microbial community, the utilization rate of carbon source, richness of soil microbial com-munity. And the A W CD value, Shannon-Wiener index(H), Simpson index(D), Evenness index(E)and Richness index(S)in rhizosphere soil of maize under intercropping were the highest at N3 treatment, while that of potato were the highest at N2 treatment, but the effects of dif-ferent N application rates on the ability of rhizospheric microbes in utilizing six types of carbon sources were different. Principal component analysis (PCA)and cluster analysis showed that there were differences in carbon substrate utilization patterns and metabolic characteristics of the soil microbes in maize and potato intercropping with different N application rates. It suggested that applying N could regulate the rhizo-sphere soil microbial communities and promote the functional diversity of crop intercropping.
