西部林业科学
西部林業科學
서부임업과학
JOURNAL OF WEST CHINA FORESTRY SCIENCE
2015年
4期
47-52,57
,共7页
冯泉清%伍建榕%张俊忠%韩庆莉%刘丽%马焕成
馮泉清%伍建榕%張俊忠%韓慶莉%劉麗%馬煥成
풍천청%오건용%장준충%한경리%류려%마환성
旱冬瓜林%高黎贡山国家自然保护区%Biolog-Eco微平板反应%碳源代谢%土壤微生物群落
旱鼕瓜林%高黎貢山國傢自然保護區%Biolog-Eco微平闆反應%碳源代謝%土壤微生物群落
한동과림%고려공산국가자연보호구%Biolog-Eco미평판반응%탄원대사%토양미생물군락
Alnus nepalensis%Gaoligong Mountains National Nature Reserve%Biolog-Eco Micro plate technology%carbon metabolism%soil microbial community
用Biolog生态平板分析法,对高黎贡山国家自然保护区海拔900~1800 m梯度的旱冬瓜林下土壤微生物群落碳源代谢多样性进行分析,比较不同海拔的旱冬瓜林下土壤微生物群落碳源代谢的差异。结果表明,土壤微生物群落碳源代谢功能的变化随着海拔的变化而发生变化,土壤微生物群落碳源代谢利用的丰富度指数( S)、物种丰富度指数( H)均随海拔的增加而增大。旱冬瓜林下的土壤微生物群落碳源代谢活性,随着海拔上升逐渐增加;所采集的6个梯度旱冬瓜林下土壤微生物对6类碳源的利用存在差异,对于羧酸类和碳水化合物类利用程度较高,对其他种类化合物利用程度较低;Biolog-Eco微平板反应72 h后土壤微生物碳源代谢的平均颜色变化率( AWCD)值,利用主成分分析的方法分析土壤微生物碳源代谢,代谢基质主成分1的贡献率为60.3%,起分异作用的主要是碳水化合物,有10种,氨基酸化合物与羧酸化合物各占5种;主成分2的贡献率21.3%,起分异作用的主要是芳香化合物。高黎贡山国家自然保护区旱冬瓜林下,土壤微生物群落碳源代谢多样性的分布是随着海拔的升高而增大,不符合“中部膨胀”这一高山植物多样性研究的普遍结果。
用Biolog生態平闆分析法,對高黎貢山國傢自然保護區海拔900~1800 m梯度的旱鼕瓜林下土壤微生物群落碳源代謝多樣性進行分析,比較不同海拔的旱鼕瓜林下土壤微生物群落碳源代謝的差異。結果錶明,土壤微生物群落碳源代謝功能的變化隨著海拔的變化而髮生變化,土壤微生物群落碳源代謝利用的豐富度指數( S)、物種豐富度指數( H)均隨海拔的增加而增大。旱鼕瓜林下的土壤微生物群落碳源代謝活性,隨著海拔上升逐漸增加;所採集的6箇梯度旱鼕瓜林下土壤微生物對6類碳源的利用存在差異,對于羧痠類和碳水化閤物類利用程度較高,對其他種類化閤物利用程度較低;Biolog-Eco微平闆反應72 h後土壤微生物碳源代謝的平均顏色變化率( AWCD)值,利用主成分分析的方法分析土壤微生物碳源代謝,代謝基質主成分1的貢獻率為60.3%,起分異作用的主要是碳水化閤物,有10種,氨基痠化閤物與羧痠化閤物各佔5種;主成分2的貢獻率21.3%,起分異作用的主要是芳香化閤物。高黎貢山國傢自然保護區旱鼕瓜林下,土壤微生物群落碳源代謝多樣性的分佈是隨著海拔的升高而增大,不符閤“中部膨脹”這一高山植物多樣性研究的普遍結果。
용Biolog생태평판분석법,대고려공산국가자연보호구해발900~1800 m제도적한동과림하토양미생물군락탄원대사다양성진행분석,비교불동해발적한동과림하토양미생물군락탄원대사적차이。결과표명,토양미생물군락탄원대사공능적변화수착해발적변화이발생변화,토양미생물군락탄원대사이용적봉부도지수( S)、물충봉부도지수( H)균수해발적증가이증대。한동과림하적토양미생물군락탄원대사활성,수착해발상승축점증가;소채집적6개제도한동과림하토양미생물대6류탄원적이용존재차이,대우최산류화탄수화합물류이용정도교고,대기타충류화합물이용정도교저;Biolog-Eco미평판반응72 h후토양미생물탄원대사적평균안색변화솔( AWCD)치,이용주성분분석적방법분석토양미생물탄원대사,대사기질주성분1적공헌솔위60.3%,기분이작용적주요시탄수화합물,유10충,안기산화합물여최산화합물각점5충;주성분2적공헌솔21.3%,기분이작용적주요시방향화합물。고려공산국가자연보호구한동과림하,토양미생물군락탄원대사다양성적분포시수착해발적승고이증대,불부합“중부팽창”저일고산식물다양성연구적보편결과。
The diversity of carbon source metabolism of soil microbial community of Alnus nepalensis in 900~1 800 m of Mt.Gaoligong was analyzed based on Biolog Eco plate method, and the differences of metabolism at differ-ence elevations were compared.The results showed that the metabolic function of soil microbe changes with the change of altitude, the Substrate richness ( S) and Shannon index ( H) of soil microbial community using carbon source increases with the increaseing elevation, and so the metabolic activity does.The utilization of soil microbes to 6 types of carbon sources at six elevations were different.In general, the carboxylic acids and carbohydrates were used more while less use of other compounds.The average well color development (AWCD) of 72 h soil mi-crobial by using PCA ( principal component analysis ) method showed that the contribution of PC1 of the soil mi-crobes metabolism substrates in six elevation gradient spots was 60.3 %, the determinant carbon sources for the differences were carbohydrates and had 10 kinds.The contribution of PC2 was 21.3 %, the determinant carbon sources for the differences were aromatic compounds .The distribution of metabolic diversity of soil microbial com-munities of Alnus nepalensis in Mt.Gaoligong increased with the increasing elevation and this result do not comply with the common result of plant diversity “central bulge” findings.
