生态系统服务研究是生态学研究的前沿和热点。对生态系统服务文献发表情况和生态系统服务主要研究方向进行阐述分析。(1)通过Thomson Reuters公司ISI Web of knowledge信息平台提供的Science Citation Index Expanded数据库为数据源检...生态系统服务研究是生态学研究的前沿和热点。对生态系统服务文献发表情况和生态系统服务主要研究方向进行阐述分析。(1)通过Thomson Reuters公司ISI Web of knowledge信息平台提供的Science Citation Index Expanded数据库为数据源检索分析得到:生态系统服务研究从文献数量、作者、国家和机构上近年来都表现出陡增的趋势;最主要的研究国家为美国、英国、德国、澳大利亚和中国;涉及54个学科,不同的国家侧重的研究领域不同;来自258个期刊,55%的文献集中在24个主要期刊上,主要期刊平均影响因子5.976。(2)从生态系统服务评价方法、生态系统内部和生态系统外部驱动因素、基于生态系统服务的生态系统管理4个方面来评述生态系统服务的研究进展。其中生态系统内部驱动主要是指生物多样性和土地利用变化,生态系统外部驱动因素包括自然因素和人为活动。最后,对生态系统服务研究的发展做了展望。展开更多
Objective To search for the potential medicinal plant part of Gentiana macrophyllabased on changes of secondary metabolites and trace elements in the flowers of G.macrophylla.Methods HPLC was used to detect the change...Objective To search for the potential medicinal plant part of Gentiana macrophyllabased on changes of secondary metabolites and trace elements in the flowers of G.macrophylla.Methods HPLC was used to detect the changes of the active constituents(longanic acid,sweroside,gentiopicroside,and swertiamarin)and ICP-AES was used for mineral nutrients in G.macrophylla during flower development.And soluble sugar,starch,crude protein,hemicelluloses,cellulose,and lignin were determined.Results Biomass of flower in full bloom(D2)phase was considerable during flower development,in which the contents of longanic acid and gentiopicroside were at the highest levels with 2.65 and 2.88 times higher than those recorded in Chinese Pharmacopoeia 2010,sweroside and swertiamarin in the flowers were reaching 6.06 and 1.25 times higher than those in roots.Florescence is the most valuable stage during flower development.The concentration of Fe,Mg,K,P,and B was higher in the flowers than that in roots.The accumulation of active constituents in the plant was influenced by the contents of metabolically linked carbon and nitrogen compounds.Conclusion The secondary metabolites,mineral nutrients,and physicochemical indicators are tightly regulated by flower organ development,D2 is an important stage for both biomass and extraction of active constituents such as longanic acid.The flowers of G.macrophylla could be used as a potential medicinal plant part for longanic acid at a high level.展开更多
文摘生态系统服务研究是生态学研究的前沿和热点。对生态系统服务文献发表情况和生态系统服务主要研究方向进行阐述分析。(1)通过Thomson Reuters公司ISI Web of knowledge信息平台提供的Science Citation Index Expanded数据库为数据源检索分析得到:生态系统服务研究从文献数量、作者、国家和机构上近年来都表现出陡增的趋势;最主要的研究国家为美国、英国、德国、澳大利亚和中国;涉及54个学科,不同的国家侧重的研究领域不同;来自258个期刊,55%的文献集中在24个主要期刊上,主要期刊平均影响因子5.976。(2)从生态系统服务评价方法、生态系统内部和生态系统外部驱动因素、基于生态系统服务的生态系统管理4个方面来评述生态系统服务的研究进展。其中生态系统内部驱动主要是指生物多样性和土地利用变化,生态系统外部驱动因素包括自然因素和人为活动。最后,对生态系统服务研究的发展做了展望。
基金Major National Science and Technology Program(2009ZX09308)
文摘Objective To search for the potential medicinal plant part of Gentiana macrophyllabased on changes of secondary metabolites and trace elements in the flowers of G.macrophylla.Methods HPLC was used to detect the changes of the active constituents(longanic acid,sweroside,gentiopicroside,and swertiamarin)and ICP-AES was used for mineral nutrients in G.macrophylla during flower development.And soluble sugar,starch,crude protein,hemicelluloses,cellulose,and lignin were determined.Results Biomass of flower in full bloom(D2)phase was considerable during flower development,in which the contents of longanic acid and gentiopicroside were at the highest levels with 2.65 and 2.88 times higher than those recorded in Chinese Pharmacopoeia 2010,sweroside and swertiamarin in the flowers were reaching 6.06 and 1.25 times higher than those in roots.Florescence is the most valuable stage during flower development.The concentration of Fe,Mg,K,P,and B was higher in the flowers than that in roots.The accumulation of active constituents in the plant was influenced by the contents of metabolically linked carbon and nitrogen compounds.Conclusion The secondary metabolites,mineral nutrients,and physicochemical indicators are tightly regulated by flower organ development,D2 is an important stage for both biomass and extraction of active constituents such as longanic acid.The flowers of G.macrophylla could be used as a potential medicinal plant part for longanic acid at a high level.
