[1] |
林先贵, 胡君利. 土壤微生物多样性的科学内涵及其生态服务功能[J]. 土壤学报, 2008,45(5):892-900.
|
[2] |
赵先丽, 周广胜, 吕国红. 辽河三角洲不同植被类型土壤微生物特征研究[J]. 土壤通报, 2009,40(6):1266-1269.
|
[3] |
Yin R, Deng H, Wang H L, et al. Vegetation type affects soil enzyme activities and microbial functional diversity following re-vegetation of a severely eroded red soil in sub-tropical China[J]. Catena, 2014(115):96-103.
|
[4] |
Birgander J, Rousk J, Olsson P A. Comparison of fertility and seasonal effects on grassland microbial communities[J]. Soil Biology &Biochemistry, 2014(76):80-89.
|
[5] |
Stone M M, DeForest J L, Plante A F, et al. Changes in extracellular enzyme activity and microbial community structure with soil depth at the Luquillo Critical Zone Observatory[J]. Soil Biology & Biochemistry, 2014(75):237-247.
|
[6] |
Qian X, Gu J, Sun W, et al. Changes in the soil nutrient levels,enzyme activities, microbial community function, and structure during apple orchard maturation[J]. Applied Soil Ecology, 2014(77):18-25.
|
[7] |
Nicomrat D, Dick W A, Tuovinen O H, et al. Assessment of the Microbial Community in a Constructed Wetland that Receives Acid Coal Mine Drainage[J]. Microbial Community In An AMD Wetland, 2006(51):83-89.
|
[8] |
AhnC , Peralta R M. Soil bacterial community structure and physicochemical properties in mitigation wetlands created in the Piedmont region of Virginia (USA)[J]. Ecological Engineering, 2009(35):1036-1042.
|
[9] |
Jones R T, Robeson M S, Lauber C L, et al. A comprehensive survey of soil acidobacterial diversity using pyrosequencing and clone library analyses[J]. The ISME Journal, 2009,3(4):442-453.
doi: 10.1038/ismej.2008.127
URL
pmid: 19129864
|
[10] |
Lee S H, Ka J O, Cho J C. Members of the phylum Acidobacteria are dominant and metabolically active in rhizosphere soil[J]. Fems Microbiology Letters, 2008,285(2):263-269.
URL
pmid: 18557943
|
[11] |
范全青, 郭维真, 凤元杰. 我国文献计量学研究30年之发展[J]. 情报资料工作, 2009(3):30-33,60.
|
[12] |
邱均平, 段宇锋, 陈敬全, 等. 我国文献计量学发展的回顾与展望[J]. 科学学研究, 2003,21(2):143-148.
|
[13] |
Onofre Martorell Cunill, Antonio Socias Salvá, Luis Otero Gonzalez, et al. Thirty-fifth anniversary of the international journal of hospitality management: a bibliometric overview[J]. International Journal of Hospitality Management, 2019,78.
|
[14] |
赖勇, 阳富强. 基于CNKI数据库的安全疏散文献计量学分析[J]. 安全与环境工程, 2018,25(6):114-119.
|
[15] |
张雅男, 张玲. 基于文献计量学的同学科领域学术表现评价体系研究[J]. 农业图书情报学刊, 2018,30(11):57-61.
|
[16] |
刁敬东, 农晓琳. 文献计量学在学术期刊评价中的应用研究[J]. 医学信息, 2018,31(23):16-18.
|
[17] |
Elise , Tancoigne , Marc , et al. The place of agricultural sciences in the literature on ecosystem services[J]. Ecosystem Services, 2014(10):35-48.
|
[18] |
Callon M, Law J, Rip A . Mapping the Dynamics of Science and Technology: Sociology of Science in the Real World[M]. The Macmillan Press, 1986.
|
[19] |
李秋云, 韩国圣, 张爱平, 等. 1979—2012年中国旅游地理学文献计量与内容分析[J]. 旅游学刊, 2014,29(9):110-119.
|
[20] |
Cambrosio A, Limoges C, Courtial J P, et al. Historical scientometrics? Mapping over 70 years of biological safety research with coword analysis[J]. Scientometrics, 1993,27(2):119-143.
|
[21] |
俞杨. 计量地理学[J]. 地理科学进展, 1982,1(1):60-61.
|
[22] |
Rene , Tshiteya , Ronald , et al. Nonlinear dynamics text mining using bibliometrics and database tomography[J]. International Journal of Bifurcation & Chaos, 2004,14(1):61-92.
|
[23] |
李志杰, 孙井梅, 刘宝山. 人工湿地脱氮除磷机理及其研究进展[J]. 工业水处理, 2012,32(4):1-5.
|
[24] |
毛志刚, 谷孝鸿, 刘金娥, 等. 盐城海滨湿地盐沼植被及农作物下土壤酶活性特征[J]. 生态学报, 2010,30(18):5043-5049.
|
[25] |
郑真. 不同退耕年限湿地土壤理化性质和微生物活性特征[D]. 合肥:安徽师范大学, 2014.
|
[26] |
郑艳霞. 三江源不同湿地类型土壤微生物数量特征及生物量碳研究[D]. 西宁:青海大学, 2013.
|
[27] |
丁新华. 扎龙湿地湿草甸土壤微生物特性研究[D]. 哈尔滨:东北林业大学, 2011.
|
[28] |
陈为峰, 史衍玺. 黄河三角洲新生湿地不同植被类型土壤的微生物分布特征[J]. 草地学报, 2010,18(6):859-864.
|
[29] |
李松龄, 张荣, 蔡晓剑, 等. 三江源不同生态系统下土壤微生物区系研究[J]. 青海大学学报:自然科学版, 2008(4):64-67.
|
[30] |
王世岩, 杨永兴, 杨波. 三江平原典型湿地土壤温度变化及其影响因子分析[J]. 地理研究, 2003(3):389-396.
|
[31] |
张妍. 采伐干扰对温带小兴安岭森林湿地碳源/汇影响[D]. 哈尔滨:东北林业大学, 2016.
|
[32] |
田永祥, 林杨. 湖南小溪国家级自然保护区与当地社区协调发展探究[J]. 南方农业, 2018,12(23):119-120.
|