[1] |
CHEN X L, WANG D, CHEN X , et al. Soil microbial functional diversity and biomass as affected by different thinning intensities in a Chinese fir plantation[J]. Appl Soil Ecol, 2015,92:35-44. DOI: 10.1016/j.apsoil.2015.01.018.
|
[2] |
邱雷, 陈信力, 丁辉 , 等. 间伐对侧柏人工林土壤微生物生物量碳、氮的影响[J]. 江苏林业科技, 2013,40(6):14-19.
|
|
QIU L, CHEN X L, DING H , et al. Effects of thinning on soil microbial biomass carbon and nitrogen for Platycladus orrientalis plantation[J]. J Jiangsu For Sci Technol, 2013,40(6):14-19. DOI: 10.3969/j.issn.1001-7380.2013.06.004.
|
[3] |
姜培坤, 徐秋芳, 俞义武 . 土壤微生物量碳作为林地土壤肥力指标[J]. 浙江林学院学报, 2002,19(1):17-19.
|
|
JIANG P K, XU Q F, YU Y W . Microbial biomass carbon as an indicator for evaluation of soil fertility[J]. J Zhejiang For Coll, 2002,19(1):17-19. DOI: 10.3969/j.issn.2095-0756.2002.01.005.
|
[4] |
RUTIGLIANO F A, D’ASCOLI R, VIRZO DE SANTO A . Soil microbial metabolism and nutrient status in a Mediterranean area as affected by plant cover[J]. Soil Biol Biochem, 2004,36(11):1719-1729. DOI: 10.1016/j.soilbio.2004.04.029.
|
[5] |
DALAL R C, HENDERSON P A, GLASBY J M . Organic matter and microbial biomass in a vertisol after 20 yr of zero-tillage[J]. Soil Biol Biochem, 1991,23(5):435-441. DOI: 10.1016/0038-0717(91)90006-6.
|
[6] |
DÍAZ-RAVIÑA M, ACEA M J, CARBALLAS T . Microbial biomass and its contribution to nutrient concentrations in forest soil[J]. Soil Biol Biochem, 1993,25(1):25-31. DOI: 10.1016/0038-0717(93)90237-6.
|
[7] |
ZOGG G P, ZAK D R, PREGITZER K S . et al. Microbial immobilization and the retention of anthropogenic nitrate in a northern hardwood forest[J]. Ecology, 2000,81(7):1858-1866. DOI: 10.2307/177276.
|
[8] |
ZAK D R, TILMAN D, PARMENTER R R , et al. Plant production and soil microorganisms in late-successional ecosystems: a continental-scale study[J]. Ecology, 1994,75(8):2333-2347. DOI: 10.2307/1940888.
|
[9] |
GREGORICH E G, MONREAL C M, CARTER M R , et al. Towards a minimum data set to assess soil organic matter quality in agricultural soils[J]. Can J Soil Sci, 1994,74(4):367-385. DOI: 10.4141/cjss94-051.
|
[10] |
夏丽丹, 于姣妲, 邓玲玲 , 等. 杉木人工林地力衰退研究进展[J]. 世界林业研究, 2018,31(2):37-42.
|
|
XIA L D, YU J D, DENG L L , et al. Researches on soil decline of Chinese fir plantation[J]. World For Res, 2018,31(2):37-42 DOI: 10.13348/j.cnki.sjlyyj.2017.0092.y.
|
[11] |
王琪瑶, 李云红, 刘延坤 , 等. 不同间伐强度下长白落叶松人工林土壤总有机碳特征及其影响因素[J]. 森林工程, 2018,34(1):1-5.
|
|
WANG Q Y, LI Y H, LIU Y K , et al. The characteristics and impact factors of different thinning intensity on soil total organic in the Larix olgensis plantation[J]. For Eng, 2018,34(1):1-5. DOI: 10.16270/j.cnki.slgc.2018.01.001.
|
[12] |
王祖华, 李瑞霞, 王晓杰 , 等. 间伐对杉木人工林林下植被多样性及生物量的影响[J]. 生态环境学报, 2010,19(12):2778-2782.
|
|
WANG Z H, LI R X, WANG X J , et al. Effects of thinning on biomass and species diversity of understory in Chinese fir plantations[J]. Ecol Environ, 2010,19(12):2778-2782. DOI: 10.3969/j.issn.1674-5906.2010.12.002.
|
[13] |
张水松, 陈长发, 吴克选 , 等. 杉木林间伐强度试验20年生长效应的研究[J]. 林业科学, 2005,41(5):56-65.
|
|
ZHANG S S, CHEN C F, WU K X , et al. Growth effect of intermediate cuttings intensity experiment for twenty years in Cunninghamia lanceolata[J]. Sci Silvae Sin, 2005,41(5):56-65. DOI: 10.3321/j.issn:1001-7488.2005.05.010.
|
[14] |
谌红辉, 方升佐, 丁贵杰 , 等. 马尾松间伐的密度效应[J]. 林业科学, 2010,46(5):84-91.
|
|
CHEN H H, FANG S Z, DING G J , et al. Thinning density effects on masson pine plantation[J]. Sci Silvae Sin, 2010,46(5):84-91. DOI: 10.11707/j.1001-7488.20100514.
|
[15] |
吴晓玲, 张世熔, 蒲玉琳 , 等. 川西平原土壤微生物生物量碳氮磷含量特征及其影响因素分析[J]. 中国生态农业学报, 2019,27(10):1607-1616.
|
|
WU X L, ZHANG S R, PU Y L , et al. Distribution characteristics and impact factors of soil microbial biomass carbon, nitrogen and phosphorus in western Sichuan plain[J]. Chin J Eco-Agric, 2019,27(10):1607-1616. DOI: 10.13930/j.cnki.cjea.190328.
|
[16] |
CHAPMAN S SWIFT M J HEAL W O , et al. Decomposition in terrestrial ecosystems[J]. J Ecol, 1981,69(1):350. DOI: 10.2307/2259847.
|
[17] |
THIBODEAU L, RAYMOND P, CAMIRÉ C , et al. Impact of precommercial thinning in balsam fir stands on soil nitrogen dynamics, microbial biomass, decomposition, and foliar nutrition[J]. Can J For Res, 2000,30(2):229-238. DOI: 10.1139/cjfr-30-2-229.
|
[18] |
BOLAT I . The effect of thinning on microbial biomass C, N and basal respiration in black pine forest soils in Mudurnu, Turkey[J]. Eur J For Res, 2014,133(1):131-139. DOI: 10.1007/s10342-013-0752-8.
|
[19] |
时正伦, 郭雅倩, 周之栋 , 等. 生物炭基肥与平茬措施对喀斯特土壤养分含量及刺槐幼苗热能的影响[J]. 植物资源与环境学报, 2019,28(2):71-78.
|
|
SHI Z L, GUO Y Q, ZHOU Z D , et al. Effects of biochar based fertilizer and stumping measure on Karst soil nutrient content and heat energy of Robinia pseudoacacia seedlings[J]. Journal of Plant Resources and Environment, 2019,28(2):71-78. DOI: 10.3969/j.issn.1674-7895.2019.02.10.
|
[20] |
方升佐, 田野 . 人工林生态系统生物多样性与生产力的关系[J]. 南京林业大学学报(自然科学版), 2012,36(4):1-6.
|
|
FANG S Z, TIAN Y . The relationship between biodiversity and productivity in the artificial plantation ecosystem[J]. J Nanjing For Univ (Nat Sci Ed), 2012,36(4):1-6. DOI: 10.3969/j.issn.1000-2006.2012.04.001.
|
[21] |
张鼎华, 叶章发, 范必有 , 等. 抚育间伐对人工林土壤肥力的影响[J]. 应用生态学报, 2001,12(5):672-676.
|
|
ZHANG D H, YE Z F, FAN B Y , et al. Influence of thinning on soil fertility in artificial forests[J]. Chin J Appl Ecol, 2001,12(5):672-676. DOI: 10.13287/j.1001-9332.2001.0162.
|
[22] |
肖好燕, 刘宝, 余再鹏 , 等. 亚热带典型林分对表层和深层土壤可溶性有机碳、氮的影响[J]. 应用生态学报, 2016,27(4):1031-1038.
|
|
XIAO H Y, LIU B, YU Z P , et al. Effects of forest types on soil dissolved organic carbon and nitrogen in surface and deep layers in subtropical region, China[J]. Chin J Appl Ecol, 2016,27(4):1031-1038. DOI: 10.13287/j.1001-9332.201604.029.
|
[23] |
王国兵, 王瑞, 徐瑾 , 等. 生物炭对杨树人工林土壤微生物生物量碳、氮、磷及其化学计量特征的影响[J]. 南京林业大学学报(自然科学版), 2019,43(2):1-6.
|
|
WANG G B, WANG R, XU J , et al. Effects of biochar application on microbial biomass C,N,P and stoichiometry characteristics of poplar plantation soil[J]. J Nanjing For Univ (Nat Sci Ed), 2019,43(2):1-6. DOI: 10.3969/j.issn.1000-2006.201803022.
|
[24] |
PAUL E A, CLARK F E. Soil microbiol biochem[M]. Berkeley: University of California Press, 1989: 115-130. DOI: 10.1016/B978-0-12-546805-3.50010-2.
|
[25] |
MARUMOTO T ANDERSON J P E DOMSCH K H . Decomposition of 14C-and 15N-labelled microbial cells in soil [J]. Soil Biol Biochem, 1982,14(5):461-467. DOI: 10.1016/0038-0717(82)90105-5.
doi: 10.1016/0038-0717(82)90105-5
|
[26] |
FAUCI M F, DICK R P . Soil microbial dynamics: short-and long-term effects of inorganic and organic nitrogen[J]. Soil Sci Soc Am J, 1994,58(3):801. DOI: 10.2136/sssaj1994.03615995005800030023x.
doi: 10.2136/sssaj1994.03615995005800030023x
|
[27] |
杨宁, 邹冬生, 杨满元 , 等. 衡阳紫色土丘陵坡地恢复过程中土壤微生物生物量与土壤养分演变[J]. 林业科学, 2014,50(12):144-150.
|
|
YANG N, ZOU D S, YANG M Y , et al. Dynamic changes of soil microbial biomass and soil nutrients along re-vegetation on sloping-land with purple soils in Hengyang of Hunan Province, south-central China[J]. Sci Silvae Sin, 2014,50(12):144-150. DOI: 10.11707/j.1001-7488.20141220.
|
[28] |
徐志霞, 张雅倩, 陶月 , 等. 不同分解程度木麻黄凋落物的养分特征及微生物功能多样性分析[J]. 南京林业大学学报(自然科学版), 2020,44(2):197-205.
|
|
XU Z X, ZHANG Y Q, TAO Y , et al. Nutrient composition of litters and functional diversity of different microorganisms in various decomposition stages of Casuarina equisetifolia plantations[J]. J Nanjing For Univ (Nat Sci Ed), 2020,44(2):197-205. DOI: 10.3969/j.issn.1000-2006.201901021.
|