[1] Doran J W. Soil health and global sustainability:translating science into practice[J].Agriculture Ecosystems & Environment,2002,88(2):119-127.
[2] Dinesh R S, Chaudhuri G, Ganeshamurthy A N, et al. Changes in soil microbial indices and their relationships following deforestation and cultivation in wet tropical forests[J]. Applied Soil Ecology,2003,24(1):17-26.
[3] Islam K R, and Weil R R. Land use effects on soil quality in a tropical forest ecosystem of Bangladesh[J]. Agriculture Ecosystems & Environment,2000,79(1):9-16.
[4] Otsamo R. Secondary forest regeneration under fast-growing forest plantations on degraded Imperata cylindrica grasslands[J]. New Forests,2000,19(1):69-93.
[5] Boley J D, Drew A P, Andrus R E. Effects of active pasture, teak (Tectona grandis) and mixed native plantations on soil chemistry in Costa Rica[J]. Forest Ecology and Management,2009,257(11):2254-2261.
[6] Lugo A E. The apparent paradox of reestablishing species richness on degraded lands with tree monocultures[J]. Forest Ecology and Management,1997,99(1/2):9-19.
[7] Parrotta J A, Turnbull J W, Jones N. Introduction-Catalyzing native forest regeneration on degraded tropical lands[J]. Forest Ecology and Management,1997,99(1/2):1-7.
[8] Powers J S, Haggar J P, Fisher R F. The effect of overstory composition on understory woody regeneration and species richness in 7-year-old plantations in Costa Rica[J]. Forest Ecology and Management,1997,99(1/2):43-54.
[9] Cusack D, Montagnini F. The role of native species plantations in recovery of understory woody diversity in degraded pasturelands of Costa Rica[J]. Forest Ecology and Management,2004,188(1/3):1-15.
[10] Abiyu A, Lemenih M, Gratzer G, et al. Status of native woody species diversity and soil characteristics in an exclosure and in plantations of Eucalyptus globulus and Cupressus lusitanica in Northern Ethiopia[J]. Mountain Research and Development,2011,31(2):144-152.
[11] Lee E W, Hau S B C H, Corlett R T. Natural regeneration in exotic tree plantations in Hong Kong, China[J]. Forest Ecology and Management,2005,212(1/3):358-366.
[12] Senbeta F, Teketay D, Naslund B A. Native woody species regeneration in exotic tree plantations at Munessa-Shashemene Forest, southern Ethiopia[J]. New Forests,2002,24(2):131-145.
[13] Healey S P, Gara R I. The effect of a teak (Tectona grandis) plantation on the establishment of native species in an abandoned pasture in Costa Rica[J]. Forest Ecology and Management,2003,176(1/3):497-507.
[14] Vallauri D R, Aronson J, Barbero M. An analysis of forest restoration 120 years after reforestation on badlands in the Southwestern Alps[J]. Restoration Ecology,2002,10(1):16-26.
[15] Gomez-Aparicio L, Zavala M A, Bonet F J, et al. Are pine plantations valid tools for restoring Mediterranean forests? An assessment along abiotic and biotic gradients[J]. Ecological Applications,2009,19(8):2124-2141.
[16] Shono K, Davies S J, Kheng C Y. Regeneration of native plant species in restored forests on degraded lands in Singapore[J]. Forest Ecology and Management,2006,237(1/3):574-582.
[17] Wang J, Ren H, Yang L, et al. Establishment and early growth of introduced indigenous tree species in typical plantations and shrubland in South China[J]. Forest Ecology and Management,2009,258(7):1293-1300.
[18] Xiang C H, Luan J W, Liu S R, et al. Assessments of the impacts of Chinese fir plantation and natural regenerated forest on soil organic matter quality at Longmen mountain, Sichuan, China[J]. Geoderma,2010,156(3/4):228-236.
[19] 彭少麟,余作岳,张文其,等.鹤山亚热带丘陵人工林群落分析[J].植物生态学报,1992,16(1):1-10.
[20] 余作岳,彭少麟.热带亚热带退化生态系统植被恢复生态学研究[M].广东科技出版社,1996.
[21] Li P, Huang Z L, Xiang Y C, et al. Survival, growth and biomass of acacia auriculiformis and schima superba seedlings in different forest restoration phases in Nan’ao Island, South China[J]. Journal of Tropical Forest Science,2011,23(2):177-186.
[22] 申卫军,彭少麟.南亚热带鹤山主要人工林生态系统C、N累积及分配格局的模拟研究[J].植物生态学报,2003,27(5):690-699.
[23] Duan W J, Ren H, Fu S L, et al. Community and comparison and determinant analysis of understory vegetation in South China[J]. Restoration Ecology,2010,18(2):206-214.
[24] Shen W J, Lin Y B, Jenerette G. D, et al. Blowing litter across a landscape:Effects on ecosystem nutrient flux and implications for landscape management[J]. LandscapeEcology,2011,26(5):629-644.
[25] 马克平.生物群落多样性的测度方法:Ⅰ.α多样性的测度方法[J].生物多样性,1994:2(3):162-168.
[26] Vance E D, Brookes P C, Jenkinson D. S. An extraction method for measuring soil microbial biomass-C[J]. Soil Biology & Biochemistry,1987,19(6):703-707.
[27] Ryu S R A, Concilio J Q, Chen M, et al. Prescribed burning and mechanical thinning effects on belowground conditions and soil respiration in a mixed-conifer forest, California[J]. Forest Ecology and Management,2009,257(4):1324-1332.
[28] Verschuyl J, Riffell S, Miller D, et al. Biodiversity response to intensive biomass production from forest thinning in North American forests:A meta-analysis[J]. Forest Ecology and Management,2011,261(2):221-232.
[29] Li D J, Niu S L, Luo Y. Q. Global patterns of the dynamics of soil carbon and nitrogen stocks following afforestation:A meta-analysis[J]. New Phytologist,2012,195(1):172-181.
[30] Laiho R, Sanchez F, Tiarks A, et al. Impacts of intensive forestry on early rotation trends in site carbon pools in the southeastern US[J]. Forest Ecology and Management,2003,174(1/3):177-189.
[31] Tian D L, Peng Y Y, Yan W D, et al. Effects of thinning and litter fall removal on fine root production and soil organic carbon content in masson pine plantations[J]. Pedosphere,2010,20(4):486-493.
[32] Shirato Y, Taniyama I, Zhang T H. Changes in soil properties after afforestation in Horqin Sandy Land, North China[J]. Soil Science and Plant Nutrition, 2004,50(4):537-543.
[33] Ritter E, Vesterdal L, Gundersen P. Changes in soil properties after afforestation of former intensively managed soils with oak and Norway spruce[J]. Plant and Soil,2003,249(2):319-330.
[34] Smal H, Olszewska M. The effect of afforestation with Scots pine (Pinus silvestris L.) of sandy post-arable soils on their selected properties. Ⅱ. Reaction, carbon, nitrogen and phosphorus[J]. Plant and Soil,2008,305(1/2):171-187.
[35] Behera N, Sahani U. Soil microbial biomass and activity in response to Eucalyptus plantation and natural regeneration on tropical soil[J]. Forest Ecology and Management,2003,174(1/3):1-11.
[36] Araujo A S F, SilvaE F L, Nunes L, et al. The effect of converting tropical native savanna to eucalyptus grandis forest on soil microbial biomass[J]. Land Degradation & Development,2010,21(6):540-545.
[37] Agnelli A, Ugolini F C, Corti G, et al. Microbial biomass-C and basal respiration of fine earth and highly altered rock fragments of two forest soils[J]. Soil Biology & Biochemistry,2001,33(4/5):613-620.
[38] Ruiz-Jaen M C, Aide T M. Restoration success:How is it being measured[J]. Restoration Ecology,2005,13(3):569-577.
[39] Muys B, Lust N. Inventory of the Earthworm Communities and the State of Litter Decomposition in the Forests of Flanders, Belgium, and Its Implications for Forest Management[J]. Soil Biology & Biochemistry,1992,24(12):1677-1681.
[40] Menyailo O V, Hungate B A, Zech W. The effect of single tree species on soil microbial activities related to C and N cycling in the Siberian artificial afforestation experiment-Tree species and soil microbial activities[J]. Plant and Soil,2002,242(2):183-196.
[41] Grayston S, Prescott C. Microbial communities in forest floors under four tree species in coastal British Columbia[J]. Soil Bioloby and Biochemistry,2005,37(6):1157-1167.
[42] Smolander A, Kitunen V. Comparison of tree species effects on microbial C and N transformations and dissolved organic matter properties in the organic layer of boreal forests[J]. Applied Soil Ecology,2011,49:224-233.
[43] Bais H P, Weir T L, Perry L G, et al. The role of root exudates in rhizosphere interations with plants and other organisms[J]. Annual Review of Plant Biology,2006,57:233-266.
收稿日期:2013-03-25;改回日期:2013-04-22。
基金项目:国家自然科学基金项目(1070562,1290222);国家重点基础研究发展项目(2011CB403206)
作者简介:韦兰英(1980-),女,广西桂林人,博士,主要从事植物生态学研究。E-mail:weilanyingccn@163.com