[1] Harmon M E, Franklin J F, Swanson F J, et al. Ecology of coarse woody debris in temperate ecosystems[J]. Ecology Research, 1986,15:133-302.
[2] Garbarino M, Marzano R, Shaw J D, et al. Environmental drivers of deadwood dynamics in woodlands and forests[J]. Ecosphere, 2015, 6(3):1-24.
[3] Davis J G, Chapman J I, Wu S Y, et al. Spatiotemporal Dynamics of Coarse Woody Debris in an Old-Growth Temperate Deciduous Fores t[J]. Forest Science, 2015, 61(4):680-688.
[4] Kwak J H, Chang S X, Naeth M A, et al. Coarse Woody Debris Increases Microbial Community Functional Diversity but not Enzyme Activities in Reclaimed Oil Sands Soils[J]. PloS one, 2015, 10(11):e0143857.
[5] Goldin S R,Hutchinson M F. Thermal refugia in cleared temperate Australian woodlands:Coarse woody debris moderate extreme surface soil temperatures[J]. Agricultural and Forest Meteorology, 2015, 214:39-47.
[6] Goldin S R, Brookhouse M T. Effects of coarse woody debris on understorey plants in a temperate Australian woodland[J]. Applied Vegetation Science, 2015, 18(1):134-142.
[7] Frank S C, Steyaert S M J G, Swenson J E, et al. A "clearcut" case? Brown bear selection of coarse woody debris and carpenter ants on clearcuts[J]. Forest ecology and management, 2015, 348:164-173.
[8] Pitt D B, Batzer D P. Potential impacts on stream macroinvertebrates of an influx of woody debris from eastern hemlock demise[J]. Forest Science, 2015, 61(4):737-746.
[9] Kraut A, Liira J, Lõhmus A. Beyond a minimum substrate supply:Sustaining saproxylic beetles in semi-natural forest management[J]. Forest Ecology and Management, 2016, 360:9-19.
[10] Intergovernmental Panel on Climate Change (IPCC). Good Practice Guidance for Land Use, Land Use Change and Forestry[R]. Institute for Global Environmental Studies (IGES),2003.
[11] 闫恩荣,王希华,黄建军.森林粗死木质残体的概念及其分类[J].生态学报,2005,25(1):158-167.
[12] 胡海清,罗碧珍,魏书精,等.森林粗木质物残体贮量及功能研究综述[J].世界林业研究,2013,26(2):24-29.
[13] 严晓.粗死木残体在城市绿化中的应用[J].安徽农业科学,2010,38(13):7090-7092.
[14] 杨丽韫,代力民,张扬建.长白山北坡暗针叶林倒木储量和分解的研究[J]. 应用生态学报,2002,13(9):1069-1071.
[15] 王文娟,常禹,刘志华.大兴安岭呼中林区粗木质残体贮量及其环境梯度[J].应用生态学报,2009,20(4):773-778.
[16] 刘妍妍,金光泽.地形对小兴安岭阔叶红松(Pinus koraiensis)林粗木质残体分布的影响[J].生态学报,2009,29(3):1398-1407.
[17] 李凌浩,邢雪荣,黄大明,等.武夷山甜槠林粗死木质残体的储量、动态及其功能评述[J].植物生态学报,1996,20(2):132-143.
[18] 魏平,温达志,黄忠良,等.鼎湖山季风常绿阔叶林死木生物量及其特征[J].生态学报,1997,17(5):505-510.
[19] 杨方方,李跃林. 鼎湖山粗木质残体生物量特征[J].应用与环境生物学报,2011,17(5):750-752.
[20] 杨礼攀,刘文耀,杨国平,等.哀牢山湿性常绿阔叶林和次生林木质物残体的组成与碳储量[J].应用生态学报,2007, 18(10):2153-2159.
[21] 何东进,何小娟,洪伟,等.天宝岩猴头杜鹃林粗死木质残体数量特征[J].福建林学院学报,2008,28(4):293-298.
[22] 温琳华,梁宏温,温远光,等.大明山常绿阔叶林粗死木质残体贮量的初步研究[J].广西林业科学,2010, 39(4):197-200.
[23] 柳泽鑫,张璐,区余端,等.冰灾后粤北常绿阔叶林粗死木质残体的组成与结构[J].西南林业大学学报,2011,31(4):18-23.
[24] 黄志宏,田大伦,周光益,等.广东南岭不同林分类型土壤养分状况比较分析[J].东北林业大学学报,2009,37(9):63-67.
[25] Oheinb G, Westphal C, Hardtle W. Diversity and spatio-temporal dynamics of dead wood in a temperate near-natural beech forest (Fagus sylvatica)[J].European Journal Forest Research,2007,26:359-370.
[26] 刘翠玲,潘存德,梁瀛.鳞毛蕨天山云杉林粗死木质残体贮量及其分解动态[J].干旱区地理, 2009,32(2):175-182.
[27] Spetich M A, Shifley S R, Parker G R. Regional distribution and dynamics of coarse woody debris in mid-western old-growth forests[J].Forest Science,1999,45:302-313.
[28] Zhang M, Xiong G M, Chen Z G, et al. The topology heterogeney of Fahus enleriana-Cycloba lanopsis oxyalan community in shennong jia region[J]. Acta Ecological Sinica,2004,24(12):2687-2692.
[29] 张修玉,管东生,张海东.广州三种森林粗死木质残体(CWD)的储量与分解特征研究[J].生态学报,2009,29(10):5227-5236.
[30] 郑关关,洪伟,吴承祯,等.灵石山常绿次生林不同海拔CWD贮量特征[J].福建林学院学报,2009,29(1):6-10.
[31] Pedlar J H, Pearce J L, Venier L A, et al. Coarse woody debris in relation to disturbance and forest type in boreal Canada[J]. Forest Ecology and Management, 2002,158:189-194.
[32] 何帆,王得祥,张宋智,等.小陇山林区主要森林群落凋落物和死木质残体储量[J].应用与环境生物学报,2011,17(1):46-50.
[33] Carmona M R, Armesto J J, Aravena J C, et al. Coarse woody debris biomass in successional and primary temperate forests in Chiloé Island,Chile[J].For Ecol Manage,2002,164:265-275.