| [1] | Wardle D A, Hörnberg G, Zackrisson O, et al. Long-term effects of wildfire on ecosystem properties across an island area gradient[J]. Science, 2003, 300(5621):972-975. doi: 10.1126/science.1082709 |
| [2] | Wardle D A, Nilsson M C, Zackrisson O, et al. Determinants of litter mixing effects in a Swedish boreal forest[J]. Soil Biology & Biochemistry, 2003, 35(6):827-835. |
| [3] | 詹鸿振, 刘传照, 刘吉春, 等.小兴安岭阔叶红松林主要树种凋落物的分解研究[J].东北林业大学学报, 1990, 18(3):1-8. |
| [4] | Hättenschwiler S, Tiunov A V, Scheu S. Biodiversity and Litter Decomposition in Terrestrial Ecosystems[J]. Annual Review of Ecology Evolution & Systematics, 2005, 36(36):191-218. |
| [5] | Lummer D, Scheu S, Butenschoen O. Connecting litter quality, microbial community and nitrogen transfer mechanisms in decomposing litter mixtures[J]. Oikos, 2012, 121(10):1649-1655. doi: 10.1111/more.2012.121.issue-10 |
| [6] | S Linnea Berglund, GÅran I ögren, Alf Ekblad. Carbon and nitrogen transfer in leaf litter mixtures[J]. Soil Biology and Biochemistry, 2013, 57(341):341-348. |
| [7] | 胡亚林, 汪思龙, 黄宇, 等.凋落物化学组成对土壤微生物学性状及土壤酶活性的影响[J].生态学报, 2005, 25(10):2662-2668. doi: 10.3321/j.issn:1000-0933.2005.10.030 |
| [8] | Kubartová A, Ranger J, Berthelin J, et al. Diversity and decomposing ability of saprophytic fungi from temperate forest litter[J]. Microbial Ecology, 2009, 58(1):98-107. |
| [9] | Malosso E, English L, Hopkins D W, et al. Use of 13C-labelled plant materials and ergosterol, PLFA and NLFA analyses to investigate organic matter decomposition in Antarctic soil.[J]. Soil Biology & Biochemistry, 2004, 36(1):165-175. |
| [10] | Liu P, Huang J, Han X, et al. Litter Decomposition in Semiarid Grassland of Inner Mongolia, China[J]. Rangeland Ecology & Management, 2009, 62(4):305-313. |
| [11] | Tardif A, Shipley B. Using the biomass-ratio and idiosyncratic hypotheses to predict mixed-species litter decomposition[J]. Annals of Botany, 2013, 111(1):135. doi: 10.1093/aob/mcs241 |
| [12] | Gartner T B, Cardon Z G. Decomposition dynamics in mixed-species leaf litter[J]. Oikos, 2004, 104(2):230-246. doi: 10.1111/oik.2004.104.issue-2 |
| [13] | 李宜浓, 周晓梅, 张乃莉, 等.陆地生态系统混合凋落物分解研究进展[J].生态学报, 2016, 36(16):4977-4987. |
| [14] | 江泽慧.世界竹藤[M].沈阳:辽宁科学技术出版社, 2002. |
| [15] | 高平珍, 陈双林.毛竹林下植被管理与利用研究综述[J].竹子研究汇刊, 2017, 36(2):44-48. doi: 10.3969/j.issn.1000-6567.2017.02.007 |
| [16] | 刘广路, 范少辉, 蔡春菊, 等.撑绿杂交竹和硬头黄竹克隆生长特性比较[J].植物学报, 2013, 48(3):288-294. |
| [17] | Olson J S. Energy Storage and the Balance of Producers and Decomposers in Ecological Systems[J]. Ecology, 1963, 44(2):322-331. doi: 10.2307/1932179 |
| [18] | 陈瑾, 李扬, 黄建辉.内蒙古典型草原4种优势植物凋落物的混合分解研究[J].植物生态学报, 2011, 35(1):9-16. |
| [19] | Jhc C. An experimental comparison of leaf decomposition rates in a wide range of temperate plant species and types.[J]. Journal of Ecology, 1996, 84(4):573-582. doi: 10.2307/2261479 |
| [20] | 杨玉盛, 郭剑芬, 陈银秀, 等.福建柏和杉木人工林凋落物分解及养分动态的比较[J].林业科学, 2004, 40(3):19-25. doi: 10.3321/j.issn:1001-7488.2004.03.003 |
| [21] | Tian X J, Takahiro T. Relative roles of microorganisms and soil animals on needel litter decomposition in a subalpine coniferous forest J]. Acta Phytoecologica Sinica, 2002, 26(3):257-263. |
| [22] | Garcia-Pausas J, Casals P, Romanyà J. Litter decomposition and faunal activity in Mediterranean forest soils:effects of N content and the moss layer[J]. Soil Biology & Biochemistry, 2004, 36(6):989-997. |
| [23] | Sanchez F G.Loblolly pine needle decomposition and nutrient dynamics as affected by irrigation, fertilization, and substrate quality[J]. Forest Ecology & Management, 2001, 152(1):85-96. |
| [24] | Mendonça E S, Stott D E. Characteristics and decomposition rates of pruning residues from a shaded coffee system in Southeastern Brazil[J]. Agroforestry Systems, 2003, 57(2):117-125. doi: 10.1023/A:1023900822261 |
| [25] | 施妍, 陈芳清.大老岭自然保护区日本落叶松林凋落物分解及养分释放研究[J].林业科学研究, 2016, 29(3):430-435. doi: 10.3969/j.issn.1001-1498.2016.03.019 |
| [26] | Preston C M, Trofymow J A. Variability in litter quality and its relationship to litter decay in Canadian forests.[J]. Canadian Journal of Botany, 2000, 78(10):1269-1287. doi: 10.1139/b00-101 |
| [27] | 杨万勤, 邓仁菊, 张健.森林凋落物分解及其对全球气候变化的响应[J].应用生态学报, 2007, 18(12):2889-2895. |
| [28] | Berg B, Mcclaugherty C. Plant Litter. Decomposition, Humus Formation, Carbon Sequestration[M]. Berlin:Springer-Verlag, 2008. |
| [29] | 李正才, 徐德应, 杨校生, 等.北亚热带6种森林类型凋落物分解过程中有机碳动态变化[J].林业科学研究, 2008, 21(5):675-680. doi: 10.3321/j.issn:1001-1498.2008.05.015 |
| [30] | Einhellig F A, Rasmussen J A, Hejl A M, et al. Effects of root exudate sorgoleone on photosynthesis[J]. Journal of Chemical Ecology, 1993, 19(2):369-375. doi: 10.1007/BF00993702 |
| [31] | Knops J M H, Wedin D, Tilman D. Biodiversity and decomposition in experimental grassland ecosystems.[J]. Oecologia, 2001, 126(3):429-433. doi: 10.1007/s004420000537 |
| [32] | Rustad L E, Cronan C S. Element loss and retention during litter decay in a red spruce stand i.[J]. Canadian Journal of Forest Research, 1988, 18(7):947-953. doi: 10.1139/x88-144 |
| [33] | Hansen R A, Coleman D C. Litter complexity and composition are determinants of the diversity and species composition of oribatid mites (Acari:Oribatida) in litterbags.[J]. Applied Soil Ecology, 1998, 9(1-3):17-23. doi: 10.1016/S0929-1393(98)00048-1 |
| [34] | Tlalka M, Bebber D P, Darrah P R, et al. Emergence of self-organised oscillatory domains in fungal mycelia[J]. Fungal Genetics & Biology, 2007, 44(11):1085-1095. |
| [35] | 蒋云峰.长白山针阔混交林主要凋落物分解及土壤动物的作用[D].长春: 东北师范大学, 2013. |