[1] |
Li Z-W (李忠文), Yan W-D (闫文德), Zheng W (郑 威), et al. Litter fall production and nutrient dynamic of Cinnamomum camphora and Pinus massoniana mixed forests in subtropics China. Acta Ecologica Sinica (生态学报), 2013, 33(24): 7707-7714 (in Chinese)
|
[2] |
Swift MJ, Heal OW, Anderson JM. Decomposition in terrestrial ecosystems. Quarterly Review of Biology, 1979, 83: 2772-2774
|
[3] |
Melillo JM, Aber JD, Muratore JF. Nitrogen and lignin control of hardwood leaf litter decomposition dynamics. Ecology, 1982, 63: 621-626
|
[4] |
Huang Z-Q (黄志群), Liao L-P (廖利平), Wang S-L (汪思龙). Dynamics of phenolics content of Chinese fir stump-roots and the rhizosphere soil and its allelopathy. Chinese Journal of Applied Ecology (应用生态学报), 2000, 11(2): 190-192 (in Chinese)
|
[5] |
McClaugherty CA. Soluble polyphenols and charbohydrates in throughfall and leaf litter decomposition. Acta Oecologica, 1983, 4: 375-385
|
[6] |
Berg B, Berg MP, Bottner P, et al. Litter mass loss rates in pine forest of Europe and Eastern United States: Some relationships with climate and litter quality. Biogeochemistry, 1993, 20: 127-159
|
[7] |
Inderjit. Plant phenolics in allelopathy. Botanical Review, 1996, 62: 186-202
|
[8] |
Chen W (陈 伟), Ye M-Z (叶明志). Advances on plant phenolics. Journal of Fujian Agricultural University (福建农业大学学报), 1997, 26(4): 502-508 (in Chinese)
|
[9] |
Mitrovic M, Jaric S, Djurdjevic L. Allelopathic and environmental implications of plant phenolic compounds. Allelopathy Journal, 2012, 29: 177-197
|
[10] |
Wilson J, Buchsbaum R, Valiela I. Decomposition in salt marsh ecosystems: Phenolic dynamics during decay of litter of Spartina alterniflora. Marine Ecology Progress, 1986, 29: 177-187
|
[11] |
Berg B, Lundmark JE. Decomposition of needle litter in Pinus contorta and Pinus sylvestris monocultures: A comparison. Scandinavian Journal of Forest Research, 1987, 2: 3-12
|
[12] |
Schofield JA, Hagerman AE, Harold A. Loss of tannins and other phenolics from willow leaf litter. Journal of Chemical Ecology, 1998, 24: 1409-1421
|
[13] |
Zhang J-W (张家武), Liao L-P (廖利平), Li J-F (李锦芳), et al. Litter dynamics of Pinus massouiana and Michelia maeelurei mixed forest and its effect on soil nutrients. Chinese Journal of Applied Ecology (应用生态学报), 1993, 4(4): 359-363 (in Chinese)
|
[14] |
Ge X-G (葛晓改), Huang Z-L (黄志霖), Cheng R-M (程瑞梅), et al. Effects of litterfall and root input on soil physical and chemical properties in Pinus masso-niana plantations in Three Gorges Reservoir Area, China. Chinese Journal of Applied Ecology (应用生态学报), 2012, 23(12): 3301-3308 (in Chinese)
|
[15] |
Zhang D-H (张鼎华), Lin K-M (林开淼), Li B-F (李宝福), et al. Phosphorus characteristics in rhizosphere soil of Cunninghamia lanceolata, Pinus masso-niana and their mixed plantations. Chinese Journal of Applied Ecology (应用生态学报), 2011, 22(11): 2815-2821 (in Chinese)
|
[16] |
Xu X-N (徐小牛), Li H-K (李宏开). Study on the growth and effects of Masson pine mixed forest of Liqui-dambar formosana. Scienia Silvae Sinicae (林业科学), 1997, 33(5): 385-393 (in Chinese)
|
[17] |
Li F (李 飞), Chen Y-R (陈永瑞). A study on nutrient cycling of Pinus massonian a forest mixed with broad-leaved trees. Scienia Silvae Sinicae (林业科学), 1999, 35(3): 16-21 (in Chinese)
|
[18] |
Han J-C (韩锦春), Li H-K (李宏开). The study of synthetical judgement in many sides on the mixed model of Masson pine mixed forest. Chinese Journal of Plant Ecology (植物生态学报), 2000, 24(4): 498-501 (in Chinese)
|
[19] |
Mo J-M (莫江明), Peng S-L (彭少麟), Fang Y-T (方运霆), et al. A preliminary study on the dynamics of bio-available nitrogen in soils of pine-broadleaf mixed forest in Dinghuashan biosphere reserve. Acta Ecologica Sinica (生态学报), 2001, 21(3): 492-497 (in Chinese)
|
[20] |
Wang Q, Wang S, Fan B, et al. Litter production, leaf litter decomposition and nutrient return in Cunninghamia lanceolata plantations in south China: Effect of planting conifers with broadleaved species. Plant and Soil, 2007, 297: 201-211
|
[21] |
Polyakova O, Billor N. Impact of deciduous tree species on litterfall quality, decomposition rates and nutrient circulation in pine stands. Forest Ecology and Management, 2007, 253: 11-18
|
[22] |
Hu F-J (胡方洁), Zhang J (张 健), Yang W-Q (杨万勤), et al. Effects of Pb stress on the growth, deve-lopment and Pb enrichment properties of Toona ciliata Roem saplings. Journal of Agro-Environment Science (农业环境科学学报), 2012, 31(2): 284-291 (in Chinese)
|
[23] |
Jiang A-P (蒋艾平), Jiang J-M (姜景民), Liu J (刘军). Genetic diversity and genetic structure in Sassafras tsumu populations along altitudinal gradients in Tianmu-shan Mountain, China. Chinese Journal of Applied Eco-logy (应用生态学报), 2016, 27(6): 1829-1836 (in Chinese)
|
[24] |
Wallenstein M, Allison SD, Ernakovich J, et al. Controls on the temperature sensitivity of soil enzymes: A key driver of in situ enzyme activity rates// Shukla G, Varma A, eds. Soil Enzymology. Berlin: Springer-Verlag, 2011: 245-258
|
[25] |
Li X-F (李雪峰), Han S-J (韩士杰), Hu Y-L (胡艳玲). Decomposition of litter organic matter and its relations to C, N and P release in secondary conifer and broad leaf mixed forest in Changbai Mountains. Chinese Journal of Applied Ecology (应用生态学报), 2008, 19(2): 245-251 (in Chinese)
|
[26] |
Ganjegunte GK, Condron LM, Clinton PW, et al. Effects of mixing radiata pine needles and understory litters on decomposition and nutrients release. Biology and Fertility of Soils, 2005, 41: 310-319
|
[27] |
Hättenschwiler S, Tiunov A, Scheu S. Biodiversity and litter decomposition in terrestrial ecosystems. Annual Review of Ecology, Evolution, and Systematics, 2005, 36: 191-218
|
[28] |
Lecerf A, Marie G, Kominoski JS, et al. Incubation time, functional litter diversity, and habitat characteristics predict litter-mixing effects on decomposition. Eco-logy, 2011, 92: 160-169
|
[29] |
Polyakova O, Billor N. Impact of deciduous tree species on litterfall quality, decomposition rates and nutrient circulation in pine stands. Forest Ecology and Management, 2007, 253: 11-18
|
[30] |
Zhou S-X (周世兴), Huang C-D (黄从德), Xiang Y-B (向元彬). Effects of simulated nitrogen deposition on lignin and cellulose degradation of foliar litter in natural evergreen broad-leaved forest in rainy area of western China. Chinese Journal of Applied Ecology (应用生态学报), 2016, 27(5): 1368-1374 (in Chinese)
|
[31] |
Song Y (宋 影), Gu X-R (辜夕容), Yan H-Y (严海元), et al. Dynamics of microbes and enzyme activities during litter decomposition of Pinus massoniana forest in mid-subtropical area. Environmental Science (环境科学), 2004, 35(3): 1151-1158 (in Chinese)
|
[32] |
Taylor BR, Parkinson D, Parsons WFJ. Nitrogen and lignin content as predictors of litter decay rates: A microcosm test. Ecology, 1989, 70: 97-104
|
[33] |
Austin AT, Ballaré CL. Dual role of lignin in plant litter decomposition in terrestrial ecosystems. Proceedings of the National Academy of Sciences of the United States of America, 2010, 107: 4618-4622
|
[34] |
Guan Z-Y (官昭英), Zhao Y (赵 颖), Tong X-L (童晓立). Relationships of Syzygium jambos and Dracontomelon duperreanum leaf tannin concentration and leaf litter breakdown with the colonization of benthonic invertebrates. Chinese Journal of Applied Ecology (应用生态学报), 2009, 20(10): 2493-2498 (in Chinese)
|
[35] |
Vossbrinck CR, Coleman DC, Woolley TA. Abiotic and biotic factors in litter decomposition in a sermiarid grassland. Ecology, 1979, 60: 265-271
|
[36] |
Tian X-J (田兴军), Takeishi T. Relative roles of microorganisms and soil animals on needel litter decomposition in a subalpine coniferous forest. Chinese Journal of Plant Ecology (植物生态学报), 2002, 26(3): 257-263 (in Chinese)
|
[37] |
Schlesinger WH, Hasey MM. Decomposition of chaparral shrub foliage: Losses of organic and inorganic constituents from deciduous and evergreen leaves. Ecology, 1981, 62: 762-774
|
[38] |
Berendse F. A comparative study on nutrient cycling in wet heathland ecosystems. Oecologia, 1989, 78: 338-348
|
[39] |
Fioretto A, Papa S, Fuggi A. Litter-fall and litter decomposition in a low Mediterranean shrubland. Biology and Fertility of Soils, 2003, 39: 37-44
|
[40] |
Zhang Y (张 艳), Zhang D-J (张丹桔), Li X (李勋), et al. Edge effects of forest gap in Pinus masso-niana plantations on the decomposition of leaf litter recalcitrant components of Cinnamomum camphora and Toona ciliata. Chinese Journal of Applied Ecology (应用生态学报), 2016, 27(4): 1116-1124 (in Chinese)
|