[1] |
Denslow JS. Disturbance and diversity in tropical rain forest: The density effect. Ecological Application, 1995, 5: 962-968
|
[2] |
Mladenoff DJ, Baker WL. Spatial Modeling of Forest Landscape Change: Approaches and Applications. Cambridge: Cambridge University Press, 1999: 45-234
|
[3] |
Hooper E, Condit LR. Barriers to forest regeneration of deforested and abandoned land in Panama. Journal of Applied Ecology, 2005, 42: 1165-1174
|
[4] |
Holl KD, Loik ME, Lin EHV, et al. Tropical montane forest restoration in Costa Rica: Overcoming barriers to dispersal and establishment. Restoration Ecology, 2000, 8: 339-349
|
[5] |
Duguid MC, Frey BR, Ellum DS, et al. The influence of ground disturbance and gap position on understory plant diversity in upland forests of southern New England. Forest Ecology and Management, 2013, 303: 148-159
|
[6] |
He W, Wu F, Zhang D, et al. The effects of forest gaps on cellulose degradation in the foliar litter of two shrub species in an alpine fir forest. Plant and Soil, 2015, 393: 109-122
|
[7] |
Dupuy JM, Chazdon RL. Interacting effects of canopy gap, understory vegetation and leaf litter on tree seedling recruitment and composition in tropical secondary fore-sts. Forest Ecology and Management, 2008, 255: 3716-3725
|
[8] |
Nakamura A, Morimoto Y, Mizutani Y. Adaptive mana-gement approach to increasing the diversity of a 30-year-old planted forest in an urban area of Japan. Landscape and Urban Planning, 2005, 70: 291-300
|
[9] |
Powers MD, Pregitzer KS, Palik BJ. Physiological performance of three pine species provides evidence for gap partitioning. Forest Ecology and Management, 2008, 256: 2127-2135
|
[10] |
Kern CC, Montgomery RA, Reich PB, et al. Harvest-created canopy gaps increase species and functional trait diversity of the forest ground-layer community. Forest Science, 2014, 60: 335-344
|
[11] |
Agyeman VK, Thompson MDS. Responses of tropical forest tree seedlings to irradiance and the derivation of a light response index. Journal of Ecology, 1999, 87: 815-827
|
[12] |
欧建德, 吴志庄, 罗宁. 林窗大小对杉木林内南方红豆杉生长与形质的影响. 应用生态学报, 2016, 27(10): 3098-3104 [Ou J-D, Wu Z-Z, Luo N. Effects of forest gap size on the growth and form quality of Taxus wallichina var. mairei in Cunninghamia lanceolata fore-sts. Chinese Journal of Applied Ecology, 2016, 27(10): 3098-3104]
|
[13] |
臧润国, 郭忠凌, 高文韬. 长白山自然保护区阔叶红松林林隙更新的研究. 应用生态学报, 1998, 9(4): 349-353 [Zang R-G, Guo Z-L, Gao W-T. Gap regene-ration in a broadleaved-Korean pine forest in Changbai Mountain Natural Reserve. Chinese Journal of Applied Ecology, 1998, 9(4): 349-353
|
[14] |
刘少冲, 段文标, 冯静, 等. 林隙对小兴安岭阔叶红松林树种更新及物种多样性的影响. 应用生态学报, 2011, 22(6): 1381-1388 [Liu S-C, Duan W-B, Feng J, et al. Effects of forest gap on tree species regeneration and diversity of mixed broadleaved Korean pine forest in Xiaoxing’an Mountains. Chinese Journal of Applied Eco-logy, 2011, 22(6): 1381-1388]
|
[15] |
朱教君, 李凤芹, 松崎健, 等. 间伐对日本黑松海岸林更新的影响. 应用生态学报, 2004, 13(11): 1361-1367 [Zhu J-J, Li F-Q, Matsuzaki T, et al. Influence of thinning on regeneration in a coastal Pinus thunbergii forest. Chinese Journal of Applied Ecology, 2004, 13(11): 1361-1367]
|
[16] |
Wang Z, Yang H, Dong B, et al. Effects of canopy gap size on growth and spatial patterns of Chinese pine (Pinus tabuliformis) regeneration. Forest Ecology and Management, 2017, 385: 46-56
|
[17] |
Gauthier MM, Lambert MC, Bédard S. Effects of harvest gap size, soil scarification, and vegetation control on regeneration dynamics in Sugar Maple-Yellow Birch Stands. Forest Science, 2016, 62: 237-246
|
[18] |
臧润国, 刘静艳, 董大方. 林隙动态与森林生物多样性. 北京: 中国林业出版社, 1999: 3-4 [Zang R-G, Liu J-Y, Dong D-F. Gap Dynamics and Forest Biodiversity. Beijing: China Forestry Press, 1999: 3-4]
|
[19] |
郑黎明. 长白山过伐林区云冷杉针阔混交林林隙更新研究. 硕士论文. 北京: 北京林业大学, 2007 [Zheng L-M. Study on the Gap Regeneration in Spruce-Fir Mixed Stand in Changbai Mountain. Master Thesis. Beijing: Beijing Forestry University, 2007]
|
[20] |
黄传响. 长白山云冷杉针阔混交林林隙小气候及其更新研究. 硕士论文. 北京: 北京林业大学, 2011 [Huang C-X. Study on Microclimate and Regeneration of Gaps in Spruce-Fir Mixed Stand in Changbai Mountains. Master Thesis. Beijing: Beijing Forestry University, 2011]
|
[21] |
Parzen E. On estimation of a probability density function and mode. Annals of Mathematical Statistics, 1962, 33: 1065-1076
|
[22] |
Rosenblatt M. Remarks on some nonparametric estimates of a density function. Annals of Mathematical Statistics, 1956, 27: 832-837
|
[23] |
Condit R, Ashton PS, Baker P, et al. Spatial patterns in the distribution of tropical tree species. Science, 2000, 288: 1414-1418
|
[24] |
李冰, 樊金拴, 车小强. 我国天然云冷杉针阔混交林结构特征、更新特点及经营管理. 世界林业研究, 2012, 25(3): 43-49 [Li B, Fan J-S, Che X-Q. A review of studies on structural features, regeneration features and management of natural spruce-fir mixed stand of coniferous and broadleaved trees in China. World Forestry Research, 2012, 25(3): 43-49]
|
[25] |
姚国清, 池桂清, 董兆琪, 等. 红松生长与光照关系的探讨. 生态学杂志, 1985, 4(6): 48-50 [Yao G-Q, Chi G-Q, Dong Z-Q, et al. Discussion on the relationship between growth and light of Korean pine. Chinese Journal of Ecology, 1985, 4(6): 48-50]
|
[26] |
金鑫, 胡万良, 丁磊, 等. 遮阴对红松幼苗生长及光合特性的影响. 东北林业大学学报, 2009, 37(9): 12-13 [Jin X, Hu W-L, Ding L, et al. Effect of shading on the growth and photosynthetic characteristics of Pinus koraiensis. Journal of Northeast Forestry University, 2009, 37(9): 12-13]
|
[27] |
张群, 范少辉, 沈海龙. 红松混交林中红松幼树生长环境的研究进展及展望. 林业科学研究, 2003, 16(2): 216-224 [Zhang Q, Fan S-H, Shen H-L. Research progress and prospect of the growth environment of young Pinus koraiensis in mixed Korean pine forest. Forest Research, 2003, 16(2): 216-224]
|
[28] |
Wang Z, Yang H, Wang D, et al. Spatial distribution and growth association of regeneration in gaps of Chinese pine (Pinus tabuliformis Carr.) plantation in northern China. Forest Ecology and Management, 2019, 432: 387-399
|
[29] |
Poznanovic SK, Poznanovic AJ, Webster CR, et al. Spatial patterning of underrepresented tree species in canopy gaps 9 years after group selection cutting. Forest Ecology and Management, 2014, 331: 1-11
|