[1] |
ZELLER L, LIANG Jingjing, PRETZSCH H. Tree species richness enhances stand productivity while stand structure can have opposite effects, based on forest inventory data from Germany and the United States of America [J]. Forest Ecosystems, 2018, 5(1): 36 − 52. |
[2] |
薛建辉. 森林生态学[M]. 修订版. 北京: 中国林业出版社, 2006: 165 − 169.
XUE Jianhui. Forest Ecology [M]. Revised ed. Beijing: China Forestry Publishing House, 2006: 165 − 169. |
[3] |
TAYLOR A R, CHEN H Y H, van DAMME L. A review of forest succession models and their suitability for forest management planning [J]. Forest Science, 2009, 55(1): 23 − 36. |
[4] |
Jr SHUGART H H, CROW T R, HETT J M. Forest succession models: a rationale and methodology for modeling forest succession over large regions [J]. Forest Science, 1973, 19(3): 203 − 212. |
[5] |
PACALA S W, CANHAM C D, SAPONARA J, et al. Forest models defined by field measurements: estimation, error analysis and dynamics [J]. Ecological Society of America, 1996, 66(1): 1 − 43. |
[6] |
MEDLYN B E, BERBIGIER P, CLEMENT R, et al. Carbon balance of coniferous forests growing in contrasting climates: model-based analysis [J]. Agricultural and Forest Meteorology, 2005, 131(1/2): 97 − 124. |
[7] |
IBROM A, JARVIS P G, CLEMENT R, et al. A comparative analysis of simulated and observed photosynthetic CO2 uptake in two coniferous forest canopies [J]. Tree Physiology, 2006, 26(7): 845 − 864. |
[8] |
桑卫国, 李景文. 小兴安岭南坡红松林动态模拟[J]. 生态学报, 1998, 18(1): 38 − 47.
SANG Weiguo, LI Jingwen. Dynamics modeling of korean pine forest in southern lesser Xingan mountains of China [J]. Acta Ecologica Sinica, 1998, 18(1): 38 − 47. |
[9] |
SHUGART H H. A Theory of Forest Dynamics: the Ecological Implications of Forest Succession Models [M]. Berlin: Springer-Verlag, 1984. |
[10] |
MLADENOFF D J. LANDIS and forest landscape models [J]. Ecological Modelling, 2004, 180(1): 7 − 19. |
[11] |
YEMSHANOV D, PERERA A H. A spatially explicit stochastic model to simulate boreal forest cover transitions: general structure and properties [J]. Ecological Modelling, 2002, 150(1/2): 189 − 209. |
[12] |
VANCLAY J K. Modeling Forest Growth and Yield: Appli-cations to Mixed Tropical Forests [M]. Wallingford: CAB International, 1994. |
[13] |
KORZUKHIN M D, TER-MIKAELIAN M, WAGNER R G. Process versus empirical models: which approach forforest ecosystem management? [J]. Canadian Journal of Forest Research, 1996, 26(5): 879 − 887. |
[14] |
王冬米, 邱智敏, 陈征海, 等. 台州市乡土木本植物资源调查与特征分析[J]. 浙江林业科技, 2017, 37(6): 51 − 56.
WANG Dongmi, QIU Zhimin, CHEN Zhenghai, et al. Native woody plant resources and their characteristics in Taizhou [J]. Journal of Zhejiang Forestry Science and Technology, 2017, 37(6): 51 − 56. |
[15] |
陶吉兴, 张国江, 季碧勇. 森林资源一类清查与二类调查数据控制与融合研究[J]. 浙江林业科技, 2016, 36(6): 8 − 14.
TAO Jixing, ZHANG Guojiang, JI Biyong. Research on data control and fusion of continuous forest inventory and forest management inventory [J]. Journal of Zhejiang Forestry Science and Technology, 2016, 36(6): 8 − 14. |
[16] |
ZELLER L, PRETZSCH H. Effect of forest structure on stand productivity in central European forests depends on developmental stage and tree species diversity [J]. Forest Ecology and Management, 2019, 434: 193 − 204. |
[17] |
KAZMIERCZAK M, WIEGAND T, HUTH A. A neutral vs. non-neutral parametrizations of a physiological forest gap model [J]. Ecological Modelling, 2014, 288: 94 − 102. |
[18] |
戴冬, 彭楚才, 黄鑫, 等. 鄂中地区马尾松人工林群落演替特征研究[J]. 林业科学研究, 2019, 32(6): 48 − 55.
DAI Dong, PENG Chucai, HUANG Xin, et al. Community succession characteristics of Pinus massoniana plantation in central Hubei Province [J]. Forest Research, 2019, 32(6): 48 − 55. |
[19] |
李兰英, 高岚, 温亚利, 等. 松材线虫病对浙江省环境影响经济评价[J]. 林业经济, 2009(8): 68 − 73.
LI Lanying, GAO Lan, WEN Yali, et al. Environmental impact eco-assessment of pine wood nematode in Zhejiang Province [J]. Forestry Economics, 2009(8): 68 − 73. |
[20] |
潘佳亮, 姚翰文, 董瀛谦, 等. 2019年全国松材线虫病疫情分析[J]. 中国森林病虫, 2021, 40(1): 32 − 37.
PAN Jialiang, YAO Hanwen, DONG Yingqian, et al. Analysis of the epidemic situation of pine wilt disease in China in 2019 [J]. Forest Pest and Disease, 2021, 40(1): 32 − 37. |
[21] |
彭少麟. 鼎湖山人工马尾松第1代与自然更新代生长动态比较[J]. 应用生态学报, 1995, 6(1): 11 − 13.
PENG Shaolin. Comparison of the growth dynamics of the 1st generation and the natural renewal generation of artificial Pinus massoniana in Dinghu Mountain [J]. Chinese Journal of Applied Ecology, 1995, 6(1): 11 − 13. |
[22] |
丁圣彦, 宋永昌. 浙江天童常绿阔叶林演替系列优势种光合生理生态的比较[J]. 生态学报, 1999, 19(3): 318 − 323.
DING Shengyan, SONG Yongchang. The comparation of photosynthesis physi-ecology of evergreen broad-leaved forest of Tianton National Forest Park in Zhejiang Province, China [J]. Acta Ecologica Sinica, 1999, 19(3): 318 − 323. |
[23] |
汪殿蓓, 暨淑仪, 陈飞鹏, 等. 深圳南山区天然森林群落多样性及演替现状[J]. 生态学报, 2003, 23(7): 1415 − 1422.
WANG Dianpei, JI Shuyi, CHEN Feipeng, et al. A study on the species diversity and succession situation of natural forest communities in Nanshan District, Shenzhen City [J]. Acta Ecologica Sinica, 2003, 23(7): 1415 − 1422. |
[24] |
COELHO P A, SANTOS P F, de PAIVA PAULA E, et al. Tree succession across a seasonally dry tropical forest and forest-savanna ecotone in northern Minas Gerais, Brazil [J]. Journal of Plant Ecology, 2016, 10(5): 859 − 868. |
[25] |
李婷婷, 陆元昌, 庞丽峰, 等. 杉木人工林近自然经营的初步效果[J]. 林业科学, 2014, 50(5): 90 − 100.
LI Tingting, LU Yuanchang, PANG Lifeng, et al. Initial effect of close-to-nature management of Chinese fir plantation [J]. Scientia Silvae Sinicae, 2014, 50(5): 90 − 100. |
[26] |
詹学齐. 马尾松公益林林冠下套种阔叶树后林分生态功能评价研究[J]. 福建师范大学学报(自然科学版), 2018, 34(3): 71 − 77.
ZHAN Xueqi. Evaluation of ecological benefits for Pinus massoniana stand interplanting hardwood tree species after twenty years [J]. Journal of Fujian Normal University (Natural Sciences Edition), 2018, 34(3): 71 − 77. |