[1] |
LEVINEL J M, LAMBERS J H R. The importance of niches for maintenance of species diversity[J]. Nature, 2009, 461(7621):254-257. |
[2] |
PHILIPS O L, VARGAS N P, MONTEAGUDO A L, et al. Habitat association among Amazonian tree species:a landscape-scale approach[J]. J Ecol, 2003, 91(5):757-775. |
[3] |
于顺利, 马克平, 徐存宝, 等.环境梯度下蒙古栎群落的物种多样性特征[J].生态学报, 2004, 24(12):2932-2939.
YU Shunli, MA Keping, XU Cunbao, et al. The species diversity characteristics comparison of Quercus mongolica community along environmental gradient factors[J]. Acta Ecol Sin, 2004, 24(12):2932-2939. |
[4] |
张斌, 张金屯, 苏日古嘎, 等.协惯量分析与典范对应分析在植物群落排序中的应用比较[J].植物生态学报, 2009, 33(5):842-851.
ZHANG Bin, ZHANG Jintun, Suriguga, et al. A comparison of co-inertia analysis and canonical correspondence analysis in plant community ordination[J]. Chin J Plant Ecol, 2009, 33(5):842-851. |
[5] |
HUO Hong, FENG Qi, SU Yonghong. Shrub communities and environ-mental variables responsible for species distribution patterns in an alpine zone of the Qilian Mountains, Northwest China[J]. J Mt Sci, 2015, 12(1):166-176. |
[6] |
区余端, 苏志尧, 李镇魁, 等.地形因子对粤北山地森林不同生长型地表植物分布格局的影响[J].应用生态学报, 2011, 22(5):1107-1113.
OU Yuduan, SU Zhiyao, LI Zhenkui, et al. Effects of topographic factors on the distribution patterns of ground plants with different growth forms in montane forests in North Guangdong, China[J]. Chin J Appl Ecol, 2011, 22(5):1107-1113. |
[7] |
MOHAMMADI M F, JALALI S G, KOOCH Y, et al. The influence of landform on the understory plant community in a temperate Beech forest in northern Iran[J]. Ecol Res, 2015, 30(2):385-394. |
[8] |
SVENNING J C. Small canopy gaps influence plant distributions in the rain forest understory[J]. Biotropica, 2000, 32(2):252-261. |
[9] |
KRAFT N J B, COMITA L S, CHASE J M, et al. Disentangling the drivers of β diversity along latitudinal and elevational gradients[J]. Science, 2011, 333(6650):1755-1758. |
[10] |
马旭东, 张苏峻, 苏志尧, 等.车八岭山地常绿阔叶林群落结构特征与微地形条件的关系[J].生态学报, 2010, 30(19):5151-5160.
MA Xudong, ZHANG Sujun, SU Zhiyao, et al. Community structure in relation to micro topography in a montane evergreen broadleaved forest in Chebaling National Nature Reserve[J]. Acta Ecol Sin, 2010, 30(19):5151-5160. |
[11] |
BURKE I C, LAUENROTH W K, RIGGLE R, et al. Spatial variability of soil properties in the short grass steppe:the relative importance of topography, grazing, microsite, and plant species in controlling spatial patterns[J]. Ecosystems, 1999, 2(5):422-438. |
[12] |
KAMRANI A, JALILI A, NAQINEZHAD A, et al. Relationships between environmental variables and vegetation across mountain wetland sites, N. Iran[J]. Biologia, 2011, 66(1):76-87. |
[13] |
么旭阳, 胡耀升, 刘艳红.长白山阔叶红松林典型森林群落功能多样性及其与地形因子的关系[J].西北农林科技大学学报, 2014, 42(10):95-102.
YAO Xuyang, HU Yaosheng, LIU Yanhong. Functional diversity of typical broad-leaved Korean pine forest communities in Changbai Mountains and its relationship with topographicial factors[J]. J Northwest A & F Univ, 2014, 42(10):95-102. |
[14] |
薛鸥, 魏天兴, 朱金兆.环境因子对北京低山区低效林林下植被物种组成和丰富度的影响[J].生态学杂志, 2016, 35(9):2321-2328.
XUE Ou, WEI Tianxing, ZHU Jinzhao. Effects of environmental factors on the composition and richness of understory species in low-function forests in Beijing low mountain areas[J]. Chin J Ecol, 2016, 35(9):2321-2328. |
[15] |
苏日古嘎, 张金屯, 王永霞.北京松山自然保护区森林群落物种多样性及其神经网络预测[J].生态学报, 2013, 33(11):3394-3403.
Suriguga, ZHANG Jintun, WANG Yongxia. Species diversity of forest communities and its forecasting by neural network in the Songshan National Nature Reserve, Beijing[J]. Acta Ecol Sin, 2013, 33(11):3394-3403. |
[16] |
张昌顺, 谢高地, 包维楷, 等.地形对澜沧江源区高寒草甸植物丰富度及其分布格局的影响[J].生态学杂志, 2012, 31(11):2767-2774.
ZHANG Changshun, XIE Gaodi, BAO Weikai. Effects of topographic factors on the plant species richness and distribution pattern of alpine meadow in source region of Lancang River, Southwest China[J]. Chin J Ecol, 2012, 31(11):2767-2774. |
[17] |
MUJURU L, KUNDHLANDE A. Small-scale vegetation structure and composition of Chirinda Forest, southeast Zimbabwe[J]. Afr J Ecol, 2007, 45(4):624-632. |
[18] |
GASTON K J. Global patterns in biodiversity[J]. Nature, 2000, 405(6783):220-227. |
[19] |
SÁNCHEZ-GONZÁLEZ A, LÓPEZ-MATA L. Plant species richness and diversity along an altitudinal gradient in the Sierra Nevada, Mexico[J]. Diversity Distrib, 2005, 11(6):567-575. |
[20] |
LACOUL P, FREEDMAN B. Relationships between aquatic plants and environmental factors along a steep Himalayan altitudinal gradient[J]. Aquatic Bot, 2006, 84(1):3-16. |
[21] |
ELLUM D S. Demographic Patterns and Disturbance Responses of Understory Vegetation in a Managed Forest of Southern New England: Implications for Sustainable Forestry and Biodiversity Maintenance[D]. New Haven: Yale University, 2007. |
[22] |
朱耿平, 乔慧捷. MaxEnt模型复杂度对物种潜在分布区预测的影响[J].生物多样性, 2016, 24(10):1189-1196.
ZHU Gengping, QIAO Huijie. Effect of the Maxent model's complexity on the prediction of species potential distributions[J]. Biodiversity Sci, 2016, 24(10):1189-1196. |
[23] |
张颖, 李君, 林蔚, 等.基于最大熵生态位元模型的入侵杂草春飞蓬在中国潜在分布区的预测[J].应用生态学报, 2011, 22(11):2970-2976.
ZHANG Ying, LI Jun, LIN Wei, et al. Prediction of potential distribution area of Erigeron philadelphicus in China based on MaxEnt[J]. Chin J Appl Ecol, 2011, 22(11):2970-2976. |
[24] |
张路. MAXENT最大熵模型在预测物种潜在分布范围方面的应用[J].生物学通报, 2015, 50(11):9-12.
ZHANG Lu. Application of MAXENT maximum entropy model in predicting the potential distribution range of species[J]. Biol Bull, 2015, 50(11):9-12. |
[25] |
NA Xiaodong, ZHOU Haitao, ZANG Shuying, et al. Maximum Entropy modeling for habitat suitability assessment of Red-crowned crane[J]. Ecol Indic, 2018, 91(5):439-446. |
[26] |
JALAEIAN M, GOLIZADEH A, SARAFRAZI A, et al. Inferring climatic controls of rice stem borers' spatial distributions using maximum entropy modelling[J]. J Appl Entomol, 2018, 142(4):388-396. |
[27] |
XU Xiang, ZHANG Huayong, YUE Junjie, et al. Predicting shifts in the suitable climatic distribution of walnut (Juglans regia L.) in China:Maximum Entropy Model paves the way to forest management[J]. Forests, 2018, 9(3):103. |
[28] |
SARIKAYA O, KARACEYLAN I B, SEN I. Maximum Entropy Modeling (maxent) of current and future distributions of Ips mannsfeldi (Wachtl, 1879) (Curculionidae:Scolytinae) in Turkey[J]. Appl Ecol Environ Res, 2018, 16(3):2527-2535. |
[29] |
PHILLIPS S J, ANDERSON R P, SCHAPIRE R E. Maximum entropy modeling of species geographic distributions[J]. Ecol Mod, 2006, 190(3):231-259. |
[30] |
PHILLIPS S J, DUDIK M, SCHAPIRE R E. A Maximum Entropy Approach to Species Distribution Modeling in Proceedings of The Twenty-First International Conference on Machine Learning[M]. New York:ACM Press, 2004. |
[31] |
ARES A, NEILLA R, PUETTMANN K. Understory abundance, species diversity and functional attribute response to thinning in coniferous stands[J]. For Ecol Manage, 2010, 260(7):1104-1113. |
[32] |
张峰, 张金屯, 上官铁梁.历山自然保护区猪尾沟森林群落植物多样性研究[J].植物生态学报, 2002, 40(增刊1):46-51.
ZHANG Feng, ZHANG Jintun, SHANGGUAN Tieliang. Plant diversity of forest community in Zhuweigou of Lishan Moutain Nature Reverse[J]. Acta Phytoecol Sin, 2002, 40(suppl 1):46-51. |
[33] |
卢炜丽.重庆四面山植物群落结构及物种多样性研究[D].北京: 北京林业大学, 2009.
LU Weili. Studies on Forest Plant Community Strueture and Biodiversity in Chongqing Simian Mountains[D]. Beijing: Beijing Forestry University, 2009. |
[34] |
汪平, 贾黎明, 李效文, 等.侧柏游憩林抚育对林下植物组成及多样性的影响[J].东北林业大学学报, 2012, 40(11):78-82.
WANG Ping, JIA Liming, LI Xiaowen, et al. Effects of tending on species composition and diversity of undergrowth in Platycladus orientalis recreational stands[J]. J Northeast For Univ, 2012, 40(11):78-82. |
[35] |
涂磊.北京西山国家森林公园植物群落研究[D].北京: 北京林业大学, 2016: 70-72.
TU Lei. A Study on the Plant Community of Beijing Xishan National Forest Park[D]. Beijing: Beijing Forestry University, 2016: 70-72. |
[36] |
ELITH J, PHILLIPS S J, HASTIE T, et al. A statistical explanation of MaxEnt for ecologists[J]. Diversity Distrib, 2011, 17(1):43-57. |
[37] |
李灿, 刘贤安, 王娟, 等.基于MaxEnt模型的四川省红豆杉潜在分布区分析及适宜性评价[J].林业调查规划, 2018, 43(1):22-29.
LI Can, LIU Xian'an, WANG Juan, et al. Potential distribution and habitat suitability assessment of Taxus chinensis based on MaxEnt in Sichuan Province[J]. For Inventory Plann, 2018, 43(1):22-29. |
[38] |
HANLEY J A, MCNEIL B J. The meaning and use of the area under a Receiver Operating Characteristic (ROC) curse[J]. Radiology, 1982, 143:29-36. |