| [1] | 申艳梅, 郭平平, 刘淑玲, 等. 蒙古栎的加工利用研究进展[J]. 森林工程, 2014,30(5): 58 − 60.SHEN Yanmei, GUO Pingping, LIU Shuling,et al. Review of advances in progress and utilization of Mongolian oak [J].For Eng, 2014,30(5): 58 − 60. |
| [2] | 河北植被编辑委员会, 河北省农业区划委员会办公室. 河北植被[M]. 北京: 科学出版社, 1996: 1 − 15.Hebei Vegetation Editorial Committee, Office of Hebei Agricultural Zoning Commission.Hebei Vegetation[M]. Beijing: Science Press, 1996: 1 − 15. |
| [3] | 孙佳庆. 珍贵树种大径级用材林培育技术研究[J]. 吉林林业科技, 2012,41(6): 14 − 18.SUN Jiaqing. Study on the cultivation technique for arge sized timber of rare tree species [J].J Jilin For Sci Technol, 2012,41(6): 14 − 18. |
| [4] | 王荣芳, 张子言, 李德海. 酶解法对蒙古栎实壳提取物活性成分及抗氧化活性的影响[J/OL]. 北京林业大学学报, 2022[2022-05-09]. doi:10.12171/j.1000-1522.20210352.WANG Rongfang, ZHANG Ziyan, LI Dehai. Effects of extraction methods on extraction components and antioxidant activity ofQuercus mongolicashell[J/OL].J Beijing For Univ, 2022[2022-05-09]. doi: 10.12171/j.1000-1522.20210352. |
| [5] | 姚大地, 于海洪. 蒙古栎叶、果实成分分析[J]. 吉林林学院学报, 1998,14(4): 205 − 207.YAO Dadi, YU Haihong. Analysis of composition of leave and fruits onQuercus mongolica[J].J Jilin For Univ, 1998,14(4): 205 − 207. |
| [6] | 李佳宁. 蒙古栎生殖生物学特性的初步研究[D]. 沈阳: 沈阳农业大学, 2020.LI Jianing.A Preliminary Study on the Characteristics of Reproductive Biology of Quercus mongolica[D]. Shenyang: Shenyang Agricultural University, 2020. |
| [7] | GREIPSSON S, DAVY A J. Seed mass and germination behaviour in populations of the dune-building grassLeymus arenarius[J].Ann Bot, 1995,76(5): 493 − 501. |
| [8] | 火艳, 招雪晴, 黄厚毅, 等. 观赏石榴表型遗传多样性分析[J]. 浙江农林大学学报, 2020,37(5): 939 − 949.HUO Yan, ZHAO Xueqing, HUANG Houyi,et al. Phenotypic genetic diversity of ornamental pomegranate cultivars [J].J Zhejiang A&F Univ, 2020,37(5): 939 − 949. |
| [9] | 张振, 张含国, 周宇, 等. 红松多无性系群体的种实性状变异研究[J]. 北京林业大学学报, 2015,37(2): 67 − 78.ZHANG Zhen, ZHANG Hanguo, ZHOU Yu,et al. Variation of seed characters in Korean pine (Pinus koraiensis) multiclonal populations [J].J Beijing For Univ, 2015,37(2): 67 − 78. |
| [10] | 颉刚刚, 欧阳丽婷, 谢军, 等. 新疆地区欧洲李叶片表型性状多样性及亲缘关系分析[J]. 植物资源与环境学报, 2018,27(3): 72 − 78.XIE Ganggang, OUYANG Liting, XIE Jun,et al. Analyses on diversity of leaf phenotypic traits and genetic relationships ofPrunus domesticain Xinjiang region [J].J Plant Resour Environ, 2018,27(3): 72 − 78. |
| [11] | 颜冰, 刘刚, 陈爱华, 等. 东北三省不同种源蒙古栎种子表型性状和淀粉含量对比分析[J]. 安徽农业科学, 2015,43(30): 121 − 123.YAN Bing, LIU Gang, CHEN Aihua,et al.Quercus mongolicaseeds’ character and starch content comparisons of different provenance in the three northeastern Provinces [J].J Anhui Agric Sci, 2015,43(30): 121 − 123. |
| [12] | 梁德洋, 蒋路平, 张秦徽, 等. 辽宁省11个蒙古栎种源及家系种子性状变异[J]. 东北林业大学学报, 2019,47(11): 1 − 5.LIANG Deyang, JIANG Luping, ZHANG Qinhui,et al. Variance analysis of seed traits in provenances and families onQuercus mongolica[J].J Northeast For Univ, 2019,47(11): 1 − 5. |
| [13] | 李亚男, 李东胜, 许中旗, 等. 栎属不同种源树种的出苗及生长过程[J]. 西北林学院学报, 2014,29(4): 139 − 144.LI Ya’nan, LI Dongsheng, XU Zhongqi,et al. The process of emergence and height growth ofQuercusspecies in different provenances [J].J Northwest For Univ, 2014,29(4): 139 − 144. |
| [14] | 胡玉珠. 4个不同种源蒙古栎种实形态分析[J]. 吉林林业科技, 2020,49(1): 1 − 3.HU Yuzhu. Morphological analysis of 4 different provenances ofQuercus mongolicaseeds [J].J Jilin For Sci Technol, 2020,49(1): 1 − 3. |
| [15] | 厉月桥. 木本能源植物蒙古栎与辽东栎资源调查与优良种质资源筛选[D]. 北京: 中国林业科学研究院, 2011: 17 − 20.LI Yueqiao.Resource Investigation and Superior Germplasm Resources Selection of Woody Energy Plants Quercus mongolica Fisch. and Quercus liaotungensis Koidz[D]. Beijing: Chinese Academy of Forestry, 2011: 17 − 20. |
| [16] | 包松莲, 李志国, 张建云, 等. 云南塔拉种子形态变异的初步研究[J]. 氨基酸和生物资源, 2011,33(2): 17 − 19, 38.BAO Songlian, LI Zhiguo, ZHANG Jianyun,et al. A preliminary study on morphological variation of seeds of Tara in Yunnan [J].Amino Acids Biotic Resour, 2011,33(2): 17 − 19, 38. |
| [17] | DENWAR N N, AWUKU F J, DIERS B,et al. Genetic diversity, population structure and key phenotypic traits driving variation within soyabean (Glycine max) collection in Ghana [J].Plant Breed, 2019,138(5): 577 − 587. |
| [18] | 厉月桥, 李迎超, 吴志庄. 不同种源蒙古栎种子表型性状与淀粉含量的变异分析[J]. 林业科学研究, 2013,26(4): 528 − 532.LI Yueqiao, LI Yingchao, WU Zhizhuang. Variation in phenotype characters and starch content ofQuercus mongolicaFisch. seed from different provenances [J].For Res, 2013,26(4): 528 − 532. |
| [19] | 李迎超. 木本淀粉能源植物栓皮栎与麻栎资源调查及地理种源变异分析[D]. 北京: 中国林业科学研究院, 2013: 51 − 71.LI Yingchao.Resource Investigation and Provenance Analysis of Woody Starch Engergy Plant Quercus variabilis BL. and Quercus acutissima Carr.[D]. Beijing: Chinese Academy of Forestry, 2013: 51 − 71. |
| [20] | SIEFERT A, FRIDLEY J D, RITCHIE M E. Community functional responses to soil and climate at multiple spatial scales: when does intraspecific variation matter? [J/OL].PLoS One, 2014,9(10): e111189[2021-01-11]. doi: 10.1371/journal.pone.0111189. |
| [21] | 安海龙, 谢乾瑾, 刘超, 等. 水分胁迫和种源对黄柳叶功能性状的影响[J]. 林业科学, 2015,51(10): 75 − 84.AN Hailong, XIE Qianjin, LIU Chao,et al. Effects of water stress and provenance on leaf functional traits ofSalix gordejevii[J].Sci Silv Sin, 2015,51(10): 75 − 84. |
| [22] | ADLER P B, LAMBERS J H R. The influence of climate and species composition on the population dynamics of ten prairie forbs [J].Ecology, 2008,89(11): 3049 − 3060. |
| [23] | 梁小玉, 张新全. 不同海拔对宝兴鸭茅种子生产的影响初探[J]. 草业科学, 2007,24(12): 64 − 66.LIANG Xiaoyu, ZHANG Xinquan. Effect of elevation on seed production ofDactlis glomeratacv. Baoxing [J].Pratacult Sci, 2007,24(12): 64 − 66. |
| [24] | 王志恒, 陈安平, 朴世龙, 等. 高黎贡山种子植物物种丰富度沿海拔梯度的变化[J]. 生物多样性, 2004,12(1): 82 − 88.WANG Zhiheng, CHEN Anping, PIAO Shilong,et al. Pattern of species richness a long an altitudinal gradient on Gaoligong Mountains, Southwest China [J].Biodiversity Sci, 2004,12(1): 82 − 88. |
| [25] | 郭淑青, 齐威, 王玉林, 等. 青藏高原东缘海拔对植物种子大小的影响[J]. 草业学报, 2010,19(1): 50 − 58.GUO Shuqing, QI Wei, WANG Yulin,et al. Effects of altitude on seed size on the eastern Qinghai-Tibetan Plateau [J].Acta Pratacult Sin, 2010,19(1): 50 − 58. |
| [26] | 李丹, 彭少麟. 3个不同海拔梯度马尾松种群的遗传多样性及其与生态因子的相关性[J]. 生态学报, 2001,21(3): 415 − 440.LI Dan, PENG Shaolin. Genetic diversity in threePinnus massonianapopulations in different elevations and its relation with ecological factors [J].Acta Ecol Sin, 2001,21(3): 415 − 440. |
| [27] | PLUESS A R, SCHÜTZ W, STCKLIN J. Seed weight increases with altitude in the Swiss Alps between related species but not among populations of individual species [J].Oecologia, 2005,144(1): 55 − 61. |
| [28] | ARFT A M, WALKER M D, GUREVITCH J,et al. Responses of tundra plants to experimental warming: metal analysis of the international tundra experiment [J].Ecol Monographs, 1999,69(4): 491 − 511. |
| [29] | DIEMER M. Population stasis in a high-elevation herbaceous plant under moderate climate warming [J].Basic Appl Ecol, 2002,3(1): 77 − 83. |
| [30] | FITCH E A, WALCK J L, HIDAYATI S N. Agroecosystem management for rare species ofPaysonia(Brassicaceae): integrating their seed ecology and life cycle with cropping regimens in a changing climate [J].Am J Bot, 2007,94(1): 101 − 110. |
| [31] | 李斌, 顾万春, 卢宝明. 白皮松天然群体种实性状表型多样性研究[J]. 生物多样性, 2002,10(2): 181 − 188.LI Bin, GU Wanchun, LU Baoming. A study on phenotypic of seeds and cones characteristics inPinus bungeana[J].Biodiversity Sci, 2002,10(2): 181 − 188. |
| [32] | 张清, 肖桂英, 李品荣, 等. 同一种源铁橡栎种子的形态特征及变异[J]. 黑龙江农业科学, 2019(8): 26 − 31.ZHANG Qing, XIAO Guiying, LI Pinrong,et al. Seed morphological characteristics and variation ofQuercus cocciferoidesfrom the same provence [J].Heilongjiang Agric Sci, 2019(8): 26 − 31. |
| [33] | KENNEDY P G, HAUSMANN N J, WENK E H,et al. The importance of seed reserves for seedling performance: an integrated approach using morphological, physiological, and stable isotope techniques [J].Oecologia, 2004,141: 547 − 554. |
| [34] | LEBRIJA-TREJOS E, REICH P B, HERNNDEZ A,et al. Species with greater seed mass are more tolerant of conspecific neighbours: a key driver of early survival and future abundances in a tropical forest [J].Ecol Lett, 2016,19: 1071 − 1080. |
| [35] | 张俊, 尚家辉, 程广有, 等. 蒙古栎生长性状种内变异规律初步研究[J]. 北华大学学报(自然科学版), 2020,21(4): 447 − 451.ZHANG Jun, SHANG Jiahui, CHENG Guangyou,et al. Preliminary study on intraspecific variation of growth traits ofQuercus mongolicaFisch. [J].J Beihua Univ Nat Sci, 2020,21(4): 447 − 451. |
| [36] | 常恩福, 张清, 肖桂英, 等. 铁橡栎不同种源及家系种子的形态特征及变异[J]. 种子, 2020,39(6): 53 − 58.CHANG Enfu, ZHANG Qing, XIAO Guiying,et al. Morphological characteristics and variation analysis of seeds from different provenances and families ofQuercus cocciferoides[J].Seed, 2020,39(6): 53 − 58. |
| [37] | 李文文. 蒙古栎(Quercus mongolicaFisch. )种源变异及无性繁殖研究[D]. 北京: 中国林业科学研究院, 2010: 13 − 36.LI Wenwen.Study on Variation of Provence and Vegetative Propagation inQuercus mongolicaFisch.[D]. Beijing: Chinese Academy of Forestry, 2010: 13 − 36. |