| [1] | Nicotra A B, Leigh A, Boyce C K, et al. The evolution and functional significance of leaf shape in the angiosperms[J]. Functional Plant Biology, 2011, 38(7):535-552. doi: 10.1071/FP11057 |
| [2] | Du Q, Xu B, Gong C, et al. Variation in growth, leaf, and wood property traits of Chinese white poplar (Populus tomentosa), a major industrial tree species in Northern China[J]. Canadian Journal of Forest Research, 2014, 44(4):326-339. doi: 10.1139/cjfr-2013-0416 |
| [3] | Wang H, Niu L, Fu C, et al. Overexpression of the WOX gene STENOFOLIA improves biomass yield and sugar release in transgenic grasses and display altered cytokinin homeostasis[J]. Plos Genetics, 2017, 13(3):e1006649. doi: 10.1371/journal.pgen.1006649 |
| [4] | 胡建军.美洲黑杨叶面积、生长量、酚类物质及抗虫性状基因定位[D].北京: 北京林业大学, 2002. |
| [5] | Bresso E G, Chorostecki U, Rodriguez R E, et al. Spatial control of gene expression by miR319-regulated TCP transcription factors in leaf development[J]. Plant Physiol, 2018, 176:1694-1708.. doi: 10.1104/pp.17.00823 |
| [6] | Feng G, Qin Z, Yan J, et al. Arabidopsis ORGAN SIZE RELATED1 regulates organ growth and final organ size in orchestration with ARGOS and ARL[J]. New Phytologist, 2011, 191(3):635-646. doi: 10.1111/nph.2011.191.issue-3 |
| [7] | Zhang J, Wei B, Yuan R, et al. The Arabidopsis RING-type E3 ligase TEAR1 controls leaf development by targeting the TIE1 transcriptional repressor for degradation[J]. Plant Cell, 2017, 29(2):243-259. doi: 10.1105/tpc.16.00771 |
| [8] | Farooq M, Tagle A G, Santos R E, et al. Quantitative trait loci mapping for leaf length and leaf width in rice cv.IR64 derived lines[J]. Journal of Integrative Plant Biology, 2010, 52(6):578-584. doi: 10.1111/jipb.2010.52.issue-6 |
| [9] | Wassom J J. Quantitative trait loci for leaf angle, leaf width, leaf length, and plant height in a maize (Zea mays L) B73×Mo17 population[J]. Maydica, 2013, 58(3):318-321. |
| [10] | 闫雪, 史雨刚, 梁增浩, 等.小麦旗叶形态相关性状的QTL定位[J].核农学报, 2015, 29(7):1253-1259. |
| [11] | 魏永成, 李周岐, 李煜, 等.杜仲杂交子代苗期表型性状的遗传分析[J].西北农林科技大学学报:自然科学版, 2012, 40(8):137-143. |
| [12] | Tan L Q, Wang L Y, Xu L Y, et al. SSR-based genetic mapping and QTL analysis for timing of spring bud flush, young shoot color, and mature leaf size in tea plant (Camellia sinensis)[J]. Tree Genetics & Genomes, 2016, 12(3):52. |
| [13] | 苏晓华, 李金花, 陈伯望, 等.杨树叶片数量性状相关联标记及其图谱定位研究[J].林业科学, 2000, 36(1):33-40. |
| [14] | Trewin H. Linking transcript, QTL and association mapping to understand the genetic control of leaf size and shape in Populus[D]. University of Southampton, 2008. |
| [15] | Migicovsky Z, Li M, Chitwood D H, et al. Morphometrics reveals complex and heritable apple leaf shapes[J]. Frontiers in Plant Science, 2018, 8, No.2185: 1-16. |
| [16] | Drost D R, Puranik S, Novaes E, et al. Genetical genomics of Populus leaf shape variation[J]. BMC Plant Biology, 2015, 15(1), No.166: 1-10. |
| [17] | Thomas H, Ougham H. On plant growth and form.[J]. New Phytologist, 2017, 216(2):337-338. doi: 10.1111/nph.14807 |
| [18] | 李慧慧, 张鲁燕, 王建康.数量性状基因定位研究中若干常见问题的分析与解答[J].作物学报, 2010, 36(6):918-931. |
| [19] | 曾燕蓉, 朱方容, 林强, 等.几种桑树叶面积测量方法及叶片大小与叶片质量的相关性分析[J].蚕业科学, 2013(5):868-876. |
| [20] | Perez-Sanz F, Navarro P J, Egea-Cortines M. Plant phenomics:an overview of image acquisition technologies and image data analysis algorithms[J]. Gigascience, 2017, 6(11):1-18. |
| [21] | 李金花, 张绮纹, 苏晓华, 等.美洲黑杨与不同种源青杨杂种苗叶片和生长性状多水平变异研究[J].林业科学研究, 2002, 15(1):76-82. doi: 10.3321/j.issn:1001-1498.2002.01.012 |
| [22] | 张春玲, 李淑梅, 赵自成, 等.杨树新品种'丹红杨[J].林业科学, 2008, 44(1):169. doi: 10.3321/j.issn:1001-7488.2008.01.027 |
| [23] | 徐纬英.杨树[M].哈尔滨:黑龙江人民出版社, 1988. |
| [24] | 姬慧娟.丹红杨与小叶杨杂交子代苗期抗旱相关性状遗传分析[D].北京: 中国林业科学研究院, 2015. |
| [25] | Dewey D R, Lu K H. A Correlation and Path-Coefficient Analysis of Components of Crested Wheatgrass Seed Production[J]. Problemy Tuberkuleza, 1959, 51(9):70-74. |
| [26] | El-Kassaby Y A, Ritland K, Ritland C, et al. Forest Genetics[M]//Watts S B, Tolland L. Faculty of Forestry. Vancouver, BC: The university of British Columbia, 2005: 474-486. |
| [27] | 张福敏.响叶杨×银白杨遗传图谱加密与相关QTL定位[D].南京: 南京林业大学, 2011. |
| [28] | Baker R L, Leong W F, Brock M T, et al. Modeling development and quantitative trait mapping reveal independent genetic modules for leaf size and shape[J]. New Phytologist, 2015, 208(1):257-268. doi: 10.1111/nph.2015.208.issue-1 |
| [29] | Tsukaya H. Leaf shape:genetic controls and environmental factors[J]. International Journal of Developmental Biology, 2004, 49(5-6):547-555. |
| [30] | Kozuka T, Horiguchi G, Kim G T, et al. The different growth responses of the Arabidopsis thaliana Leaf Blade and the Petiole during Shade Avoidance are Regulated by Photoreceptors and Sugar[J]. Plant & Cell Physiology, 2005, 46(1):213-223. |
| [31] | Guet J, Fabbrini F, Fichot R, et al. Genetic variation for leaf morphology, leaf structure and leaf carbon isotope discrimination in European populations of black poplar (Populus nigra L.)[J]. Tree Physiology, 2015, 35(8):850. doi: 10.1093/treephys/tpv056 |
| [32] | 徐红, 韩玉兰, 杨自湘, 等.用叶片特征区别不同产地不同单株青杨的研究[J].林业科技通讯, 1995(2):17-18. |
| [33] | 薄文浩.藏川杨遗传多样性及杂交子代遗传变异研究[D].北京: 北京林业大学, 2012. |
| [34] | 张德强, 张志毅, 杨凯, 等.毛新杨×毛白杨叶片表型和春季萌芽时间QTL分析(英文版)[J].林业科学, 2005, 41(1):42-48. doi: 10.3321/j.issn:1001-7488.2005.01.009 |