| [1] | Lamont B B, Maitre D C L, Cowling R M, et al. Canopy seed storage in woody plants[J]. Botanical Review, 1991, 57(4): 277-317. doi: 10.1007/BF02858770 |
| [2] | Tapias R, Gil L, Fuentes-Utrilla P, et al. Canopy seed banks in Mediterranean pines of southeastern Spain: a comparison between Pinus halepensis Mill., P. pinaster Ait., P. nigra Arn. and P. pinea L.[J]. Journal of Ecology, 2001, 89(4): 629-638. doi: 10.1046/j.1365-2745.2001.00575.x |
| [3] | Schoennagel T, Turner M G, Romme W H. The influence of fire interval and serotiny on postfire lodgepole pine density in Yellowstone National Park[J]. Ecology, 2003, 84(11): 2967-2978. doi: 10.1890/02-0277 |
| [4] | Vincenzi S, Piotti A. Evolution of serotiny in maritime pine (Pinus pinaster) in the light of increasing frequency of fires[J]. Plant Ecology, 2014, 215(7): 689-701. |
| [5] | Su W, Yu J, Zhang G, et al. Comparison of the canopy and soil seed banks of Pinus yunnanensis in central Yunnan, China[J]. Forest Ecology and Management, 2019, 437: 41-48. doi: 10.1016/j. foreco. 2019.01.002. |
| [6] | Ne'eman G, Goubitz S, Ran N. Reproductive traits of Pinus halepensis in the light of fire – a critical review[J]. Plant Ecology, 2004, 171(1-2): 69-79. |
| [7] | Givnish T J. Serotiny, geography, and fire in the pine barrens of New Jersey[J]. Evolution, 1981, 35(1): 101-123. doi: 10.1111/j.1558-5646.1981.tb04862.x |
| [8] | Hellum A K, Pelchat M. Temperature and time affect the release and quality of seed from cones[J]. Canadian Journal of Forest Research, 1979, 9(2): 154-159. doi: 10.1139/x79-029 |
| [9] | Reyes O, Casal M. Effect of high temperatures on cone opening and on the release and viability of Pinus pinaster and P. radiata seeds in NW Spain[J]. Annals of Forest Science, 2002, 59(3): 327-334. doi: 10.1051/forest:2002028 |
| [10] | 苏文华, 崔凤涛, 赵元蛟, 等. 云南松球果延迟开放及其植冠种子库[J]. 生态学报, 2017, 37(2):541-548. |
| [11] | Dawson C, Vincent J F V, Rocca A M. How pine cones open[J]. Nature, 1997, 390: 668. doi: 10.1038/37745. |
| [12] | Harlow W M, Côté W A, Day A C. The opening mechanism of pine cone scales[J]. Journal of Forestry, 1964, 62(8): 538-540. doi: 10.1093/jof/62.8.538 |
| [13] | Song K, Chang S-S, Lee S J. How the pine seeds attach to/detach from the pine cone scale?[J]. Frontiers in life science, 2017, 10(1): 38-47. doi: 10.1080/21553769.2017.1287777 |
| [14] | Song K, Yeom E, Seo S-J, et al. Journey of water in pine cones[J]. Scientific Reports, 2015, 51: 9963. doi: 10.1038/srep09963. |
| [15] | Crossley D I. Effect of crown cover and slash density on the release of seed from slash-borne lodgepole pine cones[R]. Forest Research Division Technical Note 41. Ottawa: Canada Department of Northern Affairs and National Resources, Forestry Branch, 1956. |
| [16] | Huss J C, Spaeker O, Gierlinger N, et al. Temperature-induced self-sealing capability of Banksia follicles[J]. Journal of the Royal Society Interface, 2018, 15(143). doi: 10.1098/rsif. 2018.0190. |
| [17] | Clements F E. The life history of lodgepole burn forests[M]. US Dept. of Agriculture, Forest Service. Washington: Government Printing Office, 1910. |
| [18] | 宋湛谦. 中国松脂特征与松属分类[M]. 北京: 中国林业出版社, 1998. |
| [19] | 陈 飞, 王健敏, 孙宝刚, 等. 云南松的地理分布与气候关系[J]. 林业科学研究, 2012, 25(2):163-168. |
| [20] | 黄瑞复. 云南松的种群遗传与进化[J]. 云南大学学报: 自然科学版, 1993, 15(1):50-63. |
| [21] | Goubitz S, Nathan R, Roitemberg R, et al. Canopy seed bank structure in relation to: fire, tree size and density[J]. Plant Ecology, 2004, 173(2): 191-201. |
| [22] | 魏 红, 钟红舰, 汪 红. 索氏抽提法测定粗脂肪含量的改进[J]. 中国油脂, 2004, 29(6):52-54. |
| [23] | 谭真真, 王 雁, 李 亚. 芍药种子含油率与脂肪酸成分研究[J]. 林业科学研究, 2018, 31(3):45-50. |
| [24] | 罗 凡, 费学谦, 车运舒, 等. 香叶树挥发油、油脂等主要成分分析[J]. 林业科学研究, 2015, 28(2):284-288. |
| [25] | Eva G, Marcel R, Sanderson M J, et al. Evolution of genome size in pines (Pinus) and its life-history correlates: supertree analyses[J]. Evolution, 2004, 58(8): 1705-1729. doi: 10.1111/j.0014-3820.2004.tb00456.x |
| [26] | Tianhua H, Pausas J G, Belcher C M, et al. Fire-adapted traits of Pinus arose in the fiery cretaceous[J]. New Phytologist, 2012, 194(3): 751-759. doi: 10.1111/j.1469-8137.2012.04079.x |
| [27] | Budde K B, Heuertz M, Hernández-Serrano A, et al. Insitu genetic association for serotiny, a fire-related trait, in Mediterranean maritime pine (Pinus pinaster)[J]. New Phytologist, 2014, 201(1): 230-241. doi: 10.1111/nph.12483 |
| [28] | Parchman T L, Gompert Z, Mudge J, et al. Genome-wide association genetics of an adaptive trait in lodgepole pine[J]. Molecular Ecology, 2012, 21(12): 2991-3005. doi: 10.1111/j.1365-294X.2012.05513.x |
| [29] | Kossuth S V, Biggs R H. Role of apophysis and outer scale tissue in pine cone opening[J]. Forest Science, 1981, 27(4): 828-836. |
| [30] | Cowling R M, Lamont B B. Variation in serotiny of three Banksia species along a climatic gradient[J]. Australian Journal of Ecology, 1985, 10(3): 345-350. doi: 10.1111/j.1442-9993.1985.tb00895.x |
| [31] | 毛建丰, 刘玉军, 刘 灏, 等. 高山松种实性状与生殖适应性[J]. 植物生态学报, 2007, 31(2):291-299. |
| [32] | Johnson E A, Gutsell S L. Heat budget and fire behaviour associated with the opening of serotinous cones in two Pinus species[J]. Journal of Vegetation Science, 2010, 4(6): 745-750. |
| [33] | Tapias R, Climent J, Pardos J A, et al. Life histories of Mediterranean pines[J]. Plant Ecology, 2004, 171(1-2): 53-68. |
| [34] | Hernández-Serrano A, Verdú M, González-Martínez S C, et al. Fire structures pine serotiny at different scales[J]. American Journal of Botany, 2013, 100(12): 2349-2356. doi: 10.3732/ajb.1300182 |