不同林分红松生长与结实性状比较研究

doi:10.7525/j.issn.1673-5102.2018.06.012

摘要/Abstract

摘要： 以吉林省通化县三棚红松良种基地16个红松林分为材料，对其土壤理化性质（pH、电导率EC、有机质、速效钾、碱解氮、速效磷、全氮、C/N）、红松生长及结实性状（胸径、树高、每公顷产籽量）和每公顷株数进行测定并分析。结果表明：除速效钾、C/N和树高外，16个林分间各指标均达到极显著差异水平（P<0.01）；各指标的表型变异系数变化范围为3.59%~42.04%，属于高变异林分，有利于优良林分的选择；相关分析表明每公顷松籽产量与树高（0.267）和胸径（0.259）呈极显著正相关，与每公顷株数呈极显著负相关（-0.557），与有机质（0.306）、碱解氮（0.909）、速效磷（0.805）和全氮（0.213）呈极显著正相关；以每公顷红松产籽量为标准，依10%的入选率对16个林分进行评价选择，林分3 206和3 308入选，入选2个林分的土壤有机质比总体均值提高了11.91 g·kg^-1，碱解氮比总体平均值提高30.92 mg·kg^-1，速效磷比总体均值提高13.65 mg·kg^-1，全氮比总体平均值提高0.4 g·kg^-1，每公顷松籽产量比总体均值提高461.35 kg·hm^-2，胸径比总体均值提高1.9 cm，树高比总体平均值提高0.69 m，每公顷株数比平均值减少了104株；研究结果为选择适当的抚育管理办法来提高松籽产量及红松果林改造提供理论基础。

关键词: 红松, 林分, 生长性状, 结实性状, 变异

Abstract: We took 16 Pinus koraiensis stands in Sanpeng Frorest Tree Improved Variety Bases in Tonghua County, Jilin Province as materials, and investigated their soil physical and chemical properties (pH, electrical conductivity, organic matter, available K, available N, available P, total N and C/N), growth and fruiting traits (tree height, diameter at breast height,the seed production per hectare),and the number of trees perhectare.By variance analysis, all the indices were significantly different (P<0.01) among different stands except available K, C/N and tree height. The coefficients of phynotypic variance of all the indices ranged from 3.59% to 42.04%, which were high variance stands and beneficial for evaluation and selection of superior stands. By correlation analysis,the seed production per hectare was significantly positively correlatedwith tree height (0.267), diameter at breast height (0.259), organic matters (0.306), available N (0.909), available P (0.805), and total N (0.213), but was significantly negatively correlated with the number of trees per hectare. We evaluated the 16 stands with 10% selection rate and the seed production per hectareas selection standard, and the stands 3 206 and 3 308 were selected as superior stands. Compared with the population mean,the soil organic matter was increased by 11.91 g·kg^-1, available N was increased by 30.92 mg·kg^-1, available P was increased by 13.65 mg·kg^-1, total N was increased by 0.4 g·kg^-1, the seed production per hectare was increased by 461.35 kg·hm^-2, diameter at breast height was increased by 1.9 cm, tree height was increased by 0.69 m, and the number of trees per hectare was decreased by 104. The results would provide a theoretical basis for selecting the appropriate nursing management methods to improve the pine seeds yield and transforming as the fruit forest.

Key words: Pinus koraiensis, stands, growth traits, fruiting traits, variance

中图分类号:

S791.247

隋立龙, 王芳, 赵泉湖, 王太坤, 姜鑫, 王君, 陆志民, 杨雨春. 不同林分红松生长与结实性状比较研究[J]. 植物研究, 2018, 38(6): 886-893.

SUI Li-Long, WANG Fang, ZHAO Quan-Hu, WANG Tai-Kun, JIANG Xin, WANG Jun, LU Zhi-Min, YANG Yu-Chun. Growth and Fruiting Characters of Different Pinus koraiensis Stands[J]. Bulletin of Botanical Research, 2018, 38(6): 886-893.

参考文献

1. 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 Z,Zhang H G,Zhou Y,et al. Variation of seed characters in Korean pine(Pinus koraiensis) multi-clonal populations[J]. Journal of Beijing Forestry University,2015,37(2):67-78.
2. 马建路,庄丽文,陈动,等. 红松的地理分布[J]. 东北林业大学学报,1992,20(5):40-48.Ma J L,Zhuang L W,Chen D,et al. Geographic distribution of Pinus koraiensis in the world[J]. Journal of Northeast Forestry University,1992,20(5):40-48.
3. 屈红军,侯庆娟,张冉,等. 红松球果产量的影响因子及预测方法[J]. 种子,2015,34(1):71-73.Qu H J,Hou Q J,Zhang R,et al. Effect factors and prediction method of corn production of Pinus koraiensis[J]. Seed,2015,34(1):71-73.
4. 王卫,史绍林,刘洋. 人工红松生殖生长研究现状与展望[J]. 防护林科技,2015(3):96-98.Wang W,Shi S L,Liu Y. The research status and prospect of the reproductive growth of artificial red pine[J]. Protection Forest Science and Technology,2015(3):96-98.
5. 李哲敏. 松子仁的营养保健功能[J]. 农牧产品开发,2001(7):23-24.Li Z M. The nutrition and health function of pine nuts[J]. Agriculture Products Development,2001(7):23-24.
6. 韩宁林. 值得重视的松籽资源[J]. 林业科技开发,1996(4):12-13.Han N L. Appreciable pine seed resources[J]. China Forestry Science and Technology,1996(4):12-13.
7. Kim R. Chemical composition of Pinus koraiensis seed and its biological activity[J]. KSBB Journal,2013,28(6):380-386.
8. Imbs A B,Nevshupova N V,Pham L Q. Triacylglycerol composition of Pinus koraiensis seed oil[J]. Journal of the American Oil Chemists' Society,1998,75(7):865-870.
9. Deineka V I,Deineka L A. Triglyceride composition of Pinus sibiricaoil[J]. Chemistry of Natural Compounds,2003,39(2):171-173.
10. Hu F B,Stampfer M J. Nut consumption and risk of coronary heart disease:a review of epidemiologic evidence[J]. Current Atherosclerosis Reports,1999,1(3):204-209.
11. 王振宇,杨立宾,魏殿文. 红松松仁中天然产物的研究进展[J]. 国土与自然资源研究,2008(2):90-91.Wang Z Y,Yang L B,Wei D W. Research advanceof natural product in Korean pine nut[J]. Territory & Natural Resources Study,2008,(2):90-91.
12. Gresti J,Mignerot C,Bézard J,et al. Distribution of △5-olefinic acids in the triacylglycerols from Pinus koraiensis and Pinus pinaster seed oils[J]. Journal of the American Oil Chemists' Society,1996,73(11):1539-1547.
13. 王振宇,牛之瑞. 红松仁多不饱和脂肪酸研究进展[J]. 粮油加工,2007(2):58-61.Wang Z Y,Niu Z R. Advance in the polyunsaturated fatty acids of Korean pine nut[J]. Cerealsand Oils Processing,2007,(2):58-61.
14. Su X Y,Wang Z Y,Liu J R. In vitro and in vivo antioxidant activity of Pinus koraiensis seed extract containing phenolic compounds[J]. Food Chemistry,2009,117(4):681-686.
15. Wang H M,Xia D A,Wang W J,et al. Genetic variations of wood properties and growth characters of Korean pines from different provenances[J]. Journal of Forestry Research,2002,13(4):277-280.
16. 梁德洋,金允哲,赵光浩,等. 50个红松无性系生长与木材性状变异研究[J]. 北京林业大学学报,2016,38(6):51-59.Liang D Y,Jin Y Z,Zhao G H,et al. Variance analyses of growth and wood characteristics of 50 Pinus koraiensis clones[J]. Journal of Beijing Forestry University,2016,38(6):51-59.
17. 刘颖,张海军. 红松嫁接技术[J]. 林业科技开发,2009,23(1):117-119.Liu Y,Zhang H J. Techniques for the grafting of Korean pine[J]. Journal of Forestry Engineering,2009,23(1):117-119.
18. 申晓辉,蒋湘宁,Park Y S,等. 红松体细胞胚胎培养技术体系的建立[J]. 成都大学学报:自然科学版,2005,24(1):11-14.Shen X H,Jiang X N,Park Y S,et al. Somatic embryogenisis(SE) in Korean pine(Pinus koraiensis Sieb. et Zucc)[J]. Journal of Chengdu University:Natural Science,2005,24(1):11-14.
19. 曹焱. 红松合子胚愈伤组织诱导及不定芽发生的研究[D]. 哈尔滨:东北林业大学,2009.Cao Y. Study on the induction and adventitious bud formation of the embryogenic callus[D]. Harbin:Northeast Forestry University,2009.
20. 张振,张含国,周宇,等. 红松4个组织的转录组数据分析与次生代谢产物的表达差异初探[J]. 林业科学研究,2015,28(4):597-603.Zhang Z,Zhang H G,Zhou Y,et al. Differential gene expression analysis on secondary metabolites and transcriptome sequencing to four tissues of Pinus koraiensis[J]. Forest Research,2015,28(4):597-603.
21. 张振,张含国,莫迟,等. 红松转录组SSR分析及EST-SSR标记开发[J]. 林业科学,2015,51(8):114-120.Zhang Z,Zhang H G,Mo C,et al. Transcriptomesequencing analysis and development of EST-SSR markers for Pinus koraiensis[J]. Scientia Silvae Sinicae,2015,51(8):114-120.
22. 彭龙福. 不同林分密度楠木人工林生物量初步研究[J]. 福建林业科技,2008,35(4):15-18,23.Peng L F. Preliminary study on the biomass of Phoebe bournei plantation with different density and site condition[J]. Journal of Fujian Forestry Science and Technology,2008,35(4):15-18,23.
23. 薛立,邝立刚,陈红跃,等. 不同林分土壤养分、微生物与酶活性的研究[J]. 土壤学报,2003,40(2):280-285.Xue L,Kuang L G,Chen H Y,et al. Soil nutrients,microorganisms and enzyme activities of different stands[J]. ActaPedologicaSinica,2003,40(2):280-285.
24. 贾全全,罗春旺,刘琪璟,等. 不同林分密度油松人工林生物量分配模式[J]. 南京林业大学学报:自然科学版,2015,39(6):87-92.Jia Q Q,Luo C W,Liu Q J,et al. Biomass allocation in relation to stand density in Pinus tabuliformis plantation[J]. Journal of Nanjing Forestry University:Natural Science Edition,2015,39(6):87-92.
25. 朱宾良,李志辉,陈少雄. 不同林分密度对尾巨桉生物产量及生产力的影响研究[J]. 湖南环境生物职业技术学院学报,2007,13(4):11-14.Zhu B L,Li Z H,Chen S X. Effect of different stand density on biomass and productivity of Eucalyptus urophglla×grandis[J]. Journal of Hunan Environment-Biological Polytechnic,2007,13(4):11-14.
26. Wang L Z,Tang Z Q,Zhao Y Q. Correlation between yield of Coptis chinensis Franch and soil nutrients under different forests[J]. Agricultural Science & Technology,2016,17(7):1642-1644.
27. 刘彤,胡丹,魏晓雪,等. 红松人工林林下植物物种多样性分析[J]. 东北林业大学学报,2010,38(5):28-29,53.Liu T,Hu D,Wei X X,et al. Speciesdiversity of understory vegetation in Korean pine plantations[J]. Journal of Northeast Forestry University,2010,38(5):28-29,53.
28. 郭海燕,葛剑平,李景文. 中国红松林生态学研究文献概述[J]. 东北林业大学学报,1995,23(3):57-62.Guo H Y,Ge J P,Li J W. Outline of ecological literatures on Korean pine forest in China[J]. Journal of Northeast Forestry University,1995,23(3):57-62.
29. 鲁如坤. 土壤农业化学分析方法[M]. 北京:中国农业科技出版社,1999.Lu R K. Methods of soil agricultural and chemical analysis[M]. Beijing:China Agricultural Science and Technology Press,1999.
30. 鲍士旦. 土壤农化分析:3版[M]. 北京:中国农业出版社,2000.Bao S D. Soil and agricultural chemistryanalysis:3rd ed[M]. Beijing:China Agriculture Press,2000.
31. 孟磊,蔡祖聪,丁维新. 长期施肥对土壤碳储量和作物固定碳的影响[J]. 土壤学报,2005,42(5):769-776.Meng L,Cai Z C,Ding W X. Carbon contents in soils and crops as affected by long-term fertilization[J]. Acta Pedologica Sinica,2005,42(5):769-776.
32. 司冬晶,张鑫鑫,韩冬荟,等. 不同地点杨树无性系树高和胸径变异分析及生长模型构建[J]. 植物研究,2016,36(4):588-595.Si D J,Zhang X X,Han D H,et al. Varianceanalysis and growth model building of H and DBH of Poplar clones at different sites[J]. Bulletin of Botanical Research,2016,36(4):588-595.
33. 陈晓阳,沈熙环. 林木育种学[M]. 北京:高等教育出版社,2005.Chen X Y,Shen X H. Forest tree breeding[M]. Beijing:Higher Education Press,2005.
34. 解孝满,李景涛,赵合娥,等. 柳树无性系苗期遗传测定与选择[J]. 江苏林业科技,2008,35(3):6-9,14.Xie X M,Li J T,Zhao H E,et al. Genetic testing and selection of the seedling stage of willow[J]. Journal of Jiangsu Forestry Science & Technology,2008,35(3):6-9,14.
35. 尹绍鹏,赵国辉,夏辉,等. 长白落叶松半同胞子代测定研究[J]. 西南林业大学学报,2016,36(1):63-68.Yin S P,Zhao G H,Xia H,et al. Stacly on progeny test of half-sibs families in Larix olgensis[J]. Journal of Southwest Forestry University,2016,36(1):63-68.
36. 陶祥云,张鹏,姜立佳,等. 国内红松结实最新研究进展[J]. 特种经济动植物,2017,20(4):33-35.Tao X Y,Zhang P,Jiang L J,et al. The latest research progress of the domestic red pine fruiting[J]. Special Economic Animal and Plant,2017,20(4):33-35.
37. 李树国. 施肥对红松幼树开花结实的影响[J]. 中国林副特产,2012,(4):30-31.Li S G. The effect of fertilization on the flowering and fruiting of Pinus koraiensis saplings[J]. Forest By-Product and Speciality in China,2012,(4):30-31.
38. 孙文生,陈晓阳,高琼,等. 施肥对红松无性系种子园母树结实效应研究[J]. 吉林林业科技,2005,34(2):10-14.Sun W S,Chen X Y,GAO Q,et al. Fertilizing effect on bearing fruit of seed tree in clonal seed orchard of Pinus koraiensis[J]. Jilin Forestry Science and Technology,2005,34(2):10-14.
39. Wakushima S,Yoshioka H,Sakurai N. Lateral female strobili production in a Japanese red pine(Pinus densiflora Sieb. et Zucc.) clone by exogenous cytokinin application[J]. Journal of Forest Research,1996,1(3):143-148.
40. 吕兰旭,孙淑萍,张宝峰,等. 林分类型和林分调查因子对红松人工林结实的影响[J]. 黑龙江生态工程职业学院学报,2009,22(6):43-44.Lü L X,Sun S P,Zhang B F,et al. The effect of stand type and stand investigation factor on Pinus koraiensis plantation fruiting[J]. Journal of Heilongjiang Vocational Institute of Ecological Engineering,2009,22(6):43-44.
41. 杨凯,张海廷. 疏伐对促进红松果林生长与结实的研究[C].//世纪初的桉树研究——首届全国林业学术大会桉树分会论文集. 杭州:中国林学会,2005.Yang K,Zhang H T. Study on the growth and fruiting of Pinus koraiensis by thinning[C].//The first national forestry academic conference. Hangzhou:China Forestry Society,2005.
42. 苗杰,于立忠,孙一荣. 辽东山区次生林冠下红松生长与顶端透光环境的关系[J]. 生态学杂志,2012,31(9):2191-2196.Miao J,Yu L Z,Sun Y R. Effects of secondary forest canopy openness on the growth of Pinus koraiensis saplings in eastern Liaoning Province of Northeast China[J]. Chinese Journal of Ecology,2012,31(9):2191-2196.
43. 张志翔. 树木学(北方本)[M]. 2版. 北京:中国林业出版社,2008.Zhang Z X. Tree(the north edition)[M]. 2nd ed. Beijing:China Forestry Publishing House,2008.
44. 王行轩,张利民,庞志慧. 红松结实性状的选择效果[J]. 东北林业大学学报,2001,29(3):31-36.Wang X X,Zhang L M,Pang Z H. Effect of selection for fruition characters of Pinus koraiensis[J]. Journal of Northeast Forestry University,2001,29(3):31-36.
45. 盛后财,满秀玲,蔡体久,等. 凉水自然保护区红松结实规律及可持续经营[J]. 东北林业大学学报,2010,38(12):4-6.Sheng H C,Man X L,Cai T J,et al. Seed setting pattern and sustainable management of Pinus koraiensis forests in Liangshui nature reserve[J]. Journal of Northeast Forestry University,2010,38(12):4-6.
46. 宁晓光,赵鹏,崔崧. 影响红松开花结实的主要因素分析[J]. 林业科技情报,2009,41(2):23-24.Ning X G,Zhao P,Cui S. Dominant factor of affecting blooming and burliness of Korean pine[J]. Forestry Science and Technology Information,2009,41(2):23-24.

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