WANG Xi-gang1*,SUN Lu1,MING Ying-hui1,ZHANG Ya-kui1,LI Hua1,ZENG Fan-suo2
1.Forest Survey and Design Institute of Jilin Province,Changchun 130000,China;2.Northeast Electric Power Design Institute Co.,LTD of China Power Engineering Consulting Group,Changchun 130000,China;3.Changchun Jing Yue Tan Experimental Forest Farm,Changchun 130000,China150086,China
[1] Chen F,Zhang Q,Gu H,et al. An approach for extraction of kernel oil from Pinus pumila using homogenate-circulating ultrasound in combination with an aqueous enzymatic process and evaluation of its antioxidant activity[J]. Journal of Chromatography A,2016,1471 :68-79.
[2] Troncoso-Ponce M A,Barthole G,Tremblais G,et al.Transcriptional activation of two delta-9 palmitoyl-ACP desaturase genes by MYB115 and MYB118 is critical for biosynthesis of omega-7 monounsaturated fatty acids in the endosperm of Arabidopsis seeds[J]. The Plant Cell,2016, 28(10):2666-2682.
[3] 赵垦田,李玉昌,张桂玲. 大兴安岭偃松林资源及其开发利用与保护[J]. 国土与自然资源研究,1997(2):55-59.
[4] 朱万昌. 偃松天然林经营技术[J]. 黑龙江科技信息,2017(10):267.
[5] 林春芳,崔克诚. 偃松资源开发利用[J]. 林业实用技术,2002(1):41.
[6] 林建军,杨春涛. 偃松资源的合理开发和利用[J]. 内蒙古林业调查设计,2004(2):8.
[7] 孙亚红. 大兴安岭高寒地区常见野生果树[M]. 北京:中国农业大学出版社,2013.
[8] 谷会岩,金屿淞,张芸慧,等. 林火对大兴安岭偃松—兴安落叶松林土壤养分的影响[J]. 北京林业大学学报,2016,38(7):48-54.
[9] 林春芳,刘井贵,于耀辉,等. 偃松的观赏药用价值及加工利用[J]. 内蒙古林业调查设计,2002(1):49-50.
[10] Hakme E,Lozano A,Ferrer C,et al. Analysis of pesticide residues in olive oil and other vegetable oils[J].TrAC Trends in Analytical Chemistry,2018,100 :167-179.
[11] Visioli F,Franco M,Toledo E,et al. Olive oil and prevention of chronic diseases :summary of an international conference[J]. Nutrition,Metabolism and Cardiovascular Diseases,2018,28(7):649-656.
[12] Estruch R,Ros E,Salas-Salvadó J,et al. Primary prevention of cardiovascular disease with a Mediterranean diet supplemented with extra-virgin olive oil or nuts[J].New England Journal of Medicine,2018,378(25):e34.
[13] 谢振东. 浅论内蒙古大兴安岭偃松矮曲林的价值[J]. 内蒙古林业调查设计,1999(3):39-41.
[14] 尹 君,曹海波,崔克城,等. 偃松的观赏药用价值及加工利用[J]. 特种经济动植物,2002(2):29.
[15] 刘子凡. 种子学[M]. 北京:化学工业出版社,2015.
[16] 姚延梼. 林学概论[M]. 北京:中国农业科学技术出版社,2016.
[17] 徐永波,朱万昌,张 婷. 偃松播种育苗技术[J]. 防护林科技,2016(3):123-125.
[18] 韩建伟,张智勇,王恩茂,等. 大别山五针松种子特性及促进种子萌发的研究[J]. 中国农学通报,2014,30(1):5-10.
[19] Bian F,Su J,Liu W,et al. Dormancy release and germination of Taxus yunnanensis seeds during wet sand storage[J]. Scientific reports,2018,8(1):3205.
[2 0] Naseri B,Tabari M,Phartyal S S,et al. Deep physiological dormancy in seeds of Balkan maple(Acer hyrcanum):a rare tree in the Hyrcanian Mountain forests of Iran[J]. Seed Science and Technology,2018,46(3):
473-482.
[21] Nyamayevu T,Mashingaidze A B. Influence of duration of storage at room temperature,pre-sowing seed treatment and fruit colour harvest index on germination and seedling growth of Jatropha curcas L[J]. Agroforestry systems,2018,92(5):1221-1235.
[22] Sharma B,Gupta R,Sahoo D,et al. Purification of dual-functioning chitinases with hydrolytic and antifreeze activities from Hippophae rhamnoides seedlings[J]. Journal of Proteins and Proteomics,2019 :1-13.
[23] Ibrahim E A. Seed priming to alleviate salinity stress in germinating seeds[J]. Journal of Plant Physiology,2016,192 :38-46.
[24] 闫晓娜,于宏影,丛日征,等. 偃松种子萌发特性的初步研究[J]. 温带林业研究,2018,1(3):49-54.
[25] 朱万昌. 偃松不同催芽方式育苗效果分析[J]. 黑龙江科技信息,2017(6):278-279.
[26] 施季森,何祯祥. 林木无性繁殖及其在遗传改良中的地位[J]. 世界林业研究,1994(1):25-30.
[27] 王树吉. 林业生产中林木无性繁殖技术的应用[J]. 南方农业,2017,11(29):48+50.
[28] 兰彦平,顾万春. 林木无性繁殖研究进展[J]. 世界林业研究,2002(6):7-13.
[29] Pereira-Lorenzo S,Fernandez-Lopez J. Propagation of chestnut cultivars by grafting :methods,rootstocks and plant quality[J]. Journal of Horticultural Science,1997,72(5):731-739.
[30] Sallaku G,Sandén H,Babaj I,et al. Specific nutrient absorption rates of transplanted cucumber seedlings are highly related to RGR and influenced by grafting method,AMF inoculation and salinity[J]. Scientia horticulturae,2019,243 :177-188.
[31] Wang M,Wang Q,Zhang B. A grafting technique for efficiently transplanting transgenic regenerated plants of cotton[M]//Transgenic Cotton. Humana Press,New York,NY,2019 :195-198.
[32] Adams S,Lordan J,Fazio G,et al. Effect of scion and graft type on transpiration,hydraulic resistance and xylem hormone profile of apples grafted on Geneva? 41 and M.9-NICTM 29 rootstocks[J]. Scientia horticulturae,2018,227 :213-222.
[33] Cochetel N,Météier E,Merlin I,et al. Potential contribution of strigolactones in regulating scion growth and branching in grafted grapevine in response to nitrogen availability[J]. Journal of experimental botany,2018,69(16):4099-4112.
[34] Li S,Wang W,Cao Y,et al. How root traits would be affected by soybean yield improvement? An examination of historical cultivars grafted with record-yield cultivar scion[J]. Plant and Soil,2018 :1-12.
[35] 徐连峰,温宝阳,张剑斌,等. 偃松嫩枝嫁接试验[J].防护林科技,2015(9):66-67.
[36] Zhong C S,Lai R L,Liu S C,et al. Effects of light or medium components on gene expression of DFR,LA Rand PPO and content of catechins in calli of Camellianitidissima[J]. Guihaia,2016,36(12):1410-1415.
[37] Jia H,Zou X,Orbovic V,et al. Genome editing in citrus tree with CRISPR/Cas9[M]//Plant Genome Editing with CRISPR Systems. Humana Press,New York,NY,2019 :235-241.
[38] Li T,Jiang Z,Zhang L,et al. Apple(Malus domestica)Md ERF 2 negatively affects ethylene biosynthesis during fruit ripening by suppressing Md ACS 1 transcription[J].The Plant Journal,2016,88(5):735-748.
[39] Yao L,Zhao P,Zhao J,et al. Effects of colchicine on callus induction and differentiation of Erianthus arundinaceus[J]. Agricultural Biotechnology,2018,7(1):1-8.
[40] Li L,Qu F,You C,et al. Selection of callus induction medium for peony by orthogonal design[J]. Journal of Yantai University(Natural Science and Engineering) ,2005,18(1):41-44,49.
[41] Reis R S,de Moura Vale E,Heringer A S,et al.Putrescine induces somatic embryo development and proteomic changes in embryogenic callus of sugarcane[J].Journal of proteomics,2016,130 :170-179.
[42] Liu C,Lu R,Guo G,et al. Transcriptome analysis reveals translational regulation in barley microspore-derived embryogenic callus under salt stress[J]. Plant cell reports,2016,35(8):1719-1728.
[43] Pantha P,Ponniah S K,Ntamatungiro S,et al. Improved embryogenic callus induction and plant regeneration in big bluestem(Andropogon gerardii Vitman) ,a potential bioenergy feedstock[J]. African Journal of Biotechnology,2016,15(39):2166-2171.
[44] Tret’yakova I N,Shuvaev D N. Somatic embryogenesis in Pinus pumila and productivity of embryogenic lines during long-term cultivation in vitro[J]. Russian journal of developmental biology,2015,46(5):276-285.
[45] Menegatti R D,Mantovani A,Navroski M C,et al.Genetic divergence among provenances of Mimosa scabrella Benth. based on seed analysis[J]. Revista Brasileira de Ciências Agrárias,2017,12(3):366-371.
[46] Adu-Bredu S,Ofori D A,R?bild A,et al. Trait variations in 28-year-old teak (Tectona grandis)provenance field trials in Ghana,West Africa[J]. Southern Forests :a Journal of Forest Science,2019,81(1):57-68.
[47] Varghese M,Harwood C E,Hegde R,et al. Evaluation of provenances of Eucalyptus camaldulensis and clones of E. camaldulensis and E. tereticornis at contrasting sites in southern India[J]. Silvae Genetica,2008,57(1-6):170-179.
[48] 张德全,石敬爱,孙景民,等. 关于林木引种技术的探析[J]. 防护林科技,2005(S1):104-105.
[49] Scowcroft P G. Parent tree effects on reestablishment of Acacia koa in abandoned pasture and the influence of initial density on stand development[J]. New forests,2013,44(3):409-426.
[50] 范瑞红,栾连航,倪 薇,等. 偃松引种研究[J]. 林业科技,2009,34(6):5-7.
[51] 翟 瑜,权立森,周 帅. 偃松引种试验研究[J]. 防护林科技,2018(9):21-22.
[52] Gou J Y,Felippes F F,Liu C J,et al. Negative regulation of anthocyanin biosynthesis in Arabidopsis by a miR156-targeted SPL transcription factor [J]. The Plant Cell,2011,23(4):1512-1522.
[53] Bohlenius H,Huang T,Charbonnelcampaa L,et al. CO/FT regulatory module controls timing of flowering and seasonal growth cessation in trees.[J]. Science,2006,312(5776):1040-1043.
[54] 杨传平,刘桂丰,魏志刚,等. 白桦强化促进提早开花结实技术的研究[J]. 林业科学,2004(6):75-78.
[55] 刘福妹,姜 静,刘桂丰. 施肥对白桦树生长及开花结实的影响[J]. 西北林学院学报,2015,30(2):116-120+195.
[56] Liu H,Ren H,Liu Q,et al. Translocation of threatened plants as a conservation measure in China[J]. Conservation biology,2015,29(6):1537-1551.
[57] Lewers K S,Wang S Y,Vinyard B T. Evaluation of blackberry cultivars and breeding selections for fruit quality traits and flowering and fruiting dates[J]. Crop science,2010,50(6):2475-2491.
[58] Kong Y,Llewellyn D,Schiestel K,et al. High tunnels can promote growth,yield,and fruit quality of organic bitter melons(Momordica charantia)in regions with cool and short growing seasons[J]. HortScience,2017,52(1):65-71.
[59] Lindenmayer D B,Franklin J F,L?hmus A,et al.A major shift to the retention approach for forestry can help resolve some global forest sustainability issues[J].Conservation Letters,2012,5(6):421-431.
[60] Wingfield M J,Brockerhoff E G,Wingfield B D,et al.Planted forest health :the need for a global strategy[J].Science,2015,349(6250):832-836.
[61] Ma Y,Wu C,Lin H,et al. Insights for conservation and utilization :Reconstruction of China’s natural resources
management system[J]. International Journal of Science,Technology and Society,2018,6(3):52-62.
[62] 朱万昌. 偃松天然林经营技术[J]. 黑龙江科技信息,2017(10):267.
[63] Wang P,Ren F,Wang Y,et al. Research on the necessity of building national-level grape and cherry germplasm resources bank in Shandong Province[J]. Agricultural Biotechnology,2018,7(2):36-39.
[64] 卢孟柱. 东北林木种质资源保护的几点思考[J]. 温带林业研究,2018,1(3):1-4. scion[J]. Plant and Soil,2018 :1-12.
[35] 徐连峰,温宝阳,张剑斌,等. 偃松嫩枝嫁接试验[J].防护林科技,2015(9):66-67.
[36] Zhong C S,Lai R L,Liu S C,et al. Effects of light or medium components on gene expression of DFR,LAR and PPO and content of catechins in calli of Camellia nitidissima[J]. Guihaia,2016,36(12):1410-1415.
[37] Jia H,Zou X,Orbovic V,et al. Genome editing in citrus tree with CRISPR/Cas9[M]//Plant Genome Editing with CRISPR Systems. Humana Press,New York,NY,2019 :235-241.
[38] Li T,Jiang Z,Zhang L,et al. Apple(Malus domestica)Md ERF 2 negatively affects ethylene biosynthesis during fruit ripening by suppressing Md ACS 1 transcription[J].The Plant Journal,2016,88(5):735-748.
[39] Yao L,Zhao P,Zhao J,et al. Effects of colchicine on callus induction and differentiation of Erianthus arundinaceus[J]. Agricultural Biotechnology,2018,7(1):1-8.
[40] Li L,Qu F,You C,et al. Selection of callus induction medium for peony by orthogonal design[J]. Journal of Yantai University(Natural Science and Engineering) ,2005,18(1):41-44,49.
[41] Reis R S,de Moura Vale E,Heringer A S,et al.Putrescine induces somatic embryo development and proteomic changes in embryogenic callus of sugarcane[J].Journal of proteomics,2016,130 :170-179.
[42] Liu C,Lu R,Guo G,et al. Transcriptome analysis reveals translational regulation in barley microspore-derived embryogenic callus under salt stress[J]. Plant cell reports,2016,35(8):1719-1728.
[43] Pantha P,Ponniah S K,Ntamatungiro S,et al. Improved embryogenic callus induction and plant regeneration in big bluestem(Andropogon gerardii Vitman) ,a potential bioenergy feedstock[J]. African Journal of Biotechnology,2016,15(39):2166-2171.
[44] Tret’yakova I N,Shuvaev D N. Somatic embryogenesis in Pinus pumila and productivity of embryogenic lines during long-term cultivation in vitro[J]. Russian journal of developmental biology,2015,46(5):276-285.
[45] Menegatti R D,Mantovani A,Navroski M C,et al.Genetic divergence among provenances of Mimosa scabrella Benth. based on seed analysis[J]. Revista Brasileira de Ciências Agrárias,2017,12(3):366-371.
[46] Adu-Bredu S,Ofori D A,R?bild A,et al. Trait variations in 28-year-old teak (Tectona grandis)provenance field trials in Ghana,West Africa[J]. Southern Forests :a Journal of Forest Science,2019,81(1):57-68.
[47] Varghese M,Harwood C E,Hegde R,et al. Evaluation of provenances of Eucalyptus camaldulensis and clones of E. camaldulensis and E. tereticornis at contrasting sites in southern India[J]. Silvae Genetica,2008,57(1-6):170-179.
[48] 张德全,石敬爱,孙景民,等. 关于林木引种技术的探析[J]. 防护林科技,2005(S1):104-105.
[49] Scowcroft P G. Parent tree effects on reestablishment of Acacia koa in abandoned pasture and the influence of initial density on stand development[J]. New forests,2013,44(3):409-426.
[50] 范瑞红,栾连航,倪 薇,等. 偃松引种研究[J]. 林业科技,2009,34(6):5-7.
[51] 翟 瑜,权立森,周 帅. 偃松引种试验研究[J]. 防护林科技,2018(9):21-22.
[52] Gou J Y,Felippes F F,Liu C J,et al. Negative regulation of anthocyanin biosynthesis in Arabidopsis by a miR156-targeted SPL transcription factor [J]. The Plant Cell,2011,23(4):1512-1522.
[53] Bohlenius H,Huang T,Charbonnelcampaa L,et al. CO/FT regulatory module controls timing of flowering and seasonal growth cessation in trees.[J]. Science,2006,312(5776):1040-1043.
[54] 杨传平,刘桂丰,魏志刚,等. 白桦强化促进提早开花结实技术的研究[J]. 林业科学,2004(6):75-78.
[55] 刘福妹,姜 静,刘桂丰. 施肥对白桦树生长及开花结实的影响[J]. 西北林学院学报,2015,30(2):116-120+195.
[56] Liu H,Ren H,Liu Q,et al. Translocation of threatened plants as a conservation measure in China[J]. Conservation biology,2015,29(6):1537-1551.
[57] Lewers K S,Wang S Y,Vinyard B T. Evaluation of blackberry cultivars and breeding selections for fruit quality raits and flowering and fruiting dates[J]. Crop science,2010,50(6):2475-2491.
[58] Kong Y,Llewellyn D,Schiestel K,et al. High tunnels can promote growth,yield,and fruit quality of organic bitter melons(Momordica charantia)in regions with cool and short growing seasons[J]. HortScience,2017,52(1):65-71.
[59] Lindenmayer D B,Franklin J F,L?hmus A,et al.A major shift to the retention approach for forestry can help resolve some global forest sustainability issues[J].Conservation Letters,2012,5(6):421-431.
[60] Wingfield M J,Brockerhoff E G,Wingfield B D,et al.Planted forest health :the need for a global strategy[J].Science,2015,349(6250):832-836.
[61] Ma Y,Wu C,Lin H,et al. Insights for conservation and utilization :Reconstruction of China’s natural resources management system[J]. International Journal of Science,Technology and Society,2018,6(3):52-62.
[62] 朱万昌. 偃松天然林经营技术[J]. 黑龙江科技信息,2017(10):267.
[63] Wang P,Ren F,Wang Y,et al. Research on the necessity of building national-level grape and cherry germplasm resources bank in Shandong Province[J]. Agricultural Biotechnology,2018,7(2):36-39.
[64] 卢孟柱. 东北林木种质资源保护的几点思考[J]. 温带林业研究,2018,1(3):1-4. [65] 李旭辉. 浅谈内蒙古大兴安岭林区偃松林经营发展策略[J]. 内蒙古林业调查设计,2014,37(1):75-76.
[66] 孙广清. 浅谈偃松资源的保护与管理[J]. 内蒙古林业调查设计,2009,32(5):104-105.
[67] 许家忠. 偃松资源合理开发利用价值分析[J]. 中国林业企业,2005(5):10-11.
[68] Kim J,Chung M Y,Choi H D,et al. Enzymatic synthesis of structured monogalactosyldiacylglycerols enriched in Pinolenic Acid[J]. Journal of agricultural and food chemistry,2018,66(30):8079-8085.
[69] Chung M Y,Kim I H,Kim B H. preparation of Pinolenic
acid concentrates from pine nut oil fatty acids by solventfractionation[J]. Journal of oleo science,2018,67(11):1373-1379.
[70] 马朝林. 大兴安岭呼中区管护经济撬动“ 金山银山”[N]. 黑龙江经济报,2018-06-12(8).