[1]张雪梅.国家二级保护植物台湾水青冈的研究进展[J].黑龙江农业科学,2017,(05):148-151.[doi:10.11942/j.issn1002-2767.2017.05.0148]
 ZHANG Xue-mei.Research Progress of Fagus hayatae:Plant of the ?Second-class Protection in China[J].HEILONGJIANG AGRICULTURAL SCIENCES,2017,(05):148-151.[doi:10.11942/j.issn1002-2767.2017.05.0148]
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国家二级保护植物台湾水青冈的研究进展

《黑龙江农业科学》[ISSN:1002-2767/CN:23-1204/S] 卷: 期数: 2017年05期 页码: 148-151 栏目: 出版日期: 2017-05-10
Title:
Research Progress of Fagus hayatae:Plant of the ?Second-class Protection in China
文章编号:
1002-2767(2017)05-0148-04
作者:
张雪梅
西华师范大学 生命科学学院,四川 南充 637009
Author(s):
ZHANG Xue-mei
College of Life Science,China West Normal University,Nanchong,Sichuan 637009
关键词:
台湾水青冈生态学特征形态学特征系统学遗传多样性
Keywords:
Fagus hayatae ecological characteristic morphology characteristic phylogeny genetic diversity
分类号:
S792.16
DOI:
10.11942/j.issn1002-2767.2017.05.0148
文献标志码:
A
摘要:
台湾水青冈是中国的特有树种。该物种主要分布于中国台湾的北部山区、湖北、四川、甘肃、陕西的大巴山脉及浙江的清凉峰、永嘉的四海山和庆元等地。由于近年来全球气候变暖,人类干扰加剧,加之其更新能力弱,已被IUCN定为国家2级重点保护植物渐危,亟待加强保护。为进一步深入研究台湾水青冈,对台湾水青冈各群落的生态学特征的研究、形态学研究、系统学研究和遗传多样性研究做了相关综述。
Abstract:
Fagus hayatae ?is one of the second class nationally protected plants which endemic to China.It distributed in Taiwan,Hubei,Sichuan,Shanxi and Zhejiang.Due to the warming climate and destruction of natural habitats,the natural regeneration of its wild population is difficult,which makes it had been listed by IUCN as an endangered species and it should be strengthen protected.In order to intensive study of Fagus hayatae,some progress of ecological and morphology,the phylogeny and genetic diversity of Fagus hayatae?were reviewed.This program aims to propose the theoretical base for intensive study of Fagus hayatae.

参考文献/References:

[1]Huang Chingchieu,Chang Yongtian,Bruce Bartholo.[J].Flora of China[EB/OL].[2017-03-18].http://www.efloras.org/florataxon.aspx?flora_id=3&taxon_id=10338.

[2]翁东明,张磊,陈晓栋,等.清凉峰自然保护区台湾水青冈群落物种多样性研究[J].浙江林业科技,2009,29(4):1-6.
[3]张方钢.浙江清凉峰台湾水青冈林的群落学特征[J].浙江大学学报,2001,27(4):403-406.
[4]陈子英,谢长富,毛俊杰,等.冰河孑遗的夏绿林-台湾水青冈[M].台湾:行政院农业委员会林务局,2011.
[5]郭瑞,翁东明,金毅,等.浙江清凉峰台湾水青冈种群2006-2011年更新动态及其与生境的关系[J].广西植物,2014,34(4):478-483.
[6]何俊,汪正祥,雷耘,等.七姊妹山自然保护区台湾水青冈林群落学特征研究[J].华中师范大学学报: 自然科学版,2008,42(2):272-277.
[7]丁文勇,翁东明,金毅,等.清凉峰自然保护区台湾水青冈群落优势种群密度制约效应分析[J].浙江大学学报,2014,41(5):583-592.
[8]熊莉军,郭柯.四川大巴山巴山水青冈群落的物种多样性特征[J].生物多样性,2007,15(4):400.
[9]李大东,董廷发,陈坚,等.四川米仓山自然保护区台湾水青冈群落学特征及多样性研究[J].西北植物学报,2016,36(1):0174-0182.
[10]李金昕,吴定军,章世鹏,等.四川米仓山自然保护区台湾水青冈种群生命表及动态分析[J].植物研究,2016,36(1):68-74.
[11]蒙振思,向卫,黄尤优,等.四川米仓山自然保护区台湾水青冈种群与土壤化学特征的关系研究[J].西北植物学报,2016,36(8):1671-1677.
[12]吉成均,沈海,方精云.基于RAPD标记的我国水青冈属植物的分类研究[J].北京大学学报:自然科学版,2002,38(6):817-822.
[13]方精云,费松林,赵坤,等.浙江省水青冈属植物的解剖特征及其分类学意义[J].北京大学学报:自然科学版,2000,36(4):509-516.
[14]陈小勇.青冈生态遗传学研究[D].上海:上海华东师范大学,1995.
[15]李俊清.中国水青冈种内种间遗传多样性研究[J].生物多样性,1996,4(2):63-68.
[16]李建强,王恒昌,李晓东,等.基于细胞核rDNA ITS 片段的水青冈属分子系统发育[J].武汉植物研究,2003,2l(1):31-36.
[17]Sumiekato,Takayoshikoike.Analysis of mitochondrial DNA of an endangered beech pecies,Fagus hayatae Palibin ex Hayata[J].New Forests,2000,19:109-114.
[18]曹小燕,曹明,邓敏.中国水青冈属(壳斗科)叶结构及分类学意义[J].植物分类与资源学报,2014,36(1):1-6.
[19]张雪梅.米心水青冈和台湾水青冈叶解剖结构比较研究[J].黑龙江农业科学,2016(3):89-92.
[20]张雪梅.台湾水青冈和米心水青冈的花粉形态比较研究[J].现代农业科技,2016(8):154-155.
[21]王东,张雪梅,甘小洪,等.2种水青冈属植物次生木质部导管分子形态特征比较观察[J].中国农学通报,2016(4):14-20.
[22]王东,张雪梅,吴定军,等.台湾水青冈和米心水青冈叶表皮微形态特征的比较[J].安徽农业科学,2016(6):26-30.
[23]Demesure B,Comps B,Petit R J.Chloroplast DNA phylogeography of the common beech(Fagus sylvatica??L.) in Europe[J].Evolution,1996,50:2515-2520.
[24]Sander T,Konig S,Rothe G M,et al.Genetic variation of European beech(Fagus sylvatica?L.) along an altitudinal transect at mount Vogelsberg in Hesse,Germany[J].Molecular Ecology,2000,9: 1349-1361.[25]Tanaka K,Tsumura Y,Nakamura T.Development and polymorphism of microsatellite markers forFagus crenata and the closely related species,F.japonica[J].Theoretical and Applied Genetics,1999,99:11-15.
[26]Van der Knaap W O,Van Leeuwen J F N,Finsinger W,et al.Migration and population expansion ofAbies,Fagus,Picea,andQuercus since 15000 years in and across the Alps,based on pollen-percentage threslhold values[J].Quaternary Science Reviews,2005,24:645-680.
[27]Asuka Y,Tomaru N,Nisimura N,et al.Heterogeneous genetic structure in aFagus crenata population in an old-growth beech forest revealed by microsatellite markers[J].Molecular Ecology,2004,13:1241-1250.
[28]Asuka Y,Tani N,Tsumura Y,et al.Development and characterization of microsatellite markers forFagus crenata Blume[J].Molecular Ecology Notes,2004b,4:101-103.
[29]Fujii N,Tomaru N,Okuyama K,et al.Chlroplast DNA phylogeography ofFagus crenata(Fagaceae) in Japan[J].Plant Systematic and evolution,2002,232:21-33.
[30]Rowden A,Robertson A,Allnutt T,et al.Conservation genetics of Mexican beech,Fagus grandifolia?var.Mexicana[J].Conservation Genetics,2004,5:475-484.
[31]Vettori C,Vendramin G G,Anzidei M,et al.Geographic Distribution of chloroplast variation in Italian populations of beech (Fagus sylvatica?L.) [J].Theoretical and Applied Genetics,2004,109: 1-9.
[32]Tomura N,Takhashi M,Tsumura Y,et a1.Intraspecific variation and phylogeographic atterns ofFagus crenata mitpchondrial DNA[J].American Journal of Botany,1998,85(5):629.
[33]Denk T,Grimm G W,Stoegerer K,et al.The evolutionary history ofFagus in western Eurasia: Evidence from genes,morphology and the fossil record[J].Plant Systematic and Evolution,2002,232:213-236.
[34]李俊清,吴刚.四川南江两种水青冈种群遗传多样性初步研究[J].生态学报,1999,19(1):42-49.
[35]李景文,李俊清.欧亚大陆水青冈种群遗传多样性对比分析[J].北京林业大学学报,2005,27(5):1-9.
[36]Ju Liping,Shih Hueichuan,Chiang Yuchung.Microsatellite primers for the endangered beech tree,Fagus hayatae(Fagaceae)[J].American Journal of Botany,2012,99(11):453-456.
[37]郑芬.福建省明溪组早更新世抱粉组合特征[J].中国区域地质,1989(3):226-232.
[38]雷作淇,郑卓.雷州半岛田洋火山口盆地第四纪抱粉植物群与古气候[J].植物学报,1993(S):128-138.
[39]王丽娜.山毛榉科水青冈属的分子系统发育关系和生物地理研究[D].武汉:华中师范大学,2012.

备注/Memo

收稿日期:2017-03-18

作者简介:张雪梅(1982-),女,四川省渠县人,博士,讲师,从事系统分类学研究。E-mail:zhangmei103127@sina.com。

更新日期/Last Update: 2017-08-11