新疆博格达峰南坡岩面生地衣群落特征的研究

买吾拉江·衣沙克; 艾尼瓦尔·吐米尔

doi:10.13568/j.cnki.651094.651316.2020.09.18.0002

您当前的位置：

首页 >

文章列表页 >

新疆博格达峰南坡岩面生地衣群落特征的研究

生命科学与技术 | 更新时间：2026-01-21

- 新疆博格达峰南坡岩面生地衣群落特征的研究
- 新疆博格达峰南坡岩面生地衣群落特征的研究
- 新疆大学学报（自然科学版中英文） 2021年38卷第5期页码：576-587
- 作者机构：
  
  新疆大学生命科学与技术学院
- 作者简介：
- 基金信息：
  
  国家自然科学基金项目（31660009）
- DOI：10.13568/j.cnki.651094.651316.2020.09.18.0002
  中图分类号： Q949.34
- 纸质出版：2021
- 稿件说明：
移动端阅览
[1]买吾拉江·衣沙克,艾尼瓦尔·吐米尔.新疆博格达峰南坡岩面生地衣群落特征的研究[J].新疆大学学报(自然科学版)(中英文),2021,38(05):576-587+615.
[1]买吾拉江·衣沙克,艾尼瓦尔·吐米尔.新疆博格达峰南坡岩面生地衣群落特征的研究[J].新疆大学学报(自然科学版)(中英文),2021,38(05):576-587+615. DOI： 10.13568/j.cnki.651094.651316.2020.09.18.0002.

DOI：10.13568/j.cnki.651094.651316.2020.09.18.0002.

摘要

本文以样点为对象

以岩面生地衣的盖度为指标

采用聚类分析和除趋势对应分析对博格达峰南坡的岩面生地衣群落进行数值分类

应用典范对应分析法研究岩面生地衣种类分布与环境因子间的关系.结果表明:博格达峰南坡岩面生地衣共有68种

隶属于10目17科25属.依据多元数据分析结果

可将该地区岩面生地衣群落划分为4个群丛.群丛1:分布在样点1、4、10和12中

包括20种地衣种类

命名为丽石黄衣+碎茶渍群丛(Assoc. Xanthoria elegans(Link) Th. Fr.+Lecanora argopholis(Ach.) Ach.);群丛2:分布在样点5、6和11中

包括21种

命名为茸刺山褐梅+粉芽石黄衣群丛(Assoc. Montanelia tominii(Oxner) Divakar et al.+Xanthoria sorediata (Vain.)Poelt);群丛3:由样点2、3、7、8、9和13组成.常见的地衣种类有34种

命名为莲座黄茶渍+厚瓣茶衣群丛(Assoc.Candelariella rosulans(Müll.Arg.) Zahlbr.+Lobothallia crassimarginata X.R. Kou&Q. Ren);群丛4:包括样点14、15、16、18、19和20

由41种组成.命名为科罗拉多黄梅+韦伯黄梅群丛(Assoc. Xanthoparmelia coloradoensis(Gyeln.) Hale+Xanthoparmelia weberi(Hale) Hale).相似性分析结果表明:群丛3和群丛4的相似性最高

Whittaker和Jaccard’s相似性指数分别为0.455和0.193;群丛2和群丛4之间的相似性最低

分别为0.272和0.114.Shannon-Weiner物种多样性分析结果显示:群丛4的多样性最大为3.392;群丛3为3.283.典范对应分析结果表明:博格达峰南坡岩面生地衣群落的物种组成及其物种分布主要受到海拔、坡向以及不同地衣种类对环境的适应能力差异等因素的影响.

Abstract

In this paper saxicolous lichen communities in southern slope of Bogda mountains were numerically classified based on species coverage by Cluster Analysis(CA) and Detrended Correspondence Analysis(DCA). The relationship between species distribution of saxicolous lichen and environmental factor was studied by Canonical Correspondence Analysis(CCA). The results show that

there are 68 species belonging to 25 genus in 17 families of 10 orders in saxicolous lichen were distribute southern slope of Bogda mountains. According to quantitative analysis results

the saxicolous lichen communities were classified following four associations. Association 1(Assoc. Xanthoria elegans(Link) Th. Fr.+Lecanora argopholis(Ach.) Ach.)

Association 2(Assoc. Montanelia tominii(Oxner) Divakar et al.+Xanthoria sorediata(Vain.) Poelt)

Association 3(Assoc. Candelariella rosulans(Müll.Arg.) Zahlbr.+Lobothallia crassimarginata X.R. Kou & Q. Ren)

Association 4(Assoc. Xanthoparmelia coloradoensis(Gyeln.) Hale+Xanthoparmelia weberi(Hale) Hale). The similarity analysis result shows that species similarity between Association 3 and 4 was highest

the similarity indexes of whittaker and Jaccadas were 0.455 and 0.193 respectively

the lowest similarity the between Association 2 and 4 were 0.272 and 0.114 respectively.The Shannon-Weiner diversity analysis result shows that

Association 4 has highest species diversity(3.392)

after than Association 3(3.283). The CCA analysis result shows that

the species composition and distribution pattern of the saxicolous lichen communities in southern slope of Bogda Mountains were related with the factors such as elevation

aspect and the adaptability of different types of lichens to the environment.

关键词

Keywords

references

ZACHARIAH S A,VARGHESE S K.The lichen symbiosis:a review[J].International Journal of Scientific Research and Reviews,2018,7(3):1160-1169.

HAWKSWORTH D L,GRUBE M.Lichen redefined as complex ecosystem[J].New Phytologist,2020,227(5):1281-1283.

MASON E H.The biology of lichens[M].5th ed.London:Edward Arnold Publishers Ltd,1983:97-107.

BRODO I M.Substrate ecology[M].New York and London:Academic Press,1973:401-441.

MATERNA J.Oribatid communities(Acari:Oribatida) inhabiting saxicolous mosses and lichens in the Krkonose Mts.(Czech Republic)[J].Pedobiologia,2000,44:40-62.

KUUSINEN N,JUOLA J,KARKI B,et al.A spectral analysis of common boreal ground lichen species[J].Remote Sensing of Environmen,2020,247:111955.

BRUNIALTI G,FRATI L,CALDERISI M,et al.Epiphytic lichen diversity and sustainable forest management criteria and indicators:A multivariate and modeling approach in coppice forest of Italy[J].Ecological Indicators,2020,115:106358.

KOCH NM,MATOS P,BRANQUINHO C,et al.Selecting lichen functional traits as ecological indicators of the effects of urban environment[J].Science of the Total Environmen,2019,654(3):705-713.

PRIETO M,MARTINEZ I,ARAG G,et al.Phylogenetic and functional structure of lichen communities under contrasting environmental conditions[J].Journal of Vegetation Science,2017,28(4):669-681.

BENITEZ A,ARAGON G,GONZALEZ Y,et al.Functional traits of epiphytic lichens in response to forest disturbance and as predictors of total richness and diversity[J].Ecological Indicators,2018,86(3):18-26.

DEGTJARENKO P,MATOS P,MARMOR L,et al.Functional traits of epiphytic lichens respond to alkine dust pollution[J].Fungal Ecology,2018,36(9):81-88.

RAJAKARUNA N,KNUDSEN K,FRYDAY A,et al.Investigation of the importance of rock chemistry for saxicolous lichen communities of the New Idria serpentinite mass,San Benito County,California,USA[J].The Lichenologist,2012,44(5):695-714.

MACDONALD A M,LUNDHOLM J T,CLAYDEN S R.Saxicolous lichens on a Nova Scotian Coastal Barren[J].Northeastern Naturalist,2011,18(4):475-488.

TEMINA M,KIDRON G J.The effect of dew on flint and limestone lichen communities in the Negev Desert[J].Flora,2015,213(5):77-84.

SHUKLA V,BAJPAI R,SEMWAL M,et al.Influence of chemical diversity in determining lichen communities structure along an altitudinal gradient in the Chopta Tungnath,Western Himalaya[J].International Journal of Plant and Environment,2017,3(1):7-13.

PURVIS OW,HALLS C.A review of lichens in metal-enriched environments[J].The Lichenologist,1996,28(6):571-601.

PUY ALQUIZA M J,GOMEZ PERALTA M,MIRANDA-AVILES R,et al.The role of lichen communities in superficial deterioration of their rock substrates:studies of the lichen-rock interface of two historical buildings in the City of Guanajuato,Mexico[J].Acta Universitaria,2015,25(4):35-47.

LIU S,LIU W Y,SHI X M,et al.Dry-hot stress significantly reduced the nitrogenase activity of epiphytic cyanolichen[J].Science of the Total Environment,2018,619-620(4):630-637.

LI S,LIU W Y,SHI X M,et al.Non-dominant trees significantly enhance species richness of epiphytic lichens in subtropical forests of southwest China[J].Fungal Ecology,2019,37(2):10-18.

LI S,LIU W Y,WANG L S,et al.Biomass,diversity and composition of epiphytic macrolichens in primary and secondary forests in the subtropical Ailao Mountains,SW China[J].Forest Ecology and Management,2011,261(11):1760-1770.

LI S,LIU W Y,LI D W.Epiphytic lichens in subtropical forest ecosystems in southwest China:Species diversity and implications for conservation[J].Biological Conservation,2013,159:88-95.

LI S,LIU W Y,LI D W.Bole epiphytic lichens as potential indicators of environmental change in subtropical forest ecosystems in southwest China[J].Ecological Indicators,2013,29(7):93-104.

LI S,LIU W Y,LI D W,et al.Species richness and vertical stratification of epiphytic lichens in subtropical primary and secondary forest in southwest China[J].Fungal ecology,2015,17(10):30-40.

王玉良,郑爱琴,阿不都拉·阿巴斯.鹞落坪树生地衣群落数量分类及多样性[J].广西植物,2011,31(6):747-753.WANG Y L,ZHENG A Q,ABBAS A.Numerical classification and diversity of corticolous lichen communities of Yaoluoping[J].Guihaia,2011,31(6):747-753.(in Chinese)

王玉良,阿地力江·阿不都拉,艾尼瓦尔·吐米尔,等.鹞落坪自然保护区地面生地衣多样性及群落数量特征[J].植物分类与资源学报,2012,34(2):199-207.WANG Y L,ADILIJIAN A,TUMUR A,et al.Floor lichen in Yaolouping national nature reserve of Anhui,China[J].Plant Diversity and Resources,2012,34(2):199-207.(in Chinese)

李英英,杨小波,龙成,等.沿海热带常绿季雨矮林树干附生地衣分布规律[J].广东农业科学,2015(13):146-152.LI Y Y,YANG X B,LONG C,et al.Distribution of trunk epiphytic lichens in the coastal tropical evergreen monsoon elfin forest[J].Guangdong Agricultural Science,2015(13):146-152.(in Chinese)

柳帅,李苏,刘文耀.亚热带山地森林附生地衣的移植生长及其对环境变化的响应[J].菌物学报,2018,37(7):931-939.LIU S,LI S,LIU W Y.Growth of epiphytic lichens and their responses to environmental changes in a subtropical mountain forest[J].Mycosystema,2018,37(7):931-939.(in Chinese)

艾尼瓦尔·吐米尔,阿不都拉·阿巴.乌鲁木齐南部山区岩面生地衣群落特征的研究[J].菌物学报,2009,28(2):178-188.TUMUR A,ABBAS A.Saxicolous lichen community structure and characteristics in mountainous area of southern Urumqi[J].Mycosystema,2009,28(2):178-188.(in Chinese)

艾尼瓦尔·吐米尔,阿不都拉·阿巴斯.新疆托木尔峰国家级自然保护区岩面生地衣群落数量分类及其与环境相关性[J].植物资源与环境学报,2015,24(2):80-87.TUMUR A,ABBAS A.Quantitative classification of saxicolous lichen community in Xinjiang Tumur Peak National Natural Reserve and its correlation with environment[J].Journal of Plant Resources and Environment,2015,24(2):80-87.(in Chinese)

艾尼瓦尔·吐米尔,阿迪力江·阿不都拉,阿不都拉·阿巴斯.新疆阿尔泰山两河源自然保护区岩面生地衣群落特征的研究[J].干旱区资源与环境,2015,29(9):74-79.TUMUR A,ABDULLA A,ABBAS A.Characteristics of saxicolous lichen communities in Altay Two-River Source Natural Resserve in Xinjiang[J].Journal of Arid land Resources and Environment,2015,29(9):74-79.(in Chinese)

艾尼瓦尔·吐米尔,热依木·马木提,阿不都拉·阿巴斯.新疆博格达山岩面生地衣群落结构特征[J].生态学报,2018,38(3):1053-1064.TUMUR A,MAMUT R,ABBAS A.Community structure characteristics of saxicolous lichens in the Bogda mountains of Xinjiang,China[J].Acta Ecologica Sinica,2018,38(3):1053-1064.(in Chinese)

阿依努尔·吐松,阿不都拉·阿巴斯,艾尼瓦尔·吐米尔.新疆石人沟山区岩面生地衣群落分布格局的环境解释[J].广西植物,2018,38(11):1454-1462.TURSUN A,ABBAS A,TUMUR A.Environmental interpretation of saxicolous lichen distribution pattern in Shirengou mountains,Xinjiang,China[J].Guihaia,2018,38(11):1454-1462.(in Chinese)

帕丽旦·艾海提,阿不都拉·阿巴斯,艾尼瓦尔·吐米尔.新疆博格达山北坡岩面生壳状地衣群落特征及其与环境因子的相关性[J].植物资源与环境学报,2018,27(4):21-30.AHAT P,ABBAS A,TUMUR A.Characteristics of saxicolous crustose lichen community on northern slope of Bogda Mountain in Xinjiang and its correlation with environmental factors[J].Journal of Plant Resources and Environment,2018,27(4):21-30.(in Chinese)

任泉,蔡新婷,马文惠.新疆达坂城地区52a来气温和降水变化特征分析[J].干旱区资源与环境,2011,25(10):116-121.REN Q,SAI X T,MA W H.Changing feature of temperature and precipitation in recent 52 years in Dabancheng region[J].Arid Zone Resources and Environment,2011,25(10):116-121.(in Chinese)

伍光和,上田丰,仇家琪.天山博格达山脉的自然地理特征及冰川发育的气候条件[J].冰川冻土,1983,5(3):5-16.WU G H,SHANG T F,QIU J Q.Physical Geographic features and climatic conditions of Glacial development in Bogda area,Tianshan[J].Journal of Glaciology and Geocryology,1983,5(3):5-16.(in Chinese)

阿不都拉·阿巴斯,吴继农.新疆地衣[M].乌鲁木齐:新疆科技卫生出版社,1998:1-178.ABBAS A,WU J N.Lichens of Xinjiang[M].Urumqi:Science Technology&Hygiene Publishing House of Xinjiang,1998:1-178.(in Chinese)

郭水良,于晶,陈国奇.生态学数据分析方法、程序与软件[M].北京:科学出版社,2015:129-175.GUO S L,YU J,CHEN G Q.Ecological data analysis-methods,programs and software[M].Beijing:Sciences Press,2015:129-175.(in Chinese)

张金屯.数量生态学（第二版）[M].北京:科学出版社,2011.ZHANG J D.Numerical Ecology(Second edition)[M].Beijing:Sciences Press,2011.(in Chinese)

CHEVAN A,SUTHERLAND M.Hierarchical Partitioning[J].The American Statistician,1991,45(2):90-96.

HALE M E.The biology of lichens[M].London:Edward Arnold Publishers Ltd,1983:97-107.

SPITALE D,NASCIMBENE J.Spatial structure,rock type,and local environmental conditions drive moss and lichen distribution on calareous boulders[J].Ecological Research,2012,27(3):633-638.

FODOR E.Analysis of the saxicolous lichen communities in Macin Mountains National Park[J].Acta Horti Botanici Bmurestiensis,2015,42(1):67-86.

MONTE M.The influence of environmental conditions on the reproduction and distribution of epilithiclichens[J].Aerobiologia,1993,9(2/3):169-179.

浏览量

213

下载量

CSCD

文章被引用时，请邮件提醒。

提交

工具集

关联资源

暂无数据