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广西师范大学学报(自然科学版) ›› 2018, Vol. 36 ›› Issue (1): 132-141.doi: 10.16088/j.issn.1001-6600.2018.01.020
张浩然1,蔡德所1*,林金城2,沈炜1,黄焜1
ZHANG Haoran1,CAI Desuo1*, LIN Jincheng2,SHENG Wei1,HUANG Kun1
摘要: 为研究龙江和刁江底栖硅藻群落结构特征的主要影响因子,采集龙江和刁江共32个样点的硅藻样本,并记录11项河流相关环境理化指标。经过实验室处理及硅藻种类鉴定,2条江中共发现硅藻33属179种,其中:龙江全流域共鉴定出硅藻30属141种,刁江全流域共鉴定出硅藻24属138种。典范对应分析CCA显示2条河流中的硅藻群落都受到水质因子和地理因子的共同作用,前4排序轴累积解释了物种与环境之间关系的60.5%,其中前2排序轴一共解释了硅藻—环境变量的36%,并且物种分布与环境梯度排序轴的相关系数分别是0.948和0.919,较好地反映硅藻—环境因子之间的关系。测试各个环境变量的条件效应并进行蒙特卡罗置换检验,结果表明:水体的pH值、电导率、总磷、海拔、水温、流速是影响该地区河流硅藻群落结构的显著影响因子。
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[1] ANTONELLI M,WETZEL C E,ECTOR L,et al. On the potential for terrestrial diatom communities and diatom indices to identify anthropic disturbance in soils[J]. Ecological Indicators,2017,75:73-81. [2] BELLINGER B J,COCQUYT C,O’REILLY C M. Benthic diatoms as indicators of eutrophication in tropical streams[J]. Hydrobiologia,2006,573(1):75-87. [3] 赵湘桂,蔡德所,刘威,等. 漓江水质硅藻生物监测方法研究[J]. 广西师范大学学报(自然科学版),2009,27(2):142-147. [4] 刘麟菲,宋佳,王博涵,等. 渭河流域硅藻群落特征及水生态健康评价[J]. 环境科学研究,2015,28(10):1560-1569. [5] POTAPOVA M G,CHARLES D F. Benthic diatoms in USA rivers: distributions along spatial and environmental gradients[J]. Journal of Biogeography,2002,29(2):167-187. [6] 郭云. 乌江中上游底栖硅藻与水环境因子关系定量研究[D]. 贵阳:贵州师范大学,2008. [7] POTAPOVA M,CHARLES D F. Distribution of benthic diatoms in U.S. rivers in relation to conductivity and ionic composition[J]. Freshwater Biology,2003,48(8):1311-1328. [8] KUMAR S,SPAULDING S A,STOHLGREN T J,et al. Potential habitat distribution for the freshwater diatom Didymosphenia geminata in the continental US.[J]. Frontiers in Ecology and the Environment,2009,7(8):415-420. [9] 黎佛林,蔡德所,唐鑫,等. 硅藻指数筛选及水质多指标评价体系构建[J]. 长江科学院院报,2015,32(8):26-33. [10] 李秋华,韩博平. 基于CCA的典型调水水库浮游植物群落动态特征分析[J]. 生态学报,2007,27(6):2355-2364. [11] 莫善宝. 河池市志[M]. 南宁:广西人民出版社,1996. [12] Water quality-Guidance standard for the routine sampling and pretreatment of benthic diatoms from rivers: EN 13946:2003[S/OL].[2017-06-25]. http://www.doc88.com/p-9512810484971.html. [13] Water quality-Guidance standard for the identification,enumeration and interpretation of benthic diatom samples from running waters: EN 14407:2004[S/OL].[2017-06-25]. http://www.doc88.com/p-7864943235665.html. [14] KRAMMER K,LANGE-BERTALOT H. Bacillariophyceae[M]. Berlin: Spektrum Akademischer Verlag GmbH Heidelberg,2000. [15] LAVOIE I,DILLON P J,CAMPEAU S. The effect of excluding diatom taxa and reducing taxonomic resolution on multivariate analyses and stream bioassessment[J]. Ecological Indicators,2009,9(2):213-225. [16] PAN Y,STEVENSON R J,HILL B H,et al. Spatial patterns and ecological determinants of benthic algal assemblages in mid-atlantic streams,USA[J]. Journal of Phycology,2010,35(3):460-468. [17] DELGADO C,PARDO I. Comparison of benthic diatoms from Mediterranean and Atlantic Spanish streams: Community changes in relation to environmental factors[J]. Aquatic Botany,2015,120:304-314. [18] CHEN X,QIN Y,Stevenson M A,et al. Diatom communities along pH and hydrological gradients in three montane mires,central China[J]. Ecological Indicators,2014,45(45):123-129. [19] 刘园园,陈光杰,施海彬,等. 星云湖硅藻群落响应近现代人类活动与气候变化的过程[J]. 生态学报,2016,36(10):3063-3073. [20] URREA G,SABATER S. Epilithic diatom assemblages and their relationship to environmental characteristics in an agricultural watershed (Guadiana River,SW Spain)[J]. Ecological Indicators,2009,9(4):693-703. [21] 陈向,周伟奇,李伟峰. 北京河流底栖硅藻沿城乡梯度带空间分布及其季节变化[J]. 生态学报,2017,37(10):3586-3595. [22] 邓培雁,雷远达,刘威,等. 桂江流域附生硅藻群落特征及影响因素[J]. 生态学报,2012,32(7):2196-2203. [23] 闵文武,韩洁,王培培,等. 太子河流域硅藻群落与驱动因子的定量关系[J]. 环境科学研究,2016,29(5):672-679. [24] SOININEN J,PAAVOLA R,MUOTKA T. Benthic diatom communities in boreal streams: community structure in relation to environmental and spatial gradients[J]. Ecography,2004,27(3):330-342. |
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