长江干流湿生植物群落分布格局及影响因素
Journal: Ecological Environment and Protection DOI: 10.12238/eep.v5i3.1572
Abstract
自然水文节律是湿生植物进化的主要驱动力,植物因而逐步形成了与周期性水文过程相适应的形态特征、生活史对策和物候节律。本研究首先选择长江泛滥平原14个湖泊及长江干流17个江段开展现场调查,分析湿生植物的水文生态位和水文梯度分布。结果显示,在长江泛滥平原共记录湿生植物31科88属163种,其中湖泊有27科85属115种,干流有31科88属113种。不同水位波动型式的湖泊湿生植物群落特征存在较大差异。影响因素分析结果显示,水位波动、地形(高程)、底质类型、底质营养、土壤含水率和人为干扰度对湿生植物的群落特征均有影响,其中水位波动是最主要的影响因素。
Keywords
长江流域;湿生植物;环境水流;水位;底质
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[1] 董磊,徐力刚,许加星,等.鄱阳湖典型洲滩湿地土壤环境因子对植被分布影响研究[J].土壤学报,2014,51(3):618-626.
[2] 胡振鹏,葛刚,刘成林.鄱阳湖湿地植被退化原因分析及其预警[J].长江流域资源与环境,2015,24(3):381-386.
[3] 刘文治.丹江口库区湿地植被的动态预测及其在面源污染治理中的作用[D].博士学位论文,中国科学院武汉植物园,武汉,2008.
[4] 赵伟华.中国河流底栖动物宏观格局及黄河下游生态需水研究[D].博士学位论文,中国科学院水生生物研究所,武汉,2010.
[5] Van Geest G J,Wolters H,Roozen F C J M,et al.Water-level fluctuations affect macrophyte richness in floodplain lakes [J]. Hydrobiologia, 2005,539(1):239-248.
[6] Wang H Z, Liu X Q, Wang H J. The Yangtze River floodplain: threats and rehabilitation [J].American fisheries society symposium,2016,(84):263-291.
[7] Webb J A, Wallis E M, Stewardson M J.A systematic review of published evidence linking wetland plants to water regime components[J].Aquatic Botany,2012,103:1-14.
[8] Xu X L, Zhang Q, Tan Z Q, et al. Effects of water-table depth and soil moisture on plant biomass, diversity, and distribution at a seasonally flooded wetland of Poyang Lake, China [J]. Chinese Geographical Science, 2015, 25(6): 739-756.
[9] Zhang X K, Liu X Q, Wang H Z. Developing water level regulation strategies for macrophytes restoration of a large river-disconnected lake,China [J].Ecological Engineering, 2014,(68):25-31.
[2] 胡振鹏,葛刚,刘成林.鄱阳湖湿地植被退化原因分析及其预警[J].长江流域资源与环境,2015,24(3):381-386.
[3] 刘文治.丹江口库区湿地植被的动态预测及其在面源污染治理中的作用[D].博士学位论文,中国科学院武汉植物园,武汉,2008.
[4] 赵伟华.中国河流底栖动物宏观格局及黄河下游生态需水研究[D].博士学位论文,中国科学院水生生物研究所,武汉,2010.
[5] Van Geest G J,Wolters H,Roozen F C J M,et al.Water-level fluctuations affect macrophyte richness in floodplain lakes [J]. Hydrobiologia, 2005,539(1):239-248.
[6] Wang H Z, Liu X Q, Wang H J. The Yangtze River floodplain: threats and rehabilitation [J].American fisheries society symposium,2016,(84):263-291.
[7] Webb J A, Wallis E M, Stewardson M J.A systematic review of published evidence linking wetland plants to water regime components[J].Aquatic Botany,2012,103:1-14.
[8] Xu X L, Zhang Q, Tan Z Q, et al. Effects of water-table depth and soil moisture on plant biomass, diversity, and distribution at a seasonally flooded wetland of Poyang Lake, China [J]. Chinese Geographical Science, 2015, 25(6): 739-756.
[9] Zhang X K, Liu X Q, Wang H Z. Developing water level regulation strategies for macrophytes restoration of a large river-disconnected lake,China [J].Ecological Engineering, 2014,(68):25-31.
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