Lou Yanjing, Pan Yanwen, Gao Chuanyu, Jiang Ming, Lu Xianguo, Xu Y Jun
Northeast Institute of Geography and Agroecology, Chinese Academy of Sciences, Changchun, P. R. China.
School of Renewable Natural Resources, Louisiana State University Agricultural Center, Baton Rouge, United States of America.
PLoS One. 2016 Apr 20;11(4):e0153972. doi: 10.1371/journal.pone.0153972. eCollection 2016.
Flooding regime changes resulting from natural and human activity have been projected to affect wetland plant community structures and functions. It is therefore important to conduct investigations across a range of flooding gradients to assess the impact of flooding depth on wetland vegetation. We conducted this study to identify the pattern of plant height, species richness and aboveground biomass variation along the flooding gradient in floodplain wetlands located in Northeast China. We found that the response of dominant species height to the flooding gradient depends on specific species, i.e., a quadratic response for Carex lasiocarpa, a negative correlation for Calamagrostis angustifolia, and no response for Carex appendiculata. Species richness showed an intermediate effect along the vegetation zone from marsh to wet meadow while aboveground biomass increased. When the communities were analysed separately, only the water table depth had significant impact on species richness for two Carex communities and no variable for C. angustifolia community, while height of dominant species influenced aboveground biomass. When the three above-mentioned communities were grouped together, variations in species richness were mainly determined by community type, water table depth and community mean height, while variations in aboveground biomass were driven by community type and the height of dominant species. These findings indicate that if habitat drying of these herbaceous wetlands in this region continues, then two Carex marshes would be replaced gradually by C. angustifolia wet meadow in the near future. This will lead to a reduction in biodiversity and an increase in productivity and carbon budget. Meanwhile, functional traits must be considered, and should be a focus of attention in future studies on the species diversity and ecosystem function in this region.
据预测,自然和人类活动导致的洪水状况变化会影响湿地植物群落的结构和功能。因此,开展一系列洪水梯度调查以评估洪水深度对湿地植被的影响很重要。我们开展这项研究,旨在确定中国东北洪泛平原湿地沿洪水梯度的植物高度、物种丰富度和地上生物量变化模式。我们发现,优势物种高度对洪水梯度的响应因具体物种而异,即毛果苔草呈二次响应,狭叶甜茅呈负相关,而细叶苔草无响应。物种丰富度在从沼泽到湿草甸的植被带中呈现中间效应,而地上生物量增加。当分别分析群落时,仅地下水位深度对两个苔草群落的物种丰富度有显著影响,对狭叶甜茅群落则无变量影响,而优势物种的高度影响地上生物量。当将上述三个群落归为一组时,物种丰富度的变化主要由群落类型、地下水位深度和群落平均高度决定,而地上生物量的变化则由群落类型和优势物种的高度驱动。这些发现表明,如果该地区这些草本湿地的栖息地持续干涸,那么在不久的将来,两个苔草沼泽将逐渐被狭叶甜茅湿草甸取代。这将导致生物多样性减少,生产力和碳收支增加。同时,必须考虑功能性状,其应成为该地区未来物种多样性和生态系统功能研究的重点关注对象。
