湿地水文研究进展综述

湿地是地球上一种重要的生态系统,具有巨大的环境功能和环境效益。水文是湿地中最重要的过程,是决定产生和维持湿地典型类型和湿地过程的重要因素。因此,湿地水文过程的研究是湿地研究的核心内容,是当前国内外湿地研究的热点。本文介绍了湿地水文及其对湿地功能等的重要性,综述了当前国内外在湿地水文状态与生态环境的关系、水流运动、水文模型与水文观测等方面的研究进展,并提出了今后我国亟待加强的湿地水文研究领域。     

Hydraulic analysis of cell-network treatment wetlands

When individual cells of a multiple-cell treatment wetland are hydraulically connected, the wetland has a cell-network structure. The hydraulic performance of treatment wetlands is often characterized using tracer residence time distributions (RTDs) measured between the wetland inlet and outlet, such that the wetland is considered as a single hydraulic unit, regardless of the extent of networking between individual internal cells. This work extends the single hydraulic unit approach to enable the specification of moments and RTD parameters for individual cells, or clusters of cells, within the cell-network based on inert tracer tests with injection only at the network inlet. Hydraulic performance is quantified in terms of hydraulic efficiency and travel time dimensionless variance using both the method of moments and RTD modeling. Cell-network analysis was applied to a case study from the Orlando Easterly Wetland (OEW), demonstrating the improvement in hydraulic performance of individual wetland cells following wetland restoration activities. Furthermore, cell-network analysis indicated that the location of water quality sampling station locations within the cell network can significantly affect the accuracy of pollutant removal effectiveness estimation when the individual sample station RTD does not represent the hydraulic unit RTD. At the OEW, it was determined that historical nutrient removal effectiveness estimation may be underestimated for one area and overestimated for another, and recommendations were provided for sample station locations to minimize future performance estimation errors.     

Impact of climate change on wetland ecosystems: A critical review of experimental wetlands

Climate change is identified as a major threat to wetlands. Altered hydrology and rising temperature can change the biogeochemistry and function of a wetland to the degree that some important services might be turned into disservices. This means that they will, for example, no longer provide a water purification service and adversely they may start to decompose and release nutrients to the surface water. Moreover, a higher rate of decomposition than primary production (photosynthesis) may lead to a shift of their function from being a sink of carbon to a source. This review paper assesses the potential response of natural wetlands (peatlands) and constructed wetlands to climate change in terms of gas emission and nutrients release. In addition, the impact of key climatic factors such as temperature and water availability on wetlands has been reviewed. The authors identified the methodological gaps and weaknesses in the literature and then introduced a new framework for conducting a comprehensive mesocosm experiment to address the existing gaps in literature to support future climate change research on wetland ecosystems. In the future, higher temperatures resulting in drought might shift the role of both constructed wetland and peatland from a sink to a source of carbon. However, higher temperatures accompanied by more precipitation can promote photosynthesis to a degree that might exceed the respiration and maintain the carbon sink role of the wetland. There might be a critical water level at which the wetland can preserve most of its services. In order to find that level, a study of the key factors of climate change and their interactions using an appropriate experimental method is necessary. Some contradictory results of past experiments can be associated with different methodologies, designs, time periods, climates, and natural variability. Hence a long-term simulation of climate change for wetlands according to the proposed framework is recommended. This framework provides relatively more accurate and realistic simulations, valid comparative results, comprehensive understanding and supports coordination between researchers. This can help to find a sustainable management strategy for wetlands to be resilient to climate change.     

长江—黄河上游源区沼泽湿地遥感动态特征及其成因分析

通过两个时像的对比解译、调查验证和研究,表明长江-黄河上游源区20世纪90年代初至21世纪初的10年中,沼泽湿地总体呈减少趋势。由于自然和人为综合因素的长期作用,使本区沼泽湿地处于萎缩状态。     

基于RS和GIS的大庆市湿地景观动态研究

根据1992,1996,2001和2003年4期遥感影像,利用遥感和地理信息系统空间分析方法,研究了1992-2003年间大庆市湿地动态变化及成因,并利用马尔可夫模型对大庆湿地未来变化趋势进行了预测.分析结果显示:①2003年大庆湿地总面积为4255.30 km2,相比1992年减少了413.35 km2,其中天然湿地面积减少显著,共减少了480.56 km2;②未来10年内大庆各湿地面积占大庆市总面积的百分比分别为,湖泊:7.862 3%、沼泽:8.633 7%、河流:0.823 3%、滩地:1.558 7%、水田:2.754 7%、库塘:0.317 4%.     

Conservation of wetlands especially as waterfowl habitat in northeast China

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河北滦南滨海湿地土壤重金属污染特征及评价

滨海湿地作为一种具有多种功能和蕴含丰富资源的生态系统，是人类重要的生存环境之一。湿地土壤重金属污染问题是当前湿地科学领域内的热点话题。为研究河北省滦南滨海湿地重金属污染特征，本文利用单因子指数法、内梅罗综合污染指数法和地累积指数法对重金属污染状况进行评价。结果表明：铜（Cu）、锌（Zn）、铬（Cr）、铅（Pb）、镉（Cd） 的单因子质量指数均小于1.0，说明研究区重金属含量小于土壤背景值，土壤未受到污染。内梅罗综合指数法Cu、Zn、Cr、Pb、Cd 指数均小于0.7，表明滦南湿地土壤重金属污染水平处于未污染。湿地各区域重金属地累积指数为无污染或较轻污染，其中Pb 污染为较轻污染，监测点主要与人类活动有关。利用地累积指数分析认为Pb 在湿地北区为轻度污染水平，经调查发现该区域主要为居民点，人类活动频繁，其他重金属均无污染。河北滦南滨河湿地土壤未受到重金属污染，湿地土壤环境较好。     

典型高光谱图像端元提取算法在黄河口湿地应用评价研究

端元提取是混合像元分解的基础,也是高光谱遥感的研究热点。对于特定区域的高光谱图像应该使用哪种端元提取算法,需要对各种端元提取算法进行客观地评价。作者针对黄河口湿地CHRIS高光谱图像,使用了重建图像与原图像的均方根误差、有效端元数量两个指数对PPI、N-FINDR、VCA、OSP、IEA和SISAL六种典型的端元提取算法进行了评价。结果表明,SISAL算法重建误差最小,仅有其他算法误差的10%~28%;OSP算法识别了具有物理意义的6种有效端元,多于其他算法识别的地物类型,而SISAL算法识别的端元缺乏物理意义。     

Distribution and invasion of Spartina alterniflora within the Jiaozhou Bay monitored by remote sensing image

Spartina alterniflora as an alien invasive plant, poses a serious threat to the ecological functions of the coastal wetland of the Jiaozhou Bay. As of 2019, the distribution area of S. alterniflora in the Jiaozhou Bay has reached more than 500 hm². For this reason, combined with field surveys, remote sensing monitoring of the invasion S.alterniflora in the Jiaozhou Bay has been carried out. To accurately identify S. alterniflora within the Jiaozhou Bay coastal wetland, we used a new m...     

Denitrification potential of marsh soils in two natural saline-alkaline wetlands

Little information is available on denitrification potential of marsh soils in natural saline-alkaline wetlands. The denitrification potentials of an open wetland in the floodplain(Erbaifangzi wetland) and a closed wetland(Fulaowenpao wetland) in backwater areas in Jilin Province of Northeast China were monitored by an anaerobic incubation at 30℃ for 25 days. Our results showed that the relative denitrification index(RDI) increased gradually with incubation time, and showed a rapid increase in the first 5 days of incubation. The RDI values declined quickly from surface soils to subsurface soils and then kept a small change in deeper soils along soil profiles over the incubation time. Denitrification proceeded much faster in the top 20 cm soils of open wetland than in the closed wetland, whereas no significant differences in RDI values were observed in deeper soils between both wetlands. The RDIs were significantly negatively correlated with bulk density and sand content, while a significantly positive correlation with clay content, soil organic matter, total nitrogen and phosphorous. The maximum net NO–3-N loss through denitrification in 1 m depth were higher in the open wetland than the closed wetland with higher soil pH values. Future research should be focused on understanding the influencing mechanisms of soil alkalinity.