呼伦湖湿地气候变化及其对水环境的影响

利用呼伦湖湿地所在地区的气象站1961—2005年的气温、降水和蒸发量资料及呼伦湖区域1959—2006年的水体面积、水位深度、水质状况等资料,分析了气候变化及其对水环境的影响.结果表明:呼伦湖地区近45 a来的气候变化呈现气温升高、降水减少、蒸发量增大的暖干化趋势,其空间变化具有较好的一致性,地形是影响气候空间变化的主要因子;呼伦湖地区气候暖干化是造成水资源短缺和水环境恶化及周边地区生态环境荒漠化等问题的重要原因;显著的气候暖干化加速了湖水水面积减少、水位下降和水环境恶化.     

近三十年长江口横沙岛潮滩湿地地貌演变对河口工程的响应

由于人类活动的不断加剧和入海泥沙的日益减少,我国部分河口潮滩湿地已面临严重的侵蚀退化风险,给沿岸城市发展带来巨大威胁,实现河口潮滩湿地的科学管理和合理利用极为紧迫。本研究利用1990—2017年多期长江口深水航道北导堤工程与横沙岛成陆-促淤工程前后区域海图地形数据,使用ArcGIS地理配准、等深线数字化、数字高程模型建立和叠加分析等功能分析长江口横沙岛潮滩湿地地貌、等深线形态与地形冲刷-淤积厚度的时空变化过程。研究结果表明,长江口深水航道北导堤工程与横沙岛成陆-促淤工程的实施,改变了横沙岛潮滩湿地周边水域的水文泥沙动力条件,使得地貌冲淤时空特征发生变化：1）深水航道北导堤工程与横沙岛成陆-促淤工程的实施极大地推动了特征等深线的向外延伸,其中0、2和5 m等深线包络面积年均最大增长率（2009—2013年）分别是工程前（1990—1998年）的42.13、280.73和235.65倍,0~1、1~2、2~3、3~4及4~5 m等深线包络体积整体呈现1990—1998年、1998—2009年、2009—2013年增加,2013—2017年较为明显减少,潮滩湿地"长高不长大"的趋势;2）冲刷-淤积频率特征表现为工程前微淤（1990—1998年）、工程后微淤（1998—2009年）、淤积增加明显（2009—2013年）及微冲（2013—2017年）,长江入海泥沙通量的减少对2 m等深线以深区域的潮滩发育可能产生一定影响。     

Comparison and assessment of NDVI time series for seasonal wetland classification

Satellite-based wetland mapping faces challenges due to the high spatial heterogeneity and dynamic characteristics of seasonal wetlands. Although normalized difference vegetation index (NDVI) time series (NTS) shows great potential in land cover mapping and crop classification, the effectiveness of various NTS with different spatial and temporal resolution has not been evaluated for seasonal wetland classification. To address this issue, we conducted comparisons of those NTS, including the moderate-resolution imaging spectroradiometer (MODIS) NTS with 500?m resolution, NTS fused with MODIS and Landsat data (MOD_LC8-NTS), and HJ-1 NDVI compositions (HJ-1-NTS) with finer resolution, for wetland classification of Poyang Lake. Results showed the following: (1) the NTS with finer resolution was more effective in the classification of seasonal wetlands than that of the MODIS-NTS with 500-m resolution and (2) generally, the HJ-1-NTS performed better than that of the fused NTS, with an overall accuracy of 88.12% for HJ-1-NTS and 83.09% for the MOD_LC8-NTS. Future work should focus on the construction of satellite image time series oriented to highly dynamic characteristics of seasonal wetlands. This study will provide useful guidance for seasonal wetland classification, and benefit the improvements of spatiotemporal fusion models.     

基于遥感影像的三星工业园区建设进展及区域功能置换监测研究

基于2011年5月至2014年4月的多源、多时相遥感影像和园区规划数据,利用摄影测量、图像处理、影像解译等相关技术,对三星工业园区进行建设进展、区域功能置换情况的统计和对比分析。研究结果表明:监测区域在开工建设的一年半时间内,一期项目综合保税区主体结构已初具规模,但是建设进展仍然比预期滞后。区域功能置换方面,由原来传统的粗放型农业用地结构变成了一个集电子信息、科技研发、保税物流、虚拟口岸为一体的自由贸易示范区。     

基于RS和GIS的日照万平口潟湖湿地景观格局演变研究

以日照万平口潟湖湿地为研究对象,利用遥感影像及GIS技术,选取景观格局指数,对1990-2014年万平口潟湖湿地的景观格局变化进行研究。结果表明:自1990年到2014年,潟湖浅滩、绿地、建设用地的面积显著增加,养殖池和耕地在潟湖湿地范围内已全部转化为潟湖浅滩、绿地和建设用地。潟湖湿地的景观格局指数表明,湿地景观类型多样性呈下降趋势,均匀度指数增加,聚集度和连通性显著上升。从景观格局分析的结果来看,奥林匹克水上公园的建设在一定程度上优化了万平口潟湖湿地的景观格局,湿地景观破碎化程度有所下降,为了更好地开发和利用潟湖湿地资源,提出了一些保护对策和建议。     

人工湿地在城市景观水系水质净化中的应用研究——以贵州六盘水西铺河为例

针对农村生活源与农业面源污染的水体,合理利用自然地形,采用多级潜流人工湿地与阶梯多级表面流湿地复合的湿地水净化系统,并选取合适的湿地植物,保障人工湿地的正常代谢。设计人工湿地处理能力为3.5万m3/d,人工湿地面积45 hm2。经过人工湿地处理后可基本实现水质净化目标,使其达到景观水体标准,不仅有效保障处理水质,可营造城市水景,通过充分发挥湿地生态服务功能,改善研究区所在地生态环境。     

东营市黄河三角洲湿地保护存在问题及保护对策

湿地在物种多样性、调节气候、含蓄水源等多方面的作用,一直受到我国政府和国际社会的密切关注。中央和地方政府在湿地保护、生态修复、科研创新、模式建设、规划设计等多方面作出努力,以实现其持续性存在和生态功能的提升。但由于自然、社会、经济、体制等多因素的影响,山东省东营市黄河三角洲湿地保护工作受到的制约较大,存在湿地退化程度较为严重,生物多样性保护压力大,生态功能难以充分利用等问题。该文通过梳理山东省东营市黄河三角洲湿地保护存在的各种问题,为实现生态保育、社会共享和经济发展的综合效益提出可行性较强的建议,以期为湿地保护工作的有效开展提供借鉴和参考。     

Regulation of peatland evaporation following wildfire; the complex control of soil tension under dynamic evaporation demand

The capability of peatland ecosystems to regulate evapotranspiration (ET) following wildfire is a key control on the resilience of their globally important carbon stocks under future climatic conditions. Evaporation dominates post-fire ET, with canopy and sub-canopy removal restricting transpiration and increasing evaporation potential. Therefore, in order to project the hydrology and associated stability of peatlands to a diverse range of post-fire weather conditions and future climates the regulation of evaporation must be accurately parameterised in peatland ecohydrological models. To achieve this, we measure the surface resistance (r_s) to evaporation over the growing season one year post-fire within four zones of a boreal peatland that burned to differing depths, relating r_s to near surface soil tensions. We show that the magnitude and temporal variability in r_s varies with burn severity. At the peatland scale, r_s and near-surface tension correlates non-linearly. However, at the point scale no relationship was evident between temporal variations in r_s and near-surface tension across all burn severities; in part due to the limited fluctuation in near-surface tensions and the precision of r_s measurements. Where automated measurements enabled averaging of errors, the relationship between near-surface tension and r_s switched between periods of strong and weak correlation within a burned peat hummock. This relationship, when strong, deviated from that obtained under steady state laboratory conditions; increases in r_s were more sensitive to fluctuations in near-surface tension under dynamic field conditions. Calculating soil vapour densities directly from near-surface tensions is shown to require calibration between peat types and provides little if any benefit beyond the derivation of empirical relationships between r_s and measured soil tension. Thus, we demonstrate important spatiotemporal fluctuations in post-fire r_s that will be key to regulating post-fire peatland hydrology, but highlight the complex challenges in effectively parameterising this important underlying control of near-surface tensions within hydrological simulations.     

The effects of ditch dams on water-level dynamics in tropical peatlands

A significant proportion of tropical peatlands has been drained for agricultural purposes, resulting in severe degradation. Hydrological restoration, which usually involves blocking ditches, is therefore a priority. Nevertheless, the influence of ditch blocking on tropical peatland hydrological functioning is still poorly understood. We studied water-level dynamics using a combination of automated and manual dipwells, and also meteorological data during dry and wet seasons over 6 months at three locations in Sebangau National Park, Kalimantan, Indonesia. The locations were a forested peatland (Forested), a drained peatland with ditch dams (Blocked), and a drained peatland without ditch dams (Drained). In the dry season, water tables at all sites were deeper than the Indonesian regulatory requirement of 40 cm from the peat surface. In the dry season, the ditches were dry and water did not flow to them. The dry season water-table drawdown rates — solely due to evapotranspiration — were 9.3 mm day⁻¹ at Forested, 9.6 mm day⁻¹ at Blocked, but 12.7 mm day⁻¹ at Drained. In the wet season, the proportion of time during which water tables in the wells were deeper than the 40 cm limit ranged between 16% and 87% at Forested, 0% at Blocked, and between 0% and 38% at Drained. In the wet season, water flowed from the peatland to ditches at Blocked and Drained. The interquartile range of hydraulic gradients between the lowest ditch outlet and the farthest well from ditches at Blocked was 3.7 × 10⁻⁴ to 7.8 × 10⁻⁴ m m⁻¹, but 1.9 × 10⁻³ to 2.6 × 10⁻³ m m⁻¹ at Drained. Given the results from Forested, a water-table depth limit policy based on field data may be required, to reflect natural seasonal dynamics in tropical peatlands. Revised spatial designs of dams or bunds are also required, to ensure effective water-table management as part of tropical peatland restoration.     

基于遥感影像的哈尔滨市湿地动态演变及驱动分析

基于1987年、1996年、2002年、2007年的多时相、多分辨率遥感影像,对哈尔滨湿地进行解译,分析哈尔滨湿地近20多年的空间分布及动态演变,并探讨了自然和人为因素对湿地生态系统的影响。