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81.
基于水环境保护的湿地公园规划探讨——以山东拥翠湖国家湿地公园为例 总被引:1,自引:1,他引:0
人口增长、经济发展和生活水平的提高导致对有限的水资源竞争和水冲突的增加,确保水资源的可持续利用是保障社会经济可持续发展的前提。水资源的可持续利用是建立在生态系统良好的基础上,湿地公园的建立是统一保护与利用水资源的有效方式之一。湿地公园内的水环境保护与湿地公园的长远发展息息相关。以山东拥翠湖国家湿地公园为例,探讨了水环境保护理念下的湿地公园规划方法及内容,包括水资源、水岸、栖息地的保护,以及合理利用湿地资源的方法。由于湿地水环境保护标准尚未确定,基于水环境保护前提下的湿地公园规划还需完善。 相似文献
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现有湿地公园仅对湿地公园个案进行研究,研究结果难以上升到理论高度,探索了利用比较研究的方法研究湿地公园。通过对杭州西溪、黄山太平湖和淮北南湖3个国家级湿地公园建设情况和生态旅游发展的SWOT分析与比较研究,指出了湿地公园建设中存在的问题及其生态旅游发展的优势和劣势、面临的机遇和挑战,对湿地公园的建设和生态旅游发展提出了对策和建议。 相似文献
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In order to monitor natural and anthropogenic disturbance effects to wetland ecosystems, it is necessary to employ both accurate and rapid mapping of wet graminoid/sedge communities. Thus, it is desirable to utilize automated classification algorithms so that the monitoring can be done regularly and in an efficient manner. This study developed a classification and accuracy assessment method for wetland mapping of at-risk plant communities in marl prairie and marsh areas of the Everglades National Park. Maximum likelihood (ML) and Support Vector Machine (SVM) classifiers were tested using 30.5 cm aerial imagery, the normalized difference vegetation index (NDVI), first and second order texture features and ancillary data. Additionally, appropriate window sizes for different texture features were estimated using semivariogram analysis. Findings show that the addition of NDVI and texture features increased classification accuracy from 66.2% using the ML classifier (spectral bands only) to 83.71% using the SVM classifier (spectral bands, NDVI and first order texture features). 相似文献
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农牧交错地带地类复杂,混合像元现象严重,湿地信息的自动提取难度较大.针对该区湿地遥感信息提取的特点和难点,选取多伦县大仓乡地区的TM遥感数据,先采用NDVI阈值提取出水体,并利用水体形状特征(如面积s、周长p、形状指数k等)对水体类型进行提取;再尝试应用线性光谱混合模型( LSMM)提取去除水体后的湿地信息,并以SPO... 相似文献
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气候变暖背景下扎龙湿地气候变化特征 总被引:4,自引:1,他引:3
基于扎龙湿地1955—2004年逐日气温和降水量资料,采用滑动平均、趋势分析、小波分析和Mann-Kendall及Yamamoto检验等方法,探讨了扎龙湿地近50年的气候变化特征。结果表明:①研究时段内扎龙湿地年及四季平均气温均呈上升趋势,年平均气温在1988年发生了一次明显的突变,其后气温达到一个更显著的增暖时期,20世纪90年代以来的增温非常显著,是50年以来的最高温期;②扎龙湿地年及各季降水量除春季外均呈减少趋势,秋季降水减少趋势最显著,研究时段内没有明显的突变过程;③20世纪80年代中期之后扎龙湿地暖冬和热夏事件的发生频率和强度显著增加,大气湿润度在减小,气候在向暖干方向发展。 相似文献
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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. 相似文献
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