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1999年5月—2001年10月在北京观象台对紫外线指数(UVI)进行了长期观测,结果表明:UVI季节差异明显,春、夏、秋、冬季的最大值分别为7 85,9 87,4 92,2 99;正午时的平均值分别为3 52,5 31,2 17,1 24。在UVI高峰时段(10:00—15:00),秋、冬季的UVI基本在0~2范围,对人体危害不大;而0~2,3~4,5~6,大于7的各级UVI的平均累积日照时间春季分别为159,87,47,2min,夏季分别为75,99,93,29min,春、夏季紫外线辐射对人体危害较大。另外,UVI的累积分布显示,春、秋、冬季的UVI多数集中在各季节平均值以下,而夏季正午前后的UVI多分布在其季节平均值以上。 相似文献
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Ge Sun Changqing Zuo Shiyu Liu Mingliang Liu Steven G. McNulty James M. Vose 《Journal of the American Water Resources Association》2008,44(5):1164-1175
Abstract: Natural forests in southern China have been severely logged due to high human demand for timber, food, and fuels during the past century, but are recovering in the past decade. The objective of this study was to investigate how vegetation cover changes in composition and structure affected the water budgets of a 9.6‐km2 Dakeng watershed located in a humid subtropical mountainous region in southern China. We analyzed 27 years (i.e., 1967‐1993) of streamflow and climate data and associated vegetation cover change in the watershed. Land use/land cover census and Normalized Difference of Vegetation Index (NDVI) data derived from remote sensing were used to construct historic land cover change patterns. We found that over the period of record, annual streamflow (Q) and runoff/precipitation ratio did not change significantly, nor did the climatic variables, including air temperature, Hamon’s potential evapotranspiration (ET), pan evaporation, sunshine hours, and radiation. However, annual ET estimated as the differences between P and Q showed a statistically significant increasing trend. Overall, the NDVI of the watershed had a significant increasing trend in the peak spring growing season. This study concluded that watershed ecosystem ET increased as the vegetation cover shifted from low stock forests to shrub and grasslands that had higher ET rates. A conceptual model was developed for the study watershed to describe the vegetation cover‐streamflow relationships during a 50‐year time frame. This paper highlighted the importance of eco‐physiologically based studies in understanding transitory, nonstationary effects of deforestation or forestation on watershed water balances. 相似文献
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Immunomagnetic separation (IMS) has been specified as a standard method for the measurement of Giardia under USEPA Method 1623. In this study, IMS was evaluated on the basis of recovery efficiencies for Giardia cysts under various IMS operation conditions. Significant change in recovery was observed by altering the debris ratio of
water samples. Notably, cyst recovery efficiencies utilizing IMS dropped with increased turbidity, and results for varying
dosages of magnetic beads and cysts indicate that 1 / 100 immunomagnetic beads is sufficient to conjugate large numbers of
cysts. Changing vessel volume and replacing the sample buffer had no significant effect on cyst recovery efficiencies. 相似文献
116.
松花江流域水生态环境质量评价研究 总被引:3,自引:2,他引:3
采用生物完整性指数(IBI)法评价松花江流域的水生态环境质量。对25个候选生物参数进行敏感度分析、Pearson相关性分析,最终筛选出由总分类单元数、EPT分类单元数、EPT密度、敏感种分类单元比例、敏感物种数量、Hilsenhoff生物指数(HBI)6个核心参数构成的IBI评价指标。采用95%分位数法建立了IBI评价标准,将IBI评价结果划分为5个等级:大于35.84为优,26.88~35.84为良好,17.92~26.88为一般,8.96~17.92为较差,小于8.96为很差。结果表明,建立的IBI评价方法适用于松花江流域水生态环境质量评价,松花江流域各位点30.0%生物状况为优和良好,23.3%为一般;46.7%为较差和很差,说明流域内近一半区域的水生态质量存在不同程度的受损。流域生境质量主要处于一般-良好的状态;水质处于轻度污染。 相似文献
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Characterization of biological responses under different environmental conditions: A hierarchical modeling approach 总被引:1,自引:0,他引:1
A natural river system is organized as a nested hierarchy of interconnected habitats with specific environmental conditions to which the biological community has adapted. Due to this hierarchical structure, identifying the role of different stressors on the biological community is a formidable task. Efforts trying to link stressors to biological integrity have always been bound to the geographic scale of the selected study area, leading to scale-specific results. In this research, an attempt is made to lift this limitation and develop a hierarchical, scale-sensitive methodology that can identify the significant environmental stressors to the biological community at different scales. Sites with similar background environmental conditions are clustered using self-organizing maps (SOM). This is used to identify stressors which affect the biological community throughout the area of study - called environmental gradients or large-scale stressors. Subsequently, these clusters of similar observations (sampling sites) are progressively sub-divided using environmental variables with a significant but localized effect on the biological community - called small-scale stressors. A parent group of sites is split only when the resulting sub-groups have significantly different biological responses. At the end of this recursive sites decomposition procedure, the original set of observations is organized as a tree of environmentally homogeneous groups of observations characterized by unique biological responses to multiple stressors with different geographic extents. The developed hierarchical analysis methodology has been validated using a large-size dataset of environmental observations from the State of Ohio. Our results show that habitat degradation and increased nutrient loading are the large-scale stressors with a widespread impact in Ohio. Other stressors, such as heavy metals, pH or nitrate concentrations have significant albeit localized effects on biological integrity. 相似文献
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基于我国工业园指标体系研究现状,归纳、统一了2002—2021年学者提出的8类99个指标,在此基础上总结了规划环评指标体系建立面临的困难。以X工业园为研究案例,结合理论分析,确定其制约因素是水资源数量和环境空气质量,并将制约因素纳入指标集。针对干旱区和大型工业园两个特点,建立了新疆大型工业园总体规划环评指标体系,并对其中4项需要严格要求的特色指标进行了说明。 相似文献