用土壤含水层处理系统去除水库微污染有机物的试验研究

本文针对当前中国饮用水源污染以微污染为主的特点，以北京三家店水库原水和永定河河道砂为研究对象，设计了用于表征土壤含水层处理系统的一维土柱，进行污水净化效果的试验研究。结果表明，土壤含水层处理系统对三家店水库微污染水中的有机物有一定的去除效果，在0．12m／d的水力负荷条件下，对CODMo去除率虽然仅为15％，但是出水达到了地表水Ⅱ类水质标准；对BOD5的去除率达到了55％，可以被有效地去除。渗透速率相同时，水力负荷周期对去除效果的影响不明显，但在保证一定水力负荷的情况下，可适当延长落干期，恢复土壤的渗透能力，达到较好的处理效果。同时，土壤含水层处理系统的净化能力主要发生在土层50cm以内。     

Variations in Spectral Slope in Lake Taihu,a Large Subtropical Shallow Lake in China

Spectral slope (S), describing the exponential decrease of the absorption spectrum over a given wavelength range, is an important parameter in the study of of chromophoric dissolved organic matter (CDOM) dynamics, and also an essential input parameter in remote sensing models. Furthermore, S is often used as a proxy for CDOM composition, including the ratio of fulvic to humic acids and molecular weight. The relative broad range in S values reported in the literature can be explained by the different spectral ranges and fitting methods used. A single exponential model is used to fit the S values for 17 investigations involving 458 samples in Lake Taihu from January to October in 2004. The average S value was 15.18 ± 1.39 μm⁻¹ for the range of 280–500 nm, which fell within the range reported in the literature. The frequency distribution of S value basically obeyed a normal distribution. Significant differences in S values between summer and other seasons showed that phytoplankton degradation was one of the important sources of CDOM in summer, whereas CDOM mainly came from the river input in other seasons. Furthermore, the estimated S value decreased with increasing wavelength range used in regression. The maximum and minimum values derived from the regression were 17.89 ± 1.25 μm⁻¹ and 13.62 ± 2.11 μm⁻¹ for the wavelength ranges of 280–380 nm and 400–500 nm, respectively, a decrease of 23.9%. S values significantly decreased with the increase of CDOM absorption coefficients. CDOM absorption coefficients could be more appropriately estimated from exponential model introducing the variation of S with absorption coefficients, making them useful for a remote sensing bio-optical model of Lake Taihu. DOC-specific absorption coefficient a*(λ) and the parameter M describing molecular size of the humic molecules could also be used as a proxy for the sources and types of CDOM. A general relationship was found between S and a*(λ), and M values. S increased with the decrease of DOC-specific absorption coefficient and the increase of M corresponding to the decrease of molecular weight.     

不同施钾水平对玉米干物质及产量的影响

生物产量是提高经济产量的基础,而施肥是调控生物产量及其组分动态转化的重要手段。本研究通过不同施钾水平对玉米干物质积累动态变化的影响分析,确定出钾肥合理用量,为玉米高产高效栽培提供理论依据。     

Particulate organic matter transport in the lower Colorado river,South-Western USA

The lower Colorado River from Laughlin, Nevada, to the border with Mexico is one of the most regulated rivers in North America. An analysis of particulate organic matter (POM) transport through the system was made to determine POM concentrations, composition and point of origin, as well as to determine the effect dams had on this transport. Particulate organic matter concentrations generally increased from upstream to downstream, and were dominated by very fine organic detritus (< 25μm size fraction). Reservoirs released more POM than they received during spring and summer, but less during autumn and winter. Reservoirs recycled POM, taking in organic detritus and discharging small limnoplankton. Backwater complexes functioned as filters during storm events, trapping coarse material and releasing fine material. Agricultural drains made only minor contributions of POM, but provided important nutrients for in-channel production of POM. Water diversions forced POM off-channel, whereas sluicing operations reduced inorganic loads in the canals. Despite the presence of six mainstem dams, the lower reaches support a diverse assemblage of detritivorous fishes, similar to that found in the lowermost reaches of natural, unregulated rivers. The food base for this fishery stems from autochthonous production of POM.     

洪湖沉积物碳氮磷分布特征及污染评价

洪湖是中国第七大淡水湖,富营养化问题日益突出。全面了解洪湖沉积物氮、磷、有机质的含量及分布特征,对掌握其富营养化现状与氮磷污染生态风险具有重要意义。在湖区布设了8个采样点,2019年10月采集50 cm柱状沉积物,分别测定不同深度沉积物总氮(TN)、总磷(TP)以及有机质(OM)含量,分析了TN、TP 和OM 含量的空间分布特征及相关性,并运用综合污染指数法评价其对应的污染程度。结果表明:洪湖沉积物TN含量在467.8~8 454.5 mg/kg之间,平均值2 167 mg/kg,为重度污染,其中近一半的采样点表层沉积物TN含量>5 000 mg/kg;TP含量在502.7~1 252.4 mg/kg之间,平均值693.8 mg/kg,除杨柴湖为重度污染外,其他大部分地区为中度污染;有机质含量占比在5.0%~24.9%之间,平均值9.6%,为重度污染。在垂直空间上,TN、TP 和OM 均在沉积物表层垂向深度0~20 cm存在明显的积累,其含量随垂向深度的增加而迅速降低。研究成果可为洪湖富营养化的控制与治理提供科学数据支撑。     

石英砂加载混凝工艺的DOM去除特征与混凝机理

为处理未纳入管网的市政污水,采用石英砂加载混凝工艺,考察石英砂的粒径及其投加量对处理效能的影响,分析了溶解性有机物(dissolved organic matters,DOM)的去除特征,并探讨了石英砂加载混凝机理。结果表明,与常规混凝相比,当石英砂的粒径和投加量分别为200目和 1.0 mg/L 时,石英砂加载混凝工艺对污水中浊度、COD的去除率分别为97.55%、59.2%,优于常规混凝;石英砂加载混凝工艺可明显去除芳香类、共轭双键、疏水性有机物,主要促进了腐殖质类物质的削减;石英砂通过架桥作用增加了絮体的密度,进而显著改善了絮体的沉降性能、强度;絮体的沉降性能、强度及再稳性能随着石英砂粒径的降低而升高。     

基于物元分析法的水资源管理现代化评价

为科学合理地评价区域水资源管理现代化水平,从水资源保障、用水效率、水资源保护、水资源公共管理能力、水资源支撑能力5个方面构建评价指标体系,将模糊层次分析法(FAHP)和熵权法耦合,确定评价指标综合权重,基于物元理论建立水资源管理现代化评价模型。以南京市高淳区为例进行评价,结果表明,南京市高淳区水资源现代化管理水平处于初等现代化阶段,与实际情况相符,验证了所构建评价模型的可行性和有效性。     

基于组合赋权的湖泊健康评价物元分析模型

湖泊生态系统的健康是人与自然和谐相处及可持续发展理念的重要体现。通过建立湖泊健康评价物元分析模型,并改进其指标权重的计算,以离差平方和准则将层次分析法、熵值法及主成分分析法3种赋权方法取得的权重结合得到最优组合赋权,应用到某地5个湖泊进行湖泊健康评价。根据当地湖泊具体情况,选取12个详细指标建立评价体系与评价标准,通过模型计算得出结果显示5个湖泊中4个湖泊评价结果为优,一个评价结果为良,湖泊总体健康状况良好。因此该模型用于湖泊健康评价是非常有效的。     

Variability of light absorption properties in optically complex inland waters of Lake Chaohu,China

Absorption coefficients of phytoplankton, colored detrital matter (CDM), non-algal particles (NAP), colored dissolved organic matter (CDOM), and their relative contributions to total non-water absorption (a_t ? w) are essential variables for bio-optical and radiative transfer models. Light absorption properties showed large range and variability sampled at 194 stations throughout Lake Chaohu between May 2013 and April 2015. The a_t ? w was dominated by phytoplankton absorption (a_ph) and NAP absorption (a_d). The contribution of CDOM absorption to a_t ? w was lower than 30%. Phytoplankton and NAP were the primary sources of spatial and vertical variability in absorption properties. Light absorption by CDOM, though significant in magnitude, was relatively constant. CDM absorption (a_dg) was dominated by NAP. The spatial variation of the absorption coefficients from each of the optically active constituents were driven by several main inflow rivers in the western and middle part of Lake Chaohu. Algal blooms and bottom resuspension contributed to vertical variability as observed by phytoplankton and NAP profiles. Specific absorption of phytoplankton had significant spatial and seasonal variations without vertical variation. The spectral slope of absorption showed no significant spatial variability (p > 0.05). Variations of absorption affected different ranges of remote sensing reflectance (R_rs) spectrum, thereby increasing the difficulty of applying the remote sensing algorithm in optically complex waters. Parameters and relationships presented in this study provide useful information for bio-optical models and remote sensing of lakes similar to Lake Chaohu in terms of optical properties.     

基于模糊物元法的黑龙江干流区生态健康评价

针对受堤防建设影响的黑龙江干流地区,基于压力-状态-响应(PSR)模型构建了流域生态健康评价体系;利用层次分析法和模糊物元理论建立了流域生态健康模糊物元评价模型,并应用到黑龙江干流行政区的生态健康评价中。结果表明,漠河县、黑河市区、同江市区和抚远县干扰前的生态健康评价值为0.679 3,0.728 3,0.731 4,0.755 8,干扰后为0.602 3,0.580 5,0.611 7,0.722 6;漠河县生态健康等级保持"亚健康",黑河市区和同江市区的生态健康等级降为"亚健康",抚远县生态健康等级保持"健康"。同时,4个评价单元对应的生态受损程度分别为11.34%,20.29%,16.37%和4.39%。此外,根据评价指标体系综合分析了4个县市存在的生态健康问题,提出了4县市生态环境保护应采取的措施。