佛山水道引水对环境容量影响研究

采用污染负荷优化分配的线性规划方法,通过感潮河网水环境数学模型模拟得出污染贡献率。求取不同引水方案时佛山水道的环境容量,并建立引水量与环境容量的回归方程。研究结果表明,环境容量与引水量呈线性递增关系。根据回归方程可反推得出引水方案或削污方案,为引水与截污的实施提供了数据支持,并且对佛山水道综合整治的优化决策具有指导意义。     

Effects of elevated CO2 concentration and nitrogen supply on biomass and active carbon of freshwater marsh after two growing seasons in Sanjiang Plain, Northeast China

An experiments were carried out with treatments di ering in nitrogen supply (0, 5 and 15 g N/m2) and CO2 levels (350 and 700 mol/mol) using OTC (open top chamber) equipment to investigate the biomass of Calamagrostis angustifolia and soil active carbon contents after two years. The results showed that elevated CO2 concentration increased the biomass of C. angustifolia and the magnitude of response varied with each growth period. Elevated CO2 concentration has increased aboveground biomass by 16.7% and 17.6% during the jointing and heading periods and only 3.5% and 9.4% during dough and maturity periods. The increases in belowground biomass due to CO2 elevation was 26.5%, 34.0% and 28.7% during the heading, dough and maturity periods, respectively. The responses of biomass to enhanced CO2 concentrations are di ered in N levels. Both the increase of aboveground biomass and belowground biomass were greater under high level of N supply (15 g N/m2). Elevated CO2 concentration also increased the allocation of biomass and carbon in root. Under elevated CO2 concentration, the average values of active carbon tended to increase. The increases of soil active soil contents followed the sequence of microbial biomass carbon (10.6%) > dissolved organic carbon (7.5%) > labile oxidable carbon (6.6%) > carbohydrate carbon (4.1%). Stepwise regressions indicated there were significant correlations between the soil active carbon contents and plant biomass. Particularly, microbial biomass carbon, labile oxidable carbon and carbohydrate carbon were found to be correlated with belowground biomass, while dissolved organic carbon has correlation with aboveground biomass. Therefore, increased biomass was regarded as the main driving force for the increase in soil active organic carbon under elevated CO2 concentration.     

基于COHERENS模型的污染物质输运数值模拟

以COHERENS模型为基础,建立了长江下游感潮河段三维水流及污染物质输运数学模型,该模型通过σ坐标变换,使整个水域垂直方向可采用相同的分层。基于模态分裂法,将三维流动分成表面重力波(外模式)和内重力波(内模式);模型求解技术上采用算子分裂法,使用了superbee限制器TVD格式,减小非物理的数值虚拟震荡。选取长江常熟段为例,模型较好的模拟了感潮河段三维流场及污染带分布特征。该成果对感潮地区污染物输运规律及水污染控制具有指导意义。     

Heavy metals of natural and reclaimed tidal riparian wetlands in south estuary, China

The concentrations of Cd, Cr, Cu, Ni, Pb, and Zn in two plant species (Scirpus tripueter Linn. and Cyperus malaccensis Lam.), water, and soils sampled from the reclaimed tidal riparian wetlands (RTRWs) and the natural riparian wetlands (NRWs) in the Pearl River estuary (PRE), were analyzed to investigate and compare their distribution and accumulation. The results show that the concentrations of the six studied heavy metals in soils exceed the eco-toxic threshold recommended by USEPA. The concentrations of Cd, Cr, and Zn in plants may lead to toxic effects compared to others.The hydraulic conditions and the degree of human disturbances can affect the heavy metal accumulation in RTRWs and NRWs. The heavy metal concentrations in water are higher whereas they are lower in soils of RTRWs Compared with that in the NRWs. The accumulation of heavy metals in the roots of plants is higher in NRWs than those in RTRWs while the opposite result is found for heavy metal accumulation in shoots. Based on the bioaccumulation and translocation factors, the plants in NRWs have the higher capacity to accumulate heavy metals, while higher abilities to transport heavy metals from roots to shoots are observed in RTRWs. Heavy metal contaminations in RTRWs are dominated by anthropogenic sources from both side uplands and river water, whereas in NRWs, the metal accumulations are simultaneously affected by anthropogenic and natural factors.     

新城水库对延寿倾斜观测的影响评价

水库蓄水变化是对延寿倾斜观测重要干扰因素之一,通过三维集中载荷模型可推算出库容变化对倾斜观测影响的定量计算、给出理论最小＂安静＂距离,同时对倾斜观测进行潮汐分析;并研究水库长期、中期、短期各个时期水库库容变化与延寿竖直摆倾斜观测曲线的关系,讨论得出在枯水期水库库容变化对倾斜观测的影响不大,在丰水期理论上水库库容的大幅度变化会对倾斜观测产生影响,但实际并未发现有明显影响。     

伶仃洋水域纳潮量计算及演变分析

基于已有研究资料和成果,对伶仃洋水域面积和岸线的历史演变进行了分析和总结,并利用遥感资料准确计算了过去近30 a内伶仃洋水域面积的演变情况。分析显示,由于沿岸围垦造陆,近30 a间,伶仃洋水域面积出现了很大程度的减小,减小幅度最大的年份出现在1988～1995年间。在此基础上,计算和分析了近30 a来伶仃洋水域纳潮演变情况。     

闽江感潮河段夏秋季涨落潮河水稳定同位素（N/D/O-18）组成特征解析

流域氮污染的稳定同位素表征和溯源对于保障流域污染防控和用水安全具有重要意义,本文通过对感潮河段夏、秋季涨落潮主要断面硝态氮（NO₃^-）及稳定同位素(δ¹⁵N-NO₃^-、δ¹⁸O-NO₃^-、δD-H₂O和δ¹⁸O-H₂O)组成特征测定及沿线小流域的氮污染入河量测算,探讨了陆域氮排放和水体交换对感潮河段稳定同位素的影响.研究表明：（1）落潮、涨潮期NO₃^-均为“秋季>夏季”,δ¹⁵N-NO₃^-夏、秋两季组成特征基本相近.落潮期δ¹⁸O-NO₃^-为“夏季>秋季”,涨潮期则相反.同季节的NO₃^-及其同位素总体呈“涨潮期>落...     

闽江河口芦苇和短叶茳芏空间扩展对湿地植物-土壤系统氮分布及转运特征的影响

选取闽江河口鳝鱼滩芦苇湿地、短叶茳芏湿地及二者空间扩展过程中形成的交错带湿地为研究对象,探讨了空间扩展影响下湿地植物-土壤系统氮分布、转运特征及其影响因素.结果表明,空间扩展影响下交错带湿地土壤氮含量发生了较大改变,其全氮（TN）、铵态氮（NH₄⁺-N）含量相比芦苇湿地分别降低了15.52%和6.08%,但相比短叶茳芏湿地分别增加了20.61%和4.33%;其硝态氮（NO₃^--N）含量相比芦苇湿地及短叶茳芏湿地分别降低了5.79%和13.84%.空间扩展主要通过改变植物生态特征、土壤EC及其颗粒组成而对湿地土壤氮的空间分布产生影响.空间扩展影响下湿地植物不同器官的TN含量亦发生了明显变化.相对于空间扩展前的纯群落,空间扩展后交错带芦苇和交错带短叶茳芏各器官的TN含量均明显增加;同时,在空间扩展后的交错带群落中,短叶茳芏各器官的TN含量均高于芦苇,前者主要与交错带植被对悬浮颗粒物拦截作用增强从而导致更多养分输入有关,后者主要与交错带短叶茳芏和芦苇对氮养分吸收与转运能力的差异有关.研究发现,相较于 短叶茳芏,空间扩展过程中的芦苇无论在氮养分吸收利用还是在向地上转运氮养分方面均处于明显优势,而这可能是导致短叶茳芏生态空间逐步被芦苇占据的一个重要因素.     

近期长江口南支河道洪季含沙量时间变化及床沙再悬浮研究

基于2011年洪季在南支河道从小潮至大潮连续8天现场定点观测所获得水沙观测数据(包括潮流、悬沙浓度、悬沙粒度和表层沉积物样品),通过对悬沙浓度、悬沙粒度和沉积物在不同时刻的组成分析,以及流速、悬沙和底床切应力的相互影响分析,对长江河口南支河道悬沙随时间变化特性和河床沙再悬浮作用进行了研究。结果表明:观测期间南支主槽下段落潮水动力强于涨潮;落潮悬沙浓度高于涨潮,并由小潮至大潮逐渐增加;落潮悬沙粒径粗于涨潮,并随小潮至大潮不断粗化;河床沉积物颗粒较粗,细砂类组成达到90%以上;流速、悬沙及底床切应力之间存在显著相关性;河床泥沙再悬浮强度较强,其量值有限。而近期研究区域悬沙浓度和水沙关系发生变化,与流域来沙出现锐减有关。     

闽江河口淡水、半咸水沼泽土壤碳氮磷分布及计量学特征

以闽江河口区淡水、半咸水短叶茳芏沼泽湿地为研究对象,于2013年11月~2014年8月分季节采集表层土壤样品,研究土壤有机碳(SOC)、总氮(TN)、总磷(TP)含量时空变异格局及其计量学特征,并同步观测相关环境因子.结果表明,淡水、半咸水沼泽土壤SOC、TN、TP含量范围分别为(18.24~28.36,1.44~2.24,0.45~1.01)(14.96~26.19,1.55~2.45,0.67~1.18)g/kg.淡水沼泽土壤各元素含量均具有明显的垂直变化规律;而半咸水沼泽除TN含量垂直变异明显外,其他各指标则表现为波动变化的特征.淡水、半咸水沼泽土壤C/N、C/P、N/P均值分别为12.41±1.22,29.77±6.76,2.40±0.47以及10.89±1.09,24.92±3.80,2.29±0.25.方差分析显示,各指标含量在两个沼泽均存在显著空间差异.两个沼泽土壤SOC、TP、C/N、C/P均与土壤pH和EC呈显著相关关系,而与含水率和容重相关性不显著;土壤C/N均与粉砂粒和砂粒呈极显著相关关系;土壤SOC、TN、TP含量对C/N、C/P、N/P影响显著.淡水、半咸水沼泽土壤营养元素含量分布特征是水动力学作用、外源物质输入、植物生产力和人类活动等多因子综合作用的结果.