岩溶深水水库干流及支流夏季二氧化碳分压及扩散通量

以云贵高原岩溶深水水库——万峰湖为例,于2016年9月对该水库水体进行连续走航观测及分层采样,测定水体温度(T)、酸碱度(pH)、电导率(Cond)、总溶解固体物(TDS)、氧化还原电位(ORP)及碱度(ALK),通过水化学平衡原理及亨利定律计算水体二氧化碳分压(pCO_2).结果表明:干流表层pCO_2为128.84~222.51 Pa,均值为184.03 Pa;支流表层pCO_2为140.32~285.00 Pa,均值为216.78 Pa.剖面上,干流pCO_2为128.84~1076.81 Pa;支流pCO_2为140.32~657.23 Pa,干、支流剖面pCO_2随水深度增加而升高.TDS浓度为203.0~286.7 mg·L-1,溶解无机碳(DIC)浓度为2.56~3.37 mmol·L-1.相关分析表明:水体pCO_2与ORP呈显著正相关,分析认为受水生生物作用影响,水生生物消耗表层溶解CO2使表层水体pCO_2较低.同时,pCO_2与TDS、DIC呈正相关,说明万峰湖流域内溶蚀作用控制的河流碳酸盐体系是影响水体pCO_2的主要原因.干、支流水体pCO_2处于过饱和状态,成为大气CO2的源.根据Wanninkhof提出的淡水水-气界面交换系数的通量模式,估算干、支流水-气界面CO2交换速率分别为0.16、0.19μmol·m-2·s-1,其扩散通量干流为9.77~20.84 mmol·m-2·d-1,均通量为15.30 mmol·m-2·d-1;支流为11.55~27.88 mmol·m-2·d-1,均通量为19.72 mmol·m-2·d-1.与世界其它河流、水库相比较,水库干、支流二氧化碳扩散通量比热带地区河流Amazon、Curua-Una、Tucurui小;与温带地区黄河相比,扩散通量要大;与亚热带岩溶区水库相比差异不明显.     

模拟SO42-沉降对闽江口淡水感潮野慈姑湿地N2O通量的影响

选取闽江口塔礁洲淡水感潮野慈姑(Sagittaria trifolia L.)湿地为研究对象,2015年12月—2016年10月,每月小潮日原位定期向实验样地施加2个沉降量水平的硫酸钾溶液:S60(60 kg·hm-2·a-1)和S120(120 kg·hm-2·a-1),运用静态箱-气相色谱法研究模拟硫酸根沉降对河口区淡水感潮湿地N2O通量的影响及主要环境影响因子.对照、S60和S120 3个处理下N2O通量分别为(58.06±23.07)、(23.50±22.85)和(20.75±7.83)μg·m-2·h-1,年尺度上,S120处理显著降低N2O通量(p0.05),S60处理与CK处理差异不显著(p0.05).闽江口淡水感潮野慈姑湿地整体上表现为大气中N2O源.野慈姑湿地N2O排放通量与间隙水盐度呈显著负相关关系.研究表明,对于亚热带河口区淡水感潮野慈姑湿地,施加量为120 kg·hm-2·a-1的模拟硫沉降显著降低其N2O排放通量.     

黄河三角洲土壤真菌群落结构对盐生植被演替的响应

采用高通量测序技术,探究了黄河三角洲光板地和4种盐生植被(翅碱蓬、獐茅、白茅和罗布麻)下土壤真菌群落结构组成及分布特征,揭示其与盐生植被演替的关系.结果表明,随盐生植被正向演替,土壤质量有不断改善的趋势.轻度耐盐群落(罗布麻群落、白茅群落)土壤中真菌丰富度相对较高,其Shannon多样性指数分别为5.21、5.84;在重度耐盐群落(翅碱蓬、獐茅)土壤中真菌丰富度较低,其Shannon多样性指数分别为4.64、4.66.在不同演替阶段时,土壤真菌群落结构差别相对较大(Unifrac Metric值为0.48~0.67).土壤中全氮含量是影响真菌OTU数、ACE指数和Shannon指数的主要因素.5个土壤样本共获得60174条有效序列,可归到子囊菌门(Ascomycota)、担子菌门(Basidiomycota)、壶菌门(Chytridiomycota)、球囊菌门(Glomeromycota)、毛霉亚门(Mucoromycotina)5个真菌门;其中,子囊菌门在重度耐盐植物群落(翅碱蓬、獐茅)中相对丰度较高(2.69%、69.97%),担子菌门在轻度耐盐群落(罗布麻群落、白茅群落)中相对丰度较高(9.43%、6.64%).     

一体式膜生物反应器(MBR)处理生活污水的研究

小区生活污水难以被完全收集和处理的特点,实验采用占地小、结构紧凑的一体式膜生物反应器对小区生活污水进行处理,探究一体式膜生物反应器对不同污染物的去除规律.结果显示反应器出水中的COD、TN、浊度以及典型污染物LAS的含量均能满足相关排放标准.同时研究了不同种类的膜清洗剂对膜通量恢复的影响,并发现酸类清洗剂有最好的清洗效果,碱类清洗剂能有效去除有机物和二氧化硅等污染物,而氧化性清洗剂效果并不理想.     

滏阳河表层沉积物氮分布特征和界面无机氮扩散通量估算

为了揭示非常规水源补给河流沉积物-水界面氮交换过程及其特点,为非常规水源补给河流富营养化机制提供基础数据.选择典型非常规水源补给河流(滏阳河)为研究对象,分析河流沉积物中氮素空间分布及上覆水-孔隙水氮营养盐垂直分布特征,并估算滏阳河不同区段沉积物-水界面无机氮扩散通量.结果表明,滏阳河整体表层沉积物总氮含量范围在770~10590 mg·kg~(-1)之间,其中有机态氮为氮素的主要存在形式,占总氮比例达84.9%~99.3%.NH3-N为无机氮的主要形态,含量范围为3.23~1135.00 mg·kg~(-1).溶氧量作为影响沉积物-水界面无机氮分布的主要因素.邯郸段硝氮浓度在孔隙水中随深度逐渐升高,孔隙水平均硝态氮浓度达3.54 mg·L~(-1),为上覆水8倍之多.邢台、衡水、沧州段硝氮浓度随深度而逐渐降低;滏阳河下游衡水段和沧州段进入沉积物-水界面后氨氮浓度呈下降趋势.滏阳河上游邯郸段与邢台段沉积物-水界面NH3-N由沉积物向上覆水扩散,扩散通量为48.9~1471.0μmol·m~(-2)·d-1.下游河段部分点位NH3-N表现为上覆水向沉积物中扩散,扩散通量在-932~-456μmol·m~(-2)·d-1之间.非常规水源补给河流在氮营养盐外源得到控制后,仍存在内源释放风险,将会加大河流治理与修复的难度.     

三峡库区高水位运行期典型干支流水体CO2分压及其水面通量特征

本文以三峡库区典型干支流作为研究对象,重点研究高水位运行期库湾水体及库区干流CO2分压(p CO2)的分布规律,计算CO2的扩散通量和释放总量。本研究于2013年9月至11月利用走航式观测系统对库区奉节段干支流表层水体及定点剖面水体中p CO2和相关水质参数进行了逐月观测。研究结果表明,干支流表层水体p CO2的分布和扩散通量差异显著。干流CO2扩散通量(F-CO2)9月至11月变化不大,为28.19±0.80mmol/(m2·d);支流在观测期内,扩散通量由负变正,其中朱衣河F-CO2从-6.86增至32.05mmol/(m2·d);梅溪河从-6.94增至37.85mmol/(m2·d),草堂河从-6.97增至31.05mmol/(m2·d)。由10至11月的数据推广到全年的高水位运行阶段(10月至次年1月),全库区CO2排放量可达166 450t,其中支流占30.17%。     

杭州西溪湿地CH4、CO2通量及其主要影响因子

本研究采用便携式温室气体分析仪连接通量箱在线监测杭州西溪湿地CH_4、CO_2通量日变化及季节变化,同时也对包括有机碳含量、湿度、孔隙度、比重、p H、Eh在内的潜在影响因子进行了研究。结果表明,通常情况下,CH_4、CO_2通量的变化分别为-0.001 9~0.035 3mg/(m~2·h)和-109.76~442.55mg/(m~2·h);CH_4、CO_2通量的变化存在明显正相关关系。CH_4通量的季节变化表现为夏季秋季春季冬季;CO_2通量的季节变化表现为夏季春季冬季秋季。土壤湿度是影响CH_4通量变化的重要因子,通常湿度越大,CH_4通量越大;在生长季维管植物有助于CH_4的氧化;西溪湿地土质差异也使CH_4、CO_2通量排放有所差异,具体表现在土壤有机碳含量相差较大,而土壤中有机碳的含量与CH_4产生潜力呈显著正相关。     

Impacts on air pollution in urban areas

Environmental management involves controlling various forms of pollution to levels that do not pose a threat to the health of the people and the environment in general. This paper presents a framework to analyze sources of local air pollution in cities. Using an OLS model, an investigation is performed of the relationship among the concentrations of air pollutants [more precisely, concentrations of sulfur dioxide (SO₂), dust, nitric oxide (NO), nitrogen dioxide (NO₂), carbon oxide (CO) and ozone (O₃)], economic activities, and meteorology. Time series analysis leads to a model, that explains a high degree of the variance in the air pollution data. The model is applied to daily time series from three measurement stations in innsbruck, Austria. Estimation results of the model generally fit with the expected relations. Space heating influences SO₂, dust, and NO, while NO₂ levels are primarily affected by traffic. These results also indicate interdependent relations among the pollutants NO, NO₂, O₃, and CO; O₃ levels depend on temperature and sunshine.     

RECHARGE ESTIMATES USING A GEOMORPHIC/DISTRIBUTED-PARAMETER SIMULATION APPROACH,AMARGOSA RWER BASIN1

ABSTRACT: Average-annual volumes of runoff, evapotranspiration, channel loss, upland (interchannel) recharge, and total recharge were estimated for watersheds of 53 channel sites in the Amargosa River basin above Shoshone, California. Estimates were based on a water-balance approach combining field techniques for determining streamflow with distributed-parameter simulation models to calculate transmission losses of ephemeral streamflow and upland recharge resulting from high-magnitude, low-frequency precipitation events. Application of the water-balance models to the Amargosa River basin, Nevada and California, including part of the Nevada Test Site, suggests that about 20.5 million cubic meters of water recharges the ground-water reservoir above Shoshone annually. About 1.6 percent of precipitation becomes recharge basinwide. About 90 percent of the recharge is by transmission loss in channels, and the remainder occurs when infrequent storms yield sufficient precipitation that soil water percolates beyond the rooting zone and reaches the zone of saturation from interchannel areas. Highest rates of recharge are in headwaters of the Amargosa River and Fortymile Wash; the least recharge occurs in areas of relatively low precipitation in the lowermost Amargosa River watershed.     

Studies on enhanced degradable plastics. III. The effect of weathering of polyethylene and (ethylene-carbon monoxide) copolymers on moisture and carbon dioxide permeability

Two enhanced-photodegradable polyethylenes were studied to determine the effect of photooxidative degradation upon transport properties. Water vapor permeability of LDPE films containing metal compound prooxidants, weathered to different extents under outdoor exposure was studied. A film made of LDPE blended with 20 wt% of polycaprolactone was also examined to determine if biodegradation over a 40-day period resulted in a measurable change in its water vapor transport characteristics. A gravimetric technique was used to study the effects of outdoor and weather-ometer exposures on the permeability of carbon dioxide of both the LDPE film and (ethylene-carbon monoxide) copolymer films. Generally, photooxidative degradation was seen to be accompanied by a change in transport characteristics of the polymer films.