DNDC模型在长江三角洲农田生态系统的CH4和N2O排放量估算中的应用

长江三角洲是我国农业发达地区之一,其农业生产所排放的CH₄和N₂O,早已引起了研究者的重视.本研究在分析总结现有的野外观测结果的基础上,验证了估算区域痕量气体排放量的生物地球化学模型DNDC,估算出长江三角洲地区的CH₄和N₂O排放量分别为1.69(1.29～2.09)Tg·a^-1和0.019(0.014～0.024)Tg·a^-1,分别占全国农田CH₄和N₂O排放量的16.7%和6.1%.     

黔中岩溶地区草地土壤CO2的稳定碳同位素组成

黔中岩溶地区草地土壤 CO₂ 的δ¹³C值在地 -气界面层上随土层深度的增加而降低 ,在地 -气界面层以下 ,土壤 CO₂ 的δ¹³C值基本不变 .土壤 CO₂ 的 δ¹³C值存在季节变化与昼夜变化的特征 .夏季 CO₂ 的 δ¹³C值最高 (-15.5‰ ) ,冬季 CO₂ 的 δ¹³C值最低 (-18.9‰) ;从夏季到冬季 ,土壤 CO₂ 的 δ¹³C稳定值逐渐降低 ,降低幅度超过 3‰ .在一天中 ,中午土壤 CO₂ 的 δ¹³C值最高(-14.0‰ ) ,早晚土壤 CO₂ 的δ¹³C值较低 (-15.4‰ )     

The influence of pH and organic matter content in paddy soil on heavy metal availability and their uptake by rice plants

The experiments were done to investigate the effect of soil pH and organic matter content on EDTA-extractable heavy metal contents in soils and heavy metal concentrations in rice straw and grains. EDTA-extractable Cr contents in soils and concentrations in rice tissues were negatively correlated with soil pH, but positively correlated with organic matter content. The combination of soil pH and organic matter content would produce the more precise regression models for estimation of EDTA-Cu, Pb and Zn contents in soils, demonstrating the distinct effect of the two factors on the availability of these heavy metals in soils. Soil pH greatly affected heavy metal concentrations in rice plants. Furthermore, inclusion of other soil properties in the stepwise regression analysis improved the regression models for predicting straw Fe and grain Zn concentrations, indicating that other soil properties should be taken into consideration for precise predicting of heavy metal concentrations in rice plants.     

Effects of water management on arsenic and cadmiumspeciation and accumulation in an upland rice cultivar

Pot and field experiments were conducted to investigate the effects of water regimes on the speciation and accumulation of arsenic (As) and cadmium (Cd) in Brazilian upland rice growing in soils polluted with both As and Cd. In the pot experiment constant and intermittent flooding treatments gave 3-16 times higher As concentrations in soil solution than did aerobic conditions but Cd showed the opposite trend. Compared to arsenate, there were more marked changes in the arsenite concentrations in the soil solution as water management shifted, and therefore arsenite concentrations dominated the As speciation and bioavailability in the soil. In the field experiment As concentrations in the rice grains increased from0.14 to 0.21 mg/kg while Cd concentrations decreased from 0.21 to 0.02 mg/kg with increasing irrigation ranging from aerobic to constantly flooding conditions. Among the various water regimes the conventional irrigation treatment produced the highest rice grain yield of 6.29 tons/ha. The As speciation analysis reveals that the accumulation of dimethylarsinic acid (from 11.3% to 61.7%) made a greater contribution to the increase in total As in brown rice in the intermittent and constant flooding treatments compared to the intermittent-aerobic treatment. Thus, water management exerted opposite effects on Cd and As speciation and bioavailability in the soil and consequently on their accumulation in the upland rice. Special care is required when irrigation regime methods are employed to mitigate the accumulation of metal(loid)s in the grain of rice grown in soils polluted with both As and Cd.     

土壤和沉积物的有机质组分对水中非离子有机物吸着的影响

在２５℃下，分别测定来自水各地的四种土壤和八种沉积物吸着水溶液中的１，２－二氯苯和四氯化碳的吸附等温线，所有的等温线呈线性，表明土壤和沉积物吸着水溶液中的非离子有机物的过程是分配机理，土壤或沉物的本身用有机碳标化的吸附系数（Ｋｏｃ）之间差异不大，而土壤的和沉积物之间的Ｋｏｃ则存在显著性差异，这是由于沉积物有机质成分的极性小于土壤有机质成分的极性造成的，沉积物质吸着上述两种有机物的Ｋｏｃ约是土壤的Ｋ     

燃油锅炉燃烧过程SO2的生成与排放特征

燃料燃烧过程是大气污染物的重要来源之一,对人体健康、空气质量和气候变化产生非常重要的影响。以62台燃油锅炉（≤10.5 MW）的燃料特性分析数据和SO₂排放实测数据为基础,通过统计分析方法,研究了燃油燃烧过程中燃油硫含量S和过量空气系数α对硫的转化率、SO₂排放因子和排放浓度的影响,获得了基于燃料消耗量、燃料发热量的SO₂排放因子EF_C、EF_H以及SO₂标态折算浓度C′_SO2与硫含量S间的关联式。结果表明,在过量空气系数α＞1的燃油燃烧过程中,EF_C、EF_H、C′_SO2与燃油硫含量S呈现出显著的线性正相关性,而与过量空气系数α无关,其关系式分别为：EF_C=18.86602×S,EF_H=443.78751×S ,C′_SO2＝1 509.28337×S;硫转化率η和基于燃料硫含量的SO₂排放因子EF_S则与燃油硫含量S和过量空气系数α无关,其平均值分别为96.3％和1.93 kg/kg。     

High mineral adsorption of glyphosate versus diethyl phthalate and tetracycline,during visible light photodegradation with goethite and oxalate

Environmental Chemistry Letters - The increasing presence of pesticides, pharmaceuticals and plasticizers in environmental media is threatening public health and ecosystems. Remediation of...     

Influence of supports on photocatalytic degradation of phenol and 4-chlorophenol in aqueous suspensions of titanium dioxide

The photocatalytic degradation of phenol and 4-chlorophenol (4-CP) in aqueous suspensions with the use of titanium dioxide (TiO2 ) under UV irradiation was examined. The effects of different supporting materials mixed physically with TiO2 were studied to achieve maximum degradation efficiency. Among the three supports, namely activated carbon (AC), silica (SiO2 ) and zeolite (ZSM-5), all exhibited paramount efficiency for degradation of phenol and 4-CP and was better than TiO2 alone. The optimum concentration was found to be 50 mg for all supporting materials. The efficiency order of the three supports was as follows: AC > ZSM-5 > SiO2 , respectively. Whilst, the degradation of phenol and 4-CP was improved from 70.6% to 87.6% and 80.6% to 89.7%, respectively, within 120 min photocatalysis in the presence of optimal amount of AC. The degradation was also comparatively enhanced in the presence of cheaper rice husk and the activity was closed to ZSM-5 and lower than AC.     

Spatial and seasonal variability of CO2 flux at the air-water interface of the Three Gorges Reservoir

Difusive carbon dioxide(CO2) emissions from the water surface of the Three Gorges Reservoir, currently the largest hydroelectric reservoir in the world, were measured using floating static chambers over the course of a yearlong survey. The results showed that the average annual CO2 flux was(163.3 ± 117.4) mg CO2/(m2·hr) at the reservoir surface, which was larger than the CO2 flux in most boreal and temperate reservoirs but lower than that in tropical reservoirs. Significant spatial variations in CO2 flux were observed at four measured sites, with the largest flux measured at Wushan(221.9 mg CO2/(m2·hr)) and the smallest flux measured at Zigui(88.6 mg CO2/(m2·hr)); these diferences were probably related to the average water velocities at diferent sites. Seasonal variations in CO2 flux were also observed at four sites, starting to increase in January, continuously rising until peaking in the summer(June-August) and gradually decreasing thereafter. Seasonal variations in CO2 flux could reflect seasonal dynamics in pH, water velocity,and temperature. Since the spatial and temporal variations in CO2 flux were significant and dependent on multiple physical, chemical,and hydrological factors, it is suggested that long-term measurements should be made on a large spatial scale to assess the climatic influence of hydropower in China, as well as the rest of the world.     

Cu2+对普通小球藻的光合毒性：初始藻密度的影响

为了研究Cu2+对普通小球藻的光合毒性以及初始藻密度对Cu2+光合毒性的影响,将初始密度为107mL-1的普通小球藻暴露于Cu2+的6个浓度(0、5、10、20、30和40μmol.L-1)中进行96 h的毒性暴露实验,在2、48和96 h分别利用叶绿素荧光仪(MAXI-Imaging-PAM)测定各项叶绿素荧光参数,同时,针对3个不同初始密度的普通小球藻(2×106、5×106和2×107mL-1),测定并比较了其暴露于0、20和40μmol.L-1的Cu2+12 h后,叶绿素荧光参数的变化。不同初始藻密度的毒性实验结果显示,初始藻密度为2×106mL-1时,20和40μmol.L-1Cu2+可完全抑制普通小球藻的光合作用;当初始藻密度增加到5×106和2×107mL-1时,40μmol.L-1Cu2+对普通小球藻的实际光合作用效率仅有约75%和25%的抑制。这表明初始藻密度越大,Cu2+的光合毒性越弱。但随着初始藻密度的增加,初始藻密度的变化对Cu2+光合毒性的影响减弱。初始藻密度为107mL-1时的毒性实验结果显示,暴露于20~40μmol.L-1Cu2+2 h后,普通小球藻的光合作用即受到抑制,且该抑制程度随Cu2+浓度的增加而增强,并随着暴露时间的延长有所缓解。随着Cu2+浓度的增加,最大量子产量(Fv/Fm)、实际量子产量(Yield)、相对电子传递速率(ETR)和光化学淬灭系数(qP)逐渐降低,非光化学淬灭系数(NPQ/4)逐渐上升。研究结果表明,Cu2+对普通小球藻的光合作用有一定的抑制作用,其机理可能为通过引起PSII系统反应中心的部分失活,导致PSII系统反应中心的开放比例减少,引起电子传递速率降低以及ATP和NADPH的合成减慢,从而使光合作用速率下降;初始藻密度对Cu2+的光合毒性大小有较大的影响,故在进行藻类的毒性实验时,也应关注初始藻密度的影响。