半干旱草原地-气温室气体交换速率测定

重点介绍采用静态箱 -气相色谱法测定低交换速率的半干旱草原地 -气间温室气体交换速率的采样分析系统的配置及操作 .将静态采样箱置于采样点 ,用 50 cm³或 100 cm³的塑料注射器现场取样 ,转存于气袋中并送到实验室分析 .用改进了的进样系统并装有 FID和 ECD的气相色谱仪 ( GC)分析其中的 CH₄、CO₂ 和 N₂O浓度 ,计算出地 -气痕量温室气体的交换速率 .对内蒙古羊草草原、草甸草原 N₂O、CO₂ 和 CH₄交换速率日变化规律实测结果分析表明 ,该方法简便易行、准确可靠 .     

Study on catalysts for combustion of lean CH4

In this study, cerarnics honeycomb-supported ABO₃ perovskite type oxides were preparedby changing the composition of A and B site cations, and observed their activities for lean CH₄ oxidation. In the case of change in A site composition La_0.3Sr_0.2MnO₃ and La_0.6Sr_0.4MnO₃ is the mostactive catalysts for 1 v% CH₄ and 2 v% CH₄ respectively. But LaMn_0.5Co_0.5O₃ oxide is the best ac-tive catalyst for 1-2v% CH₄ among the oxides by changing B site compositions of LaBO₃ and su-perior to La_0.3Sr_0.2MnO₃ and La_0.6S_0.4MnO₃catalysts.Adding trace Pd improved the activity and characteristics of space velocity for LaMn_0.5CO_0.5O₃and La_0.3Sr_0.2MnO₃ Although LaMn_0.5Co_0.5O₃ +Pd (0.03 wt%) was less active than the Pd catalyst,the activity was more than Pt catalyst at a conversion level below 90%.     

贵州省旱田土壤N2O释放及其环境影响因素

以贵州省的玉米－油菜轮作田、大豆－冬小麦轮作和休耕地为研究对象,采用密闭箱－气相色谱法,对整个轮作期的土壤Ｎ₂Ｏ释放进行观测,初步研究我国亚热带旱田的Ｎ₂Ｏ释放特征．实验研究结果表明,３试验田Ｎ₂Ｏ释放通量具有相同的规律性日变化形式,秋收作物达通量极大值的时间比越冬作物滞后２ｈ～３ｈ,气温是控制Ｎ₂Ｏ通量日变化的主要环境因子：３试验田Ｎ₂Ｏ释放通量（以Ｎ₂Ｏ中的Ｎ计）分别在９．８１～４３３．１１,４．００～１８０．４１和９．７４～２８２．００μｇ·ｍ^-2·ｈ^-1,高于我国水田和北方旱田的Ｎ₂Ｏ释放通量;进一步分析表明,３试验田Ｎ₂Ｏ释放通量具有相同的季节变化模式,Ｎ₂Ｏ 释放峰受降雨事件的直接影响,Ｎ₂Ｏ通量与降雨量和土壤湿度间有显著的正相关性,而与温度的关系不明显     

粉煤流化床燃烧(PC-FBC)中SO2的生成特性

粉煤流化床（ＰＣ－ＦＢ）是一项燃烧效率高,同时实现炉内脱硫、低ＮＯ_x 和Ｎ₂Ｏ排放的新型高效、清洁煤燃烧技术．在一座０．３ＭＷ 的试验台上,系统研究了其ＳＯ₂生成与分布特性．主要包括：ＰＣ－ＦＢＣ的ＳＯ₂生成特性以及床层温度Ｔ_b、流化速度ｕ₀、二次风率Ｒ₂、二次风投入位置、二次风喷射角度、喷口尺寸对ＳＯ₂生成与分布的影响．试验燃用煤种含硫１．７１％ ．在Ｔ_b＝ ８２０～９２０℃,ｕ₀＝ １．２～３．３ｍ ／ｓ,Ｒ₂＝ ３０％ ～７０％ 的条件下,流化床燃烧区（ＦＢＣＺ）出口ＳＯ₂浓度及炉膛出口ＳＯ₂浓度ＳＯ″₂分别为５２０～６００ｍ ｌ／ｍ³和１２８０～１３００ｍ ｌ／ｍ^３．     

DBD降解CF2ClBr过程中自由基与电子能量

利用介质阻挡放电方法对环境污染物ＣＦ₂ＣｌＢｒ进行了等离子体降解的研究．在前人对该体系的降解产物分析及活性粒子推测的基础上,采用动态反应装置得到了等离子体的发射光谱,进一步确证了等离子体系中出现的ＣＦ₂、ＣＦＣｌ、Ｆ、Ｃｌ、Ｂｒ等主要自由基,并从中推出了等离子态气体可能发生的自由基反应．同时通过发射光谱的分析,近似得到该体系的平均电子能量约为２．４２ｅＶ     

大气CO2倍增和盐度对滨藜离子水平和叶绿素荧光诱导动力学的效应

研究了ＣＯ２倍增和ＫＣｌ、ＮａＣｌ对盐生植物中亚滨藜幼苗生长，叶绿素含量，Ｋ＾＋、Ｎａ＾＋水平和叶绿素ａ荧光诱导动力学的影响。结果表明，３００ｍｍｏｌ／ＬＮａＯＨ可刺激中亚滨藜的生长，而同浓度的ＫＣｌ则抑制，ＣＯ２倍增使植物株生长增强：     

固相萃取技术预富集环境水样中邻苯二甲酸酯

使用Ｃ₁₈固相萃取柱，系统地研究了环境水样中邻苯二甲酸酯类化合物的固相萃取预富集方法，考虑影响回收率的４个主要因素，即水样流速、洗脱溶剂、洗脱溶剂用量及洗脱速率，利用正交试验进行萃取条件的优化．最后确定最佳萃取条件为：水样流速４ｍ ｌ·ｍ ｉｎ^-1，洗脱溶剂为乙酸乙酯、洗脱溶剂用量２ｍ ｌ，洗脱速率２ｍｌ·ｍ ｉｎ^-1．并探讨了其它影响萃取效果的因素，除邻苯二甲酸二辛酯（ＤＥＨＰ）外，邻苯二甲酸二甲酯（ＤＭＰ）、邻苯二甲酸二乙酯（ＤＥＰ）、邻苯二甲酸二丁酯（ＤＢＰ）的固相萃取回收率在９６．５％ ～１２０％ 范围内，相应化合物的液－液萃取回收率为９２．９％ ～１２０％ ． 表明固相萃取，在环境水样中的邻苯二甲酸酯类化合物分离富集方面可以取代液－液萃取． 同时，进行了固相萃取柱在不同条件下的贮存实验．     

淀粉聚乙烯膜在受控条件下的好氧生物降解

采用土埋、真菌生长和 CO₂ 释放试验分别测定了几种淀粉聚乙烯膜的生物降解性 .试验结果表明 ,膜的生物降解性与膜中的淀粉含量正相关 ,并受膜比面积大小的影响 .在受控条件下 ,含淀粉 6%～ 30 %的膜经 28d降解后 ,降解质量变化率在0.6%～ 12.4%范围内 ,其 CO₂ 释放量为 0.02～ 0.15mg/mg膜 .膜中的聚乙烯组分不仅本身难被生物降解 ,而且还抑制微生物对其淀粉组分的降解 .CO₂ 是淀粉聚乙烯膜好氧生物降解的终产物 ,可以作为评估膜生物降解性的一个可靠指标 .     

应用DNDC模型估算区域农业土壤N2O释放通量和释放量——以贵州省为例

根据ＤＮＤＣ模型能较好地拟合贵州省玉米－油菜轮作田、大豆－冬小麦轮作田和休耕地的N₂O释放通量及其影响因子的季节变化模式,采用ＤＮＤＣ模型估算了以县为空间分辨尺度的贵州省农业土壤１９９５ 年N₂O释放通量和释放量;定量评估了施肥和耕作农业活动对该地区N₂O释放量的贡献． 本工作将为准确估算我国农业土壤的N₂O释放量和提出科学的减排措施提供研究基础和方法参考．     

脉冲放电脱硫产物的收集

实验结果表明利用给反应器加直流基压收集脱硫产物是可行的．产物收集效率随直流基压和停留时间的增加而增加,在本实验条件下,最高收集效率达到９５．１％ ．加直流基压后,脉冲电压、电流波形基本不变,放电增强,脱硫效果提高．加直流基压可使反应器在脱硫的同时有效收集产物．     

Carbon dioxide emissions from spring ploughing of grassland in Ireland

Grassland re-seeding or land-use change requires ploughing, which may enhance carbon dioxide (CO₂) emissions from soil. This study observed the short to intermediate-term (37 days) effects of ploughing on CO₂ emissions from poorly drained grassland using automated soil respiration chambers. Immediately after ploughing, a brief peak in CO₂ emissions from soil occurred with a maximum observed flux of 6.91 g CO₂ m⁻² h⁻¹. Contradictory to other reported results, ecosystem respiration after ploughing was lower on the ploughed than on the grass site. After including estimates of photosynthesis in the analysis, ploughing led to significantly higher net CO₂ emissions than from grassland. The main mechanism of C loss during ploughing was most likely due to a reduction in gross primary production rather than enhanced soil respiration.     

Effect of elevated tropospheric ozone on methane and nitrous oxide emission from rice soil in north India

Physiological changes in crop plants in response to the elevated tropospheric ozone (O₃) may alter N and C cycles in soil. This may also affect the atmosphere-biosphere exchange of radiatively important greenhouse gases (GHGs), e.g. methane (CH₄) and nitrous oxide (N₂O) from soil. A study was carried out during July to November of 2007 and 2008 in the experimental farm of Indian Agricultural Research Institute, New Delhi to assess the effects of elevated tropospheric ozone on methane and nitrous oxide emissions from rice (Oryza sativa L.) soil. Rice crop was grown in open top chambers (OTC) under elevated ozone (EO), non-filtered air (NF), charcoal filtered air (CF) and ambient air (AA). Seasonal mean concentrations of O₃ were 4.3 ± 0.9, 26.2 ± 1.9, 59.1 ± 4.2 and 27.5 ± 2.3 ppb during year 2007 and 5.9 ± 1.1, 37.2 ± 2.5, 69.7 ± 3.9 and 39.2 ± 1.8 ppb during year 2008 for treatments CF, NF, EO and AA, respectively. Cumulative seasonal CH₄ emission reduced by 29.7% and 40.4% under the elevated ozone (EO) compared to the non-filtered air (NF), whereas the emission increased by 21.5% and 16.7% in the charcoal filtered air (CF) in 2007 and 2008, respectively. Cumulative seasonal emission of N₂O ranged from 47.8 mg m⁻² in elevated ozone to 54.6 mg m⁻² in charcoal filtered air in 2007 and from 46.4 to 62.1 mg m⁻² in 2008. Elevated ozone reduced grain yield by 11.3% and 12.4% in 2007 and 2008, respectively. Global warming potential (GWP) per unit of rice yield was the least under elevated ozone levels. Dissolved organic C content of soil was lowest under the elevated ozone treatment. Decrease in availability of substrate i.e., dissolved organic C under elevated ozone resulted in a decline in GHG emissions. Filtration of ozone from ambient air increased grain yield and growth parameters of rice and emission of GHGs.     

无机离子SO42-对小麦幼苗积累稀土的影响

采用ＭＩＮＴＥＱＡ 程序计算出在无机离子SO₄^2-存在下,轻（Ｌａ）、中（Ｇｄ）、重（Ｙ）３ 种稀土元素在溶液中的形态分布．研究了在水培条件下ＳＯSO₄^2-对３种稀土元素在小麦幼苗根、茎和叶部的积累规律．热力学实验表明,小麦幼苗在加SO₄^2-的稀土元素溶液中培养３０ｄ 后,小麦根部对Ｌａ、Ｇｄ 的积累受抑制,而对Ｙ的积累却明显提高;加入SO₄^2-后茎叶部对Ｌａ、Ｙ积累值改变不明显,但对Ｇｄ的积累有所增加．生长动态实验表明,在SO₄^2-存在下,小麦幼苗根部对稀土的积累随时间增加而增加,其积累值符合线性递增函数方程,相关系数ｒ＞ ０．９４;而茎叶部最初积累能力较强,SO₄^2-的加入对小麦植株动态吸收稀土规律无明显影响．     

水稻成熟衰老期叶际及根际氮氧化物排放的光控机制

为研究水稻成熟衰老期叶际及根际NOGs(nitrogen oxides gases, 氮氧化物)排放的光控机制,在同步测定条件下,采用密闭箱法,研究了不同光质(黄、绿、白、红、蓝光)、光强〔0.00、(50.00±2.35)(75.00±2.32)(100.00±3.89) μmol/(m2·s)〕对水稻成熟衰老期叶际及根际NOGs排放的影响. 结果表明:在相同氮源〔NH₄NO₃-N,ρ(N)为90 mg/L〕下,日间光强为(75.00±2.32) μmol/(m2·s)时,水稻成熟衰老期叶际N₂O和NO的平均排放速率分别为18.09、0.39 μg/(pot·h),二者排放量分别占各自总排放量的28.88%、30.78%;在(100.00±3.89)μmol/(m2·s)光强条件下,叶际N₂O和NO的平均排放速率则分别为23.27、0.50 μg/(pot·h),二者排放量分别占各自总排放量的36.74%、27.92%. 在0.00～(100.00±3.89)μmol/(m2·s)日间光强下,水稻叶际及根际N₂O和NO排放随随光强增加而增强,但不同光照条件下水稻叶际及根际均无明显的NO₂净排放作用. 在光强一致〔(20.00±0.48)μmol/(m2·s)〕条件下,同期黄、绿、白、红、蓝光处理的水稻叶际N₂O平均排放速率分别为24.90、15.46、13.85、16.40和19.77 μg/(pot·h),红、蓝光在抑制水稻叶际N₂O及根际NO排放的同时,也促进了水稻根际N₂O的排放. 研究显示,水稻成熟衰老期叶际及根际NOGs排放均以N₂O为主,叶际N₂O的排放可以反映根际N₂O的排放情况. 光照越强,NOGs排放就越明显. 适度控制日间光强并增加红、蓝光比例,可抑制N₂O和NO排放.      

DNAN的UV/H2O2氧化及影响因素研究

作为钝感炸药的重要成分,DNAN（2,4-二硝基茴香醚）可以在炸药合成中替代TNT。随着对含DNAN废水的关注增多,发展了几种处理含DNAN废水的方法。其中,UV/H²O²氧化被证明是一种很有效的处理废水中DNAN的方法。本研究开展了DNAN降解的一系列批处理实验,研究碳酸根、初始pH和H²O²剂量对DNAN降解过程的影响。分别采用DI水（去离子水）和自来水配置与含DNAN废水相同浓度的DNAN溶液进行处理,比较和分析DNAN的降解过程和影响因素。结果显示：DI水溶液中DNAN的降解速率要快于自来水溶液,表明碳酸根和初始pH会影响DNAN的降解过程。配置溶液中DNAN的降解速率快于含DNAN废水中DNAN的降解速率,因为废水其他有机物的存在会与DNAN形成竞争。DNAN废水中的氮都被UV/H²O²氧化为硝态氮,表明该方法是处理污水中DNAN的有效技术。另外,溶液中的碳酸根、初始pH、H²O²剂量和其他有机物成分都会影响DNAN的降解过程。研究结果为DNAN废水处理的最优降解条件确定提供理论支撑。     

Visible light driven mineralization of spiramycin over photostructured N-doped TiO2 on up conversion phosphors

A novel visible light-active photocatalyst formulation(NdT/OP) was obtained by supporting N-doped TiO_2(NdT) particles on up-conversion luminescent organic phosphors(OP). The photocatalytic activity of such catalysts was evaluated for the mineralization process of spiramycin in aqueous solution. The effect of NdT loading in the range 15–60 wt.% on bulk and surface characteristics of NdT/OP catalysts was investigated by several chemicophysical characterization techniques. The photocatalytic performance of NdT/OP catalysts in the removal of spyramicin from aqueous solution was assessed through photocatalytic tests under visible light irradiation. Total organic carbon(TOC) of aqueous solution,and CO and CO_2 gas concentrations evolved during the photodegradation were analyzed. A dramatic enhancement of photocatalytic activity of the photostructured visible active NdT/OP catalysts,compared to NdT catalyst,was observed. Only CO_2 was detected in gas-phase during visible light irradiation,proving that the photocatalytic process is effective in the mineralization of spiramycin,reaching very high values of TOC removal. The photocatalyst NdT/OP at 30 wt.% of NdT loading showed the highest photocatalytic activity(58%of TOC removed after 180 min irradiation against only 31% removal after 300 min of irradiation of NdT). We attribute this enhanced activity to the high effectiveness in the utilization of visible light through improved light harvesting and exploiting. OP particles act as "photoactive support",able to be excited by the external visible light irradiation,and reissue luminescence of wavelength suitable to promote NdT photomineralization activity.     

Nitrogen fertilizer reduction in rice production for two consecutive years in the Taihu Lake area

Agricultural activities are the main source of non-point pollution in the Taihu Lake region, and therefore reduction of nitrogen (N) fertilizer is imperative in this area. A two-year experiment was carried out in a paddy field of summer rice-winter wheat rotation in the Taihu Lake area, and the rice growing seasons were mainly concerned in this research. Grain yield, N accumulation at rice crucial stages, N use efficiency, as well as N losses via run off during rice growing season were determined under different N application rates. No significant differences were observed in grain yield under N fertilizer application rates of 135-270 kg N ha⁻¹ (50-100% of the conventional N application rate). Nitrogen accumulation before the heading stage (Pre-NA) accounted for 61-95% of total nitrogen absorption in mature rice, and was positively correlated with straw dry matter at harvest. Positive correlations were found between Pre-NA and straw (0.53, p < 0.05), and between grain yield and N accumulation after the heading stage (Post-NA) (0.58, p < 0.05), suggesting that increasing nitrogen accumulation after the heading stage is crucial for grain yield improvement. Poor agronomic efficiency of applied N (AE_N), partial factor productivity of applied N (PFP_N) and internal utilization efficiency of applied N (IE_N) were observed for the higher soil fertility and a higher N fertilizer input; a simple N fertilizer reduction could significantly increase the nitrogen use efficiency in this region. Nitrogen loss via runoff was positively linearly related to N application rates and severely affected by rainfall events. The highest-yielding N rates were around 232-257 kg N ha⁻¹, accounting for 86-95% of the conventional N application rates for the rice season. To reduce N losses and enhance N use efficiency, the recommendable N fertilization rate should be lower than that of the highest yield rate for rice season. Our findings indicated that nitrogen fertilizer reduction in the Taihu Lake area is feasible and necessary for maintaining grain yield, enhancing nitrogen use efficiency, and reducing environmental impact. However, the longer-term yield sustainability for the proper N application rate needs to be further investigated.     

氮氟掺杂二氧化钛(N,F-TiO2)的制备及可见光催化活性的研究

以氨水为氮源,氢氟酸为氟源,采用溶胶-凝胶法制备了氮氟掺杂二氧化钛(N,F-TiO2)光催化剂,并通过X-射线衍射(XRD)和扫描电镜(SEM)技术对其晶型和形态进行表征.最后以酸性红B为模型污染物,探讨了N和F加入量、焙烧温度、焙烧时间、照射时间、催化剂用量、溶液初始浓度和照射功率等因素对N,F-TiO2可见光催化活性的影响.结果表明,制备的N,F-TiO2以锐钛型为主,N和F的掺杂对TiO2的晶相没有明显改变,但可以扩大TiO2的可见光响应范围.当N和F的加入量均为2.0%,且在500℃下焙烧40 min时,得到的N,F-TiO2的可见光催化活性明显高于单N或单F掺杂的TiO2(N-TiO2或F-TiO2).对于50 mL浓度为10.0 mg·L-1的酸性红B溶液,当催化剂加入量为1.5 g·L-1,128W光照3.0 h,溶液pH=5.6时,去除率为85.40%.适当延长光照时间至4.0 h,降解率几乎可达100%.另外,研究还证明了N,F-TiO2催化可见光降解过程中有.OH自由基生成.     

Responses of greenhouse gas fluxes to experimental warming in wheat season under conventional tillage and no-tillage fields

Understanding the effects of warming on greenhouse gas(GHG, such as N_2O, CH_4 and CO_2 )feedbacks to climate change represents the major environmental issue. However, little information is available on how warming effects on GHG fluxes in farmland of North China Plain(NCP). An infrared warming simulation experiment was used to assess the responses of N_2O, CH_4 and CO_2 to warming in wheat season of 2012–2014 from conventional tillage(CT) and no-tillage(NT) systems. The results showed that warming increased cumulative N_2O emission by 7.7% in CT but decreased it by 9.7% in NT fields(p 0.05). Cumulative CH_4 uptake and CO_2 emission were increased by 28.7%–51.7% and 6.3%–15.9% in both two tillage systems,respectively(p 0.05). The stepwise regressions relationship between GHG fluxes and soil temperature and soil moisture indicated that the supply soil moisture due to irrigation and precipitation would enhance the positive warming effects on GHG fluxes in two wheat seasons.However, in 2013, the long-term drought stress due to infrared warming and less precipitation decreased N_2O and CO_2 emission in warmed treatments. In contrast, warming during this time increased CH_4 emission from deep soil depth. Across two years wheat seasons, warming significantly decreased by 30.3% and 63.9% sustained-flux global warming potential(SGWP) of N_2O and CH_4 expressed as CO_2 equivalent in CT and NT fields, respectively. However, increase in soil CO_2 emission indicated that future warming projection might provide positive feedback between soil C release and global warming in NCP.     

水肥气耦合对温室番茄地土壤N2O排放及番茄产量的影响

为揭示水肥气耦合对温室番茄地土壤N_2O排放的影响,提出适宜的温室番茄增产减排措施,采用静态暗箱-气相色谱法监测土壤N_2O的排放,分析水肥气耦合条件下土壤温度、灌溉水利用效率(WFPS)、NO~-_3-N、O_2含量的变化规律以及N_2O排放的影响机制.加气条件下设两个灌水水平0.6 W和1.0 W(分别代表亏缺40%灌溉和充分灌溉,W代表充分灌水时的灌水量)和3个施氮水平(120、 180和240 kg·hm~(-2),分别代表低、中和高氮,以50%F、 75%F和F表示,其中F为当地推荐施氮量),以不加气充分灌溉(O为加气灌溉,CK为常规滴灌)条件下3种施肥水平为对照,共9个处理.结果表明,充分灌溉(W2F1O、W2F2O和W2F3O)的N_2O累积排放量较亏缺灌溉(W1F1O、W1F2O和W1F3O)处理平均增加了55.7%(P0.05);高氮条件下(W1F3O、W2F3O和W2F3CK)土壤N_2O排放较中氮和低氮平均增大13.4%和43.8%(P0.05),充分灌溉条件下加气处理(W2F1O、W2F2O和W2F3O)较相应不加气处理(W2F1CK、W2F2CK和W2F3CK)N_2O排放平均增加11.2%(P0.05).加气、施氮量和灌水量的增加可增加番茄产量和单产N_2O排放量.高氮处理番茄产量和单产N_2O排放量较中氮处理分别增加了12.5%(P0.05)和3.9%(P0.05),高氮处理番茄产量和单产N_2O排放量较低氮处理显著增加了30.4%和9.6%(P0.05),加气充分灌溉较加气亏缺灌溉处理番茄产量和单产N_2O排放量分别显著增加了29.7%和18.7%(P0.05),加气处理(W2F1O、W2F2O和W2F3O)较不加气处理产量(W2F1CK、W2F2CK和W2F3CK)平均增加了10.4%(P0.05),单产N_2O排放量增加但不显著.灌水量增加、施肥量降低、加气均可显著增大肥料偏生产力,减小灌溉水分利用效率(IWUE).综合考虑N_2O累积排放量、作物产量、氮肥利用效率、IWUE和单产N_2O排放量,得出加气低氮充分灌溉为较优的管理模式.本研究结果为温室番茄的增产减排提供了一定的参考.