不同盐度滨海盐渍土壤N_(2)O排放特征

[目的]滨海盐渍土壤作为耕地的后备资源,具有强大的生产潜力,科学改良应用盐渍土壤的同时综合考量温室气体的排放,有利于实现经济-环境的双赢。探究不同盐度滨海盐渍土N_(2)O排放规律特征,可为后续盐渍土壤盐度管控和温室效应的应对提供科学依据。[方法]采集自然形成的不同盐度梯度的滨海盐渍土壤进行室内培养试验,土壤盐度分别为0.96、2.57、4.04和15.23 mS·cm^(-1),并依次命名为Y1、Y2、Y3、Y4,采用气相色谱动态监测土壤N_(2)O的排放特征。[结果]不同盐分浓度影响下盐渍土壤N_(2)O累积排放量存在显著差异,当土壤盐度为0.96~4.04 mS·cm^(-1)时,随着盐度上升,土壤N_(2)O排放量下降;当盐度达到15.23 mS·cm^(-1)时,N_(2)O再次被刺激产生,排放量(2598.94μg·kg^(-1))仅次于轻度盐渍土(5384.17μg·kg^(-1))。盐度的增加给土壤微生物生存带来压力,氨氧化细菌AOB相较于古菌AOA更易受到盐分的影响,在轻、重度盐渍化土壤(Y1、Y2、Y3)中AOA仍能保持较高丰度;而在高盐分土壤(Y4)中,AOA和AOB的相对丰度受到抑制,阻碍了硝化作用的进行。盐度梯度影响下N_(2)O累积排放量还与反硝化潜势(PDR)呈显著正相关。当盐度持续增加,土壤类型划分为盐土(Y4)时,nosZ基因丰度显著降低,N_(2)O还原作用减弱,使得Y4盐渍土中的氮素最终以N_(2)O的形式排放。[结论]盐度梯度影响滨海盐渍土壤硝化和反硝化进程,二者共同促进了土壤氮素的转化,造成N_(2)O排放的差异。当EC_(2.5∶1)为0.96~4.04 mS·cm^(-1)时,盐度的提高限制硝化、反硝化作用的速率,表现出N_(2)O的减排;当盐分分类达到盐土标准时,由硝化作用产生的N_(2)O减少,由反硝化作用(异养反硝化和硝化细菌反硝化)产生的N_(2)O成为盐土土壤的主要温室气体排放来源。

田间老化生物质炭减缓稻麦轮作系统土壤N2O排放能力降低的机理

生物质炭作为一种重要的土壤调节剂,在固碳减排尤其氧化亚氮(N_(2)O)减排方面的作用日益突出。为明确生物质炭对田间N_(2)O排放的持续效应及其作用机理,通过田间定位试验,分析稻麦轮作体系新鲜和田间不同时间老化生物质炭对N_(2)O排放的影响。试验共设置5个处理,分别为CK(不施氮肥和生物质炭)、N(施氮肥)、NB0y(氮肥+新鲜生物质炭)、NB2y(氮肥+2年老化生物质炭)和NB5y(氮肥+5年老化生物质炭),动态监测稻麦轮作周期N_(2)O排放,测定水稻和小麦收获后土壤理化性质和氮循环功能基因丰度。结果表明,生物质炭显著降低土壤N_(2)O累积排放量32.4%~54.0%,且表现为NB0y>NB2y>NB5y。与N处理相比,NB0y、NB2y和NB5y处理显著提高土壤pH 0.6~1.2个单位、土壤有机碳(SOC)含量21.4%~58.6%、硝态氮( NO_(3)^(-)-N)含量1.7%~31.3%,对土壤pH改善能力随着生物质炭老化而下降。生物质炭处理显著提高nosZ基因丰度54.9%~249.4%,土壤(nirS+nirK)/nosZ比值随着生物质炭老化而增加。相关性分析表明,土壤N_(2)O累积排放量与pH呈显著负相关,与 NO_(3)^(-)-N含量和amoA-AOB(氨氧化细菌)丰度呈显著正相关。因此,新鲜和田间不同时间老化生物质炭均能显著改善土壤理化特性,降低土壤N_(2)O排放且新鲜生物质炭的作用效果优于老化生物质炭。土壤NO_(3)^(-)-N含量及(nirS+nirK)/nosZ比值的增加,是导致老化生物质炭减排N_(2)O能力降低的主要原因。

Organic Manures and Crop Residues as Fertilizer Substitutes: Impact on Nitrous Oxide Emission, Plant Growth and Grain Yield in Pre-Monsoon Rice Cropping System

It has been previously argued that application of organic residues added in soils has a great impact on soil quality, grain productivity as well as greenhouse gas emissions. Substitution of chemical fertilizers has become a common practice in agricultural systems which consequently affect the greenhouse gas emissions from agricultural fields. To observe the effects of organic manures and crop residues amendments, five fertilizer treatments including conventional inorganic nitrogen fertilizer—NPK, cow manure, rice straw, poultry manure and sugarcane bagasse were applied in the field for two consecutive pre-monsoon rice seasons. Addition of rice straw, poultry manure and sugarcane bagasse decreased the cumulative N2O emissions by 14% and 31%, and by 1% and 7% and 5% and 3% in 2012 and 2013 respectively when compared with conventional fertilizer treatment (NPK) in both the seasons. Yield differences were not significant (p > 0.005) amongst the treatments, however, a slight increase was observed due to rice straw amendment over control. Soil organic carbon decreased by 11% - 17% under the application of organic residues which might have contributed to lower N2O emissions from the plots. Results of carbon equivalent emission (CEE) and carbon efficiency ratio (CER) indicated that incorporation of rice straw during pre-monsoon rice season had the potential to reduce the N2O emissions and yield scaled emissions of rice production at lower level than the conventional farmers’ practice of using chemical fertilizers (NPK).

Rh_2O_3/mesoporous MO_x-Al_2O_3(M = Mn,Fe,Co,Ni,Cu,Ba)catalysts:Synthesis,characterization,and catalytic applications

Recently,a one-pot self-assembly method was proposed for the synthesis of mesoporous Al2O3 and MOx-Al2O3 composite materials.However,few attempts have been made to use mesoporous MOx-Al2O3 composites to support metal oxides for catalysis.In the present work,mesoporous MOx-Al2O3（M = Mn,Fe,Co,Ni,Cu,Ba）materials were prepared by a one-pot self-assembly method using Pluronic P123 as a structure-directing agent.The obtained mesoporous materials were loaded with Rh2O3 nanoparticles via impregnation with Rh（NO3）3 followed by calcination in air at 500°C.The resulting catalysts were characterized by X-ray diffraction,N2 adsorption-desorption measurements,transmission electron microscopy,inductively coupled plasma optical emission spectrometry,X-ray photoelectron spectroscopy,and their catalytic activity and stability for CO oxidation and N2O decomposition were tested.The Rh2O3 nanoparticles were found to be on the order of1 nm in size and were highly dispersed on the high surface area mesoporous MOx-Al2O3 supports.A number of the Rh2O3/mesoporous MOx-Al2O3 catalysts exhibited higher catalytic activity than the Rh2O3/mesoporous Al2O3 prepared for comparison.

Characteristics of atmospheric nitrous oxide observed at Mt.Waliguan GAW global station in the inland Eurasia during eighteen years

This study presents atmospheric N_(2)O mole fractions measured from discrete air samples from 2001 to 2018 at Mt.Waliguan(WLG)station(36°17′N,100°54′E,3816 m asl)in China,which is a global background station of the World Meteorological Organization/Global Atmosphere Watch Programme(WMO/GAW)in central Eurasia.Observed N_(2)O characteristics of annual means,interannual variability,and seasonal cycles were investigated.Our results show that N_(2)O at WLG possess a distinct increasing trend and a statistically significant seasonal cycle,with an average growth rate of 0.9±0.01 ppb yr^(−1)(1σ)(1ppb=10^(−9)),which is close to the global mean.The detrended seasonal cycle shows a trough of−0.25±0.04(1σ)ppb in June and a peak of 0.13±0.07(1σ)ppb in September,with an amplitude of 0.38 ppb.The pattern is due to combined effects of variation in surface sources,vertical convection within the boundary layer and stratosphere to troposphere transportation(STE).The interannual variability in growth rate was partly driven by quasi-biennial oscillation(QBO)of tropical zonal wind through stratospheric transport into the troposphere.According to a cluster analysis of back trajectories and the corresponding average N_(2)O load,most air masses cover arid and semi-arid areas in inner Asia with low N_(2)O emissions,indicating that the atmospheric N_(2)O at the WLG represents the background N_(2)O level in central Eurasia.

秸秆还田对关中地区麦玉轮作田N_(2)O排放的短期效应

【目的】分析环境因子和土壤N_(2)O排放对短期秸秆还田的响应,以更准确地评价化肥施用下短期秸秆还田的增减排效益。【方法】于2020—2021年在关中地区开展了小麦–玉米轮作田间试验。采取双因素裂区设计,主处理为秸秆还田(W1)与不还田(W0),副处理为不施肥(W1、W0)、施氮肥(W1N、W0N)和施氮磷肥(W1NP、W0NP)。测定了土壤含水量、温度、NO_(3)^(-)-N、NH_(4)^(+)-N、速效磷含量及N_(2)O排放通量,调查了作物产量,并探讨了土壤N_(2)O排放与环境因子之间的关系。【结果】相比W0,W1处理土壤含水量提高了1.1%~16.2%;W1N处理的土壤NO_(3)^(-)-N含量峰值较W0N高17.6%~30.5%。4个施肥处理的土壤NO_(3)^(-)-N和NH_(4)^(+)-N含量随生育时期推进先迅速上升,然后缓慢下降,施氮肥处理的土壤NO_(3)^(-)-N峰值比施氮磷肥处理高17.0%~20.8%。W1NP与W0NP处理土壤的速效磷含量随生育期推进先上升后缓慢下降,平均速效磷含量显著高于处理W0、W1、W0N和W1N(P<0.05)。冬小麦季和夏玉米季分别在施肥后第6和第12天土壤N_(2)O排放通量达到峰值。W1N、W1NP的土壤N_(2)O排放峰值分别比W0N、W0NP高5.0%和38.5%,全年累计排放量分别比W0N、W0NP高291.13和379.99 g/hm^(2)(P<0.05);W1N处理的土壤N_(2)O全年累计排放量比W1NP处理高298.14 g/hm^(2),W0N处理的土壤N_(2)O全年累计排放量比W0NP高386.99 g/hm^(2),施氮磷肥处理的排放峰值比施氮肥处理低2.43%~54.67%。相关性分析发现,N_(2)O排放通量与土壤温度、含水量、NO_(3)^(-)-N、NH_(4)^(+)-N、速效磷含量呈极显著正相关(P<0.01)。各处理N_(2)O排放强度表现为:相同秸秆还田条件下,施氮肥>施氮磷肥>不施肥处理;相同施肥条件下,秸秆还田>不还田处理。【结论】不论是否秸秆还田,氮磷肥配施均提高了土壤速效磷含量,降低了NO_(3)^(-)-N峰值,因而降低了N_(2)O年累积排放量。秸秆还田后短期内虽然也提高了土壤速效磷含量,但其较高的土壤含水量和NO_(3)^(-)-N含量导致更高的N_(2)O排放通量和农田N_(2)O累计排放量。因此,评价秸秆还田在农业可持续发展中的生态与生产效益时,也应考虑其还田后短期存在的不利影响。

Reduced graphene oxide-based materials for electrochemical energy conversion reactions

There have been ever-growing demands to develop advanced electrocatalysts for renewable energy conversion over the past decade.As a promising platform for advanced electrocatalysts,reduced graphene oxide(rGO)has attracted substantial research interests in a variety of electrochemical energy conversion reactions.Its versatile utility is mainly attributed to unique physical and chemical properties,such as high specific surface area,tunable electronic structure,and the feasibility of structural modification and functionalization.Here,a comprehensive discussion is provided upon recent advances in the material preparation,characterization,and the catalytic activity of rGO-based electrocatalysts for various electrochemical energy conversion reactions(water splitting,CO2 reduction reaction,N2 reduction reaction,and O2 reduction reaction).Major advantages of rGO and the related challenges for enhancing their catalytic performance are addressed.

A Process-based Model of N_2O Emission from a Rice-Winter Wheat Rotation Agro-Ecosystem:Structure,Validation and Sensitivity

In order to numerically simulate daily nitrous oxide （N2O） emission from a rice-winter wheat rotation cropping system, a process-based site model was developed （referred to as IAP-N-GAS） to track the movement and transformation of several forms of nitrogen in the agro-eeosystem, which is affected by climate, soil, crop growth and management practices. The simulation of daily N2O fluxes, along with key daily environmental variables, was validated with three-year observations conducted in East China. The validation demonstrated that the model simulated well daily solar radiation, soil temperature and moisture, and also captured the dynamics and magnitude of accumulated rice aboveground biomass and mineral nitrogen in the soil. The simulated daily N2O emissions over all three years investigated were generally in good agreement with field observations. Particularly well simulated were the peak N2O emissions induced by fertilizations, rainfall events or mid-season drainages. The model simulation also represented closely the inter-annuM variation in N2O emission. These validations imply that the model has the capability to capture the general characteristics of N2O emission from a typical rice-wheat rotation agro-ecosystem. Sensitivity analyses revealed that the simulated N2O emission is most sensitive to the fertilizer application rate and the soil organic matter content, but it is much less sensitive to variations in soil pH and texture, temperature, precipitation and crop residue incorporation rate under local conditions.

Fabricating GeO_2 passivation layer by N_2O plasma oxidation for Ge NMOSFETs application

In this paper, oxidation of Ge surface by N2O plasma is presented and experimentally demonstrated. Results show that 1.0-nm GeO2 is achieved after 120-s N20 plasma oxidation at 300 ℃. The GeO2/Ge interface is atomically smooth. The interface state density of Ge surface after N20 plasma passivation is about - 3 × 1011 cm-2.eV-1. With GeO2 passivation, the hysteresis of metal-oxide-semiconductor （MOS） capacitor with A1203 serving as gate dielectric is reduced to - 50 mV, compared with - 130 mV of the untreated one. The Fermi-level at GeO2/Ge interface is unpinned, and the surface potential is effectively modulated by the gate voltage.

Atmospheric N2O gas detection based on an inter-band cascade laser around 3.939 μm

N2O is a significant atmospheric greenhouse gas that contributes to global warming and climate change.In this work,the high sensitivity detection of atmospheric N2O is achieved using wavelength modulation spectroscopy(WMS)with an inter-band cascade laser operating around 3.939μm.A Lab VIEW-based software signal generator and software lock-in amplifiers are designed to simplify the system.In order to eliminate the interference from water vapor,the detection was performed at a pressure of 0.1 atm(1 atm=1.01325×10^5 Pa)and a drying tube was added to the system.To improve the system performance for long term detection,a novel frequency locking method and 2 f/1 f calibration-free method were employed to lock the laser frequency and calibrate the power fluctuations,respectively.The Allan deviation analysis of the results indicates a detection limit of^20 ppb(1 ppb=1.81205μg/m3)for a 1 s integration time,and the optimal detection limit is^5 ppb for a 40-s integration time.

Rh_2O_3/monoclinic CePO_4 composite catalysts for N_2O decomposition and CO oxidation

CePO4 （in particular, monoclinic CePO4） has been rarely used to make supported catalysts. Herein, monoclinic CeP04 nanoparticles were prepared by calcining hexagonal CePO4 nanomds （prepared by precipitation） in air at 900 ℃. Monoclinic CePO4 nanowires were prepared by calcining hexagonal CePO4 nanowires （prepared by hydrothermal synthesis at 150 ℃） in air at 900 ℃. Both monoclinic CePO4 materials were used to support Rh2O3 by impregnation using Rh（NO3）3 as a precursor （followed by calcination）. The catalytic performance of Rh2O3/monoclinic CePO4 composite materials in N2O decomposition and CO oxidation was investigated. It was found that Rh2O3 supported on monoclinic CePO4 nanowims was much more active than Rh2O3 supported on monoclinic CePO4 nanoparticles. The stability of catalysts as a function of reaction time on stream was studied in both reactions. The influence of co-fed CO2, O2, and H2O on the catalytic activity in N20 decomposition was also studied. These catalysts were characterized by employing N2 adsorption-desorption, ICP-OES, XRD, TEM, XPS, H2-TPR, O2-TPD, and CO2-TPD. The correlation between physicochemical properties and catalytic properties was discussed.

基于文献统计和模型拟合的污水处理厂N2O排放因子

污水处理过程中氧化亚氮(N_(2)O)的排放不容忽略.基于126个实证的文献统计数据分析发现,污水处理厂(WWTPs)的地域因素对N_(2)O排放因子有显著影响.然而,全球各地区WWTPs的N_(2)O排放因子普遍低于联合国政府间气候变化专门委员会(IPCC)推荐值.在中国,WWTPs的N_(2)O排放因子(以N_(2)O-N/N_(influent)计)约为0.000 35~0.065 20 kg·kg^(-1).同时,不同污水处理工艺的N_(2)O排放因子也存在显著差异,尤其序批式活性污泥(SBR)工艺具有较高排放.采用统一的缺省排放因子进行核算容易高估N_(2)O排放量,建议各国进行实际监测或模型研究,以制定适合本土情况的分类排放因子.此外,在126个实证数据中,基于总氮(TN)去除量的N_(2)O排放因子与TN去除率呈弱负相关,更符合生物处理化学计量学,可以提供准确的N_(2)O核算方法.为此,建立数字孪生模型对案例厌氧-缺氧-好氧(AAO)WWTP进行动态模拟,全面量化N_(2)O的动态排放行为,证明N_(2)O排放具有明显的季节性和日变化性,且仅相当于IPCC推荐排放因子计算值的11%.比较散点线性拟合和分类平均值指数拟合方法,发现后者能更准确地反映N_(2)O排放因子与TN去除率之间的负相关,进一步建立了基于TN去除量的N_(2)O平均排放因子与TN去除率的指数回归方程以预测N_(2)O的排放.本研究提供的动态模拟和分类指数拟合方法对同类WWTPs精确核算N_(2)O具有重要参考价值,可为理解和应对N_(2)O排放问题提供帮助.

棉纤维素/N-甲基吗啉-N-氧化物—水合物(NMMO·H_(2)O)溶液的流变性能

利用Instron3211型毛细管流变仪和Instron3325型流变力学谱仪研究了棉纤维素/N-甲基吗啉-N-氧化物一水合物(NMMO·H_2O)溶液流变性能,讨论了剪切速率、温度和溶液中的纤维素的质量分数对棉纤维素/NMMO·H_2O溶液流变性能的影响,计算了不同质量分数溶液的粘流活化能。

澜沧江(云南段)水-气界面氧化亚氮释放通量时空分布特征及其影响因素研究

温室气体浓度上升导致全球气候变暖已成为国际社会关注的焦点。氧化亚氮(N_(2)O)作为痕量温室气体,在全球气候变暖过程中扮演着重要的角色。河流和水库被认为是N_(2)O释放的活跃区域,然而目前研究多集中在对单一河流或水库的监测,对大范围河库系统的N_(2)O研究仍相对欠缺。选取澜沧江(云南段)流域作为考察对象,在2022年4月、8月采用悬浮箱采集24个点位的水-气界面的气体样品,并于实验室通过气象色谱仪检测气样氧化亚氮浓度,探究该流域干支流N_(2)O释放通量的时空分布特征;同时,测定了水体水环境参数,解析其时空差异的环境影响因素。结果表明,1)在时间尺度上,澜沧江(云南段)旱季N_(2)O通量均值低于雨季。旱季N_(2)O通量均值为0.10 mg·m^(-2)·d^(-1),雨季为0.18 mg·m^(-2)·d^(-1),其中旱季干流均值为0.11 mg·m^(-2)·d^(-1),支流为0.05 mg·m^(-2)·d^(-1);雨季干流均值为0.18 mg·m^(-2)·d^(-1),支流为0.15 mg·m^(-2)·d^(-1)。2)在空间尺度上,N_(2)O通量沿程整体呈现释放量递增的趋势。干流N_(2)O通量均值为0.15 mg·m^(-2)·d^(-1),支流为0.10 mg·m^(-2)·d^(-1),干流N_(2)O通量高于支流。水库坝上N_(2)O通量均值为0.02 mg·m^(-2)·d^(-1),坝下为0.31 mg·m^(-2)·d^(-1),水库坝下N_(2)O通量值是坝上的15.5倍,水库发电下泄高速水流加速了水-气界面N_(2)O释放。3)澜沧江水-气界面N_(2)O通量与水温(WT)(r=0.341,P=0.009)、氨氮(NH4^(+))(r=0.384,P=0.004)和流速(r=0.283,P=0.026)呈显著正相关关系,与溶解氧(DO)(r=-0.420,P=0.001)呈显著负相关关系,表明在高WT、低DO、高NH4^(+)和高流速条件下有利于N_(2)O产生与释放。研究结果揭示澜沧江(云南段)河库系统氧化亚氮释放通量时空分布特征以及影响因素,为流域温室气体排放评估提供数据支持和科学依据。

生物炭与硝化抑制剂联合施用对热带菜地土壤硝化过程及N_(2)O排放的影响

本研究以热带菜地土壤为对象,通过室内培养试验探讨生物炭与硝化抑制剂联合施用下土壤无机氮含量和强度及N_(2)O排放的变化规律,旨在明确施用生物炭和硝化抑制剂对热区土壤硝化过程的调控作用及对N_(2)O的减排效应。本试验设置4个处理:单施氮肥(N),氮肥配施生物炭(N+Bc),氮肥配施硝化抑制剂(N+Ni)以及氮肥同时配施生物炭和硝化抑制剂(N+Bc+Ni)。结果表明:培养期间,生物炭施用下土壤NO_(3)^(–)–N强度显著提高15.8%,表明添加生物炭能够显著促进土壤硝化过程;硝化抑制剂添加下土壤NH_(4)^(+)–N强度显著提高33.4%,表明硝化抑制剂的施用显著减缓硝化过程;此外,硝化抑制剂能够削弱由生物炭添加引起的激发硝化过程的效应,表明生物炭和硝化抑制剂对硝化过程影响存在交互效应。施用生物炭或硝化抑制剂都能降低NO_(2)^(–)–N强度,其中硝化抑制剂作用更加显著;此外,生物炭或硝化抑制剂单独施用能够降低菜地土壤15.1%~68.3%的N_(2)O排放量,二者联合施用在一定程度上能够发挥更强的减排作用。综合来看,生物炭与硝化抑制剂联合施用有望在热带菜地土壤中发挥固碳和减排的双重功效。

南方红壤丘陵区不同土地利用方式土壤N_(2)O排放系数研究

【目的】明确不同土地利用方式土壤氧化亚氮(N_(2)O)排放系数的差异并评估区域N_(2)O排放,为评估南方红壤丘陵区N_(2)O排放清单提供基础数据和参考依据。【方法】选择南方红壤丘陵区4种常见的土地利用方式(油茶林、旱地农田、稻田和松林),通过分析土壤不施肥与施氮肥时N_(2)O排放速率和排放量的差异,计算排放系数,并用^(15)N同位素标记方法探究硝化作用和反硝化作用对土壤排放N_(2)O的相对贡献。【结果】不同土地利用方式土壤理化性质差异明显,稻田全氮含量最高(2.22 g/kg),显著高于其他3种土地利用方式土壤(P<0.05,下同)。土壤不施肥时,N_(2)O排放速率在0~227.80μg/(kg·h),施氮量为200 kg N/ha时,N_(2)O排放速率在0~4213.27μg/(kg·h)。4种土地利用方式的土壤N_(2)O排放系数均随土壤孔隙含水量(WPFS)增加而增加,WPFS为75%时,稻田、旱地农田、油茶林和松林土壤N_(2)O排放系数分别为2.47%、0.39%、2.31%和0.91%。4种土地利用方式土壤N_(2)O排放系数主要受全氮含量影响,N_(2)O累积排放量均与潜在反硝化潜势呈显著正相关,除稻田外,其他3种土地利用方式土壤N_(2)O累积排放量也与潜在硝化势呈显著正相关,以NO_(3)^(-)-N为底物的反硝化作用对N_(2)O排放的相对贡献平均大于90.00%,远高于硝化作用。【结论】南方红壤丘陵区土壤以NO_(3)^(-)-N为底物的反硝化作用主导N_(2)O排放,施用氨基氮肥可能有效减少氮肥N_(2)O排放损失,为国家执行碳中和政策提供理论依据。

Nitrogen cycling and environmental impacts in upland agricultural soils in North China： A review

The upland agricultural soils in North China are distributed north of a line between the Kunlun Mountains, the Qinling Mountains and the Huaihe River. They occur in arid, semi-arid and semi-humid regions and crop production often depends on rain-fed or irrigation to supplement rainfall. This paper summarizes the characteristics of gross nitrogen（N） transformation, the fate of N fertilizer and soil N as well as the N loss pathway, and makes suggestions for proper N management in the region. The soils of the region are characterized by strong N mineralization and nitrification, and weak immobilization and denitrification ability, which lead to the production and accumulation of nitrate in the soil profile. Large amounts of accumulated nitrate have been observed in the vadose-zone in soils due to excess N fertilization in the past three decades, and this nitrate is subject to occasional leaching which leads to groundwater nitrate contamination. Under farmer＇s conventional high N fertilization practice in the winter wheat-summer maize rotation system（N application rate was approximately 600 kg ha–1 yr–1）, crop N uptake, soil residual N, NH_3 volatilization, NO_3~– leaching, and denitrification loss accounted for around 27, 30, 23, 18 and 2% of the applied fertilizer N, respectively. NH_3 volatilization and NO_3~– leaching were the most important N loss pathways while soil residual N was an important fate of N fertilizer for replenishing soil N depletion from crop production. The upland agricultural soils in North China are a large source of N_2O and total emissions in this region make up a large proportion（approximately 54%） of Chinese cropland N_2O emissions. The “non-coupled strong ammonia oxidation” process is an important mechanism of N_2O production. Slowing down ammonia oxidation after ammonium-N fertilizer or urea application and avoiding transient high soil NH4＋ concentrations are key measures for reducing N_2O emissions in this region. Further N management should aim to minimize N losses from crop and livestock production, and increase the recycling of manure and straw back to cropland. We also recommend adoption of the 4 R（Right soure, Right rate, Right time, Right place） fertilization techniques to realize proper N fertilizer management, and improving application methods or modifying fertilizer types to reduce NH_3 volatilization, improving water management to reduce NO_3~– leaching, and controlling the strong ammonia oxidation process to abate N_2O emission. Future research should focus on the study of the trade-off effects among different N loss pathways under different N application methods or fertilizer products.

基于激光外差探测的大气N_(2)O吸收光谱测量与廓线反演

激光外差光谱探测由于其光谱分辨率高、体积小、重量轻等优点近年来得到了快速的发展,可用于大气温室气体垂直廓线测量和碳卫星地面定标等.本文报道了利用3.939μm带间级联激光器作为本振光源的测量大气N_(2)O的激光外差系统,自制高精度太阳跟踪仪收集太阳光作为激光外差的信号光源,其跟踪精度达到7 arcsec,激光外差系统的光谱分辨率达到0.004 cm^(–1),测量了合肥地区(31.902°N,117.167°E)大气N_(2)O吸收光谱,得到2838.336和2539.344 cm^(–1)两个强吸收峰,并对吸收信号进行波长标定,得到了N_(2)O分子的整层大气透过率谱,信噪比为93.将高分辨率光谱数据进行归一化处理和频率校正,利用参考正向模型和最优估计算法得到N_(2)O大气整层浓度廓线,标准偏差体积分数为0.000031×10^(–6)—0.0026×10^(–6),对应相对误差范围为0.009%—0.83%.研究结果表明,所搭建的激光外差系统能够实现对大气中N_(2)O的吸收光谱测量以及对N2O的廓线反演,为长期观测大气N_(2)O浓度提供保证.

Advanced glycation end products induce neural tube defects through elevating oxidative stress in mice

Our previous study showed an association between advanced glycation end products （AGEs） and neural tube defects （NTDs）. To understand the molecular mechanisms underlying the effect of AGEs on neural tube development, C57BL/6 female mice were fed for 4 weeks with com- mercial food containing 3% advanced glycation end product bovine serum albumin （AGE-BSA） or 3% bovine serum albumin （BSA） as a control. After mating mice, oxidative stress markers including malondialdehyde and H202 were measured at embryonic day 7.5 （E7.5） of ges- tation, and the level of intracellular reactive oxygen species （ROS） in embryonic cells was determined at E8.5. In addition to evaluating NTDs, an enzyme-linked immunosorbent assay was used to determine the effect of embryonic protein administration on the N-（carboxymethyl） lysine reactivity of acid and carboxyethyl lysine antibodies at E10.5. The results showed a remarkable increase in the incidence of NTDs at El0.5 in embryos of mice fed with AGE-BSA （no hyperglycemia） compared with control mice. Moreover, embryonic protein administration resulted in a noticeable increase in the reactivity of N-（carboxymethyl） lysine and N（ε）-（carboxyethyl） lysine antibodies. Malondialdehyde and H2O2 levels in embryonic cells were increased at E7.5, followed by increased intracellular ROS levels at E8.5. Vitamin E supplementation could partially recover these phenomena. Collectively, these results suggest that AGE-BSA could induce NTDs in the absence of hyperglycemia by an underlying mechanism that is at least partially associated with its capacity to increase embryonic oxidative stress levels.

Methylprednisolone exerts neuroprotective effects by regulating autophagy and apoptosis

Methylprednisolone markedly reduces autophagy and apoptosis after secondary spinal cord injury. Here, we investigated whether pretreatment of cells with methylprednisolone would protect neuron-like cells from subsequent oxidative damage via suppression of autophagy and apoptosis. Cultured N2 a cells were pretreated with 10 μM methylprednisolone for 30 minutes, then exposed to 100 μM H2O2 for 24 hours. Inverted phase contrast microscope images, MTT assay, flow cytometry and western blot results showed that, compared to cells exposed to 100 μM H2O2 alone, cells pretreated with methylprednisolone had a significantly lower percentage of apoptotic cells, maintained a healthy morphology, and showed downregulation of autophagic protein light chain 3B and Beclin-1 protein expression. These findings indicate that methylprednisolone exerted neuroprotective effects against oxidative damage by suppressing autophagy and apoptosis.