中国农业土壤N_2O排放量估算

采用针对农业土壤痕量气体排放估算开发的、基于N2 O的产生、传输和消耗机理的反硝化分解模型 (DNDC模型 ) ,在建立的有关中国气候、农业土壤和农业生产的分县数据库基础上 ,估计了我国目前农业土壤N2 O的排放量 ,并分析了气候变化和农业耕作措施对全国N2 O排放的影响 .结果表明 ,中国农田土壤的N2 O排放总量为 0 31(0 18— 0 44 )Tg(N)·a - 1,化肥使用量的变化对N2 O排放量的影响最大 .     

川渝地区农业生态系统氧化亚氮排放

基于县级农业活动水平数据及区域氮循环模型IAP-N方法,并根据地理特征、环境气候条件及地区行政区划将川渝地区划分成4个亚区,详细估算了1990~2004年川渝地区农业生态系统氧化亚氮(N2O)的排放及其时空分布状况.结果表明,川渝地区1990~1994、1995~1999、2000~2004年农业生态系统N2O年平均排放量(以纯氮量计)分别为52.3、58.2、62.0 Gg/a,其中55%来自农田直接排放.3个时期农田直接排放量分别为29.6(7.6~63.3)、33.0(8.4~71.8)、34.0(8.5~75.8)Gg/a,农田直接排放通量分别为4.73、5.39、6.11 kg/(hm2.a).农田旱作是农田N2O直接排放的主要源,水旱轮作对农田N2O直接排放的贡献也很大.川渝地区农业生态系统N2O排放量以及农田N2O排放通量,1995~1999年期间比1990~1994年期间增长幅度较大;2000~2004年期间,农田N2O排放通量增长速度未呈现减缓趋势,但由于耕地面积减少,农田N2O排放量增长呈现停滞状态.川渝地区农业生态系统N2O主要排放地区分布在成都平原和重庆地区,各区域的N2O排放源贡献各...     

氮肥施用对紫色土-玉米根系系统N2O排放的影响

通过不同施氮水平与不同氮肥品种2个田间试验,结合静态箱-气相色谱法研究了川中丘陵区2005年5～9月石灰性紫色土-玉米根系系统的N2O排放变化.结果表明:1)施用氮肥显著地增加了N2O排放,在3个施氮水平下(0、150和250 kg·hm-2),N2O排放总量分别为0.88、2.19和2.52 kg·hm-2;施氮量越高,N2O排放量也越高.当施氮量超过一定水平后,施肥量高低对N2O排放总量的影响并不显著.由氮肥施用引起的N2O排放量占施氮量的0.87%(150 kg·hm-2)和0.66%(250 kg·hm-2).2)氮肥品种显著影响N2O排放,尿素(酰胺态氮肥)和硫酸铵(铵态氮肥)处理的N2O排放量分别为2.09和1.80 kg·hm-2,显著高于硝酸钾(硝态氮肥)处理(1.27 kg·hm-2),三者排放量分别占施氮量的0·80%、0.60%和0.27%.3)降雨是玉米生长季N2O排放的主要影响因子,而无机氮则是影响N2O排放的主要限制因子.     

基于区域氮循环模型IAP-N的安徽省农用地N2O排放量估算

本研究采用区域氮循环模型IAP-N估算了2011年安徽省县级共计7种农用地类型的N2O排放,估算所需的统计数据来源于安徽省各市统计年鉴,排放因子来源于已发表文献中的观测数据.结果表明,2011年安徽省农用地N2O总排放量(以N2O-N计)为3.51万t.其中,直接排放2.76万t,间接排放0.66万t,田间秸秆燃烧排放0.08万t.淮北平原(Ⅰ区)和沿江圩丘(Ⅱ区)是安徽农用地N2O主要排放区,对农用地N2O总排放的贡献分别为41%和35%.单纯旱作农田是各区最主要的直接排放源,约占直接排放的74%.Ⅱ区和Ⅲ区水旱轮作中的旱作地N2O排放居第二位(分别占Ⅱ区和Ⅲ区直接排放的19%和14%),Ⅳ区的果园茶园N2O直接排放居第二位(占Ⅳ区直接排放的22%).间接排放源中由大气氮沉降引起的N2O排放占三分之二.该研究结果可为决策者合理利用肥料,制定安徽省农业土壤温室气体减排措施提供科学依据.     

不同水分管理方式下水稻生长季N_2O排放量估算:模型建立

我国水稻生产中往往采用多种水分管理方式,如持续淹水、淹水-烤田-淹水和淹水-烤田-淹水-湿润灌溉等. 水分管理方式的不同会引起水稻生长季N2O排放的显著变化. 本研究收集和整理了2005年以前17篇国内外文献报道的有关我国稻田N2O季节排放通量的71组田间原位测定资料,每组资料包括稻田氮肥施用的种类和施用量、水分管理方式、N2O季节排放量等数据,旨在建立不同水分管理方式下水稻生长季N2O直接排放量的估算模型. 分析结果表明,持续淹水稻田N2O季节排放量与施氮量无明显相关关系,在淹水-烤田-淹水和淹水-烤田-淹水-湿润灌溉的水分管理方式下,两者呈极显著线性正相关关系. 持续淹水稻田N2O季节排放总量相当于施氮量的0.02%. 基于普通最小二乘法(OLS)分析技术建立的线性回归模型估算结果表明,淹水-烤田-淹水的水分管理方式下稻田肥料氮的N2O排放系数为0.42%,但N2O季节背景排放量不显著. 在淹水-烤田-淹水-湿润灌溉的水分管理方式下,水稻生长季肥料N的N2O排放系数和N2O-N背景排放量分别为0.73%和0.79 kg·hm-2. 残差分析和效能分析显示模型具有较好的适切性. 综合3种水分管理方式,我国稻田水稻生长季N的N2O排放系数和N2O-N背景排放量平均分别为0.54%和0.43 kg·hm-2. 相对于旱作农田而言,水稻生长季肥料N的N2O排放系数较低,意味着水稻生产较旱地作物可能更有利于减缓我国农业N2O排放. 本研究建立的模型可以用于我国稻田水稻生长季N2O直接排放量的估算.     

保护性耕作对后茬冬小麦土壤CO2和N2O排放的影响

为研究保护性耕作对后茬冬小麦土壤CO2和N2O排放的影响,在前茬进行常规耕作(T)、免耕(NT)、免耕+秸秆覆盖(NTS)、常规耕作+秸秆施用(TS)这4种处理,采用静态箱-气相色谱法分析土壤CO2和N2O排放通量.结果表明,保护性耕作没有改变后茬土壤CO2和N2O排放的季节性规律,对冬小麦生物量无明显影响;保护性耕作显著减少了土壤CO2和N2O累积排放量.与T相比,TS、NT、NTS的全生育期土壤CO2累积排放量分别降低了5.95%(P=0.132)、12.94%(P=0.007)和13.91%(P=0.004),土壤N2O累积排放量分别减少了31.23%(P=0.000)、61.29%(P=0.000)和33.08%(P=0.000).本研究表明免耕与秸秆施用能减少后茬作物生长季土壤的CO2和N2O排放量.     

黄河上游灌区连作稻田N2O排放特征及影响因素

黄河上游灌区高产连作稻田氮肥的过量施用引起土壤氮素盈余,进而导致稻田N2O排放量增大.为了探明水稻连作模式下稻田N2O排放特征及影响因素,采用静态箱-气相色谱法,开展了为期2年的连作水稻田试验研究.试验共设置3个施氮处理,包括常规氮肥300kg.hm-2(N300)、优化氮肥240kg.hm-2(N240)和对照不施氮肥(N0),并在稻田连作的第2年,对N240处理灌溉节水30%.2年连作试验结果表明,水稻生长季稻田N2O排放主要发生在水稻施基肥后及水稻生长的中后期,在稻田灌水泡田后N2O排放速率达最大值.稻田高氮肥(300kg.hm-2)施用显著增加N2O的排放量,优化氮肥(240kg.hm-2)处理可有效降低土壤N2O排放量(p<0.01).水稻生长季稻田淹水状态时N2O排放量极低,稻田灌溉节水会相应增加土壤N2O排放量.土壤温度变化对稻田N2O的生成和排放会产生较大影响,但受稻田肥水管理等因素的影响,温度与N2O排放量相关性不显著.灌区稻田土壤N2O排放通量与田面水NO3--N含量变化及耕层0～40cm土壤NO3--N积累量变化有显著的相关性.稻田连作显著增加了耕层土壤剖面0～40cm土层NO3--N的积累量,耕层土壤NO3--N积累量的增加进而加大了土壤N2O排放的风险.在宁夏黄灌区稻田常规灌水和高氮肥(300kg.hm-2)水平下,2年连作稻田水稻生长季土壤N2O总排放量分别达55.98×104kg.a-1和51.48×104kg.a-1,在100a时间尺度上的全球增温潜势(GWPs)均值为16.02×107kg.hm-2(以CO2计),表明黄灌上游灌区高氮肥施用导致稻田N2O排放量增大,由此引起的增温潜势严重.     

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N2 O ,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N2 O排放量分别为 1 69( 1 2 9～ 2 0 9)Tg·a-1和 0 0 1 9( 0 0 1 4～ 0 0 2 4 )Tg·a-1,分别占全国农田CH4 和N2 O排放量的 1 6 7%和 6 1 % .     

农田生态系统N2O排放的数值模拟研究

综合大气化学等多学科最新研究进展,建立了农田N2O排放数值模式,模式较好地模拟了农田生态系统中N2O排放过程.利用模式分析了气象因子对N2O排放影响.结果表明:苏州稻田N2O排放量与生长期平均气温存在显著正相关,与总辐射和降水量相关不明显;功率谱分析表明N2O排放量存在7～9年的变化周期,与平均温度变化周期比较接近.模拟气候变化对N2O排放的可能影响表明:气温比目前升高1℃,苏州稻田N2O排放量将平均增加4.5%.     

地表臭氧浓度升高对旱作农田N2O排放的影响

通过田间试验,在冬小麦和大豆生长季设置3种不同臭氧(O3)浓度的处理,包括自由空气(对照,CK)、100 n L·L-1O3浓度(T1)和150 n L·L-1O3浓度(T2),采用静态箱-气相色谱法测定N2O排放通量,研究地表O3浓度升高对冬小麦-大豆轮作系统N2O排放的影响.结果表明,与CK相比,在冬小麦返青期,T1和T2处理都降低了土壤-冬小麦系统N2O累积排放量,降幅分别为37.8%(P=0.000)和8.8%(P=0.903);在拔节-孕穗期,T1和T2处理使N2O累积排放量分别降低了15.0%(P=0.217)和39.1%(P=0.000);从冬小麦全生育期来看,T1、T2的N2O累积排放量分别降低了18.9%(P=0.138)和25.6%(P=0.000).由于本年度大豆生长季降水偏少,受干旱胁迫的影响,O3浓度升高对大豆田N2O排放的作用不明显.本研究表明地表O3浓度升高会减少旱作农田N2O排放量.     

Evaluation of phytoextracting cadmium and lead by sunflower, ricinus, alfalfa and mustard in hydroponic culture

Soil contaminated with heavy metals cadmium(Cd)and lead(Pb)is hard to be remediated.Phytoremediation may be a feasible method to remove toxic metals from soil,but there are few suitable plants which can hyperaccumulate metals.In this study,Cd and Pb accumulation by four plants including sunflower(Helianthus annuus L.),mustard(Brassica juncea L.),alfalfa(Medicago sativa L.), ricinus(Ricinus communis L.)in hydroponic cultures was compared.Results showed that these plants could phytocxtract heavy metals, the ability of accumulation differed with species,concentrations and categories of heavy metals.Values of BCF(bioconcentration factor)and TF(translocation factor)indicated that four species had dissimilar abilities of phytoextraction and transportation of heavy metals.Changes on the biomass of plants,pH and Eh at different treatments revealed that these four plants had distinct responses to Cd and Pb in cultures.Measurements should be taken to improve the phytoremediation of sites contaminated with heavy metals,such as pH and Eh regulations,and so forth.     

Oxidation of As(Ⅲ) by potassium permanganate

The oxidation of As(Ⅲ) with potassium permanganate was studied under conditions including pH, initial As(Ⅲ) concentration and dosage of Mn(Ⅶ). The results have shown that potassium permanganate was an effective agent for oxidizing of As(Ⅲ) in a wide pH range. The pH value of tested water was not a significant factor affecting the oxidation of As(Ⅲ) by Mn(Ⅶ). Although theoretical redox analyses suggest that Mn(Ⅶ) should have better performance in oxidization of As(Ⅲ) within lower pH ranges, the experimental results show that the oxidation efficiencies of As(Ⅲ) under basic and acidic conditions were similar, which may be due to the adsorption of As(Ⅲ) on the Mn(OH)2 and MnO2 resulting from the oxidation of As(Ⅲ).     

Chlorobenzenes in waterweeds from the Xijiang River （Guangdong section） of the Pearl River

The Xijiang River is the major source of water for about 4.5 millions of urban population and 28.7 millions of rural population. The water quality is very important for the health of the rural population. The concentration and distribution of chlorobenzenes (CBs) in both water and waterweeds collected from 4 stations in the Xijiang River (Gangdong section) of the Pearl River in April and November were determined. The result showed that nearly every congener of CBs was detected. The total contents of CBs (∑CBs) in the river water ranged from 111.1 to 360.0 ng/L in April and from 151.9 to 481.7 ng/L in November, respectively. The pollution level of CBs in the water in April was higher than that in November. The contents of ∑ CBs in waterweeds ranged from 13.53×102 μg/g to 38.27×102μg/g dry weight (dw). There was no significant difference between April and November in waterweeds. The distribution of CBs in roots, caulis, and leaves of Vallisneria spiralis L. showed different patterns. The leaves mainly contained low-molecular-weight CBs(DCBs), whereas the roots accumulated more PCBs and HCBs. The average lgBCFlip (bioconcentration factor) of CBs ranged from 0.64 to 3.57 in the waterweeds. The spatial distribution character of CBs in the Xijiang River was: Fengkai County ＜ Yunan County ＜Yun'an County ＜ Gaoyao County according to the ∑CBs, and the pollution deteriorated from the upstream to the downstream of the Xijiang River. Further analysis demonstrated that the discharge of waste containing CBs may be the main source of CBs pollution in the Xijiang River.     

Degradation of 2,4-dichlorophenol with a novel TiO2/Ti-Fe-graphite felt photoelectrocatalytic oxidation process

Degradation of 2,4-dichlorophenol(2,4-DCP)was studied in a novel three-electrode photoelectrocatalytic(PEC)integrative oxidation process,and the factors influencing the degradation rate,such as applied current,flow speed of O_2,pH,adscititious voltage and initial 2,4-DCP concentration were investigated and optimized.H_2O_2 was produced nearby cathode and Fe~(2 )continuously generated from Fe anode in solution when current and O_2 were applied,so,main reactions,H_2O_2-assisted TiO_2 PEC oxidation and E-Fenton reaction,occurred during degradation of 2,4-DCP in this integrative system.The degradation ratio of 2,4-DCP was 93% in this integrative oxidation process,while it was only 31% in E-Fenton process and 46% in H_2O_2-assisted TiO_2 PEC process.So,it revealed that the degradation of 2,4-DCP was improved greatly by photoelectrical cooperation effect.By the investigation of pH,it showed that this integrative process could work well in a wide pH range from pH 3 to pH 9.     

Effect of copper on the degradation of pesticides cypermethrin and cyhalothrin

The influence of coexisting copper (Cu) ion on the degradation of pesticides pyrethroid cypermethrin and cyhalothrin in soil and photodegradation in water system were studied.Serial concentrations of the pesticides with the addition of copper ion were spiked in the soil and incubated for a regular period of time,the analysis of the extracts from the soil was carried out using gas chromatography (GC).The photodegradation of pyrethroids in water system was conducted under UV irradiation.The effect of Cu~(2 ) on the pesticides degradation was measured with half life (t_(0.5)) of degradation.It was found that a negative correlation between the degradation of the pyrethroid pesticides in soil and Cu addition was observed.But Cu~(2 ) could accelerate photodegradation of the pyrethroids in water.The t_(0.5) for cyhalothrin extended from 6.7 to 6.8 d while for cypermethrin extended from 8.1 to 10.9 d with the presence of copper ion in soil.As for photodegradation,t_(0.5) for cyhalothrin reduced from 173.3 to 115.5 rain and for cypermethrin from 115.5 to 99.0 min.The results suggested that copper influenced the degradation of the pesticides in soil by affecting the activity of microorganisms.However, it had catalyst tendency for photodegradation in water system.The difference for the degradation efficiency of pyrethroid isomers in soil was also observed.Copper could obviously accelerate the degradation of some special isomers.     

Effects of arsenic on seed germination and physiological activities in wheat seedlings

The effects of arsenic(As)were investigated on seed germination,root and shoot length and their biomass and some other factors to elucidate the toxicity of As.The results showed low concentrations of As(O-1 mg/kg)stimulated seed germination and the growth of root and shoot,however,these factors all decreased gradually at high concentrations of As(5-20 mg/kg).The contents Of O2-,MDA,soluble protein and peroxidase(POD)activity all increased with increasing As concentrations.Soluble sugar content,ascorbate peroxidase(APX),and superoxide dismutase(SOD)activities decreased at low concentrations of As,and increased at high concentrations of As.While acetylsalicylic acid(ASA)and chlorophyll contents,catalase(CAT)activity displayed increasing trend when the concentrations of As was lower than 1 mg/kg,and then decreasing trend.By polyacrylamide gel electrophoresis(PAGE).As induced the expression of POD isozymes of wheat seedlings.As induced the expression of CAT isozymes but inhibited the expression of SOD isozymes of wheat seedlings at concentrations lower than 1 mg/kg.However,As inhibited the expression of CAT isozymes but induced the expression of SOD isozymes at concentrations higher than 5 mg/kg.The results indicated As could exert harmfulness in the early development stage of wheat at inappropriate concentrations.     

Sustainability： A view from the wind-eroded field

This article explores the assessment of sustainability in fields subject to wind erosion. In the first part, simple sustainability audits are examined, as of soil depth and nutrients. Direct measurement of these characteristics has many problems, largely because of huge variability in space and time at all scales. Modelling still has its problems, but it may be possible to overcome many of them soon. It is true that wind erosion preferentially removes soil nutrients, but there are imponderables even here. The nutrient balance in many of these soils includes considerable input from dust. In West Africa, it has been shown that the amounts of calcium and potassium that are added in dust are sufficient to fertilize dispersed crops. In mildly acidic sandy soils, such as those found on the widespread palaeo- aeolian deposits, much of the phosphorus is fixed and unavailable to plants by the time it is removed by wind erosion, so that erosion has no added downside. Most of the nutrients carried by dust have been shown to travel close to the ground （even when they are attached to dust-sized particles）, and so are trapped in nearby fallow strips, and are thus not lost to the farming system. Second, the sustalnabillty of a whole semi-arid farming system is explored. Wind erosion in semi-arid areas （like China, the Sahel and Norflawestern Europe） generally takes place on aeolian deposits of the recent geological past. Most of these soils are deep enough to withstand centuries of wind erosion before they are totally lost to production, and some of these soils have greater fertility at greater depth （so that wind erosion may even improve the soil）. Finally some remarks are made about environmental change in relation to sustainability.     

Bioconcentration kinetics of PCBs in various parts of the lifecycle of the tadpoles Xenopus laevis

Polychlorinated biphenyls （PCBs） in Xenopus laevis have been reported only for a few congeners. Additionally, there is very little information on the ability of Xenopus laevis to bioconcentrate PCBs. To address these issues, the tadpole Xenopus laevis was exposed to Aroclor 1254 mixtures in water at room temperature for 110 d followed by an additional 110 d of nonspiked PCBs in the water for the control group. During the whole process, bioconcentration factors （BCFs） of PCBs ranged from 1180 to 15670. For most PCB congeners, the highest and lowest bioconcentrations of the kinetic curves were found to be remarkably simultaneous, respectively. All 141 PCB congeners under the same experimental conditions had no linear correlation on the lgBCF versus lgKow relationship. The relationship between lgBCFs and lgKow followed a parabolic pattern indicative of selective bioconcentration, suggesting that the kinetic curves of the PCB congeners observed in the lifecycle of the tadpoles may be concentrated due to the amphibian special species and internal metabolism. In contrast, lgBCFs for PCBs were inversely related to lgKow, suggesting that a metabolism of the higher Kow PCB congeners occurred. These results support the author＇s conclusion that the tadpole Xenopus laevis plays major roles in the bioconcentration of PCB congeners, and demonstrated that the exposure kinetic curves of PCB congeners are complex. Besides the amphibian metamorphous development, the lifecycle of the tadpole Xenopus laevis also may be of importance in determining the bioconcentration of PCB congeners.     

Amplification of plasmid DNA bound on soil colloidal particles and clay minerals by the polymerase chain reaction

Polymerase chain reaction(PCR)was used to amplify a 600-base pair(bp)sequence of plasmid pGEX-2T DNA bound on soil colloidal particles from Brown soil(Alfisol)and Red soil(Ultisol),and three different minerals(goethite,kaolinite,montmorillonite). DNA bound on soil colloids,kaolinite,and montmorillonite was not amplified when the complexes were used directly but amplification occurred when the soil colloid or kaolinite-DNA complex was diluted,10- and 20-fold.The montmorillonite-DNA complex required at least 100-fold dilution before amplification could be detected.DNA bound on goethile was amplified irrespective of whether the complex was used directly,or diluted 10- and 20-fold.The amplification of mineral-bound plasmid DNA by PCR is,therefore,markedly influenced by the type and concentration of minerals used.This information is of fundamental importance to soil molecular microbial ecology with particular reference to monitoring the fate of genetically engineered microorganisms and their recombinant DNA in soil environments.     

Arsenic uptake and transport of Pteris vittata L. as influenced by phosphate and inorganic arsenic species under sand cu｜ture

In order to understand the similarity or difference of inorganic As species uptake and transport related to phosphorus in As-hyperaccumulator, uptake and transport of arsenate (As(Ⅴ)) and arsenite (As(Ⅲ)) were studied using Pteris vittata L. under sand culture. Higher concentrations of phosphate were found to inhibit accumulation of arsenate and arsenite in the fronds of P. vittata. The reduction in As accumulation was greater in old fronds than in young fronds, and relatively weak in root and rhizome. Moderate increases, from 0.05 to 0.3 mmol/L, in phosphate reduced uptake of As(Ⅲ) more than As(Ⅴ), while the reverse was observed at high concentrations of phosphate (≥ 1.0 mmol/L). Phosphate apparently reduced As transport and the proportion of As accumulated in fronds of P. vittata when As was supplied as As(Ⅴ). It may in part be due to competition between phosphorus and As(Ⅴ) during transport. In contrast, phosphate had a much smaller effect on As transport when the As was supplied as As(Ⅲ). Therefore, the results from present experiments indicates that a higher concentration of phosphate suppressed As accumulation and transport in P. vittata, especially in the fronds, when exposure to As(Ⅴ); but the suppression of phosphate to As transport in the root or rhizome may be insignificant when P. vittata when exposure to As(Ⅲ) under sand culture conditions. The finding will help to understand the interaction of P and As during their uptake process in P. vittata.