氮素形态对半夏生长及生物碱和总有机酸累积的影响

研究氮素形态对半夏光合特性、相关酶活性、总生物碱及总有机酸累积的影响,为半夏氮肥的合理施用提供依据。采用无土栽培方法栽培半夏,测定同一氮素水平不同氮素形态处理下,半夏叶片叶绿素含量、相关光合参数、硝酸还原酶（NR）活性、硝态氮含量、块茎中总生物碱及总有机酸含量。结果表明:半夏叶片光合色素含量随铵硝比增大呈先升后降趋势;铵硝比为75∶25时,叶绿素a和类胡萝卜素含量最高;铵硝比为25∶75,叶绿素b含量最高,同时,净光合速率、气孔导度和蒸腾速率达最大值;随着NO3--N比例降低,NR活性整体呈现下降趋势;块茎总生物碱含量,全硝营养下含量最高,随着NO3--N比例降低,呈现降低趋势;而随着NH4+-N比例增加,半夏块茎中总有机酸呈现上升的趋势。结论:铵态氮、硝态氮复合施用有利于半夏的生长,较高硝态氮比例有利于总生物碱的积累,较高铵态氮比例有利于总有机酸的累积。     

生物质炭对不同pH值土壤矿质氮含量的影响

为了揭示生物质炭作为土壤调理剂添加后对土壤矿质氮形态、含量等土壤性质的影响,该研究利用芒草分别在350和700℃裂解制得生物质炭,发现2个温度尤其是700℃制得的生物质炭,对NH4+有很强的吸附能力,但对NO3-的吸附能力很弱。将生物质炭分别加入到酸性(pH值为3.8)和碱性(pH值为7.6)土壤中,25℃下室内培养180d。结果表明,生物质炭提高了土壤全氮含量,酸性和碱性土壤分别平均提高了22%和17%;但使土壤铵态氮含量大幅降低至接近仪器检测限水平;生物质炭对土壤硝态氮含量的影响因生物质炭和土壤类型而异。生物质炭对土壤矿质氮形态和含量的影响,显然与生物质炭对铵的吸附作用、提高土壤pH值、增强氨挥发损失,以及形成微生物量氮等密切相关。该研究可为开展生物质炭基氮素新型肥料及制剂等方面的科学研究提供参考。     

除臭菌株对NH_3和H_2S释放及物质转化的影响

将通过高温和氨水逐级驯化筛选的除臭菌株用于牛粪堆肥,研究其对NH3和H2S释放量及物质转化的影响。其中菌株B1与A1除臭效果最好,NH3总释放量较对照分别降低68.59%和61.00%,NH4＋-N仅增加4.47%和7.19%,NO3-N略有提高,而有机氮分别增加28.99%和27.42%,说明除臭菌株能将无机态氮转化为有机氮,使全氮含量提高19.81%和18.80%,有效地减少了氮素损失;H2S总释放量较对照分别降低89.69%和86.88%,硫酸盐增加40.77%和36.49%,说明菌株可有效促进H2S向硫酸盐转化,减少H2S挥发,使全硫含量提高29.05%和22.64%。相关分析显示NH3释放量与H2S释放量、pH呈极显著正相关,与全氮、有机氮和硫酸盐呈负相关;H2S释放量与pH呈显著正相关,而与全硫和硫酸盐呈负相关。添加与未添加除臭菌株的NH3和H2S释放量经方差分析差异达到显著水平,表明添加除臭菌株可有效地控制牛粪堆肥NH3和H2S释放,保留氮素和硫素养分。     

镇江市古运河河岸沉积物氮及有机质分布特征

为揭示镇江市古运河河岸带表层沉积物中氮元素含量的分布特征,结合古运河周边环境状况,选择6个典型的采样点对其表层沉积物进行样品采集,对各样品沉积物总氮（TN）,氨氮（NH₄⁺-N）,硝氮（NO₃^--N）,亚硝氮（NO₂^--N）以及有机质（O.M）和pH值进行了分析,并根据经验公式对沉积物有机氮进行了计算。结果表明,TN,NH₄⁺-N,NO₃^--N,NO₂^--N以及Org-N含量介于0.39~2.40 g/kg,1.63~11.31 mg/kg,2.46~6.95 mg/kg,0.54~2.29 mg/kg,0.99~2.32 g/kg,总氮和有机氮的变异系数最大,为83.59%,氨态氮、硝态氮以及亚硝态氮的变异系数介于40.36%~49.15%,表现为中等离散程度,表明研究区域总氮和有机氮的离散程度较高,其在空间分布上呈现较为明显的异质性;古运河沉积物有机质含量介于0.99%~2.32%,变异系数为32.50%,表现为中等变异性,表明各采样点的沉积物有机质含量变化幅度中等;通过沉积物C/N值来判断,古运河有机质主要以陆源贡献为主;相关性分析结果表明,NO₂^--N与TN的关系最为密切,而氨氮与硝氮、亚硝氮以及有机氮之间的相关性不强,说明氨氮与其他形态氮在沉积物方式上存在一定的差异性。此外,pH值对古运河表层沉积物氮形态的具有较为显著的影响。     

不同质地小麦根际土壤有机碳、氮含量及特性研究

测定了两种不同质地土壤小麦根际土及非根际土中不同形态有机碳、氮的含量及特性。结果表明,粘壤土及砂质壤土两种不同质地土壤小麦根际土中有机碳、可溶性有机碳(WEOC),土壤全氮、可溶性有机氮(WEON)、游离氨基酸及硝态氮和铵态氮均显著高于非根际土;根际土及非根际土中WEON的含量均高于硝态氮及铵态氮含量,其在根-土界面氮素转化中的作用值得关注。不同质地土壤相比,粘壤土中各指标的含量均显著高于砂质壤土。根际土有机碳矿化累积量及矿化率均高于非根际土;培养期间粘壤土释放的CO2量明显低于沙质壤土,这可能与粘壤土粘粒含量高,对土壤有机碳的保护作用有关。     

美国路易斯安那州土壤碳估算的尺度效应——美国STATSGO和SSURGO两大最新土壤数据库的比较研究

Estimation of soil organic carbon (SOC) pools and fluxes bears large uncertainties because SOC stocks vary greatly over geographical space and through time.Although development of the U.S.Soil Survey Geographic Database (SSURGO),currently the most detailed level with a map scale ranging from 1:12 000 to 1:63 360,has involved substantial government funds and coordinated network efforts,very few studies have utilized it for soil carbon assessment at the large landscape scale.The objectives of this study were to 1) compare estimates in soil organic matter among SSURGO,the State Soil Geographic Database (STATSGO),and referenced field measurements at the soil map unit;2) examine the influence of missing data on SOC estimation by SSURGO and STATSGO;3) quantify spatial differences in SOC estimation between SSURGO and STATSGO,specifically for the state of Louisiana;and 4) assess scale effects on soil organic carbon density (SOCD) estimates from a soil map unit to a watershed and a river basin scale.SOC was estimated using soil attributes of SSURGO and STATSGO including soil organic matter (SOM) content,soil layer depth,and bulk density.Paired t-test,correlation,and regression analyses were performed to investigate various relations of SOC and SOM among the datasets.There were positive relations of SOC estimates between SSURGO and STATSGO at the soil map unit (R2=0.56,n=86,t=1.65,P=0.102;depth:30 cm).However,the SOC estimated by STATSGO were 9%,33% and 36% lower for the upper 30-cm,the upper 1-m,and the maximal depth (up to 2.75 m) soils,respectively,than those from SSURGO.The difference tended to increase as the spatial scale changes from the soil map unit to the watershed and river basin scales.Compared with the referenced field measurements,the estimates in SOM by SSURGO showed a closer match than those of STATSGO,indicating that the former was more accurate than the latter in SOC estimation,both in spatial and temporal resolutions.Further applications of SSURGO in SOC estimation for the entire United States could improve the accuracy of soil carbon accounting in regional and national carbon balances.     

Quince (Cydonia oblonga Miller) fruit (pulp, peel, and seed) and Jam: antioxidant activity

To study the antioxidant activity of quince fruit (pulp, peel, and seed) and jam, methanolic extracts were prepared. Each extract was fractionated into a phenolic fraction and an organic acid fraction and was analyzed by high-performance liquid chromatography (HPLC)/diode array detection and HPLC/UV, respectively. Antiradical activities of the extracts and fractions were evaluated by a microassay using 1,1'-diphenyl-2-picrylhydrazyl. The phenolic fraction always exhibited a stronger antioxidant activity than the whole methanolic extract. Organic acid extracts were always the weakest in terms of antiradical activity, which seems to indicate that the phenolic fraction gives a higher contribution for the antioxidant potential of quince fruit and jam. The evaluation of the antioxidant activity of methanolic extracts showed that peel extract was the one presenting the highest antioxidant capacity. The IC50 values of quince pulp, peel, and jam extracts were correlated with the caffeoylquinic acids total content. Among the phenolic fractions, the seed extract was the one that exhibited the strongest antioxidant activity. The IC50 values of quince pulp, peel, and jam phenolic extracts were strongly correlated with caffeoylquinic acids and phenolics total contents. For organic acid fractions, the peel extract was the one that had the strongest antiradical activity. The IC50 values of quince pulp, peel, and jam organic acid fractions were correlated with the ascorbic acid and citric acid contents.     

喀斯特山区不同农作方式下土壤质量变化对浅层地下水质量的影响

选择贵州中部喀斯特山区普定县猫洞小流域,对长期受不同农作行为影响的区域（低复种旱作区、高复种旱作区、高复种复合农作区）土壤和浅层地下水进行采样和分析。结果表明,不同农作区浅层地下水化学组分明显不同,从低复种指数的旱作区、高复种指数的旱作区到高复种指数的复合农作区,浅层地下水中的NO3^-、NH4^＋、PO4^3-、高锰酸钾指数和SO2^4-的含量依次增大,呈显著上升趋势,在高复种指数农作区浅层地下水中氮磷含量更高;在浅层地下水中,NO3^-含量受土壤有机质、腐植酸、全氮和碱解氮的影响最大,PO4^3-含量受土壤全磷、碱解氮、CEC的直接影响大;Cl^-对浅层地下水影响不明显。不同农作方式对地下水的NO3^-、NH4^＋、高锰酸钾指数的贡献存在差异,可见喀斯特特殊的双重水文结构使水环境质量易受土壤质量等环境因素影响,特别是浅层地下水更易受到污染。     

白洋淀湖泊湿地中氮素分布的初步研究

湿地中氮素的空间分布在一定程度上反映了湿地环境变化的进程。对白洋淀3个典型淀区沉积物、孔隙水和上覆水中有机质和氮素进行分析,结果表明,白洋淀湖泊湿地沉积物中的有机质和全氮含量在垂直分布上表现出较好的一致性,均随深度增加而减少;但有机质和全氮分布存在空间差异性,英家淀的有机质和全氮含量均高于小杨家淀和小鸭淀;沉积物在6 cm深处,小杨家淀和小鸭淀沉积物中全氮出现一次低值,而所有采样点孔隙水中NH4 -N浓度都在此处出现一个峰值,表明6 cm深度可能是白洋淀湖泊湿地微生物降解有机氮的一个活跃区;芦苇湿地上覆水中NH4 -N和NO3--N含量都高于宽阔湖面水体,说明植被的生长不仅会促进底质有机氮的降解,其自身分泌的代谢产物及残枝败叶的腐烂也会增加水体中各种形态氮的含量,增加对水体中各种氮素的滞留,在芦苇湿地区对水面漂浮物的打捞和对芦苇的及时收割是减少湖泊湿地氮素输入的一种有效途径。     

无菌砂培条件下三种农作物对甘氨酸的吸收

Seedlings of wheat (Triticum aestivum L.), Chinese cabbage (Brassica campestris L.) and mung bean (Phaseolus radiatus L.) were grown for 30 days in sterile sand media with 6 N treatments, I.e. NH4+-N, glycine-N, 3 different ratios of glycine-N:NH4+-N (NH4+-N was labeled with 15N) and a control receiving no N, to assess the importance of amino acids in excessive N nutrition along with inorganic N interactions. The contribution of nitrogen derived from glycine-N to total plant N was investigated. The total plant N of the three species treated with N was significantly greater (P < 0.05) than the control treatment. Also, seedlings from all the three species had significantly more total N as NH4+-N (P < 0.05) than at least two of the four treatments with glycine-N. However, for all species, differences in total N among treatments with a mixture of glycine-N and NH4+-N were mostly not significant. The contribution of N derived from glycine-N to plant total N content for all species increased with increasing glycine-N:NH4+-N ratio in the treatment solution. These results indicated that agricultural plants could effectively use organic nitrogen from organic nitrogen sources (e.g. glycine) and from organic and inorganic N mixtures (e.g. a glycine-N and NH4+-N mix). There were also genotypic differences in glycine-N and NH4+-N uptake by agricultural species.     

Effect of drying of figs (Ficus carica L.) on the contents of sugars, organic acids, and phenolic compounds

Fresh figs were subjected to two different drying processes: sun-drying and oven-drying. To assess their effect on the nutritional and health-related properties of figs, sugars, organic acids, single phenolics, total phenolics, and antioxidant activity were determined before and after processing. Samples were analyzed three times in a year, and phenolic compounds were determined using high-performance liquid chromatography coupled with mass spectrometry (HPLC-MS). In figs, monomer sugars predominate, which is important nutritional information, and the content of sugars as well as organic acids in fresh figs was lower than in dried fruits. However, the best sugar/organic acid ratio was measured after the sun-drying process. Analysis of individual phenolic compounds revealed a higher content of all phenolic groups determined after the oven-drying process, with the exception of cyanidin-3-O-rutinoside. Similarly, higher total phenolic content and antioxidant activity were detected after the drying process. With these results it can be concluded that the differences in analyzed compounds in fresh and dried figs are significant. The differences between the sun-dried and oven-dried fruits were determined in organic acids, sugars, chlorogenic acid, catechin, epicatechin, kaempferol-3-O-glucoside, luteolin-8-C-glucoside, and total phenolic contents. The results indicate that properly dried figs can be used as a good source of phenolic compounds.     

外加氮源在Cd超标菜地上的应用效果

探讨外加氮源对Cd超标菜地不同叶菜吸收Cd及土壤Cd有效性的影响,以明确施氮对土壤Cd的影响效应,并试图对不同氮源的应用效果进行综合评价,为合理利用氮肥来降低叶菜Cd含量提供参考。在Cd含量为0.628 mg·kg?1的Cd超标菜地上,试验研究了氮用量水平为150 kg·hm?2时,4种氮肥(尿素、硝酸钙、硝酸铵、碳酸氢铵)对矮脚葵扇黑叶白菜(Brassica chinensis L.)和白梗尖叶苋菜(Amaranthus mangostanus L.)Cd含量、品质及土壤Cd有效性的效应。结果表明,田间条件下,与不施氮处理相比,4种氮肥均不同程度地增加了Cd超标菜地上2种叶菜产量,降低了其地上部和根系Cd含量。4种氮肥中,尿素对白梗尖叶苋菜的增产效果最好,增产幅度达47.5%;碳酸氢铵对葵扇黑叶白菜的增产效果最好,增幅达59.7%;硝酸钙降低2种叶菜地上部和根系Cd含量的效果均优于其他氮肥,该处理的白梗尖叶苋菜地上部和根系Cd含量分别比对照降低41.6%和24.1%,葵扇黑叶白菜降低32.2%和25.9%。4种氮源对2种叶菜地上部Cd吸收总量、NO3?-N、NO2?-N、维生素C及可溶性糖含量等的影响各异,对土壤p H和DTPA-Cd含量影响也不同。其中,硝酸铵处理的土壤p H分别比对照降低0.12和0.25个单位,而土壤DTPA-Cd含量则显著增加15.3%和14.6%;碳酸氢铵处理则呈相反变化趋势。综合评价结果显示,4种氮肥的综合加权平均值均高于对照处理,以硝酸钙相对最高,表明硝酸钙在Cd超标菜地上的综合应用效果相对最好。因此,在Cd超标土壤上,硝酸钙可作为优选氮源使用。     

西南喀斯特地区典型石漠化阶段土壤氮素变异研究

我国西南喀斯特地区的石漠化问题已经严重制约了当地社会经济发展,揭示土壤养分变化规律对该区域生态系统适应性修复具有重要意义。以贵州省荔波县和普定县为研究区,通过野外采样和实验室分析,对西南喀斯特地区典型石漠化阶段土壤的铵态氮、硝态氮变异状况进行了研究。结果表明：（1）非石漠化的黑色石灰土中铵态氮、硝态氮的含量分别高达11．61和38．01mg·kg^-1.随着石漠化程度的加深,土壤中氮素含量逐渐减少。统计表明非石漠化土壤与轻度石漠化土壤铵态氮含量呈显著差异,硝态氮含量呈极显著差异。（2）土壤铵态氮含量表现为表土层高于心土层,而硝态氮在剖面中分布规律不一致。（3）土壤氮素含量随时间有明显变化。铵态氮和硝态氮含量均在7月达到峰值,然后呈现出下降趋势,至11月或翌年1月又逐渐增加。（4）土壤有机质与铵态氮和硝态氮含量呈一元二次线性相关,相关系数分别为0．7671和0．9493,均达到极显著水平;铵态氮和硝态氮含量也呈极显著的线性相关,相关系数为0．7743。喀斯特地区通过封山育林等措施增加有机质积累可提高土壤氮素含量,对防治石漠化具有重要意义。     

Effect of sample preparation on the measurement of sugars, organic acids, and polyphenols in apple fruit by mid-infrared spectroscopy

The objectives of this study were (i) to test different conditions of freezing, thawing, and grinding during sample preparation and (ii) to evaluate the possibility of using mid-infrared spectroscopy for analyzing the composition of sugars, organic acids, and polyphenols in apples. Seven commercial apple cultivars were chosen for their large variability in composition (total polyphenols from 406 to 1033 mg kg(-1) fresh weight). The different conditions of sample preparation affected only the phenolic compounds and not sugars or organic acids. The regression models of the mid-infrared spectra showed a good ability to estimate sugar and organic acid contents (R(2) ≥ 0.96), except for citric acid. Good predictions were obtained for total phenolic, flavan-3-ols, and procyanidins (R(2) ≥ 0.94) provided oxidation was avoided during sample preparation. A rapid and simple procedure was then proposed for phenolic compounds using sodium fluoride during sample homogenization at ambient temperature and freeze-drying before spectra acquisition.     

不同铵硝比例对杭白菊次生代谢及抗病性的影响

【目的】 氮素形态与寄主营养和病害严重度的关系一直是人们关注的热点,氮素营养对植物次生代谢产物的影响也多有研究。斑枯病为杭白菊常见病害,黄酮和酚酸类物质是杭白菊主要的资源性化学成分。针对杭白菊生产中存在的问题,本文对不同铵硝比例处理下杭白菊的次生代谢及斑枯病发病情况进行调查和研究,以期为杭白菊生产过程中的氮素配施、 病害防治和次生代谢调控提供一定的技术借鉴。【方法】 采用盆栽试验,在总施氮水平相同的前提下,设置5个NH+4和NO-3比例,采用随机区组设计,管理措施一致,4次重复。采取对角线定点定株定期调查杭白菊斑枯病发病情况,采用描叶法和LI-3000C叶面积仪来确定植株病害状况,统计病情指数和病害发生率;测定苯丙氨酸解氨酶(PAL)、 木质素、 纤维素、 可溶性总糖、 可溶性蛋白、 超氧阴离子(O-2)、 丙二醛(MDA)等相关生理指标,超氧化物歧化酶(SOD)和过氧化物酶(POD)等抗氧化酶;测定不同处理下杭白菊花中次生代谢产物绿原酸、 木犀草苷、 3,5-O-双咖啡酰基奎宁酸以及根、 茎、 叶等不同部位总黄酮含量。对相关生理指标与发病率和病情指数进行相关性分析。【结果】 当铵硝比为25:75时木质素、 纤维素、 可溶性总糖、 POD、 苯丙氨酸和O-2含量达到最大值,MDA含量和SOD活性相对较低;杭白菊根、 茎、 叶及花中总黄酮的含量在铵硝比为25:75和0:100时均表现出较高的含量,绿原酸、 3,5-O-双咖啡酰基奎宁酸两者的含量在铵硝比为25:75时达到最大值,分别为0.67%和1.84%。随着硝态氮比例的增加杭白菊斑枯病的发病率和病情指数均有所下降。相关性分析显示木质素、 可溶性总糖、 PAL活性、 POD活性、 超氧阴离子、 绿原酸、 3,5-O-双咖啡酰基奎宁酸、 花中总黄酮的含量与杭白菊斑枯病的发病率和病情指数呈负相关,且达到极显著水平;SOD活性、 MDA含量与杭白菊斑枯病的发病率和病情指数呈正相关,且均达到显著水平。【结论】 杭白菊斑枯病的发病率和病情指数与相关生理指标和次生代谢密切相关,不同铵硝比例对药用菊花次生代谢产物及斑枯病的发生有一定的影响,当铵硝比为25:75时菊花斑枯病的发病率最低。     

长期免耕和秸秆覆盖下黄土高原旱作土壤不同粒级复合体中酸解有机氮含量及分配比例变化

【目的】探明不同保护性耕作措施对黄土高原旱作土壤不同粒级复合体中有机氮含量与分配的影响,可对评价耕作措施的效果提供科学依据。【方法】基于黄土高原旱区14年的长期定位试验,采用Bremner法, 对传统耕作(T)、免耕(NT)、秸秆覆盖(TS)及免耕+秸秆覆盖(NTS)四种耕作措施条件下不同土壤粒级复合体中的有机氮含量和分配进行了研究。【结果】保护性耕作方式均增加了2~10 μm粒级土壤复合体的比例,增幅为20.0%~31.7%;降低了0~2 μm粒级土壤复合体在土壤中所占的比例,降幅为27.6%~31.0%。在所有耕作措施下,耕层土壤中不同粒级复合体所占的比例为10~50 μm＞2~10 μm＞0~2 μm＞50~100 μm＞100 μm。保护性耕作方式均明显提高了耕层0~2 μm粒级土壤复合体中氨基糖氮的含量,增幅在46.9%~107.1%,降低了单位质量0~2 μm粒级土壤复合体中的NH+4-N含量,降幅在14.8%~27.0%;明显提高了耕层单位质量2~10 μm粒级土壤复合体中酸解总氮、氨基酸氮和氨基糖氮的含量,增幅分别为8.2%~14.3%、16.2%~31.5%和154.9%~184.3%;降低了单位质量2~10 μm粒级土壤复合体中NH+ 4-N的含量,降幅为28.7%~46.6%。传统耕作(T)条件下,与各粒级土壤复合体相结合的有机氮量顺序为10~50 μm＞0~2 μm＞2~10 μm＞50~100 μm＞100 μm以上,而保护性耕作条件下,与各粒级土壤复合体相结合的有机氮量顺序为10~50 μm＞2~10 μm＞0~2 μm＞50~100 μm＞100 μm以上;与传统耕作相比,保护性耕作措施显著地增加了耕层土壤中酸解总氮、氨基酸氮、氨基糖氮的含量,增幅分别为6.6%~20.4%、89.0%~113.0%和11.9%~31.6%,降低了NH+4-N的含量。【结论】与传统耕作(T)处理相比,保护性耕作(NT、TS、NTS)措施明显提高了土壤2~10 μm粒级复合体的比例,降低了0~2 μm粒级复合体的比例;增加了耕层土壤中酸解氮总氮、氨基糖态氮和氨基酸态氮的含量,降低了NH+ 4-N的含量。土壤中以氨基酸态氮占优势地位,其它形态的有机氮无明显分布规律。     

氮素形态对樱桃番茄果实氮素和有机酸代谢的影响

Cherry tomatoes(Lycopersicon esculentum Mill.,cv.hongyangli) were hydroponically cultivated in a greenhouse to determine the effect of different nitrogen(N) forms on organic acid concentration and the activities of related enzymes involved in nitrogen and organic acid metabolism during cherry tomato fruit development.The results showed that fruit nitrate reductase(NR) activity was much higher following treatment with 100% NO 3 and 75% NO 3 + 25% NH + 4 than with 100% NH + 4 except at maturity.Glutamine synthetase(GS) activity trended downward during fruit development under all three treatments.Plants fed 100% NH + 4 had the lowest fruit citrate and malate levels at maturity,with the highest malate concentration at an early stage.The activity of phosphoenolpyruvate carboxylase(PEPC) was found to be in accord with the malate concentration with every N source.Under all three N forms,the citrate synthase(CS) activity peaked one week before the citrate concentration.     

NH4+-N/NO3--N比例对不同不结球小白菜品种的生长和部分生理指标的影响

The responses of three cultivars of Chinese cabbage (Brassica chinensis L.), one of the main vegetable crops in China, to different ratios of NH4+-N/NO3--N was investigated to find the optimal ratio of ammonium to nitrate for maximal growth and to explore ways of decreasing the nitrate content, increasing nitrogen use efficiency of Chinese cabbage, and determining distributions of nitrogen and carbon. Three cultivars of Chinese cabbage were hydroponically grown with three different NH4+-N/NO3--N ratios (0:100, 25:75 and 50:50). The optimal ratio of NH4+-N/NO3--N for maximal growth of Chinese cabbage was 25:75. The increase in the ratio of NH4+-N/NO3--N significantly decreased nitrate content in various tissues of Chinese cabbage in the order of petiole > leaf blade > root. The highest total nitrogen (N) content was found when the ratio of NH4+-N/NO3--N was 25:75, and N contents in plant tissues were significantly different, mostly being in the order of leaf blade > petiole > root. At the NH4+-N/NO3--N ratio of 25:75, the biomasses of Chinese cabbage cultivars 'Shanghaiqing', 'Liangbaiye 1' and 'Kangre 605' increased by 47%, 14% and 27%, respectively. The biomass, SPAD chlorophyll meter readings and carbon content of 'Shanghaiqing' were all higher than those of 'Liangbaiye 1', while nitrate and total nitrogen contents were lower. Thus, partial replacement of nitrate by ammonium could improve vegetable production by both increasing yields and decreasing nitrate content of the plants.     

长期施肥对土壤固定态铵含量及其有效性影响

棕壤连续13年定位试验表明,长期施用化肥或低量有机肥对土壤固定态接含量均无显著影响;而施用高量有机肥区固定态接含量比试验前平均增加30.2％。这部分增加的固定态按主要来自土壤有机氮矿化补充。施肥后固定态铵的净增加量超过作物施氮量是土壤激发效应的结果。土壤原有固定态铵含量在113～116mg／kg,对作物无效,而新固定态按时作物有效。生长季耕层土壤固定态铵总释放量（N）对照区为43kg／hm2,化肥区平均为110kg／hm2;有机肥与化肥配合区平均为165kg／hm2。施钾对固定态铵的释放有一定抑制作用。     

牛粪堆肥化中氮素形态与微生物生理群的动态变化和耦合关系

在强制通风静态垛装置中研究了牛粪堆肥化中氮素形态和微生物生理群的动态变化。在堆制的56d里,根据堆温变化分阶段采集堆肥样品,测定各种氮素组分的含量和氮素微生物生理群的数量。结果表明,堆肥过程中,总氮减少了21．6％;有机氮是堆肥中的主要氮素形态,其含量降低了19．1％;氨基酸态氮和氨态氮的含量分别降低了20．9％和86．4％,在有机氮和总氮中的比例分别降低了2．2％和5．2％;氨基糖态氮和硝态氮含量分别增加了147％和79％,在有机氮和总氮中的比例分别增加了2倍和1．3倍。氨气的挥发占总损失的63％,高温期的释放量占总挥发量的69％。堆肥中氨化细菌数量较高,在高温期大幅度增加,其数量变化与堆肥中氨气和氨态氮含量都呈极显著正相关关系。在堆肥过程中,硝化细菌数量总体较小,在降温期增加幅度较大;反硝化细菌数量逐渐增加,堆制结束时达到堆肥初期的2．45倍;固氮菌数量总体增加1．8倍,其中降温期数量较多。堆肥过程中存在的反硝化作用,是氮素损失的另一个重要原因。