Uptake,transport and assimilation of 15N-nitrate and 15N-ammonium in tea (Camellia sinensis L.) plants

¹⁵N studies were conducted using hydroponically grown tea (Camellia sinensis L.) plants to clarify the characteristics of uptake, transport and assimilation of nitrate and ammonium. From the culture solution containing 50 mg L^-1 N0₃-N and 50 mg L^-1 NH.-N, the uptake of NH₃-N after 24 h was twice as high as that of NO₃-N, while the uptake of N0₃-N from the culture solution containing 90 mg N0₃-N and 10 mg NH₃-N was twice that of NH₄-N. The presence of 0.4 mM Al had no significant effect on the N0₃-N and NH₄-N uptake from the culture solutions containing 50 mg L^-1 N0₃-N and 50 mg L^-1 NH₄-N, 90 mg L^-1 N0₃-N and 10 mg L^-1 NH₄-N or 99 mg L^-1 N0₃-N and 1 mg L^-1 NH₄-N. Transport of N0₃-derived N to young leaves was much more rapid than that of NH₄-derived NO₃ and NH₄-derived N was largely retained in the roots and lower stem. Young and mature shoots separated from the roots absorbed more N0₃-N than intact plants. Nitrate assimilation occurred in both, roots and young as well as mature leaves. Internal cycling of N0₃-derived Nand NH₄-derived N from one root part to another part was not appreciable after 28 h, suggesting that a longer of time is required for cycling in woody plants.     

苏南平原稻田灌排水系统中氮磷平衡状况

应用大型原状模拟土柱,对苏南平原典型稻田灌排水系统中,养分的输入输出平衡状况进行定位监测和分析。初步结果表明:稻田生态系统每季水分消耗量在890~1 320 mm之间。稻田能净化灌溉水中养分,不同施肥处理稻田对NH4+-N、NO3--N和TP的净化量分别为10.7~12.3、6.8~9.2和-1.2~2.0kg hm-2。稻田养分淋溶量随着施肥量的增加而增加,但养分净化量与化肥用量之间没有很好的相关性,秸秆对养分净化量的影响不明显,而猪粪明显降低了稻田养分净化量,甚至成为周围水体磷素污染源。稻田对灌溉水中的NH4+-N在整个水稻生长期间均起到净化作用,对NO3--N在水稻生长初期有淋溶风险,而对TP,除了猪粪处理,稻田均呈现出净化作用。     

稻田土壤中氮素淋失的研究

本文应用稻田大型原状土柱渗漏计，研究了双季稻田土壤中氮素随渗漏水流淋失的形态、数量、季节性变化以及若干农化因子的影响。明确了稻田中氮素淋失的基本形态是硝态氮（ＮＯ３＾－－Ｎ），估算出双季稻田中氮素淋失总量可接近３０ｋｇＮ／ｈａ，同时肯定了农田施用氮肥对地下水体环境可能的ＮＯ３＾－－Ｎ污染，建议双季稻田中每季水稻的氮肥用量宜控制在１５０ｋｇＮ／ｈａ；本文还证实氮肥用量对氮素淋失有明显影响，不同氮肥品     

Fluid Catalytic Cracking Unit Emissions and Their Impact

A constructed wetland composed of a pond- and a marsh-type wetland was employed to remove nitrogen (N) and phosphorus (P) from effluent of a secondary wastewater treatment plant in Korea. Nutrient concentrations in inflow water and outflow water were monitored around 50 times over a 1-year period. To simulate N and P dynamics in a pond- and a marsh-type wetland, mesocosm experiments were conducted. In the field monitoring, ammonium (NH ₄ ⁺ ) decreased from 4.6 to 1.7 mg L^?1, nitrate (NO ₃ ^? ) decreased from 6.8 to 5.3 mg L^?1, total N (TN) decreased from 14.6 to 10.1 mg L^?1, and total P (TP) decreased from 1.6 to 1.1 mg L^?1. Average removal efficiencies (loading basis) for NO ₃ ^? , NH ₄ ⁺ , TN, and TP were over 70%. Of the environmental variables we considered, water temperature exhibited significant positive correlations with removal rates for the nutrients except for NH ₄ ⁺ . Results from mesocosm experiments indicated that NH ₄ ⁺ was removed similarly in both pond- and marsh-type mesocosms within 1 day, but that NO ₃ ^? was removed more efficiently in marsh-type mesocosms, which required a longer retention time (2?C4 days). Phosphorus was significantly removed similarly in both pond- and marsh-type mesocosms within 1 day. Based on the results, we infer that wetland system composed of a pond- and a marsh-type wetland consecutively can enhance nutrient removal efficiency compared with mono-type wetland. The reason is that removal of NH ₄ ⁺ and P can be maximized in the pond while NO ₃ ^? requiring longer retention time can be removed through both pond and marsh. Overall results of this study suggest that a constructed wetland composed of a pond- and a marsh-type wetland is highly effective for the removal of N and P from effluents of a secondary wastewater treatment plant.     

成都平原农区地下水中NO3--N含量变化规律研究

采用硝酸根电极法对成都平原温江县天府乡农区田间和水井的地下水NO-3 N含量进行了一年多的连续测定 ,探讨了该农区地下水中NO-3 N的变化规律和氮肥用量的影响。结果表明 :(1)田间地下水NO-3 N含量周年变化规律是冬春枯水季较高 ,且变幅较大 (0 3 6～ 2 62mgL- 1) ,平均值为 2 59mgL- 1;夏秋丰水季较低 ,且变幅较小 (0 84～ 5 48mgL- 1) ,平均值为 1 10mgL- 1。 (2 )前作麦季氮肥施用量 ,对稻季地下水中NO-3 N含量有明显影响 ,当前作施纯氮达 3 75kghm- 2 时 ,稻季地下水NO-3 N含量最高达 3 4 6mgL- 1,其平均值为 17 97mgL- 1,是施纯氮 150kghm- 2 平均值 1 3 0mgL- 1的 13 7倍。 (3 )井水中NO-3 N含量变化幅度为 0 14～ 16 53mgL- 1,3口井水平均值分别为 2 54、3 60、6 52mgL- 1,未超出我国生活饮用水卫生标准 ,但明显高于灌溉水NO-3 N含量的平均值 1 81mgL- 1。 (4)地下水位的高低与井水中NO-3 N含量没有线性关系     

A Single Law to Describe Atmospheric Nitrogen Bulk Deposition versus Rainfall Amount: Inputs at the Seine River Watershed Scale

Atmospheric nitrogen species (NH₄-N and (NO₃+NO₂)-N) were determined in weekly samples of atmospheric bulk deposition (dry plus wet), collected in France at seven sites over the course of a year. Rural, semi-rural and industrialised-urban sites were chosen in the Seine river watershed from the Seine estuary to upstream from Paris. Mean NH₄-N concentrations varied from 0.7 to 1.7 mg L^-1. Mean (NO₃+NO₂)-N concentrations were approximately 0.5 mg L^-1 for all sites except Paris (0.7 mg L^-1), which has a local impact on the fallout contamination from urban emissions. The relation between concentration and rainfall amount obeys a power law, in the form of y = ax ^b. When the nitrogen sources are very local, this relationship turns into a dilution law. Annual atmospheric nitrogen deposition (NH₄-N+(NO₃+NO₂)-N) was calculated and varied from 7.8 kg ha^-1 yr^-1 in the neighbourhood of a rural town to 17.3 kg ha^-1 yr^-1 in a very industrialised harbour. 58% of the atmospheric nitrogen deposition occurred during ‘spring + summer’ period. The total nitrogen atmospheric input to the Seine estuary, via direct deposition + indirect input via the watershed, was estimated to about 5% of the total nitrogen load within the Seine river basin.     

Effects of Cu, Ni and Zn on Lettuce Grown in Metal-Enriched Vermicompost Amended Soil

A study has been conducted in a salt marsh, located in the coast of the Mar Menor lagoon (SE Spain), in which three watercourses overflow. Water samples were regularly collected over a one-year period from two transects established through the salt marsh towards the lagoon. All the samples were analysed for electrical conductivity, pH, sulphides, chlorides, nitrate, ammonium and dissolved phosphorus. The quality of the water flowing from the watercourses to the salt marsh showed a seasonal pattern, with higher contents of nitrates (> 200 mg NO^? ₃ L^?1) in periods of maximum agricultural activities in the nearby areas, as well as a higher content of ammonium (> 30 mg NH⁺ ₄ L^?1) and phosphorus (> 10 mg PO^3? ₄?P L^?1) when the human population increased in the zone as a result of tourism. The general spatial pattern of nutrient retention in the salt marsh, indicated by a reduction in the nutrient concentrations in the water closer to the lagoon, was modulated depending on the season. In the driest months, the marsh was 100% effective in reducing nutrient concentrations, but in the rainy periods the effectiveness was reduced. This reduction was more evident for phosphorus in autumn, whose concentration increased in the lower part of the salt marsh closer to the lagoon until it reached that of the inflow. This could mainly be explained by the accumulation of water in some sites near the lagoon, which can act as sinks of pollutants. Our data support the existence of polluted water in the surface watercourses of the area, and the associated risk can include soil salinization and the eutrophication of aquatic systems. Based on our data, the Mar Menor coastal marshes have an important role as filters to reduce pollution in this lagoon.     

Potential for Enhancement of Biodegradation of Crude Oil in Louisiana Salt Marshes using Nutrient Amendments

Salt marsh ecosystems in Louisiana are at high risk of an oil contamination event while remediation of these systems is mainly limited to intrinsic bioremediation due to the physical sensitivity of salt marshes. This study investigated both the intrinsic and nutrient enhanced rates of crude oil degradation both in microcosm and core studies. In addition, limiting elements, loading rates and optimum nitrogen forms (NH ₄ ⁺ or NO ₃ ^- ) were determined. Salt marshes have relatively low intrinsic degradation rates (0–3.9% day^-1) of the alkane component (C11-C44) but high rates (8–16% day^-1) of degradation of the polycyclic aromatic hydrocarbon (PAH) fraction (naphthalene, C1, and C2-Naphthalene and Phenanthrene, C1, and C2-Phenanthrene). Additions of nitrogen statistically enhanced degradation of many alkanes and total PAHs while naturally present phosphorous was found to be sufficient. Nitrogen was found to be most effective if applied as NH ₄ ⁺ in the range of 100-500-N mg kg^-1 of soil producing a pore water range of 100-670-N mg L^-1. Core studies indicate that similar trends are observed when applying fertilizers to intact portions of salt marsh.     

辽东山溪河岸林群落特征对降雨再分配及其养分特征的影响

为明确不同物种组成和群落结构的河岸林对降雨再分配及其养分特征的影响,于2014年5—10月对辽东山地典型河岸林群落(落叶松林、蒙古栎林和槭树林)大气降雨、穿透雨和树干茎流过程及其水质特征进行研究。结果表明:落叶松林、蒙古栎林和槭树林穿透雨量分别占大气降雨量的81.9%,77.9%,73.1%,树干茎流量分别占大气降雨量的1.2%,4.4%,4.3%。与大气降雨相比,穿透雨和树干茎流中铵态氮、氯离子、硝态氮和总磷的浓度较高,不同林型铵态氮、氯离子、硝态氮和总磷的浓度和输入量差异显著。不同物种组成和群落结构的河岸林通过树木的形态特征及群落的结构特征对降雨进行再分配,通过林冠表层的物理特征、化学特征和生理特性等改变降雨理化性质,加之雨量、雨强的影响共同作用使铵态氮、氯离子、硝态氮和总磷的浓度和输入量发生改变。     

铵硝比和磷素营养对菠菜生长、氮素吸收和相关酶活性的影响

通过水培试验研究了不同铵硝比的氮素营养和磷素营养对菠菜生长、氮素吸收及硝酸还原酶活性（NRA）和谷氨酰胺合成酶活性（GSA）的影响。结果表明：在供磷水平相同时，菠菜的生物量随着铵硝比的降低而降低，但铵硝比为25：75与0：100两个处理之间没有显著差异；在铵硝比相同时，随着营养液中磷含量的增加，菠菜的生物量随之增加。菠菜茎叶中硝酸盐的含量随着铵硝比和磷水平的降低而升高。不同铵硝比处理，菠菜含氮量没有明显差异，随着磷水平的提高，菠菜植株含氮量有升高的趋势，但各处理之间差异不显著；受到生物量显著差异的影响，菠菜植株中氮素累积量随着铵硝比的降低和磷素水平的增加而增加。在铵硝混合营养条件下，缺磷会显著抑制菠菜对铵态氮和硝态氮的吸收，且磷索缺乏对菠菜吸收硝态氮的抑制作用要大于对铵态氮吸收的抑制作用。铵硝比相同时，随着营养液中磷索供应量的增加，菠菜茎叶中NRA显著增加；但是营养液中铵硝比较高时，会显著抑制菠菜茎叶中NRA，而铵硝比较低时，则有利于提高菠菜的NRA。缺磷会严重抑制GSA；在磷素水平相同时，随着营养液中铵比例的增加，菠菜茎叶中GSA显著增加。为此，在一些硝酸盐含量较高的土壤上栽培蔬菜时，可以采取增施适量磷肥的方法，以降低叶菜的硝酸盐含量。     

密云水库上游流域水体营养物质现状及来源分析

密云水库作为北京地区最重要的地表饮用水水源地,其水质优劣直接关系到首都的社会经济发展,开展密云水库水污染监测和治理研究具有重要的现实意义。以密云水库上游流域为研究区,通过不同尺度流域水体营养物质监测,分析了水库上游河流水体营养物质现状;通过分割流量过程线,划分了水体营养物质来自点源和非点源污染的比例。研究结果表明,依据标准(GB3838-2002)要求,密云水库上游河流水体TN含量几乎全部超标,且15.9%样本的TP含量超标。密云水库的营养物质平均40.3%来自点源污染,59.7%来自非点源污染;入库水体中50.1%的TN,49.1%的NO₃^--N,39.0%的NH₄⁺-N,26.5%的TP和36.8%的COD_Mn来自点源污染;49.9%的TN,50.9%的NO₃^--N,61.0%的NH₄⁺-N,73.5%的TP和63.2%的COD_Mn来自非点源污染。     

太湖地区氮肥用量对土壤供氮、水稻吸氮和地下水的影响

利用矿化培养与田间试验的方法,探讨了太湖地区长期施氮条件下,氮肥用量对土壤供氮、水稻吸氮与环境的影响。初步试验结果表明:多年施用氮肥能够提高土壤的供氮能力,并随施N量的增加而增加。增加氮肥用量能够提高稻株含氮量和吸氮量,但氮素向谷粒的转移率降低,试验区水稻氮肥用量以225～270kghm-2左右为佳。稻田田面水和渗漏液的N素养分动态变化显示,施N会造成田面水NH4 N和NO3-N含量的短暂升高,但不同施N量之间相差并不显著。稻田渗漏液中的氮以硝态氮为主,通常在淹水泡田后的7d内有一个NO3-N含量的峰值期,NO3-N含量在1.62～2.75mgL-1之间,约10d后降至0.5mgL-1以下;NH4 N含量变化有随施N量而增加的趋势,高峰期通常出现在分蘖末期,其余时间NH4 N含量在0.2mgL-1以下。     

丹江口库区土壤氮磷养分流失特征

[目的]研究丹江口库区土壤的水土流失和非点源污染物氮磷流失的特点,为农业非点源污染模型的建立提供理论依据。[方法]通过室内人工模拟降雨试验,研究了坡度和施肥等处理对产流产沙、氮磷养分(硝态氮、铵态氮、总氮、有效磷和总磷)流失特点的影响。[结果](1)随着坡度的增加,平均入渗率和初始产流时间呈减小趋势,而径流总量和泥沙总量呈增加趋势。(2)相同施肥处理下,随着坡度的增加,泥沙中硝态氮、总氮、有效磷和总磷的流失浓度呈减小趋势,铵态氮流失浓度在不施氮肥条件下呈减小趋势,而在施氮肥处理下呈增加趋势。(3)在相同坡度条件下,随降雨时间推移,总氮浓度呈先减小后趋于稳定的趋势;铵态氮浓度随施肥处理的变化均呈现出波浪形变化;在施氮肥时,径流中硝态氮的浓度随着时间的推移,呈逐渐减小并趋于平缓的趋势,而在不施氮肥时几乎无变化。[结论]在不同施肥措施和坡度条件下,硝态氮主要随径流而流失,为随泥沙流失的8~11倍;铵态氮主要是随径流泥沙而流失,为随径流流失的1~17倍;总氮则是随径流和径流泥沙共同流失;有效磷和总磷都是以泥沙结合态流失为主,分别为随径流流失的1 000~6 200和1~3倍。     

几种植物去除污染水体中养分效果研究

对城市尾水和人工模拟富营养化水体进行了静态培养试验.通过比较不同植物对城市尾水中氮、磷去除效果,以及它们在不同磷浓度条件下对不同形态氮素去除效果研究,目的在于筛选出适合治理富养分污染水体的植物品种.研究结果表明,空心菜(Ipomiea aquatica)、酸模(Rumex acetosa)、莎草(Cyperus glomeratus)3种植物都能很好地吸收尾水中的营养物质,且生长状况良好.经3种植物处理的城市尾水,其氮、磷浓度随水培时间的增加而降低.莎草、酸模对污水中TN的去除率达90%以上,其中莎草最高,达93.4%;空心菜对全磷的去除率最高达76.9%.NH_4~+-N在处理前期变化显著,且莎草的净化效果最好达94.4%;污水中NO_3~--N含量随着水培时间的增加而逐渐下降,但在试验后期NO_3~--N又有所增加.酸模去除NO_3~--N效果最好,达65.4%.另外3种植物对NH4+-N和NO_3~--N都具有一定的吸收作用,并且优先吸收NH_4~+-N.且从对于NH_4~+-N和NO_3~--N净化效果看,莎草>酸模>空心菜.     

Column Studies on Nitrate Removal from Potable Water

Biological processes can achieve nitrate removal from groundwater. The sulfur/limestone autotrophic denitrification by Thiobacillus denitrificans was evaluated with three laboratory-scale column reactors. The optimum sulfur/limestone ratio was determined to be 2:1 (mass/mass). Different hydraulic retention times were used during the column tests to examine nitrate removal efficiencies. Under an HRTs of 13 h, nitrate concentration of 60 mgNO₃ ^--N L^-1 was reduced to less than 5 mg NO₃ ^--N L^-1. On a higher HRT of 26 h the nitrate removal efficiency was close to 100% for all nitrate-nitrogen loading rates. Different initial nitrate-nitrogen concentrations (30, 60, and 90 mg NO₃ ^--N L^-1) were used in the study. Column tests showed that the nitrate-nitrogen loading rate in this study was between 50 to 100 g NO₃ ^--N m^-3 d^-1 to obtain a removal efficiency of 80–100%. It was found that approximately 6 mg SO₄ ^2- was produced for 1 mg NO₃ ^--N removed. Nitrite-nitrogen in all cases was less than the maximum allowable concentration of 1 mg NO₂ ^--N L^-1. Effluent pH was stable in the range of 7 to 8; the effluent dissolved oxygen was less than 0.15 mg L^-1 and the oxidation-reduction potential in all columns was in the range of –110 to –250 mV.     

Comparison of Factors Affecting Soil Nitrate Nitrogen and Ammonium Nitrogen Extraction

Extraction of soil nitrate nitrogen (NO₃ ^?-N) and ammonium nitrogen (NH₄ ⁺-N) by chemical reagents and their determinations by continuous flow analysis were used to ascertain factors affecting analysis of soil mineral N. In this study, six factors affecting extraction of soil NO₃ ^?-N and NH₄ ⁺-N were investigated in 10 soils sampled from five arable fields in autumn and spring in northwestern China, with three replications for each soil sample. The six factors were air drying, sieve size (1, 3, and 5 mm), extracting solution [0.01 mol L^?1 calcium chloride (CaCl₂), 1 mol L^?1 potassium chloride (KCl), and 0.5 mol L^?1 potassium sulfate (K₂SO₄)] and concentration (0.5, 1, and 2 mol L^?1 KCl), solution-to-soil ratio (5:1, 10:1, and 20:1), shaking time (30, 60, and 120 min), storage time (2, 4, and 6 weeks), and storage temperature (?18 ^oC, 4 ^oC, and 25 ^oC) of extracted solution. The recovery of soil NO₃ ^?-N and NH₄ ⁺-N was also measured to compare the differences of three extracting reagents (CaCl₂, KCl, and K₂SO₄) for NO₃ ^?-N and NH₄ ⁺-N extraction. Air drying decreased NO₃ ^?-N but increased NH₄ ⁺-N concentration in soil. Soil passed through a 3-mm sieve and shaken for 60 min yielded greater NO₃ ^?-N and NH₄ ⁺-N concentrations compared to other treatments. The concentrations of extracted NO₃ ^?-N and NH₄ ⁺-N in soil were significantly (P < 0.05) affected by extracting reagents. KCl was found to be most suitable for NO₃ ^?-N and NH₄ ⁺-N extraction, as it had better recovery for soil mineral N extraction, which averaged 113.3% for NO₃ ^?-N and 94.9% for NH₄ ⁺-N. K₂SO₄ was not found suitable for NO₃ ^?-N extraction in soil, with an average recovery as high as 137.0%, and the average recovery of CaCl₂ was only 57.3% for NH₄ ⁺-N. For KCl, the concentration of extracting solution played an important role, and 0.5 mol L^?1 KCl could fully extract NO₃ ^?-N. A ratio of 10:1 of solution to soil was adequate for NO₃ ^?-N extraction, whereas the NH₄ ⁺-N concentration was almost doubled when the solution-to-soil ratio was increased from 5:1 to 20:1. Storage of extracted solution at ?18 °C, 4 °C, and 25 °C had no significant effect (P < 0.05) on NO₃ ^?-N concentration, whereas the NH₄ ⁺-N concentration varied greatly with storage temperature. Storing the extracted solution at ?18 ^oC obtained significantly (P < 0.05) similar results with that determined immediately for both NO₃ ^?-N and NH₄ ⁺-N concentrations. Compared with the immediate extraction, the averaged NO₃ ^?-N concentration significantly (P < 0.05) increased after storing 2, 4, and 6 weeks, respectively, whereas NH₄ ⁺-N varied in the two seasons. In conclusion, using fresh soil passed through a 3-mm sieve and extracted by 0.5 mol L^?1 KCl at a solution-to-soil ratio of 10:1 was suitable for extracting NO₃ ^?-N, whereas the concentration of extracted NH₄ ⁺-N varied with KCl concentration and increased with increasing solution-to-soil ratio. The findings also suggest that shaking for 60 min and immediate determination or storage of soil extract at ?18 ^oC could improve the reliability of NO₃ ^?-N and NH₄ ⁺-N results.     

狗牙根与空心莲对水库消落带土壤氮磷释放影响的模拟

通过水库水位涨落室内模拟试验,探究丹江口库区消落带优势物种狗牙根和空心莲2种草本植物对土壤氮磷释放过程影响。结果表明:(1)水淹结束后(32天),空心莲子草土壤TN、TP分别降低11.75%,25.28%,狗牙根分别降低3.62%,25.77%。(2)干湿交替环境主要影响土壤中NH_4~+-N、NO_3~--N和AP的含量的变化,对土壤中的TN、TP含量的影响较小。(3)狗牙根的死亡增加土壤TN、NH_4~+-N、TP量,即不耐淹植被过滤带虽然能净化径流中N、P等污染物,但截留的污染物和植物吸收的养分随着植物体的分解再次进入水体或土壤,无法达到有效防控农业面源污染的目的。该研究为丹江口水库利用植被缓冲带防控水体富营养化提供一定理论依据。     

Effect of partial urea application on nutrient absorption by hydroponically grown spinach (Spinacia oleracea L.)

Spinach (Spinacia oleracea cv. Okame) was grown in hydroponic pot culture with an Enshi nutrient solution amended with 0, 20, or 50% urea with or without nickel addition (Ni; 0.05 mg L^-1), while the total concentration of N (17.33 mmol L^-1) remained constant in all the cases to evaluate the effect of partial urea application, with or without the addition of Ni, on the absorption of NO³-N, urea-N, NH₄-N, minerals (e.g. Ca, K, Mg, P) by plants. Fresh and dry weight of the shoots was highest when a 20% urea solution with Ni addition was used. The variation in spinach yield was related to the absorption of total-N by the plants. The absorption of total-N, attributed mainly to NO₃-N and urea-N, differed between the treatments. In the case of short-term absorption, determination by using ¹⁵N-urea and ¹⁵N-KNO₃ showed that, the urea-N absorption significantly increased with the increase in the urea concentration in the nutrient solution. When the urea solutions were used, regardless of Ni addition, the absorption of NO₃-N was more than four times higher than that of urea-No The addition of Ni in the urea solutions stimulated and increased both urea-N and NO₃-N absorption. In the case of long-term absorption, the NO₃-N absorption decreased with the decrease of the NO₃-N concentration when NO₃-N was partially replaced with urea in the nutrient solution. The addition of Ni in the urea solutions resulted in the increase of the absorption of both urea-N and NO₃-N, but the NO₃-N absorption remained lower in all the treatments compared to the control. In the urea solutions, the absorption of urea-N with or without the addition of Ni increased at a lower rate over time (sampling stages). Application of urea, with or without the addition of Ni in the nutrient solution, increased Ca absorption but decreased K and Mg absorption, whereas, P absorption was unaffected. It is suggested that spinach could grow adequately in an Enshi nutrient solution modified with 20% urea with the addition of 0.05 mg Ni L^-1, when urea totally replaced NH₄-N and partially replaced NO₃-N.     

人为活动对云南纳帕海湿地土壤碳氮变化的影响

以纳帕海湿地原生沼泽作为参照 ,选择人为干扰下的沼泽化草甸 ,草甸和排干湿地开垦的耕地作为研究对象 ,研究人为干扰对纳帕海湿地土壤碳氮变化的影响。两年的定位研究结果表明 :沼泽土壤C/N值较高 ;人为干扰下纳帕海湿地土壤空间结构上土壤有机质 0～ 2 0cm表层与 2 0～ 4 0cm下层相差 4倍 ,水平分布上则随人为干扰加强、沼泽化过程减弱而降低 ,下降幅度高达 2 2 .92 %～ 6 9.6 4 %;土壤全氮及其空间分布呈现与有机质相同趋势 ,两者相关系数r=0 .98;NH 4 N、NO-3 N与全氮和水解氮相关系数分别为r=- 0 .74、r=- 0 .6 5 ,r=- 0 .81、r=- 0 .76。表明了纳帕海湿地沼泽土壤较低的矿化量和对碳的固定及较大的氮累积量 ,以及人为活动干扰后湿地土壤碳氮养分的释放变化。     

太湖地区稻麦高产的氮肥适宜用量及其对地下水的影响

通过田间定位试验与土壤渗漏仪 (Lysimeter)模拟试验 ,研究太湖地区稻麦生产中氮肥过量施用带来氮肥利用率低与环境污染问题 ,探讨本区稻麦高产与减少氮肥淋洗的适宜氮肥用量。初步试验结果表明 ,氮肥适宜用量随着稻麦产量的提高而增加 ,本区两种主要土壤水稻、小麦高产的氮肥适宜用量(以N计 )分别为 2 2 5～ 2 70kghm- 2 与 1 80～ 2 2 5kghm- 2 ;适宜的氮肥用量使单位面积的有效穗数和每穗的结实颖花数均高 ,因而产量高。氮素的淋洗以NO- 3 N为主 ,主要发生在麦季与泡田插秧初期 ,其含量随着施氮量的增加而增加 ,每hm2 施N 2 2 5kg的模拟试验 ,麦季渗漏液的NO- 3 N浓度在 5 4～ 2 1 3mgL- 1,有60 %的样次超过污染标准 (NO- 3 N 1 0mgL- 1) ;田间试验 ,麦季施N量在 2 70～ 31 5kghm- 2 范围内 ,地下水NO- 3 N浓度在 1 9～ 1 1 0mgL- 1,有 2 0 %的样次接近 ,1 0 %的样次超过污染标准。长期NO- 3 N渗漏累积 ,势必对地下水构成潜在威胁。