玉米-大豆间作和减量施氮对玉米生长、产量及土壤硝态氮含量的影响

通过大田试验，研究玉米单作（MM）、玉米-大豆间作1∶2（IMS1，玉米1行，大豆2行）、2∶2（IMS2，玉米2行，大豆2行）3种种植方式和3种施肥水平不施氮（N0）、减量施氮200 kg/hm（N1）、常量施氮300 kg/hm（N2）对玉米生长、产量以及土壤硝态氮含量的影响。结果表明，IMS1下，N2玉米叶面积较N0显著提高6.30%。间作和N1处理对玉米产量无显著影响，但显著提高了玉米和大豆总产量。N1较N2的氮肥农学效率显著提高。土壤硝态氮随玉米不同生育期的变化而变化，在成熟期达到最低值。与N2相比，N1土壤硝态氮无显著变化，未对土壤养分产生负面影响并能满足作物对氮素的需求，保持高产。总体来看，玉米大豆间作模式下减量施氮有利于节肥和提高间作体系总产量。     

新鲜蔬菜硝酸盐含量测定的改进试粉法

 为适应新鲜蔬菜硝酸盐快速检测的需要, 在现有试粉法的基础上对硝酸盐测定的试粉法进行了改良研究。结果表明, 本研究建立的直接以去离子水浸提蔬菜匀浆, 混合试粉配方为柠檬酸∶一水硫酸锰∶无水对氨基苯磺酸∶N - 1 - 萘乙二胺盐酸盐∶细锌粉= 30∶4∶1.6∶0.8∶1, 其加入量为0.1 g的改进试粉法, 对于溶液中硝酸盐含量在0～20 mg/L范围时, 显色吸光值与硝酸盐含量呈现良好的线性关系, 相关系数达0.9999, 方法回收率在97.7%～104.5%之间, 相对标准偏差2.71%。用本改进试粉法测定11种蔬菜的硝酸盐含量与国标法测定结果的t检验具有一致性。     

大白菜不同品种对硝酸盐积累差异的研究

 将17个大白菜品种在高浓度氮素水平下营养液栽培, 分析各品种不同时期硝酸盐含量, 发现不同品种之间硝酸盐含量差异达到极显著, 最高和最低者相差两倍以上。硝酸还原酶的活性同硝酸盐含量相关性达到显著负相关, 但是也有硝酸盐含量低, 同时硝酸还原酶活性也低的品种, 通过分析认为可以通过育种途径培育出硝酸盐低积累量的品种。     

复合微生物肥料在无公害蔬菜栽培上的效应初报

施用复合微生物肥料使番茄产量提高 7.3 %～ 11.1% ,可溶性固形物含量提高 0 .9%～ 1.3 % ,硝酸盐含量降低 2 7.2 %～ 3 4 .8% ;苦瓜产量提高 10 .7%～ 16.1% ,硝酸盐含量降低 2 8.7%～ 3 6.1% ;菜薹产量提高 7.2 %～ 15.1% ,硝酸盐含量降低 55.6%～ 61.5%。各处理产品中的硝酸盐含量及有害元素的含量 ,均符合无公害蔬菜产品质量标准要求     

白菜不同品种对硝酸盐吸收积累差异原因初探

 用两组积累硝酸盐不同的白菜品种作试材，测定其吸收硝酸盐的速率、动力学常数Km与V一、硝酸还原代谢库内硝酸根浓度(MPS)和硝酸还原酶活性(NRA)，结果表明，不同白菜品种吸收硝酸根的速率、Km与V 、MPS、NRA存在较大的差异；硝酸盐积累的差异主要是由于吸收硝酸根的速率不同，与硝酸根在其体内的运转、代谢并无显著直接相关。     

Use of the nitrate‐specific ion electrode for the determination of nitrate nitrogen in surface and ground water

Abstract

The usefulness of the nitrate‐specific ion electrode (NE) for the determination of nitrate nitrogen (NO3‐N) in surface and ground water was determined. The NE method had several advantages that made it superior to the phenoldisulfonic acid (PDS) method in our environmental quality studies. Samples could be analyzed quickly and with a minimum of sample preparation. Sample coloration and soluble salts did not interfere with the performance of the electrode. Range of detection without dilution was much wider than by the PDS method. Also, the values obtained by the NE method, although slightly greater than those obtained by the PDS method, were satisfactory.     

玉米果穗发育的生理特性研究

为了探讨玉米优良自交系选育中出现短苞叶品种的原因，从生理角度分析了两玉米自交系品种穗轴与苞叶生长发育变化趋势。结果表明：四个时期中139号苞叶硝酸还原酶活性非常低，对照1号的稍高一些。139号苞叶谷氨酰胺合成酶活性小于1号，且1号的酶活性变化较平缓。139号雌穗轴硝酸还原酶活性变化剧烈，授粉后15d达高峰，明显大于1号。139号雌穗轴谷氨酰胺合成酶活性前三时期始终大于1号，最后一时期二者几乎相等，但1号的酶活性变化平缓。就上述结果从氮代谢方面分析了139号苞叶与穗轴发育失调的原因。     

Temporal variation in mineral nitrogen in soil as influenced by incorporation of legume or cereal residues under submergence or well drained conditions

A laboratory study was conducted at the Indian Agricultural Research Institute, New Delhi on a sandy clay loam soil of pH 7.9 and organic C content of 0.34% to study the effect of incorporating Sesbania or Vigna legume residues or wheat straw at 15 and 30t ha^?1 on temporal variation in ammoniacal and nitrate‐N in soil under submergence and well drained conditions. Under submergence most mineral N was present as ammoniacal‐N, while under well drained conditions it was present as Nitrate‐N. The content of ammoniacal N in soil was the highest after 30 days of incubation and declined thereafter under submergence. On the other hand under well drained conditions the mineral‐N (mostly nitrate) content in soil at 30 DAI was very little and showed increases only later, reaching the highest level at 90 DAI. Application of wheat straw specially at 301 ha^?1 level resulted in immobilization of native soil‐N. These results show that rice which is grown under submergence can be transplanted soon after incorporation of legume residues, but for wheat or other crops which are grown under well drained condition a time interval of 30 days or more needs to be provided before sowing the crop.     

Control of soil solution interferences in an automated nitrate method

Abstract

An AutoAnalyzer method for nitrate nitrogen based on hydrazine reduction followed by diazotization was re‐examined after certain soil solutions had given poor recoveries. Modifications to the reaction parameters, particularly in the reduction stage improved the recovery of nitrate as nitrite. Soluble organic compounds in the samples were more critical than inorganic salts, but the proposed method allowed tolerance of up to 30 mgl^‐1 total organic carbon. Concentrations of various inorganic ions in soil solutions and natural waters were usually below the limits shown to be critical for the improved method.     

水培蔬菜硝酸盐控制方法研究进展

综述了水培蔬菜硝酸盐控制方法的研究进展,包括合理的氮源配比、营养液的元素平衡、后期采用停氮处理、选择使用好塑料膜控制光照、叶面喷施措施等。