不同碳源、氮源对香魏菇菌丝体生长的影响测定

以菌丝体生物量为指标,对香魏菇液体培养基中碳氮营养源进行了优化。结果表明香魏菇菌株能利用多种碳源、氮源,其中碳源以葡萄糖较好;有机氮源优于无机氮源,牛肉膏为较佳氮源。     

Water and nitrogen interaction on soil profile water extraction and ET in maize-wheat cropping system

In the present study, water and nitrogen interaction on soil profile water extraction and evapo-transpiration (ET) was investigated taking a field experiment on a clay loam soil (Typic Haplustept) at the Indian Agricultural Research Institute, New Delhi with four consecutive crops (maize-wheat-maize-wheat) taken from July 2002 to April 2004. Three levels of water regime, namely W1, W2 and W3 referring to limited, medium and maximum irrigation were applied to each crop depending on the seasonal rainfall and the critical crop growth stage. The three water regimes were used with five nitrogen levels from T1 to T5, (T1, 0% N; T2, 75% N; T3, 100% N; T4, 150% N; T5, 100% N from organic source) in a split plot design for the four crops grown in sequence.Significant water and nitrogen interaction was observed for ET and soil profile water extraction pattern. Averaged across nitrogen treatments, ET in W2 and W3 were higher by 17 and 26%, respectively than W1 in maize 2002 and by 12 and 19% in maize 2003. In case of wheat, ET in W2 and W3 were higher by 27 and 58% than W1 in 1st crop and by 37 and 70% in 2nd crop. The effect of nitrogen regime, however, was prominent in both crops of maize and wheat, with significantly higher profile soil moisture depletion in T4 of each water regime. In all cases, lowest water depletion was observed in control plots receiving 0% N.In both crops, water extraction from surface 60 cm was highest in W3 followed by W2 and W1. In maize, the % extraction from 0 to 60 cm layer varied from 71 to 76% (W1), 70-79% (W2) and 75-82% (W3), whereas the values for wheat were 70-77, 72-79 and 75-83% for W1, W2 and W3, respectively. The 90-120 cm layer contributed only 3-14% to total water extraction in both the crops. From 90 to 120 cm layer, higher extraction was observed in W1 as compared to W3. The extraction values in W1, W2 and W3 in maize were 9-13, 7-14 and 3-9, respectively, whereas the corresponding values in wheat were 8-14, 5-12 and 3-7% for the three water regimes. Effect of nitrogen treatments on water extraction from deeper layer was observed with higher extraction in highest fertilized treatment (T4) as compared to other treatments.     

Yield and water-production functions of two durum wheat cultivars grown under different irrigation and nitrogen regimes

Wheat (Triticum durum L.) yields in the semi-arid regions are limited by inadequate water supply late in the cropping season. Planning suitable irrigation strategy and nitrogen fertilization with the appropriate crop phenology will produce optimum grain yields. A 3-year experiment was conducted on deep, fairly drained clay soil, at Tal Amara Research Station in the central Bekaa Valley of Lebanon to investigate the response of durum wheat to supplemental irrigation (IRR) and nitrogen rate (NR). Three water supply levels (rainfed and two treatments irrigated at half and full soil water deficit) were coupled with three N fertilization rates (100, 150 and 200 kg N ha⁻¹) and two cultivars (Waha and Haurani) under the same cropping practices (sowing date, seeding rate, row space and seeding depth). Averaged across N treatments and years, rainfed treatment yielded 3.49 Mg ha⁻¹ and it was 25% and 28% less than half and full irrigation treatments, respectively, for Waha, while for Haurani the rainfed treatment yielded 3.21 Mg ha⁻¹, and it was 18% and 22% less than half and full irrigation, respectively. On the other hand, N fertilization of 150 and 200 kg N ha⁻¹ increased grain yield in Waha by 12% and 16%, respectively, in comparison with N fertilization of 100 kg N ha⁻¹, while for cultivar Haurani the increases were 24% and 38%, respectively. Regardless of cultivar, results showed that supplemental irrigation significantly increased grain number per square meter and grain weight with respect to the rainfed treatment, while nitrogen fertilization was observed to have significant effects only on grain number per square meter. Moreover, results showed that grain yield for cultivar Haurani was less affected by supplemental irrigation and more affected by nitrogen fertilization than cultivar Waha in all years. However, cultivar effects were of lower magnitude compared with those of irrigation and nitrogen. We conclude that optimum yield was produced for both cultivars at 50% of soil water deficit as supplemental irrigation and N rate of 150 kg N ha⁻¹. However, Harvest index (HI) and water use efficiency (WUE) in both cultivars were not significantly affected neither by supplemental irrigation nor by nitrogen rate. Evapotranspiration (ET) of rainfed wheat ranged from 300 to 400 mm, while irrigated wheat had seasonal ET ranging from 450 to 650 mm. On the other hand, irrigation treatments significantly affected ET after normalizing for vapor pressure deficit (ET/VPD) during the growing season. Supplemental irrigation at 50% and 100% of soil water deficit had approximately 26 and 52 mm mbar⁻¹ more ET/VPD, respectively, than those grown under rainfed conditions.     

Effect of membrane environment at high temperature on delayed rectifier K+ channel in hypothalamus neurons

AIM: To observe the effect of high temperature on the delayed rectifier K⁺ channel(I_K) in hypothalamus neurons METHODS: The kinetic properties of I K were measured by cell-attached mode of patche-clamp technique RESULTS: The conductance, long-term open constant(τ _o2) and open probability(Po) of I_K increased with increase of temperature (P <0.05), while more burst open and multi-order open were recorded Many types of currents occurred after heat stress at 43℃,and voltage-dependent property reduced and even depressed CONCLUSIONS: The activating action of I_K might be affected obviously by high temperature, the coupling between I K and body fever or heatstroke remained to be established.     

增施氮肥和地面管理对酸樱桃园土壤营养状况的影响

在一个连续进行了 ８年Ｎ肥定位试验的酸樱桃园,调查了每年施用 Ｎ６０ ｋｇ· ｈｍ~(－２)和行间生草制对土壤营养状况的影响。结果表明：在肥沃土壤里ＮＨ_４~＋是速效Ｎ的主要存在形式,而ＮＯ_３~－的含量很低。生草地土壤中含有较多的 ＮＨ_４~－,而清耕带土壤中含有较多的 ＮＯ_３~－。施肥增加土壤速效 Ｎ的含量。土壤 ＮＯ_３~－的季节性变化表明 ５至 ６月份土壤中 ＮＯ_３~－的含量高,而花前和 ７月份土壤中 ＮＯ_３~－含量低。 Ｐ、Ｋ在清耕带 １０ ｃｍ以下土壤的含量低于生草地土壤,但在 ０～ １０ｃｍ土层中Ｋ的含量高于生草地。Ｐ的含量不受影响。施Ｎ减少了土壤Ｐ、Ｋ的含量。土壤中Ｍｇ的含量分布均匀,不受施Ｎ和地面管理制度的影响。     

施氮水平对7S亚基缺失大豆根系形态和结瘤固氮的影响

为有效推广功能型大豆7S亚基缺失品种,以7S亚基缺失大豆品系东富2号为研究对象,设置4种施氮水平(纯N),N0(0 mg·kg~(-1))、N1(25 mg·kg~(-1))、N2(50 mg·kg~(-1))、N3(75 mg·kg~(-1)),采用桶栽法研究大豆根系形态和结瘤固氮对不同施氮水平的响应。结果表明:N1(25 mg·kg~(-1))水平下根系干重加大,根冠比增大,根瘤固氮潜力高,单株产量较高。N2(50 mg·kg~(-1))水平下根长、根表面积、根体积在生育后期增长较快,根系干重较大,根冠比低,固氮酶活性最高,单株籽粒产量最高。N3(75 mg·kg~(-1))水平下植株干重较大,无效生长较多,根瘤数少,固氮潜力和根冠比低,单株产量不高。综合籽粒产量和根系特性指标,功能型大豆7S亚基缺失品系东富2号的适宜施肥量为25~50 mg·kg~(-1)。     

氮肥后移对玉米冠层内物质分配及氮素利用的影响

研究不同施氮量、不同施肥时期对玉米产量与氮素利用的影响,对玉米干物质生产、氮素积累与分配进行分析。结果表明,施氮量为180 kg/hm2时,产量表现为基施处理最高,较拔节期、大喇叭口期施肥处理分别提高1.17%、7.69%;施氮量为75 kg/hm2时,拔节期施肥处理产量最高,较基施、大喇叭口期施肥处理分别提高10.31%、4.61%。大喇叭口期施肥处理的干物质积累与氮素积累量少,氮肥利用效率低,说明氮肥后移需考虑植株前期对氮素的需要。拔节期施肥处理产量与基施处理产量和氮素积累量相当或提高,植株干物质积累增加,冠层内茎叶干物质比例协调,生育后期穗下层茎叶干物重下降缓慢,氮素利用效率高。施氮量为75 kg/hm2,氮肥适当后移可提高氮肥利用率。     

缓释型玉米专用肥不同氮源配比对玉米生长的影响

以春玉米大丰30和缓效氮源硫包膜尿素为试材,采取盆栽方式,设不施氮为对照,研究缓效氮不同添加比例下缓效氮的释放速率,春玉米干物质积累量、吸氮量、氮素利用率及产量,土壤p H值的动态变化。结果表明,配施缓效氮能有效提高玉米对氮素的利用,增加产量。随着缓效氮添加比例增加,玉米干物质积累量、吸氮量及产量均呈先增加后减少的趋势,其中添加33%缓效氮处理为最优处理。添加33%缓效氮处理中缓效氮累积释放率和玉米对氮素的吸收规律更加吻合,与普通尿素处理相比,产量增加73.83%,成熟期玉米地上部吸氮量和干物质积累量分别增加15.40%和20.10%,地下部吸氮量和干物质重分别增加21.11%和13.09%。配施缓效氮显著提高玉米氮素利用率,缓效氮添加比例为33%和50%处理分别比普通尿素处理提高14.76%和12.46%。     

灌水次数和施钾量对冬小麦茎秆形态特征和抗倒性的影响

为进一步明确兼顾节水高产抗倒的最佳灌水与施钾量组合,以冬小麦品种藁优2018为材料,通过二因素随机区组试验,研究了3种灌水次数(不灌溉、灌拔节水、灌拔节水和扬花水)和4个施钾量(施K_2O0、75、150和225kg·hm~(-2))对冬小麦茎秆形态特征和抗倒性的影响。结果表明,随灌水次数和施钾量的增加,小麦株高和重心高度显著增高,茎秆基部2个节间的单位长度干重、直径、机械强度和抗倒指数显著增加。而茎秆壁仅随施钾量的增加而显著增厚。小麦产量和3个产量构成因素也随灌水次数和施钾量的增加而增加,但4个施钾量之间的千粒重差异不显著,K225与K150之间的穗数、穗粒数和籽粒产量差异不显著。茎秆抗倒指数与茎秆基部第1、2节间的单位长度干重、直径呈极显著正相关,与株高、重心高度也呈极显著正相关。综合各项指标,春季在拔节期和扬花期灌2次水,施K_2O 150kg·hm~(-2)有利于实现小麦高产和钾肥高效,且茎秆抗倒性能较好。     

不同小麦品种产量和氮素吸收利用的差异

为明确不同氮肥水平下不同小麦品种产量、氮素吸收和利用的差异,在大田条件下,以山东省主推的21个小麦品种为材料,研究了0、120、180、240和300kg·hm~(-2)共5个氮肥水平下不同小麦品种的产量、氮素利用率、氮素吸收效率和氮素利用效率等指标。结果表明,氮肥、品种及两者的互作效应显著影响冬小麦籽粒产量、氮素利用率、氮素吸收效率和利用效率;氮肥水平不同则品种间的氮效率差异程度不同。大部分供试品种的氮效率类型在不同氮肥水平下的聚类结果不一致,仅临麦4号、鲁原502、泰山28和山农25在各氮肥水平下的产量、氮素利用率均较高,可划为氮高效品种。氮高效品种达到高氮效率的途径不同,临麦4号通过高氮素吸收效率、泰山28通过高氮素利用效率、鲁原502和山农25通过氮素吸收效率和利用效率共同作用实现氮高效。由此可知,应在不同氮肥水平下对冬小麦品种进行产量和氮素利用率的综合评价,以筛选出适应不同地力环境的品种和与品种特性相适应的施肥技术;在氮高效品种的选育和推广中,应针对不同小麦品种的氮素吸收和利用特性进行鉴别和调控,才能最大程度挖掘和利用其高产、高效潜力,实现增产增效。