树脂包膜控释尿素不同用量对玉米产量的影响及其肥效研究

对采用树脂包膜技术制作的控释尿素Ⅰ(CRUⅠ)和控释尿素Ⅱ(CRUⅡ)进行了玉米田间试验,并与普通尿素(CU)进行了肥效对比。结果表明:施肥处理的土壤硝态氮含量显著高于不施肥处理(ck),在玉米成熟期,控释尿素土壤硝态氮含量仍然保持着很高的数值,CRUⅡ3土壤硝态氮含量为11.62 mg/kg。从苗期到抽雄期,施氮肥各处理的土壤铵态氮含量与ck和ck1处理之间差异显著,土壤铵态氮含量在玉米成熟期比吐丝期增多,但各氮肥处理之间无显著差异,CRUⅡ3土壤铵态氮含量为14.93 mg/kg。控释尿素显示了良好的养分控释效果。施用控释尿素后,控释尿素Ⅱ(CRUⅡ2)处理玉米产量达到了10678.60 kg/hm2,比对照(ck)增产6197.98 kg/hm2,增收3 182.39元/hm2,产投比达到了1.78∶1,且穗粒数、百粒重、经济效益均较对照增加显著,是一类很有发展前景的新型控释肥料。     

用实时荧光PCR方法定量检测Bt176转基因玉米

以实时荧光PCR技术鉴定商业化种植的转基因玉米Bt176品系。根据转基因玉米Bt176中内源基因Zein和外源基因cry1Ab设计引物及TaqMan荧光探针,成功建立了检测转基因玉米Bt176品系的实时荧光PCR方法。结果表明,应用实时荧光PCR方法检测转基因作物,不仅可以达到品系鉴定的作用,而且可以用于转基因成分的检测。该方法简便迅速,降低了污染机会,为转基因作物及产品的品系检测提供了新方法。     

膜下滴灌条件下绿洲棉田土壤水分运动数值模拟

应用非饱和土壤水运动理论,建立膜下滴灌条件下土壤水分运动二维数值模拟模型,研究了田间层状土壤在膜下滴灌条件下土壤水分运动特征.应用不同小区不同灌水处理的实测值与模拟值进行对比,同时对模型做了精度分析,结果表明符合精度要求,这说明所建立的模型能客观地反映实际土壤条件下的水分运动情况.研究结果表明:土壤剖面30～40 cm粘土层使土壤水分运动具有很大的差异,0～30 cm变化明显,而40 cm以下土壤水分运动的变化较小. 膜下滴灌应该采取灌水量小,频度大的灌溉模式.     

System for quasi‐continuous simultaneous measurement of oxygen diffusion rate and redox potential in soil

Oxygen diffusion rate (ODR) and redox potential (E_H) are quantitative indices representing oxygen availability and redox status in soils, which is valuable information for better understanding causes and effects of soil aeration. Because these indices are spatially and temporally highly variable, continuous measurements and adequate numbers of repetitions are essential for accurate in situ monitoring. Here, we present a new, fully automated recording system for in situ measurements where ODR and E_H are measured at the same platinum electrode. The conflict between electrode polarization for ODR and the resulting biased E_H readings is solved by reducing the polarization time and introducing a recovery interval between two consecutive measurement cycles. The shorter polarization time ensures accurate E_H readings. It also results in moderately overestimated ODR readings, but this can be corrected before data analysis. The recovery interval restricts temporal resolution of the E_H‐ODR data pairs to 8 h. We illustrate the use of the system with measurements in a field experiment in Zürich, Switzerland. ODR curves at different depths ran roughly parallel to the corresponding curves of O₂ concentration in soil air but ODR was much more sensitive to precipitation. Low ODR was a necessary but not a sufficient condition for declining E_H. E_H ran parallel to O₂ concentration in soil air rather than to ODR. The fully automated system allows for time series of replicate measurements in multifactorial field studies with reasonable labor requirements. It may be particularly suitable for studies examining the effects of soil tillage, compaction, and irrigation, where structure‐related soil properties such as porosity, gas permeability, and soil aeration play a dominant role.     

基于扩散理论的华北春玉米生理成熟后籽粒脱水过程分析

玉米机收籽粒可以显著提高玉米的生产效率,是玉米生产的发展方向。生理成熟后的籽粒含水率是决定机收质量的关键,受品种、密度和气候等多种因素影响。准确估算生理成熟后玉米籽粒含水率,进而分析其主要影响因素,最终确定玉米收获时间和筛选适宜机收的品种,对玉米主产区华北的春玉米籽粒机收发展具有重要意义。因此,于2017年和2018年在河北省泊头、南大港、玉田和山西榆次进行了两年田间春玉米试验,每年设置7个共性品种,每个品种3个密度,对生理成熟后籽粒含水率、品种性状、气象和管理要素进行了监测,并利用基于扩散理论考虑空气温湿度的脱水模型对籽粒含水率进行了模拟,进而计算脱水曲线下的面积(AUDDC),用以筛选脱水优异的玉米品种。结果表明,基于扩散理论的籽粒脱水模型对玉米生理成熟后籽粒含水率的模拟效果较好;年份、地点和品种对生理成熟时籽粒含水率(M_0)和水分扩散速率(k)具有显著影响,密度对脱水参数影响不显著。逐步线性回归分析得到灌浆期参考作物蒸发蒸腾量(ET_0)、最高气温和灌水量对M_0具有显著的正效应,生理成熟后30 d内ET0和灌浆中后期降雨对k具有显著的正效应,全生育期降雨对k具有显著的负效应。品种性状中对M_0影响最大的为苞叶层数(正效应),对k影响最大的为叶片数(负效应)。通过模型计算得到,生理成熟后10d华北地区春玉米籽粒含水率可以下降到28%,籽粒含水率下降到25%的概率为50%。由模型计算得到各品种生理成熟后10 d内的AUDDC,与AUDDC平均值比较发现‘京农科728’‘张1453’‘华农887’‘广德5’和‘金科玉3306’为脱水表现优异的品种。     

气候变暖背景下河南省夏玉米花期高温灾害风险预估

为预估未来气候变暖背景下夏玉米花期高温灾害风险,根据河南省19个农业气象观测站夏玉米抽雄期常年观测资料和未来RCPs(representativeconcentrationpathways)气候变化情景数据,构建夏玉米花期高温风险评价指标,开展河南省夏玉米花期高温灾害时空特征及风险演变分析。其中RCPs气候情景数据包括基准气候条件(1951—2005年, RCP-rf)和未来(2006—2050年)RCP 4.5(中)、RCP 8.5(高)两种浓度路径数据。以抽雄普遍期及之后7d确定为夏玉米花期,并内插匹配气候情景格点数据。以花期最高气温≥32℃和≥35℃作为轻度和重度高温灾害发生阈值,根据轻、重度夏玉米花期高温发生频率和高温积害,建立风险评价指标并分级。结果表明, RCP-rf情景下全省夏玉米花期高温发生频率在20.5%～81.0%(≥32℃)和3.9%～51.9%(≥35℃)。与基准条件相比,≥32℃高温发生频率增加9.1%(RCP4.5)和11.0%(RCP8.5),≥35℃高温发生频率增加8.7%(RCP4.5)和8.3%(RCP8.5)。RCP-rf情景下全省夏玉米花期高温积害在48.5～200.9℃·d(≥32℃)和9.8～138.5℃·d(≥35℃)。与基准条件相比,≥32℃高温积害增加25.4℃·d (RCP 4.5)和25.6℃·d (RCP 8.5),≥35℃高温积害增加25.8℃·d (RCP 4.5)和31.4℃·d (RCP 8.5)。由综合风险分析可知, RCP-rf情景下夏玉米花期高温灾害高值风险区主要分布在新乡、郑州、许昌、漯河、周口及其以东以北的地区(商丘除外),约占夏玉米主栽区面积的30.1%;RCP4.5情景下高值风险区扩大至洛阳和南阳以东的大部分地区,约占夏玉米主栽区面积的63.4%; RCP 8.5情景下高值风险区面积进一步向西扩大,约占夏玉米主栽区面积的占76.3%。     

Integrated rice management simultaneously improves rice yield and nitrogen use efficiency in various paddy fields

The hilly area of Southwest China is a typical rice production area which is limited by seasonal droughts and low temperature in the early rice growth period. A field experiment was conducted on three typical paddy fields (low-lying paddy field, medium-elevation paddy field, and upland paddy field) in this region. Nitrogen (N) treatment (180 kg N ha^-1 year^-1) was compared to a control treatment (0 kg N ha^-1 year^-1) to evaluate the effects of integrated rice management (IRM) on rice growth, grain yield, and N utilization. Integrated rice management integrated raised beds containing plastic mulch, furrow irrigation, and triangular transplanting. In comparison to traditional rice management (TRM), IRM promoted rice tiller development, with 7-13 more tillers per cluster at the maximum tillering stage and 1-6 more tillers per cluster at the end of tillering stage. Integrated rice management significantly increased the rice aboveground biomass by 34.4%-109.0% in different growth periods and the aboveground N uptake by 25.3%-159.0%. Number of productive tillers significantly increased by 33.0%, resulting in a 33.0% increase in grain yield and 8.0% improvement of N use efficiency (NUE). Grain yields were significantly increased in all three paddy fields assessed, with IRM being the most important factor for grain yield and productive tiller development. Effects of paddy field type and N level on N uptake by aboveground plants were reflected in the rice reproductive growth period, with the effects of IRM more striking due to the dry climate conditions. In conclusion, IRM simultaneously improved rice yield and NUE, presenting a valuable rice management technique in the paddy fields assessed.     

基于氧同位素的玉米农田蒸散发估算和区分

农田蒸散发(evapotranspiration,ET)的估算和区分是土壤-植物-大气连续体中的重要研究内容,是农业水资源高效利用的重要基础。该研究分析了土壤水、蒸发水汽、蒸腾水汽和大气背景混合水汽氧同位素组成分布特征,并采用2种同位素的方法对玉米农田蒸散发进行估算和区分:1)结合Keeling plot和Craig-Gordon模型的同位素方法(Iso-CG);2)基于土壤水同位素守恒和水量平衡的方法(Iso-WB)。结果表明,在玉米生育期内Iso-WB方法与Iso-CG方法所计算的玉米蒸腾比例分别为0.64~0.91和0.52~0.91,平均值分别为0.80和0.78。玉米蒸散发总量在前期、中期和后期均值分别为3.95、5.30和4.98 mm/d。通过比较参数并与前人研究结果对比分析,表明采用Iso-CG方法估算区分ET相对精确,采用Iso-WB方法计算蒸散发要求的测量精度相对较高,计算误差较大。该研究成果不仅为玉米农田制定灌溉制度及提高用水效率提供了理论依据,而且对深入探索氧同位素水文学领域具有重要意义。     

考虑植株氮垂直分布的夏玉米营养诊断敏感位点筛选

探明夏玉米氮素营养生化指标(叶绿素a、叶绿素b、类胡萝卜素、叶片氮含量和叶片氮积累量)与叶片SPAD值垂直分布特征及两者间定量回归关系,确立基于叶绿素仪的夏玉米氮营养无损诊断敏感叶位和叶片部位,以实现氮营养时空变化的快捷和精准监测。利用2018-2019年连续2季不同氮营养水平下夏玉米关键生育期主茎各叶位(顶1叶~顶12叶,TL1~TL12)和叶片部位(每张叶片从叶片基部开始根据叶片长度每20%分为1个测试区间) SPAD值及氮营养指标数据,研究基于偏最小二乘(partial least square, PLS)回归模型的夏玉米不同位点SPAD值与氮营养指标间关系,确定可稳定指示夏玉米氮营养空间异质性变化的敏感叶位及叶片部位。结果表明,不同叶位间夏玉米叶片SPAD值和氮营养指标于植株间分布均呈典型的"钟型"特征,至TL5或TL6时达至峰值。同一叶位不同部位间SPAD值由20%至100%位点时则逐步升高,且80%~100%位点间无显著差异(P>0.05)。PLS分析结果显示,夏玉米不同叶位SPAD值与氮营养指标间模型精度决定系数(coefficient of determination, R2)和相对分析误差(relative percent deviation,RPD)范围分别为0.693~0.821和1.425~2.744。不同测试位点R2和RPD值范围则分别为0.660~0.847和1.607~2.451,满足模型精确诊断需求。此后,基于PLS模型中各叶位和叶片部位无量纲评价指标变量重要性投影值(variable importance for projection,VIP),确定顶4叶(TL4)完展叶60%~80%区间为夏玉米氮营养诊断的敏感区域,VIP值均高于临界值1.40,预测效果较为理想。研究可为实现氮营养的高效、快捷诊断和精准施氮提供参考。