水田机械式强制排肥装置设计与试验

目前水田机械施肥均匀性差，且作业时在施肥开沟器末端容易出现肥料粘结、架空、堵塞开沟器等现象。针对以上问题，本文设计了一种水田机械式强制排肥装置，并对其关键部件进行了结构设计及性能试验。将水田机械式强制排肥部件的工作过程分为3个阶段，通过运动学和动力学研究方法分析了各工作阶段肥料在螺旋强制排肥部件内的状态，以及影响排肥部件工作性能的关键因素，对螺旋强制排肥部件的直径、转速、螺距3个因素进行了设计计算。以排肥均匀性变异系数为响应指标，进行了螺旋强制排肥部件的单因素台架试验，通过对最小显著性差异进行统计分析，确定了各因素的取值范围；安排了二次正交旋转组合试验，并对试验结果进行了方差分析和响应面分析，确定了影响排肥性能指标因素的影响由大到小为转速、螺距、直径，建立了排肥性能指标与各因素之间的回归方程，运用Design-Expert软件对试验因素优化求解，确定了较优工作参数组合为螺旋输送器转速120.09r/min、直径23.90mm、螺距21.54mm，此时施肥装置台架试验的排肥均匀性变异系数为7.18%。将所设计的强制排肥部件分别安装在水稻插秧机及水稻气力式施肥播种机上，进行了田间验证试验，试验结果表明，机械式强制螺旋排肥装置工作稳定、堵塞率低，水田防堵塞效果优于无该部件的施肥机械。     

耕作方式及秸秆还田对土壤性质、微生物碳源代谢及小麦产量的影响

以小麦品种济麦22为试验材料,采用裂区试验设计,耕作方式为主区,分别设常规翻耕(C)、深松(S)、旋耕(R)处理,副区为秸秆还田量,分别设秸秆全还田(P)和秸秆不还田(A)处理,采用Biolog Eco技术测定土壤微生物碳源代谢功能,并分析土壤基本理化性质和作物产量。结果显示:深松与秸秆还田均有利于土壤含水量和有机碳含量的提高,0～15 cm土层分别提高了9.78%和24.00%,15～30 cm土层分别提高了7.08%和15.81%;深松提高了15～30 cm土层的pH值6.67%,秸秆还田提高了0～15 cm土层的pH值4.32%。深松和秸秆还田均有利于代谢多样性(丰富度指数、香浓多样性指数)、碳源代谢强度的提高,0～15 cm土层分别提高了26.84%、3.84%和38.02%,15～30 cm土层分别提高了11.87%、 3.63%和14.74%。主成分分析表明常规翻耕秸秆不还田和旋耕耕作秸秆不还田碳源代谢功能相近,15～30 cm层次内常规翻耕秸秆全还田碳源代谢功能和深松耕作秸秆全还田处理相近。深松和秸秆还田平均提高了小麦产量5.82%,微生物碳源代谢功能与小麦产量具有极显著的相关性。     

高压脉冲电场法提取耐辐射奇球菌中类胡萝卜素的研究

为探讨高压脉冲电场(PEF)电学参数致耐辐射奇球菌破壁提取类胡萝卜素的影响及最佳工艺参数,采用正交试验法,分析了电场强度、处理时间、频率和脉宽4种电场参数对类胡萝卜素提取效果的影响。结果表明,PEF技术提取类胡萝卜素的最优提取水平组合为:电场强度30 kV·cm^-1,处理时间30 s,频率30 Hz,脉宽10 μs。该条件下,提取量为75.06 μg·g^-1,与未进行电场处理的样品提取量48.27 μg·g^-1相比,增加了55.5%。本研究结果为PEF技术的工业化大规模应用提供了理论依据。     

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.     

植保无人机旋翼风场模型与雾滴运动机理研究进展

近几年，植保无人机施药技术在中国获得广泛应用，并逐渐发展为国内主要植保技术之一。但由于对植保无人机施药技术基础理论研究不够深入，相关机理尚不明晰，且植保无人机作业平台的稳定性依然有待提高，导致国内植保无人机施药效果不够理想。深入研究植保无人机施药技术的基础理论，理论结合试验结果共同指导植保无人机田间施药是提高其施药效果的经典方法。该研究综述了植保无人机旋翼风场分布特性、雾滴与无人机旋翼风场交互机理、雾滴沉降与飘移机理、雾滴与叶片表面的交互机理及雾滴分散和蒸发特性等植保无人机施药技术基础理论及其模型构建情况的国内外研究现状，并结合其基础理论与模型构建的国内外研究现状，给出植保无人机施药技术的未来发展建议，以期为植保无人机施药技术的发展提供参考。     

菌根化育苗对玉米生长和养分吸收的影响

【目的】丛枝菌根真菌(arbuscular mycorrhizal fungi,AMF)侵染作物根系形成菌根共生体系对于作物吸收磷具有重要作用,但该结果大多来源于室内受控试验,有限的田间试验因环境条件、试验材料与接种技术等差异致使AMF菌剂应用效果不一。本研究通过玉米菌根化育苗和田间移栽,分析了接种AMF对玉米生长、养分吸收、籽粒产量及养分含量的影响,以期推进菌根技术的实际生产应用。【方法】以自交品系玉米B73为供试作物,于2018年5月至10月在北京市延庆区进行了田间试验。田间小区设置基施磷(+P)和不施磷(–P)处理。供试AMF为Rhizophagus irregularis Schenck&Smith BGC AH01。玉米种子催芽后,分别播入加入AMF菌剂(+M)和菌剂过滤液(–M)的育苗钵内,培养两周后移栽至田间。玉米在田间条件下生长至拔节期时,使用便携式光合仪测定叶片光合速率与气孔导度,取样测定地上部与根部干重和养分元素含量,同时测定菌根侵染率;在玉米完熟期取样,测定籽粒百粒重、籽粒产量及养分含量。【结果】无论田间施磷与否,接菌植株根系的菌根侵染强度和丛枝丰度均显著高于不接菌植株。不施磷情况下,+M处理显著提高了玉米根系干重,玉米生长的菌根依赖性(163.7%)显著高于施磷情形(124.1%)。–P–M处理玉米叶片的光合速率和气孔导度显著低于其他3个处理。–P+M处理玉米叶片的光合参数、玉米地上部和根部磷含量与+P+M均无显著差异。与–P–M处理相比,–P+M显著提高了玉米籽粒产量和百粒重,同时也提高了籽粒中锌、锰、镁等矿质养分的含量,且与+P+M处理相比均无显著差异。【结论】玉米幼苗接种AMF后再移栽到田间,可以显著提高拔节期玉米根系的菌根侵染率,促进玉米地上部和根部对磷及锌、锰和镁的吸收,进而促进玉米的生长,提高籽粒产量和养分含量。本试验条件下,菌根化育苗可以达到与施磷同样的效果,在保障作物不减产的前提下减少磷肥施用量。     

不同氮肥运筹模式对稻田田面水氮浓度和水稻产量的影响

通过构建包括不同氮肥类型、氮肥用量、施肥方式和施肥次数的6种氮肥运筹模式,分析了不同氮肥运筹模式对稻田田面水各形态氮浓度变化和水稻产量的影响。结果表明:不同时期施用缓控释肥和尿素后,总氮和铵态氮浓度均在1天达到峰值,硝态氮浓度在2～3天达到峰值,之后逐渐下降趋于稳定。铵态氮为各处理施肥后初期的主要氮形态,1天时铵态氮占总氮比例达50.6%～92.8%,而硝态氮仅占3.8%～22.6%。田面水总氮和铵态氮峰值浓度大小与氮肥类型、施用用量和施肥方式均存在相关性,等氮量施用条件下,田面水总氮和铵态氮峰值浓度大小顺序为撒施尿素处理撒施缓控释肥处理侧深施缓控释肥处理,在N施用量48 kg/hm~2条件下,撒施尿素处理、撒施缓控释肥处理、侧深施缓控释肥处理的总氮和铵态氮平均峰值浓度分别为38.44,16.44,7.55 mg/L和34.39,13.00,3.82 mg/L。等氮施用量和相同施肥次数条件下,基肥采用侧深施缓控释肥的处理4,5,6比相应的撒施缓控释肥的处理1,2,3的产量分别提高2.8%,3.5%,2.7%。基肥采用侧深施缓控释肥和"一基一穗"2次施肥的处理6的水稻产量,在氮肥总施用量减少30%条件下,仅比基肥采用撒施缓控释肥和"一基一蘖一穗"3次施肥的处理1的水稻产量减少0.3%。侧深施缓控释肥可以有效降低施肥初期田面水铵态氮峰值浓度,从而减少氨挥发和降低径流流失风险,并在一定程度减量条件下不会对水稻产量产生影响。     

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.     

基于电磁感应仪数据的南疆棉田土壤电导率反演模型研究

土壤盐渍化是南疆棉田优质高产的主要障碍因素,定额灌溉可有效改良土壤盐渍化,EM38-MK2可快速、动态获取土壤盐渍化数据,适时监测土壤盐渍化,为棉田定额灌溉提供数字依据。针对电磁感应仪(EM38-MK2)的发射圈和接收圈设计了不同采样方案,在同一条田内采集了6个不同时期的土壤表观电导率数据及相应的剖面土样,分析了不同土壤采集方案及土壤含水量对表观电导率模型精度的影响,对比了以单一时期数据建模的局部模型和6个时期整体数据建模的全局模型的反演精度。结果表明,由单点采集电磁感应仪发射线圈位置土样所构建的模型精度更高,稳定性更好,能有效减少由采样带来的误差。当土壤含水量低于10%时,表观电导率与实测电导率之间的相关性较低,决定系数为0.58,反演模型只具备粗略估计实测电导率的能力;当土壤含水量高于10%时,表观电导率与实测电导率具有很好的相关性,决定系数达到0.80以上,反演模型具有较好的预测能力。EMH+EMV多测定模式下表观电导率与实测电导率之间的模型精度高于EMH或EMV单一测定模式,确立EC_(h0.375)+(EC_(h0.75)+EC_(v0.75))/2+EC_(v1.5)为建模因子,有效提高了反演模型的精度。不同深度土层的局部模型反演精度均高于全局模型精度,局部模型的RPD均大于2.0,具有较好的预测能力。