河西荒漠灌区紫花苜蓿施肥效应及其基于数据包络分析法的经济效益研究

为科学准确地评判河西走廊苜蓿主产区紫花苜蓿饲草生产中施肥措施对其产品质量及生产收益的影响,本研究以“甘农3号”紫花苜蓿为材料,通过2016、2017年2年田间试验,以该区域紫花苜蓿饲草生产的平衡施肥推荐方案(N 103.5 kg·hm^-2、P₂O₅ 105 kg·hm^-2、K₂O 90 kg·hm^-2)为对照,探讨了不施肥及3种不完全施肥(缺氮偏施、缺磷偏施、缺钾偏施)处理下紫花苜蓿的生产性能,并采用数据包络分析法(DEA)对其经济效益进行分析。结果表明:与不施肥相比,施肥措施各处理均显著提高紫花苜蓿产量、蛋白总量,降低其酸性洗涤纤维和中性洗涤纤维,提高了相对饲用价值,从而改善了紫花苜蓿品质,并有效增加了经济效益;与氮、磷、钾平衡施肥相比,各偏肥处理的紫花苜蓿产量和品质均显著低于平衡施肥,尤以缺磷偏施的降幅最大,2016、2017年2年的产量和蛋白总量降幅分别达到25.9%、25.7%和33.4%、33.1%。因此,磷是河西荒漠灌区紫花苜蓿饲草生产的养分限制因子,氮、磷、钾对该地区紫花苜蓿生产性能影响顺序为:磷>氮>钾。运用数据包络分析法(DEA)分析出河西荒漠灌区紫花苜蓿的施肥效应为氮、磷、钾平衡施肥的经济效益最优,为DEA有效;不完全施肥的3个评价单元及不施肥评价单元为DEA无效,其中,不施肥经济效益最低,3个不完全施肥评价单元中的缺磷偏肥的紫花苜蓿经济效益比缺氮偏肥和缺钾偏肥更低;另外还以DEA模型推算出不同施肥措施下紫花苜蓿饲草生产经济效益改进的具体方案,其中,不施肥的紫花苜蓿饲草生产需调整的幅度最大,调整额度达10678.88 CNY·hm^-2,各施肥措施需调整的幅度排序为:不施肥>缺磷偏施>缺氮偏施>缺钾偏施。     

自动施肥系统开发与性能测试

目的 开发一种适应于以固态水溶肥为原料的自动施肥系统,测试分析自动施肥系统性能。方法 主控机采用ARM9电路控制模块可实现对轮灌编组、预搅拌时长、施肥开始与结束时间、施肥持续时长、施肥量等参数的设置;选择以蠕动泵为注肥装置,通过变频器控制注肥泵电机功率的方式控制注肥速率,控制施肥量。对装置核心部件搅拌器额定功率、计量方式、溶肥搅拌参数、排肥速度及固液相比例等主要参数等进行设计与测试。结果 电感脉冲计量方式标准误差最大值1.26%,误差小、性价比好,确定其为本装置采用的计量方式;搅拌器以1.5 Kw额定功率、38 r/min转速搅拌、肥液浓度在1.1~1.3 g/mL、预搅拌时间30 min时,罐内各液位输出肥液浓度值差异不显著(P< 0.05),达到对肥料浓度均匀性的设计要求。结论 将施肥开始前的预搅拌时间设为30 min、搅拌转速设为38 r/min、肥液浓度不高于1.3 g/mL,输出肥液浓度有较好的均匀性,实现精准施肥。     

遵义县白菜不同配方施肥效果初探

为指导农户生产,进行了6个不同施肥量比较试验.结果表明：白菜施肥量为清粪水1500kg/667m2,尿素20kg/667m2,普钙50kg/667m2,氯化钾13kg/667m2,单产高,经济效益好,可在遵义县推广.     

施肥对猕猴桃鲜果产量及品质的影响

试验比较5个不同施肥水平对坡地猕猴桃果园鲜果产量及其内在品质的影响.结果表明,随着施肥水平的提高,猕猴桃鲜果的产量也明显提高,配方施肥的增产幅度更为明显.在低施肥水平的条件下,增加施肥对提高猕猴桃鲜果品质有正面的作用;高施肥水平对鲜果品质在总体上没有不良的影响.同时,对施用有机肥和配方施肥的作用进行讨论.     

新型肥料与沼液替代在农业生产中的应用

随着现代农业的发展和农业生产技术的进步，通过探索新型肥料研发与推广、种养循环有机替代、农业生产水肥耦合运筹等新技术新模式，在保障作物稳产增产前提下,实现了减少农业生产投入、降低生产成本、提高生态效益的目标。本文介绍了新型肥料的研发推广和沼液替代化肥研究进展，归纳了新型肥料与沼液替代化肥技术效果，为优化施肥技术的应用提供参考。     

施肥方式对不同密度下玉米光合生理的影响

为进一步研究玉米品种登海605不同密度和施肥方式对光合生理的影响，挖掘其增产潜力，建立高产栽培模式。本试验设计5个密度处理（D1、D2、D3、D4、D5）、3种施肥方式处理（S1：农大缓释肥、S2：分次施肥、S3：一次性施肥），并对不同处理的光合指标、叶面积指数、光合有效辐射、透光率等指标进行测定，结果表明：不同的施肥方式上层、中层、下层光合指标变化规律表现一致，各层次表现为上层>中层>下层，S2>S1>S3，玉米植株上层无论哪种处理都能获得足够的光能和CO2，光合指标相差不大，适宜的密度和施肥方式将获得更多的光能、有效辐射，合成有机物，形成更多的干物质积累，从而提高产量。     

机械化深施肥技术及推广

机械化深施肥技术是作物施肥作业的技术创新,可提高作业效率、肥料利用率和作物产量.但机械化深施肥技术要达到普及推广,还须采取多种措施:加大推广示范和政策扶持力度,加强深施肥技术的农机与农艺配套研究,研究制定机械施肥作业技术标准;农机制造企业要提高产品性能和质量,提高设备使用的可靠性;同时,化肥生产企业也应参与研究,共同开发与深施技术配套的肥料.     

Design and Experiment of Slave Computer Control System for Applying Variable-rate Liquid Fertilizer

In order to increase the applying rate of liquid fertilizer and reduce environmental pollution, a slave computer control system for applying variable-rate liquid fertilizer was designed. The system used SMC as core processor and electrically controlled pressure regulator as execution component. The characteristic equation of the system was obtained by using classical control theory. Results indicated that the characteristic equation met the requirements of routh-criterion, which indicated the working process of the system was stable. Performance of the slave computer was verified via bench tests. Results demonstrated that there was no significant influence on the response from interclass error. The fertilization error was less than 0.9, and the fertilization accuracy was larger than 97%. The liquid fertilizer emitted by the fertilizing devices had no significant difference in uniformity, which met the demands of the slave computer control system for applying variable-rate liquid fertilizer.     

Response of the soil fungal community to multi-factor environmental changes in a temperate forest

Both environmental and climatic changes are known to influence soil microbial biomes in terrestrial ecosystems. However, there are limited data defining the interactive effects of multi-factor environmental disturbances, including N-deposition, precipitation, and air temperature, on soil fungal communities in temperate forests. A 3-year outdoor pot experiment was conducted to examine the temporal shifts of soil fungal communities in a temperate forest following N-addition, precipitation and air temperature changes. The shifts in the structure and composition of soil fungal communities were characterized by denaturing gradient gel electrophoresis and DNA sequencing. N-addition regimen induced significant alterations in the composition of soil fungal communities, and this effect was different at both higher and lower altitudes. The response of the soil fungal community to N-addition was much stronger in precipitation-reduced soils compared to soils experiencing enhanced precipitation. The combined treatment of N-addition and reduced precipitation caused more pronounced changes in the lower altitude versus those in the higher one. Certain fungal species in the subphylum Pezizomycotina and Saccharomycotina distinctively responded to N fertilization and soil water control at both altitudes. Redundancy discrimination analysis showed that changes in environmental factors and soil physicochemical properties explained 43.7% of the total variability in the soil fungal community at this forest ecosystem. Variations in the soil fungal community were significantly related to the altitude, soil temperature, total soil N content (TN) and pH value (P < 0.05). We present evidence for the interactive effects of N-addition, water manipulation and air temperature to reshape soil fungal communities in the temperate forest. Our data could provide new insights into predicting the response of soil micro-ecosystem to climatic changes.