Effect of Reducing Application of Chemical Fertilizers and Chemical Pesticides on Physiological Traits,Yield and Quality of Radish

This paper studied the effect of reducing application of chemical fertilizer,increasing application of functional organic fertilizer and trace elements and fully using biological pesticides on physiological traits,yield and quality of radish. The results showed that applying functional organic fertilizer and trace elements and fully using biological pesticides could help to significantly improve the radish fleshy root yield,increase soluble sugar and vitamin C content,reduce crude fiber and nitrate content,but had no significant influence on radish moisture content,glucosinolates and chlorpyrifos content in organophosphorus pesticides.

Effect of Fertilization on the Dynamics and Activity of Iron-Reducing Bacterial Populations in a West African Rice Paddy Soil Planted with Two Rice Varieties: Case Study of Kou Valley in Burkina Faso

Iron toxicity is a major stress to rice caused by a high concentration of reduced iron, in the soil in many lowlands worldwide. To reduce iron toxicity in the West African lowlands, an investigation was performed at the site of the University of Ouagadougou, in pots containing an iron toxic soil from the Kou Valley (West of Burkina Faso). The experiment objective was to study the effect of mineral fertilizer on Iron Reducing Bacteria (IRB) dynamics and activity during rice cultivation, iron accumulation in rice plant and rice biomass yield under iron toxicity conditions. BOUAKE-189 and ROK-5 rice varieties, sensitive and tolerant to iron toxicity, respectively, were used for the experiment. The pots were amended with chemical fertilizers (NPK + Urea and NPK + Urea + Ca + Mg + Zn complex). Control pots without fertilization were prepared similarly. The kinetics of IRB and ferrous iron content in soil near rice roots were monitored throughout the cultural cycle using MPN and colorimetric methods, respectively. The total iron content was evaluated in rice plant using spectrometric method. Data obtained were analyzed in relation to fertilization mode, rice growth stage and rice yield using the student’s t-test and XLSTAT 2014 statistical software. The experiment revealed that NPK + Urea and NPK + Urea + Ca + Mg + Zn fertilization, decreased significantly (p < 0.0001) the number of IRB in the soil for BOUAKE-189 rice varieties. In most pots, highest IRB densities and ferrous iron content in soil were recorded from rice tillering and flowering to maturity stages, indicating that rice plants promoted microbial processes and iron reduction in soil. From the study, the NPK + Urea amendment decreased significantly ferrous iron content (p < 0.0001) in soil near BOUAKE-189 and ROK-5 rice varieties roots relatively to control pots. However, NPK + Urea + Ca + Zn + Mg amendment increased significantly ferrous iron content (p < 0.0001) in the soil near roots, Fe accumulation in plant biomass and rice yield for the two rice varieties.

Effects of Substitution of Organic Manure for Chemical Fertilizer on Phosphorus Accumulation and Grain Yield in Maize

In order to explore the response of maize phosphorus absorption to the appropriate proportion of organic fertilizer substitution for reduced chemical fertilizer,a field experiment with eight treatments was conducted in 2018.The eight treatments in the trial were:(1)CK;(2)M0+F;(3)M1+F1;(4)M1+F2;(5)M2+F1;(6)M2+F2;(7)M3+F1 and(8)M3+F2.In these treatments,M0,M1,M2 and M3 were organic fertilization of 0,15(low),30(medium)and 45(high)m3•hm-2,respectively.F1 and F2 indicated 20%and 40%reduction of conventional chemical fertilization.The soil nutrient content,phosphorus accumulation,dry weight,yield and yield components of maize were analyzed.The results showed that the phosphorus accumulation of maize stalks and leaves were 3.30%-43.17%and 10.98%-84.95%higher in M3+F1 treatment(20%reduction of chemical fertilizer with organic fertilizer of 45 m3•hm-2)than those in the conventional treatment(M0+F)during the maize reproductive period.At R2 stage,stalk and shoot P accumulation of M3+F1 treatment were 24.67%-43.18%and 20.34%-25.19%higher than other treatments,respectively.At V12 stage,leaf P accumulation of M3+F1 increased by 84.95%compared with other treatments.The maize yield of M3+F1 was significantly higher than that of other treatments,even though the partial productivity of the total phosphorus fertilizer of M3+F2 was the highest in the treatments.It could be found that the substitution of organic fertilizer for chemical fertilizer improved crop yield,phosphorus fertilizer efficiency and accumulation.M3+F1 treatment had the most positive effects on improving maize phosphorus accumulation and yield.

Modelling the Relationship Between Summer Maize NPK Uptake and Yield on the Basis of Soil Fertility Indices

Quantitative estimation of fertilizer requirements can help to increase maize （Zea mays L.） yields and improve the fertilizer use efficiency. The model for the Quantitative Evaluation of the Fertility of Tropical Soils （QUEFTS） was calibrated for maize by use of soil fertility data and fertilizer trials at different sites of the Huang Huai Hai river plain in China. The QUEFTS model accounts for interactions between nitrogen （N）, phosphorus （P） and potassium （K）. It describes the effects of soil characteristics on maize yields in four steps： （1） assessment of the potential supply of N, P and K based on soil chemical data; （2） calculation of the actual uptake of N, P and K, in function of the potential supply as determined in step 1 ; （3） draft the yield ranges as a function of the actual uptake of N, P and K as determined in step 2; （4） calculation of the maize yield based on the three yield ranges established in step 3. Data of field experiments with different fertilization treatments of various regions in China during the years of 1985 to 1995 were used to calibrate the QUEFTS model for summer maize. In step 1 the N, P and K recovered from their amount applied were described by new equations. The minimum and maximum accumulated N, P and K （kg grain kg^-1） in summer maize were determined as （21-64）, （126-384） and （20-90）, respectively. The simulated yields were in good agreement with the observed ones. It was concluded that the calibrated and adjusted QUEFTS model could be useful to improve fertilizer recommendations for maize in the Huang Huai Hai plain of China.

Application of Aisi Si/TE Compound Bacterial Fertilizer in Rice

[Objectives]To investigate the application effect of compound microbial fertilizer on crops.[Methods]Livestock and poultry breeding waste,rapeseed cake and peanut straw were fully decomposed,and then added with compound functional microbial inoculum to produce Aisi Si/TE(active chelated silicon/trace element)compound microbial fertilizer,which was used to conduct 10%nitrogen reduction alternative fertilization experiment on rice.[Results]The yield of rice applied with 225 kg/ha Aisi Si/TE compound bacterial fertilizer was 7203 kg/ha,increased by 5.4%,6.9%and 46.9%,respectively compared to those of rice applied with 225 kg/ha inactivated Aisi Si/TE compound microbial fertilizer,conventional fertilization and blank control(P<0.01).Application of Aisi Si/TE compound microbial fertilizer to rice improved soil organic matter and effective nutrient content and showed obvious effect of saving nitrogen and increasing yield and income.In addition,it provided a good micro-ecological environment,passivated and solidified heavy metals,effectively reduced the biological mobility of heavy metals,and greatly reduced the cadmium content in rice.[Conclusions]Application of Aisi Si/TE compound microbial fertilizer is beneficial to improving the quality of agricultural products.

Effect of Combined Application of Subsurface Drainage and Mineral Fertilization on Iron-Reducing Bacterial Populations’ Developments and Fe2+ Uptake by Two Rice Varieties in an Iron Toxic Paddy Soil of Burkina Faso (West Africa)

Rice is one of the staple crops in Burkina Faso. However, the local production covers only 47% of the population demands. One of the main reasons of the poor productivity in Burkina Faso is iron toxicity which is related mainly to the activity of Iron Reducing Bacteria in the rice field’s ecosystems. In order to control the harmful effects of Iron Reducing Bacterial populations and to improve rice productivity, a pots experiment was conducted at the experimental site of the University Ouaga I Pr. Joseph KI-ZERBO. An iron toxic soil from Kou Valley (West of Burkina Faso) and two rice varieties, BOUAKE-189 and ROK-5, sensitive and tolerant to iron toxicity, respectively, were used for the experiment. The pots were drained for 14 days (D2) and amended with chemical fertilizers (NPK + Urea and NPK + Urea + Ca + Mg + Zn complexes). Control pots without drainage and fertilization (D0/NF) were prepared similarly. The kinetics of Iron Reducing Bacterial populations and ferrous iron content in soil near rice roots were monitored throughout the cultural cycle using MPN and colorimetric methods, respectively. The total iron content was evaluated in rice plant using a spectrometric method. Data obtained were analyzed in relation to drainage and fertilization mode, rice growth stage and rice yield using the Student’s t-test and XLSTAT 2014 statistical software. The experiment showed that the combined application of subsurface drainage and NPK + Urea + Ca + Mg + Zn fertilization, reduced significantly the number of IRB in the soil near rice roots for both rice varieties (p = 0.050 and p = 0.020) increased the leaf tissue tolerance to excess amounts of Fe, and rice yield.

Effects of Reduced Nitrogen Fertilization and Biochar Application on CO_2 and N_2O Emissions from a Summer Maize-Winter Wheat Rotation Field in North China

This experiment was conducted in Xinxiang, Henan from June 2013 to June 2014. Total four treatments were designed including farmers ’ common practice （F, 250 kg/hm^2）, 80% F （LF, 200 kg/hm^2）, 80% F＋biochar （LFC） and no fertilizer （CK） to measure the dynamic emissions of CO2 and N2O from a summer maize-winter wheat field by static chamber-gas chromatography method. The results showed that the soil CO2 emission was 21.8-1 022.7 mg/（m^2·h）, and was mainly influenced by soil temperature and moisture content. During the growth of summer maize, the soil CO2 emission was more significantly affected by soil moisture con-tent; and in winter wheat growing season, it was more significantly affected by soil temperature in the top 5 cm. The LF and LFC treatments significantly reduced the soil cumulative CO2 emission, especial y during the growth of winter wheat. Fertiliza-tion and irrigation were the main factors influencing the soil N2O emission. The soil N2O emission during the fertilization period accounted for 73.9%-74.5% and 40.5%-43.6% of the soil cumulative N2O emission during the summer maize-and winter wheat-growing season, respectively. The peak of emission fluxes was determined by fertilization amount, while the occurrence time of emission peak and emission re-duction effect were influenced by irrigation. The LF treatment reduced the soil cu-mulative N2O emission by 15.7%-16.8% and 18.1%-18.5% during the growth period of summer maize and winter wheat, respectively. Reduced nitrogen fertilization is an effective way for reducing N2O emission in intensive high-yielding farmland. Under a suitable nitrogen level （200 kg/hm^2）, the application of biochar showed no significant effect on the soil N2O emission in a short term. The N2O emission factors of the L and LF treatments were 0.60% and 0.56%, respectively. ln the intensive high-yield-ing farmland of North China, reducing the nitrogen application amount is an appro-priate measure to mitigate greenhouse gas emissions without crop yield loss.

Impact of Silicon,Zinc,Boron Combined with Reduced Nitrogen Fertilization on Rice Growth

Under the condition of reduced application of nitrogen fertilizer, the impact of silicor）, zinc and boron on rice growth was investigated by field experiment. The results showed that when the application amount of nitrogen fertilizer was reduced by 20%, the application of silicon, zinc and boron did not reduce the yield of rice, but reduced the incidence of panicle blast in rice and optimized the structure of rice production.

Application of Chinese milk vetch affects rice yield and soil productivity in a subtropical double-rice cropping system

Green manure can be used as a substitute for chemical fertilizer without reducing rice yield.We studied the responses of soil fertility and rice yield to different combinations of Chinese milk vetch(CMV;Astragalus sinicus L.)and chemical fertilizer in a subtropical double-rice cropping system.Our goal is to reduce chemical fertilizer use and decrease environmental contamination.Compared with the recommended rate of chemical fertilizer(CF),both early-and late-rice yields in the two treatments supplied with 15 and 22.5 Mg CMV ha^-1 plus 60%CF(represented as 60 A and 60 B,respectively)showed no significant differences while the two treatments supplied with 30 and 37.5 Mg CMV ha^-1 plus 60%CF(represented as 60 C and 60 D,respectively)showed significantly higher values.The sustainable yield index(SYI)values in the 60 C and 60 D treatments with double-rice croppong system were significantly higher than those in other treatments(P<0.05).Early-rice yield showed a significant positive relationship with the Chinese milk vetch incorporation rate.The coefficients increased annually from 2009 to 2013 and then decreased in 2014.Soil organic matter increased over time by the end of the experiment in all of the treatment groups.Soil organic matter in 60 A,60 B and 60 C showed no significant difference compared with that in CF,while soil organic matter in 60 D was significantly higher than that in CF.The slopes of soil organic matter and total nitrogen over six years were the highest in 60 C and 60 D.The soil total nitrogen content in 60 A,60 B,60 C and 60 D was higher than that in CF,but the differences were not significant(P>0.05).Therefore,a relatively high Chinese milk vetch incorporation rate(≥30 Mg ha^-1)was more effective in improving the productivity and sustainability of paddy soil.The decreased coefficients of early-rice yield and the Chinese milk vetch incorporation rate in 2014 implied that the benefits of soil fertility and rice yield created by Chinese milk vetch input may decline after five years under a continuously high rate of Chinese milk vetch incorporation.

Extensive Application of RE in Agriculture

Since the extension of the techniquefor applying RE to crops,various RE-con-taining fertilizer have been produced,and applied to agriculture in many pro-vinces and autonomous regions with greatachievements.In Jiangsu Province,the application ofa highly effective composite fertilizercontaining RE to about 134000 hectare oftea,watermelon,cotton,soybean,wheatand many other crops gave an increase

主路式水肥一体机施肥系统的设计与试验

针对现阶段水肥一体化设备存在施肥不均、自动化程度不高及滞后性严重的问题,根据现代化农业节水省肥和减少环境污染的灌溉要求,设计了一款可实现自动混肥、施肥、节水灌溉的主路式水肥一体化施肥机。根据液肥的EC和pH值调节过程的特点,开发了以SIEMENS S7-1200为核心的液肥控制系统硬件,并结合MatLab设计了以模糊PID为控制器的液肥EC和pH值控制系统。为验证施肥机在实际应用中的精确性和鲁棒性,设计了施肥系统动态调节性能试验,结果表明:在施肥阶段,模糊PID控制系统具有较短的稳态时间和较小的超调量,相比于PID控制系统,对EC和pH值进行调节的稳态时间分别减少了37.7%和52.1%,稳态超调量分别降低了1.2%和2.2%,可实现对混肥溶液进行迅速有效的调节,满足现代农业实际生产需要。

氮磷配施和化肥减施对小麦生长、养分利用及产量性状的影响

为明确氮磷配施和化肥减施对小麦生长、养分利用及产量性状的影响,以8个晋南主栽品种为材料,于2019—2021年开展水培和大田定位试验,水培试验设置4个氮磷水平(N 0.2 mmol·L^(-1)+P 0.1 mmol·L^(-1)、N 0.2 mmol·L^(-1)+P 2.5 mmol·L^(-1)、N 4 mmol·L^(-1)+P 0.1 mmol·L^(-1)、N 4 mmol·L^(-1)+P 2.5 mmol·L^(-1)),对不同小麦品种苗期性状进行初步考察筛选;大田试验设置常规施肥(CF)、化肥减施(FR)和不施肥(CK)3个处理,研究不同年型下化肥减施对小麦生长发育、养分利用及产量的影响。结果表明,水培条件下,不同氮磷水平品育8161株高、根长、植株干重、根干重及根冠比均最低;良星67在低磷时正常氮较低氮植株干重增幅仅为17.07%,根干重反而降低,且在正常氮磷时根冠比较低。大田生产条件下,2019—2020年度(丰水年)化肥减施处理下以品育8012、济麦22产量较高,二者差异不显著,邯农1412产量最低,仅为7520.18 kg·hm^(-2)。其中,山农20、中麦4072和邯农1412产量均表现为化肥减施显著低于常规施肥。2020—2021年度(干旱年)化肥减施处理下济麦22产量为6191.53 kg·hm^(-2),显著高于品育8012和石农086,其籽粒氮素积累量和磷素吸收效率均最高,分别为130.35 kg·hm^(-2)和0.79 kg·kg^(-1)。干旱年减施化肥导致小麦生育后期叶片早衰,显著降低成熟期干物质积累,但对茎秆形态特征影响较小。综上,晋南小麦-玉米轮作区小麦生育期基施纯N 180.0 kg·hm^(-2)、P_(2)O_(5)105.0 kg·hm^(-2)、K_(2)O34.5 kg·hm^(-2),拔节期追施纯N 60.0 kg·hm^(-2)时,丰水年品育8012和济麦22产量较高,干旱年济麦22产量最高,且化肥减施有利于提高济麦22开花前营养器官干物质贮藏再转运量及其对籽粒的贡献率和第3节间厚度。单纯的连年化肥减施在干旱年份会导致小麦产量的稳定性和可持续性降低。本研究结果为晋南麦区小麦稳产高效栽培提供了技术参考。

党参化肥农药减施增效栽培技术规程

化肥农药减施增效可助力党参产业绿色健康发展。为更好地指导甘肃省党参种植生产中化肥和农药施用,针对党参种植生产中化肥农药过量施用、养分利用率低、防控过度依赖化学农药等问题,经过多年试验研究和生产示范,从范围、规范性引用文件、术语和定义、产地环境、化肥减施、种苗移栽、田间管理、主要病虫害防控、采收等方面总结提出了党参化肥农药减施增效栽培技术规程。

水溶肥替代及减量对朝天椒产量、品质和土壤养分残留的影响

为探究适于朝天椒生产的水溶肥最佳施用方式,通过田间试验研究水溶肥替代常规化肥及减量对朝天椒产量、品质及土壤养分残留的影响,共设置7个处理:CK(常规化肥)、T1(100%替代)、T2(T1减量20%,100%替代)、T3(T1减量40%,100%替代)、T4(50%替代)、T5(T4减量20%,50%替代)、T6(T4减量40%,50%替代)。结果表明,与CK相比,T1和T4处理产量分别提高21.09%和26.92%,品质提高;减量20%条件下,T2和T5处理产量分别提高14.28%和15.23%,品质提高;减量40%条件下,T3和T6处理产量分别提高7.41%和4.29%,品质提高,土壤养分残留量降低。综合考虑朝天椒的产量、品质及环境效益,水溶肥50%替代优于100%替代,替代后减量20%~40%在生产上是可行的。T5处理是生产上适宜推广的最佳施用方式。

不同减肥处理对辽宁滨海地区稻米品质的影响

研究减肥处理对水稻稻米品质的影响,以32份水稻新品种(品系)为试验材料,设置完全不施用化肥(F1)、当地生产田施用化肥量的60%(F2)、当地生产田施用化肥量的80%(F3)和当地生产田施用水平施用化肥量(F4)4个施肥处理。研究结果显示,不同处理方式对食味品质产生了显著影响,特别是F1处理显示出明显优势。进一步分析表明,食味值与产量和糙米率呈现极显著的负相关,而与米粒长宽比呈现极显著的正相关;直链淀粉含量与产量、糙米率之间存在极显著的正相关性;蛋白质含量与产量、精米率以及整精米率之间呈现极显著的正相关关系。

露地油豆角化肥农药减施增效技术

从农药、化肥减施增效方面介绍了露地油豆角的栽培技术,该技术相较以往传统的露地油豆角种植方式,化肥施用量平均减少32.91%,农药平均喷施次数减少2.2次,油豆角667 m^(2)平均纯利润增加575元,该技术为露地油豆角绿色生产提供参考依据。

不同有机肥与配方肥配施对当归产量及品质的影响

为确定当归成药期适宜的商品有机肥及合理的当归专用配方肥施用量。本研究采用随机区组试验设计,研究不同有机质源有机肥与当归专用配方肥,配施下当归成药期根部形态、药材产量及指标性成分阿魏酸和挥发油等的变化。结果表明,羊粪源、鸡粪源、牛粪源3种商品有机肥均对当归商品性状无显著差异。羊粪源有机肥1800kg/hm~2与配方肥1050kg/hm~2配合施用,当归药材主根长、根粗和单根鲜重及药材产量均最大;等量有机肥施用条件下,药材浸出物和阿魏酸含量依次为羊粪源有机肥>鸡粪源有机肥>牛粪源有机肥,而鸡粪源有机肥挥发油含量最高,羊粪源有机肥则是随着施入量的增加,药材浸出物、阿魏酸和挥发油含量呈增加趋势。综上所述,当归成药期施肥采用羊粪源有机肥1800 kg/hm~2和专用配方肥1050 kg/hm~2配合施用,可有效提高当归产量并保证其品质。

等氮条件下不同有机无机肥配施对甘薯田土壤大型动物分布和群落的影响

为了考察等氮条件下有机肥配施无机肥对甘薯田土壤大型动物分布和群落的影响,在甘薯生长过程中设置了猪粪有机肥、羊粪有机肥、菌渣有机肥和易腐垃圾有机肥4种有机肥与化肥配施处理,以单施化肥和不施肥为对照,各处理纯氮用量均为150.00 kg/hm^(2),考察了不同施肥处理下土壤的含水率及pH的变化情况,并进行了土壤大型动物在土壤中的分布情况调查和多样性分析。在土壤中捕获到膜翅目(Hymenoptera)、弹尾目(Collembola)、蜘蛛目(Araneae)、双翅目(Diptera)、鞘翅目(Coleoptera)、半翅目(Hemiptera)、直翅目(Orthoptera)、鳞翅目(Lepidoptera)、隐翅目(Staphylinidae)、寡毛目(Oligochaeta)10个类群的大型动物。各不同肥料处理土壤大型动物中膜翅目为优势类群。在样地0~5 cm的表层土壤大型动物最多。土壤大型动物多样性分析结果表明,猪粪有机肥与化肥配施处理的Shannon-Wiener多样性指数为2.138,在所有处理中最高,比不施肥对照高60.51%,比单施化肥对照高12.23%,其类群数与个体数也最高。4种有机肥多样性指数都比不施肥对照高,有机肥料的施用可提高生物多样性,有利于农业生态的可持续发展。

覆膜和施化肥对土壤有机碳含量及玉米、大豆产量的影响

以贵州安顺大田试验为依托,设置4个处理:不覆膜不施肥(non-F+CK)、不覆膜施肥(non-F+NP)、覆膜不施肥(F+CK)和覆膜施肥(F+NP),探究覆膜和施肥对土壤有机碳和玉米、大豆产量的影响,为贵州农田土壤固碳培肥和作物产量提升提供理论依据。结果表明:覆膜或施肥对土壤有机碳(SOC)影响不显著;施肥和不施肥条件下覆膜后土壤微生物生物量碳(MBC)含量分别降低了9.1%和10.2%,施肥使土壤MBC显著增加了8.2%~32.5%;施肥对土壤全氮(TN)的增加幅度在2.9%~76.5%之间,施肥和不施肥条件下覆膜处理的TN分别降低了11.4%(P<0.05)和4.4%;与non-F+NP相比,F+NP处理玉米大豆分别增产10.4%和28.6%;SOC与土壤MBC和TN呈正相关,MBC与TN呈显著正相关关系,与C/N呈负相关,玉米和大豆产量均与MBC呈显著正相关。综上,覆膜不利于SOC和MBC含量的增加,施肥则相反,将覆膜与施肥相结合可增加玉米和大豆产量。