北方夏玉米滴灌施肥一体化技术应用效果

为有效提高夏玉米水肥利用效率,通过田间试验对滴灌施肥一体化高效调控与利用技术进行系统的探究。结果表明,与常规漫灌(T1)相比,采用滴灌施肥一体化技术(T2和T3)可显著提高夏玉米大喇叭口期至灌浆期的叶面积指数;显著促进吐丝期至成熟期的干物质积累;在产量构成因素方面显著增加穗粗和穗粒数,并在一定程度上降低玉米穗的秃顶长度,进而显著提高夏玉米的产量。与T1相比,T2和T3增产5.32%~6.13%;水分利用效率提高36.10%~39.42%;氮、磷、钾肥利用率分别提高37.56%~35.29%、23.09%~30.30%、106.21%~121.51%。此外,采用滴灌施肥一体化技术可显著提高夏玉米生产经济效益。与T1相比,T2和T3可有效降低投产比,收益率平均提高4.71个百分点。在化肥用量较常规灌溉模式减少20%条件下,采用滴灌施肥一体化技术既能显著提高夏玉米产量,又能提高经济效益,是适宜在潮土区推广的一种高效节本增收的灌溉模式。     

缓释肥侧位深施及用量对油菜产量和肥料利用率的影响

为明确红壤稻田直播油菜缓释肥（N-P2O5-K2O:25-7-8）侧位深施效果及适宜用量，该研究连续2 a在两熟制和三熟制2种种植模式下开展缓释肥侧位深施效果对比试验（设置不施肥、土表撒施和侧位深施3个施肥方式）和施用量试验（设置0、300、450、600、750和900 kg/hm2 共6个施肥水平），研究缓释肥侧位深施及不同用量对油菜产量形成和肥料利用率的影响。结果表明，施肥方式对红壤稻田油菜产量形成和肥料利用率均有显著影响，且对两熟制油菜影响更为显著。相比传统土表撒施，侧位深施显著促进了油菜产量和肥料利用率的提高。缓释肥侧位深施明显提高了各时期油菜干物质量，尤其是显著增加了初花期至成熟期的干物质积累量，促进了花后根部与地上部干物质同步增长；促进了根系对N、P、K的吸收，提高了油菜产量和肥料利用率。菜籽产量与缓释肥用量呈线性加平台关系，适宜施肥量可保证较大的收获密度，并协同产生较多的每株角果数和每角粒数，从而提高籽粒产量、肥料利用率和经济效益。两熟制和三熟制油菜缓释肥侧位深施的适宜用量分别为715和585 kg/hm2，产量潜力可分别达2 450和1 700 kg/hm2。研究表明，侧位深施适量缓释肥可显著提高红壤稻田直播油菜生产力，建议结合机械化种植因地制宜推广应用。     

长期施肥下黄土旱塬黑垆土磷平衡及农学阈值

为研究长期施肥条件下土壤磷平衡和土壤有效磷对磷盈亏的响应,明确土壤有效磷(Olsen-P)的农学阈值及合理磷肥施用量,依托甘肃平凉肥料长期定位试验(始于1979),分析了黄土旱塬黑垆土36 a土壤磷盈亏动态、累积磷盈亏与有效磷的响应关系以及土壤磷残余,通过Mitscherlich方程模拟作物相对产量对土壤有效磷的响应关系,计算黄土旱塬黑垆土小麦和玉米的土壤有效磷农学阈值。结果表明:不施肥(CK)和单施氮肥(N)处理土壤磷始终亏缺,N处理每亏缺磷100 kg·hm~(-2),有效磷含量下降1.05 mg·kg~(-1);施磷处理土壤磷当季盈余4.3～207.9 kg·hm~(-2),累积盈余154.9～7 483.6 kg·hm~(-2),其中有机、无机配施(MNP)处理磷盈余最大;土壤累积磷盈余与土壤有效磷增量呈线性正相关,土壤中每盈余100 kg·hm~(-2)磷,秸秆还田配施化肥(SNP,磷肥隔年施)、氮磷配施(NP)、有机肥(M)和有机、无机配施(MNP)处理土壤有效磷分别增加7.55、2.47、0.28 mg·kg~(-1)和0.46 mg·kg~(-1);黄土旱塬黑垆土农田有效磷的小麦和玉米农学阈值分别为22.05 mg·kg~(-1)和13.96 mg·kg~(-1),MNP处理土壤有效磷含量已高于作物农学阈值,NP和SNP处理土壤有效磷含量达到小麦农学阈值分别需要21 a和24 a,达到玉米农学阈值分别需要2 a和8 a,M处理土壤有效磷含量已高于玉米农学阈值,还需要3 a可达到小麦农学阈值。当磷投入量每年平均达22.9 kg·hm~(-2)时,土壤磷呈持平状态;当磷用量达33 kg·hm~(-2)时,不仅作物产量较高,而且磷肥当季利用率也较高;当磷用量增加到233 kg·hm~(-2)时,作物产量对增加磷投入无响应,土壤磷残余超过90%,大量磷素累积在土壤中,增加了土壤磷素的流失风险。黄土旱塬小麦玉米一年一熟轮作黑垆土农田土壤有效磷农学阈值为13.96 mg·kg~(-1)(玉米)和22.05 mg·kg~(-1)(小麦),秸秆还田可促进旱地农田耕层土壤有效磷含量的增加。     

Dense planting with less basal nitrogen fertilization might benefit rice cropping for high yield with less environmental impacts

Dense planting and less basal nitrogen (N) fertilization have been recommended to further increase rice (Oryza sativa L.) grain yield and N use efficiency (NUE), respectively. The objective of this study was to evaluate the integrative impacts of dense planting with reduced basal N application (DR) on rice yield, NUE and greenhouse gas (GHG) emissions. Field experiments with one conventional sparse planting (CK) and four treatments of dense planting (increased seedlings per hill) with less basal N application were conducted in northeast China from 2012 to 2013. In addition, a two-factor experiment was conducted to isolate the effect of planting density and basal N rate on CH₄ emission in 2013. Our results show that an increase in planting density by about 50% with a correspondingly reduction in basal N rate by about 30% (DR1 and DR2) enhanced NUE by 14.3–50.6% and rice grain yield by 0.5–7.4% over CK. Meanwhile, DR1 and DR2 reduced GWP by 6.4–12.6% and yield-scaled GWP by 7.0–17.0% over CK. According to the two-factor experiment, soil CH₄ production and oxidation and CH₄ emission were not affected by planting density. However, reduced basal N rate decreased CH₄ emission due to it significantly reduced soil CH₄ production with a smaller reduction in soil CH₄ oxidation. The above results indicate that moderate dense planting with less basal N application might be an environment friendly mode for rice cropping for high yield and NUE with less GHG emissions.     

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.     

Long-term fertilization effects on active ammonia oxidizers in an acidic upland soil in China

The effects of long-term fertilization of acidic soils on ammonia-oxidizing archaea (AOA) and bacteria (AOB) communities and its ecological implications remain poorly understood. We chose an acidic upland soil site under long-term (27-year) fertilization to investigate ammonia oxidizer communities under four different regimes: mineral N fertilizer (N), mineral NPK fertilizer (NPK), organic manure (OM) and an unfertilized control (CK). Soil net nitrification rates were significantly higher in OM soils than in CK, N or NPK soils. Quantitative analysis of the distribution of amoA genes by DNA-based stable isotope probing revealed that AOA dominate in CK, N and NPK soils, while AOB dominate in OM soils. Denaturing gradient gel electrophoresis and clone library analyses of amoA genes revealed that Group 1.1a-associated AOA (also referred to as Nitrosotalea) were the most dominant active AOA population (>92%), while Nitrosospira Cluster 3 and Cluster 9 were predominant among active AOB communities. The functional diversity of active ammonia oxidizers in acidic soils is affected by long-term fertilization practices, and the responses of active ammonia oxidizers to mineral fertilizer and organic manure are clearly different. Our results provide strong evidence that AOA are more highly adapted to growth at low pH and low substrate availability than AOB, and they suggest that the niche differentiation and metabolic diversity of ammonia oxidizers in acidic soils are more complex than previously thought.     

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.     

肥水措施对小麦穗部性状抗低温冷害的影响

研究了水肥调控下小麦拔节后低温冷害对其穗部性状的影响。结果表明,灌2水(越冬水、拔节水)和灌1水(越冬水)比不灌水平均穗粒数分别增加25.81%和19.89%;施用专用有机肥比不施平均穗粒数增加6.53%。     

风砂土白萝卜3414肥料试验

从2010 ～2012年连续3年开展30项白萝卜3414田间肥效试验,结果表明：在试验条件下,白萝卜每667 m2最佳经济施肥量N、P2O5、K2O分别为9.50 kg、3.55 kg和15.94 kg,N：P2O5∶ K2O为1∶0.37∶1.68.     

春花生超高产栽培技术模式研究与应用

采取正交旋转回归设计,以播种期、种植密度、施肥量为试验因子,以9000kg/hm2为产量目标函数,进行春花生超高产栽培模式集成研究。结果表明,在鲁西南平原地区,超高产春花生以种植密度和N、P、K施肥量为主要限制因素,播种期为次要限制因素。明确了春花生单产达到9000kg/hm2以上的最佳种植密度、播种期和合理的N、P2O5、K2O施用量为主要指标的栽培技术模式,增产效果显著。