我国主要麦区农户施肥评价及减肥潜力分析

【目的】明确我国主要麦区农户小麦施肥存在的问题及减肥潜力,为科学施肥、合理减肥提供依据。【方法】连续3年对我国主要麦区的小麦种植户进行施肥调研和取样,基于农户产量、养分需求量和土壤养分供应水平对其施肥状况和减肥潜力进行评价和分析。【结果】我国主要麦区农户小麦产量和生物量平均为6.0和13.2 t·hm^-2,二者极显著线性相关。小麦产量与施肥量和土壤养分无显著相关。我国小麦氮(N)、磷(P₂O₅)和钾(K₂O)肥用量平均分别为191.1、112.8和53.4 kg·hm^-2,春麦区农户氮、磷和钾肥用量平均分别为171.7、108.9和10.6 kg·hm^-2,旱作区分别为154.3、111.8和32.6 kg·hm^-2,麦玉区分别为236.4、128.1和74.0 kg·hm^-2,稻麦区分别为177.5、77.0和71.8 kg·hm^-2。就施氮量而言,春麦区过量施氮的农户较少,为34%,其次...     

黄泥田晚稻肥料效应的研究

肥料是作物增产的重要因素。在农田施肥实践中,氮、磷、钾肥最佳用量及合理配比因土壤不同而不同。为此,采用3个因子4、个不同施肥用量水平,展开了黄泥田氮磷钾肥料效应的试验,推荐了最佳施肥用量。     

一株柠条内生解磷菌的分离鉴定及实时荧光定量PCR检测

结合形态观察与16S rDNA序列测定对柠条根系内分离筛选得到的解磷细菌C9进行鉴定,Blast比对结果表明C9为泛菌(Pantoea vagans)。在无机磷液体培养基培养条件下,用钼锑抗比色法研究它的解磷能力。结果表明,随着时间的延长,培养液中速效磷含量逐渐增加到4.45mg/L,溶液pH可降至4.2。进一步利用实时荧光定量 PCR 检测柠条根系中、柠条根际土壤与柠条根围土壤中该细菌存在的相对基因拷贝数,结果发现该基因在3种样品中的数量为:柠条根系>柠条根际土壤>柠条根围土壤,表明泛菌解磷细菌能聚集生长在柠条根系内,随着与根系接触距离的增加而呈逐级递减趋势。     

食品添加剂磷酸氢二铵中砷含量的测定

运用原子荧光光谱法对进出口食品添加剂磷酸氢二铵中砷含量进行了测定,通过线性范围、检出限、精密度、回收率和实验室间比对测试,证明了原子荧光光谱法能快速、准确地检测出进出口食品添加剂中砷的含量。该方法线性关系良好,检出限低,准确度高,重复性和再现性好,可广泛用于进出口食品添加剂中砷含量的检测。     

Tillage, mineralization and leaching: phosphate

Phosphate is usually the limiting nutrient for the formation of algal blooms in freshwater bodies, so tillage practices must minimize phosphate losses by leaching and surface run-off from cultivated land. Mineral soils usually contain 30–70% of their phosphate in organic forms, and both organic and inorganic phosphate are found in the soil solution. Some organic phosphates, notably the inositol phosphates, are as strongly sorbed by soil as inorganic phosphates, and this decreases their susceptibility to mineralization. The strength with which both categories are sorbed lessens the risk of their being leached as solutes but makes it more likely that they will be carried from the soil on colloidal or particulate matter, and the greatest losses of phosphate from the soil usually occur by surface run-off and erosion. Recent studies at Rothamsted have, however, shown substantial concentrations of phosphate in drainage from plots that have long received more phosphate as fertilizer than is removed in crops. These losses probably occurred because preferential water flow carried the phosphate rapidly from the surface soil to the field drains. For lessening losses of phosphate by leaching and run-off, the prime requirement of tillage is that it should encourage flows of water through the soil that help it to retain phosphate. Primary and secondary tillage should ensure that the surface roughness and porosity of the top-soil encourage the flow of water into the soil matrix where it will move relatively slowly and allow phosphate to be sorbed, thereby avoiding problems from run-off and preferential flow. Inversion tillage can be useful for lessening the loss of phosphate by run-off and erosion. Secondary tillage could be used to decrease the size of the aggregates and increase the surface area for sorption. Although tillage will increase the mineralization of organic phosphate, pulses of mineralization are unlikely to be so rapid or to lead to such large losses as with nitrate. The strength with which phosphate is sorbed also lessens the problem. As with nitrate, the key to managing phosphate is basically good husbandry.     

黑土区高效溶磷真菌筛选及其溶解磷矿粉效果的研究

黑土区高效溶P真菌筛选及其溶解磷矿粉效果的试验结果表明 ,溶P真菌溶P效果高于溶P细菌 ,且其溶P性状稳定。曲霉菌“P39”、“P37”和青霉菌“P6 6”、“P1”溶P效果高于其他供试菌 ,菌株之间溶P活性与培养液pH值和有机酸含量间不存在必然相关性 ,推测不同菌株间溶P活性差异与菌株产生的有机酸种类和数量有关     

Utilization of Sparingly Soluble Phosphate by Red Clover in Association with Glomus mosseae and Bacillus megaterium

A pot experiment was conducted to investigate the mobilization of sparingly soluble inorganic and organic sources of phosphorus (P) by red clover (Trifolium pratense L.) whose roots were colonized by the arbuscular mycorrhizal (AM) fungus Glomus mosseae and in association with the phosphate-solubilizing (PS) bacterium Bacillus megaterium ACCC10010. Phosphate-solubilizing bacteria and rock phosphate had a synergistic effect on the colonization of plant roots by the AM fungus. There was a positive interaction between the PS bacterium and the AM fungus in mobilization of rock phosphate, leading to improved plant P nutrition. In dual inoculation with the AM fungus and the PS bacterium, the main contribution to plant P nutrition was made by the AM fungus. Application of P to the low P soil increased phosphatase activity in the rhizosphere. Alkaline phosphatase activity was significantly promoted by inoculation with either the PS bacterium or the AM fungus.     

磷酸二铵作水稻基肥的效果

在水稻上进行不同基肥施用对比试验 ,结果表明 :分别用磷酸二铵 15 0、2 2 5kg/hm2 ,与习惯用碳铵 3 75kg/hm2 +普钙 3 75kg/hm2 作基肥的水稻相比 ,产量分别增加 169.5和 3 15kg/hm2 ,增产 2 .3 %和 4.4% ,达显著水平。用磷酸二铵代替碳铵和普钙作水稻基肥 ,具有省力、增产等优点。     

钙镁磷肥对元胡种植区酸化土壤改良效果的探究

为了探究钙镁磷肥对元胡种植区土壤酸化的阻控作用,通过连续两年的钙镁磷肥田间定位试验,以上元观镇当地元胡种植户施肥习惯为对照(CK),研究分析了在氮、钾肥用量相同的情况下,施用钙、镁、磷肥750 kg/hm~2、1 500 kg/hm~2和2 250 kg/hm~2,对土壤pH、交换性酸、阳离子交换量(CEC)、交换性盐基离子以及土壤基本肥力水平的影响。通过测算投入、产出效益,结果表明：施用钙镁磷肥能显著提升土壤pH水平,较(CK)处理提升0.27～0.31个单位,T100、T150两个处理能显著降低土壤交换性酸总量和交换性氢含量,对降低交换性铝有一定作用。施用钙镁磷肥较(CK)处理能显著提升阳离子交换量(CEC)以及交换性钙和交换性镁,是阻控土壤酸化的主要作用机制。但当施用量达到2 250 kg/hm~2时,种植元胡的新增纯收益会有所下降,伴随产生土壤中磷素过量的问题,会有造成磷素流失产生农业面源污染的风险。因此在汉中元胡种植区土壤酸化改良中推荐钙镁磷肥施用量750～1 500 kg/hm~2。     

Phosphate Solubilizing Ability and Phylogenetic Diversity of Bacteria from P-Rich Soils Around Dianchi Lake Drainage Area of China

The phylogenetic diversity of phosphate solubilizing bacteria(PSB)distributed in P-rich soils in the Dianchi Lake drainage area of China was characterized,and the tricalcium phosphate(TCP)solubilizing activities of isolated PSB were determined.Among 1 328 bacteria isolated from 100 P-rich soil samples,377 isolates(28.39%of the total)that exhibited TCP solubilization activity were taken as PSB.These PSB showed different abilities to solubilize TCP,with the concentrations of solubilized P in bacterial cultures varying from 33.48 to 69.63 mg L^-1.A total of 123 PSB isolates,with relatively high TCP solubilization activity(>54.00 mg L^-1),were submitted for restriction fragment length polymorphism(RFLP)analysis,which revealed 32 unique RFLP patterns.Based on these patterns,62 representative isolates,one to three from each RFLP pattern,were seffected for 16S rRNA sequencing.Phylogenetic analysis placed the 123 PSB into three bacterial phyla,namely Proteobacteria,Actinobacteria and Firmicutes.Members of Proteobacteria were the dominant PSB,where 107 isolates represented by 26 RFLP patterns were associated with the genera of Burkholderia,Pseudomonas,Acinetobacter,Enterobacter,Pantoea,Serratia,Klebsiella,Leclercia,Raoultella and Cedecea.Firmicutes were the subdominant group,in which 13 isolates were affiliated with the genera of Bacillus and Brevibacterium.The remaining 3 isolates were identified as three species of the genus Arthrobacter.This research extends the knowledge on PSB in P-rich soils and broadens the spectrum of PSB for the development of environmentally friendly biophosphate fertilizers.