有机肥对旱地红壤供磷效应的研究

研究了施用有机肥对土壤磷形态的影响 ,分析了不同有机肥施用量下土壤各种磷组分变化。结果表明 ,施用有机肥能显著增加旱地红壤的速效磷含量。有机肥对土壤速效磷的影响随其 C/P比不同而不同。有机肥能提高土壤中等活性有机磷的含量。中等活性有机磷是土壤速效磷主要的有机磷源。施用有机肥 ,能增加土壤磷的供应和贮备 ,并能增加作物的吸磷量及产量     

有机肥对旱地红壤供磷效应的研究

研究了施用有机肥对土壤磷形态的影响，分析了不同有机肥施用量下土壤各种磷组分变化。结果表明，施用有机肥能显著增加旱地红壤的速效磷含量。有机肥对土壤速效磷的影响随其C／P比不同而不同。有机肥能提高土壤中等活性有机磷的含量。中等活性有机磷是土壤速效磷主要的有机磷源。施用有机肥，能增加土壤磷的供应和贮备，并能增加作物的吸磷量及产量。     

畜禽粪便中磷释放运移特征

随着畜禽粪便农田施用量的增加,畜禽粪便中磷流失也越来越引起人们的重视。采用取样分析和室内土柱模拟的方法,研究了猪粪和鸡粪中磷在水、0.5mol·L^-1NaHCO3和土体中的释放运移特点。结果表明,猪粪经H2O和NaHCO3连续提取后,H2O提取液中无机磷（P）i占猪粪全磷（TP）的21.58%,NaHCO3提取液中Pi占猪粪TP的28.92%;鸡粪经H2O和NaHCO3连续提取后,H2O提取液中Pi占鸡粪TP的18.09%,NaHCO3提取液中Pi占鸡粪TP的17.88%;施用猪粪和鸡粪处理土柱淋溶液中水溶性总磷（TDP）、水溶性无机磷（DRP）和水溶性有机磷（DOP）浓度均随着淋溶次数的增加呈先上升后降低的趋势,施用猪粪处理磷释放速率比施用鸡粪处理快;大量施用猪粪和鸡粪后,0～30cm土体中土壤全磷（TP）和0～60cm土体中土壤速效磷（Olsen-P）的含量显著增加。     

我国南方地区典型红壤有效磷测定方法研究

通过油菜和水稻的盆栽试验,研究不同耕作方式下红壤有效磷的测定方法。结果表明:不同方法测得的土壤有效磷值差异较大,其中以Olsen法测定的有效磷值最小,各方法测得的土壤有效磷值之间均达到极显著的相关水平;各方法测得的有效磷值与作物吸磷量和生物量的相关性在旱地土壤上均达到极显著水平,在水田土壤上达到显著水平;其中以Bray I法测定的值与作物吸磷量及生长相关性最好,建议将Bray I法作为南方酸性土壤的有效磷测定方法。     

有机肥对磷的吸附-解吸的影响及在红壤发育成的水稻土上的有效性

A field test with the traditional rotation of paddy rice/upland crop (wheat) was carried out on a paddy soil derived from red earth to elucidate the effect of organic manure on the phosphorus adsorption-desorption by soil and its P availability. Soil samples were taken from different treatments at rice harvesting stage and analysed. The isothermal adsorption of P by the samples fitted very well with Langmuir equation, and hence, the parameters in the equation, i.e., maximum adsorption (qm), constant related to bonding energy (k) and their product (k × qm) could be used as a comprehensive index to characterize the potential P adsorptivity of the soil. Organo-inorganic fertilization and organic manuring could decrease qm and k, while mineral P application had little effect on them. The isothermal desorption of P was significantly correlated with initially added and isothermally adsorbed P. Part of P added was fixed, which represented the P fixation capacity of soil, and organic manuring could obviously lower the P fixation. The content of soil available P had a significant negative correlation with qm, k and fixed P. It is concluded that organic manure could increase the P availability of paddy soil derived from red earth by decreasing qm, k, maximum buffering capacity (MBC=k × qm) and fixation capacity.     

长期不同比例有机肥-化肥配施下红壤性水稻土氮素矿化特征

土壤有机氮的矿化是土壤氮素肥力的重要指标之一,也是影响作物产量至关重要的因素.以33年长期定位试验为依托,对红壤性双季稻田土壤氮累积、矿化动力学特征等进行系统研究.定位试验始于1984年,选取其中5个施肥处理:不施肥(CK),施氮磷钾肥(NPK),施50％化肥+50％有机肥(50F+50M),施30％化肥+70％有机肥...     

赤红壤有效磷分级指标的研究

用盆栽试验方法得到玉米幼苗干物质相对积累量与赤红壤土壤有效磷含量的关系曲线可以用一元二次响应方程来拟合,土壤Olsen P含量的响应方程为:y=-0.4831x2+13.88x+2.664,决定系数为0.9555**;土壤Mehlich 3 P含量的响应方程为:y=-0.2621x2+9.4821x+18.891,决定系数为0.9400**。赤红壤区的土壤有效磷分级指标为:Olsen P,小于4.0 mg kg-1为"极低",4.0~6.8 mg kg-1为"低",6.8~10.5 mg kg-1为"中",大于10.5 mg kg-1为"高";Mehlich 3 P,小于3.6mg kg-1为"极低",3.6~7.5 mg kg-1为"低",7.5~12.0 mg kg-1为"中",大于12.0 mg kg-1为"高"。     

长期有机培肥模式下黑土碳与氮变化及氮素矿化特征

土壤氮的矿化是土壤氮素肥力的重要指标,是影响作物产量至关重要的因素。本研究依托黑土长期定位试验,通过取样分析研究了32 a不同培肥模式下黑土碳、 氮及主要活性组分的变化,采用淹水培养法研究了不同施肥模式下黑土氮素的矿化特征。结果表明,施肥显著提高黑土可溶性碳（DOC）、 氮（DON）的含量及其比例。在氮、 磷、 钾化肥的基础上配施有机肥,显著降低了土壤微生物量氮（SMBN）占土壤总氮的比例,提高了土壤微生物量的C/N比值（SMBC/SMBN）,促进了土壤氮的生物固持。施肥32 a后,单施常量和高量有机肥处理的土壤氮的矿化量（Nt）显著提高,分别相当于不施肥的8.2倍和10.2倍,而单施氮或氮磷钾化肥对黑土氮素矿化量无明显影响。施用有机肥显著提高了土壤氮素的矿化率（Nt/TN）,但有机肥配施化肥（氮或氮磷钾）的处理与单施有机肥相比,黑土氮的矿化率显著降低,降低幅度分别为23.5%~32.1% 和14.1%~17.8%。土壤氮素矿化量与土壤有机质、 全氮储量、 活性碳、 氮组分均呈极显著线性相关,但氮素的矿化率随着有机质和全氮含量的提高而提高至0.4% 后基本稳定。表明尽管土壤氮的矿化与有机质的含量直接相关,但土壤有机质的品质同样决定着土壤氮素的矿化能力。施有机氮是提高土壤供氮能力的重要途径。     

Interaction effects of nitrogen and phosphorus fertilizer on nitrogen mineralization of wheat residues in a calcareous soil

Abstract

Because of the high pH of the soil in semiarid regions, phosphorus adsorption is unfavorable. So, considerable amounts of phosphorus fertilizers are used annually, where this fertilizer may affect the plant residues' decomposition. To examine the interaction effects of nitrogen and phosphorus on nitrogen mineralization in calcareous soil, a factorial experiment was performed in a completely randomized design with three replications. The first factor consisted of various C:N ratios (20, 40, and 60 or three levels of nitrogen N₁:0, N₂:11, and N₃:43?kg N ha^?1, respectively) and the second factor consisted of various C:P ratios (87, 174, and 260 or three levels of phosphorus P₁:0, P₂:12, and P₃:45?kg P ha^?1, respectively), under incubation conditions. The results indicated that the cumulative mineral nitrogen content in all treatments, except for N1P2 and N1P3 treatments, started from a positive amount and remained positive until the end of the incubation period. The highest amount of cumulative mineral nitrogen among treatments was related to N3P1 treatment, while the lowest was associated with N2P3 treatment. Mineralization of nitrogen during 60?d of incubation was the dominant phenomenon, except for the N1P2 and N1P3 treatments which remained in the organic phase. The effect of phosphorus on the cumulative mineralization of nitrogen was significant. With increasing the amount of phosphorus, the total inorganic nitrogen diminished. Nitrogen release begins earlier with lower C:N ratios, and therefore the available nitrogen can be released more quickly to the plant. It is generally concluded that, in calcareous soil, the use of nitrogen fertilizer to adjust C:N ratio and to improve the mineralization of wheat residues will be a suitable option.     

Tillage and amendment effects on soil carbon and nitrogen mineralization and phosphorus release

The influence of tillage and nutrient amendment management on nutrient cycling processes in soil have substantial implications for environmentally sound practices regarding their use. The effects of 2 years of tillage and soil amendment regimes on the concentrations of soil organic matter variables (carbon (C), nitrogen (N) and phosphorus (P)) and C and N mineralization and P release were determined for a Dothan fine-sandy loam soil in southeastern Alabama. Tillage systems investigated were strip (or conservation) and conventional tillage with various soil nutrient amendments that included no amendment, mineral fertilizer, and poultry waste (broiler litter). Surface soil (0–10 cm depth increment) organic matter variables were determined for all tillage/amendment combinations. Carbon and N mineralization and P release were determined on surface soils for each field treatment combination in a long-term laboratory incubation. Soil organic P concentration was 60% greater in soils that had been conventionally tilled, as compared with strip-tilled, both prior to and following laboratory incubation. Carbon and N mineralization results reflected the effects of prior tillage amendment regime, where soils maintained under strip-till/broiler litter mineralized the greatest amount of C and N. Determination of relative N mineralization indicated that strip tillage had promoted a more readily mineralizable pool of N (6.1%) than with conventional till (4.2%); broiler litter amendments had a larger labile N fraction (6.7%) than was found in soils receiving either mineral fertilizer (4.1%) or no amendment (4.7%). Tillage also affected P release measured during the incubation study, where approximately 20% more inorganic P was released from strip-tilled soils than from those maintained under conventional tillage. Greater P release was observed for amended soils as compared with soils where no amendment was applied. Results from this study indicate that relatively short-term tillage and amendment management can significantly impact C, N, and P transformations and transfers within soil organic matter of a southeastern US soil.     

水氮管理对黑土稻作土壤碳氮磷化学计量特征的影响

为阐明不同水氮管理模式对黑土稻作产量和土壤碳氮磷化学计量特征的影响。设置3种灌溉模式（常规淹灌、浅湿灌溉、控制灌溉）和4种氮肥梯度（0、85、110、135 kg/hm2）,探究水稻产量、土壤碳氮磷含量、化学计量比及层化率对不同水氮管理模式的响应规律。结果表明：控制灌溉模式下,水稻通过形成足量大穗提高库容,小幅增加结实率,从而显著提高产量（p<0.05）。稻田土壤有机碳（SOC）、土壤总氮（STN）、土壤总磷 (STP) 含量随土层深度增加而降低,施氮处理可显著提升SOC、STN含量并降低STP含量（p<0.05）。常规淹灌模式增加SOC、STN含量,控制灌溉模式增加STP含量。土壤C/N随施氮量增加而降低,土壤C/P、N/P随施氮量增加而升高,施氮能提升不同土层平均C/N层化率,降低C/P、N/P层化率。相比常规淹灌,控制灌溉模式能提升不同土层SOC、STP含量层化率,在一定程度上说明控制灌溉配施适宜氮肥可以改善土壤质量,综合考虑CN2为最优水氮管理方式。     

长期不同施肥对水稻土有机氮素矿化特性影响的研究

通过定位试验研究了长期不同施肥措施对水稻土氮素矿化特性的影响。结果表明,长期不同施肥措施显著影响水稻土氮矿化势及矿化速率。与不施氮肥相比,单施氮肥使水稻土氮矿化势下降,矿化速率加快;氮肥与有机肥配施可极显著增加水稻土氮矿化势,降低矿化速率。在氮肥与有机肥配施的基础上,水稻插秧后接种“Azolla”固氮菌体可降低氮矿化势,提高矿化速率。     

Effect of lignite amendment on carbon and nitrogen mineralization from raw and composted manure during incubation with soil

The application of animal manure as a source of plant nutrients requires the determination of the amount and pattern of nutrient mineralization from manure.A laboratory incubation study was conducted to investigate the influence of lignite amendment and lignite type on carbon(C) and nitrogen(N)mineralization in raw(feedstock) and composted cattle manure following application to soil at 30 and 60 t ha^-1.The mineralization of C and N was determined by measuring changes in CO2 evolution ...     

Nitrogen mineralization from an organically managed soil and nitrogen accumulation in lettuce

The potential of an organically managed Cambic Arenosol to supply nitrogen (N) from either an applied commercial organic fertilizer (granulated hen manure), a compost produced on‐farm, or four different mixtures of both fertilizers was studied in a laboratory incubation and a pot experiment with lettuce. In the incubation experiment, a significant higher apparent N mineralization occurred after hen‐manure application (53.4% of the organic N applied) compared to compost (4.5%) or mixed‐fertilizer application (8.7% to 16.7%). The apparent N mineralization in a mixed treatment consisting of compost and half rate of hen manure (15.4% of the organic N applied) was significantly higher than that estimated based on the N mineralization for compost and hen‐manure treatments (7.6%), proving that a combined application of both fertilizers enhanced organic‐N mineralization when compared to separate fertilizer supply. In the pot experiment, a higher lettuce fresh‐matter yield was obtained with hen manure (1.9 kg m^–2) than with compost (1.7 kg m^–2) or unfertilized control treatment (1.3 kg m^–2). Combined application of compost with only a half rate of hen manure led to yields (2.0 kg m^–2) equal to those obtained with only hen manure. A good correlation was observed between the N‐mineralization incubation data and the N accumulated by lettuce plants in the pot experiment (r = 0.983). Hence, in the organic production of baby‐leaf lettuce, a mixture of compost and hen manure appears to be a good fertilization alternative, since it allows a reduction by half of the typical amount of commercial fertilizer usually applied (granulated hen manure), cutting fertilization costs, and providing an amount of available N that allows maintaining lettuce yields.     

赣北第四纪红壤坡耕地水土及氮磷流失特征

坡耕地水土及养分流失严重,该研究于2011年利用赣北第四纪红壤区野外径流小区定位观测试验数据,分析坡耕地水土及氮、磷、有机质流失特征。结果表明：地表产流产沙为裸露地最高、顺坡耕作和顺坡+植物篱次之,横坡耕作最小,横坡耕作比顺坡耕作减少径流62.71%、减少土壤侵蚀82.9%;坡耕地径流携带的可溶性氮、铵氮、硝态氮、可溶性磷的流失量都表现为裸地最大,横坡耕作最小;坡耕地泥沙携带的全氮、全磷、碱解氮、速效磷的流失量表现为裸地最大,横坡耕作最小;坡耕地可溶性氮中以有机氮流失为主,无机氮中以铵氮流失为主,泥沙中磷的流失主要以泥沙结合态流失。该研究可为坡耕地水土流失和面源污染防治提供科学依据。     

Corn-soybean intercropping and nitrogen rates affected crop nitrogen and carbon uptake and C:N ratio in upland red soil

The objective of this research was to determine the effect of corn-soybean intercropping and nitrogen rates on crop biomass, nitrogen (N) and carbon (C) accumulation, and crop C:N ratio in upland red soil. Crop dry matter yields, nitrogen and carbon contents (including grain, straw and root) were measured. Compared with sole corn, corn dry matter yield and carbon accumulation decreased in intercropped soybean. Intercropping decreased the corn C:N ratio, whereas it increased soybean C:N ratio. Nitrogen application significantly increased corn yield, nitrogen and carbon accumulation, but reduced those of soybean. Nitrogen application decreased corn straw C:N ratio and increased soybean straw C:N ratio in most intercropping systems. In conclusion, intercropping and nitrogen rates affected the growth of corn and soybean, changed the allocations of nitrogen and carbon, and altered C:N ratios in different parts of the crops.     

无机氮与蔬菜废弃物耦合对土壤氮矿化的影响

为探明有机废弃物添加量与不同无机氮水平耦合对土壤氮矿化的影响,设计了3个甘蓝废弃叶添加量[B1:200 g.kg 1(土),B2:400 g.kg 1(土),B3:550 g.kg 1(土)]和4个无机氮水平[N0:0 mg.kg 1(土),N1:25mg.kg 1(土),N2:50 mg.kg 1(土),N3:100 mg.kg 1(土)]交互的控制培养试验(25℃,65%的田间持水量)。试验结果显示:各氮处理下土壤净累积氮矿化量是空白对照的4～5倍,N1水平下土壤净累积氮矿化量显著高于其他氮水平。各甘蓝废弃叶添加量处理下土壤净累积氮矿化量是空白对照的3～5倍,且B2添加量下土壤净累积氮矿化量显著高于B1和B3。统计分析表明,氮处理和甘蓝废弃叶添加量之间的交互效应不显著(P=0.275),甘蓝废弃叶的添加是影响氮矿化的主要因素(Eta2=0.16),而供氮水平为次要因素(Eta2=0.07)。B1添加量下,培养前期(0～20 d)土壤净累积矿化量逐渐升高,后期保持稳定水平;但B2和B3添加量下,培养前期(30 d)土壤呈现矿化、固持、再矿化现象,后期土壤净累积矿化量逐渐升高。氮矿化速率结果说明,甘蓝废弃叶添加后氮素矿化主要发生在培养前30 d。对培养期间土壤净累积氮矿化量随时间变化做一级动力方程模拟,拟合效果良好(R2=0.62～0.89)。