Transformation of Applied Phosphorus in a Calcareous Fluvisol

A new inorganic phosphorus (IP) fractionation scheme developed by Jiang and Gu was used in an incubation experiment to investigate the transformation of applied P in a calcareous fluvisol. The results show that after addition of common superphosphate (CSP), the Ca2-P in the soil decreased gradually and transformed largely to the less available Fe-P, Al-P and Ca8-P, rather than to the unavailable forms of Ca10-P and O-P. The different IP fractions ranked in the following order with respect to the increment by addition of CSP after 120 days of incubation: Fe-P> Al-P>Ca8-P>Ca2-P. After addition of pig manure, the content of Ca2-P in the soil increased rapidly at first and then decreased slowly, and the amount of different IP fractions accumulated after 120 days of incubation ranked in the following order: Ca2-P > Fe-P > Ca8-P > Al-P.     

Effect of Submergence on Iron Transformation and Phosphorus Availability in Calcareous Soils

A thermostatic incubation experiment was carried out to estimate the effects of flooding periods,stalk application and P addition of Fe transformation and P availability in calcareous soils.Submergence increased amorphous Fe,especially in the case of stalk application.The newly formed amorphous Fe with a great surface area played an important role in Psorption;and submergence also stimulated the dissolution of inorganic P,thus increasing the availability of soil P in calcareous soils.Meanwhile,a part of soluble P was absorbed and fixed again on the surface of newly formed amorphous Fe,thus resulting in a decrease of P availability.Soil rapidly available P increased after 150-day incubation.There existed significantly negative correlations between soil amorphous Fe content and soil Fe-P and rapidly available P contents.Submerged conditions promoted the transformation of inorganic P added toward Fe-P in calcareous soils,especially in the case of stalk application.     

长期施磷对土壤磷素吸附演变的影响

Knowledge of phosphorus （P） behavior in long-term fertilized soils is essential for programming fertilization practices and for sustaining environmental quality. The long-term （1984-1997） effects of various fertilization treatments on P changes and sorption isotherms as well as the relationship of soil properties to P sorption and P forms were evaluated in an Ustic Isohumisol, a calcareous soil, on the Loess Plateau, China. Compared to 1984, after 13 years of crop production, total soil P in the no-P treatments （control and N treatment） decreased by 5%-7%, but in the phosphorus fertilizer alone （P）, nitrogen and phosphorus fertilizers in combination （NP）, manure alone （M）, and nitrogen and phosphorus fertilizers and manure in combination （NPM） treatments, it increased by 22%, 19%, 28%, and 58%, respectively. Residual fertilizer P was found mainly in NH4Ac-soluble P （Cas-P）, followed by NaHCO3-soluble P （NaHCO3-P）, and NH4F-soluble P （Al-P）. Phosphorus sorption in the soils with different fertilization practices fit the Langmuir equations. Phosphorus sorption capacity in the no-P treatments increased, whereas it decreased in the P-included treatments （P, NP, and NPM treatments）. Phosphorus sorption maximum （Qm） was significantly and negatively correlated to inorganic P including NaHCO3-P, Cas-P, NaOH-Na2CO3-soluble P （Fe-P）, and Al-P （P ≤ 0.01）. Moreover, long-term fertilization increased soil organic carbon in the NP, M, and NPM treatments and decreased pH in the NP and NPM treatments. Thus, the ability of the soil to release sorbed P to the environment increased under long-term P fertilization.     

钙质土壤施用过磷酸钙21年后土壤无机磷分级和磷素有效性

A long-term (21-year) field experiment was performed to study the responses of soil inorganic P fractions and P availability to annual fertilizer P application in a calcareous soil on the Loess Plateau of China. Soil Olsen-P contents increased by 3.7, 5.2, 11.2 and 20.6 mg P kg^-1 after 21-year annual fertilizer P application at 20, 39, 59, and 79 kg P ha^-1, respectively. Long-term fertilizer P addition also increased soil total P and inorganic P (Pi) contents significantly. The contents of inorganic P fractions were in the order of Ca₁₀-P > Ca₈-P > Fe-P > Al-P > occluded P > Ca₂-P in the soil receiving annual fertilizer P application. Fertilizer P application increased Ca₈-P, Al-P and Ca₂-P contents as well as their percentages relative to Pi. Pi application increased Fe-P and occluded P contents but nor their percentages. Soil Ca₁₀-P content remained unchanged after fertilizer P application while its percentage relative to Pi declined with increasing fertilizer P rate. All Pi fractions but Ca₁₀-P were correlated with Olsen-P significantly. 90% of variations in Olsen-P could be explained by Pi fractions, and the direct contribution of Ca₈-P was predominant. Long-term annual superphosphate application would facilitate the accumulation of soil Ca₈-P, and thus improve soil P availability.     

通过施用碱性矿渣和作物残茬生物炭以促进酸性老成土中盐基饱并降低土壤酸度

This investigation was conducted by using alkaline slag and crop straw biochars to reduce acidity of an acidic Ultisol through incubation and pot experiments with lime as a comparison. The soil was amended with different liming materials： lime（1 g kg^-1）,alkaline slag（2 and 4 g kg^-1）, peanut straw biochar（10 and 20 g kg^-1）, canola straw biochar（10 and 20 g kg^-1） and combinations of alkaline slag（2 g kg^-1） and biochars（10 g kg^-1） in the incubation study. A pot experiment was also conducted to observe the soybean growth responses to the above treatments. The results showed that all the liming materials increased soil p H and decreased soil exchangeable acidity. The higher the rates of alkaline slag, biochars, and alkaline slag combined with biochars, the greater the increase in soil p H and the reduction in soil exchangeable acidity. All the amendments increased the levels of one or more soil exchangeable base cations. The lime treatment increased soil exchangeable Ca^2＋, the alkaline slag treatment increased exchangeable Ca^2＋ and Mg^2＋ levels, and the biochars and combined applications of alkaline slag with biochars increased soil exchangeable Ca^2＋, Mg^2＋ and K^＋ and soil available P. The amendments enhanced the uptake of one or more nutrients of N, P, K, Ca and Mg by soybean in the pot experiment. Of the different amendments, the combined application of alkaline slag with crop straw biochars was the best choice for increasing base saturation and reducing soil acidity of the acidic Ultisol. The combined application of alkaline slag with biochars led to the greatest reduction in soil acidity, increased soil Ca, Mg, K and P levels, and enhanced the uptake of Ca, Mg, K and P by soybean plants.     

玉米细根形成和土壤中无机磷分级平衡对缺磷的特异性响应

Plants have diverse strategies to cope with phosphorus (P) deficiency. To better understand how maize responds to P deficiency, a field experiment with two P levels, 0 and 100 kg P2O5 ha-1 (P0 and P100, respectively), was carried out as a part of a long-term Pfertilizer field trial. Plant and soil analyses showed that P-deficient maize reduced its growth rate, increased P use efficiency, and formed more thin roots with the diameter less than 0.6 mm at jointing and silking stages, compared to the plants treated with P100. Further, there were no differences in major inorganic P fractions (Ca 2 -P, Ca 8 -P, Al-P, Fe-P, occluded P and Ca 10 -P) between the rhizospheric and bulk soils at each harvest, even when soil Olsen-P was only 1.38 mg kg-1 . These results suggested that maize responded to P deficiency by reducing the internal P demand for growth and increasing P acquisition ability by favorable root morphological alteration at low carbon cost.     

Integrated analysis of changes in soil microbiota and metabolites following long-term fertilization in a subtropical maize-wheat agroecosystem

Although the application of inorganic fertilizer is a widespread agronomic practice used to boost soil productivity and crop yields, the effects on soil microbiome and the metabolic mechanisms involved in the high-yield response of crops to long-term fertilization remain poorly described. In this study, combined metagenomic and metabolomic analyses were used to explore the mechanism of crop yield response to the 20-year application of nitrogen-phosphorus-potassium fertilizers in a subtropical ag...     

Transformation and Availability of Various Forms of Zinc in Soils

The transformation and availability of various forms of Zn applied into a cinnamon soil and a carbonate meadow soil as well as the effects of fertillizer-P on them were studied by using the field experiment method and chemically sequential extraction procedure.Zn added into the soils was found to be rapidly transformed into the various forms. In the cinnamon soil,the amount of Zn transformed into the carbonate bound form was the highest,and the carbonate bound form was proven by the analyses of intensity factor and capacity factor to be the primary available Zn pool.But in the carbonate meadow soil,the Zn transformed was relatively homogeneously distributed in the various forms though the amount of Zn transformed into the Mn-oxide bound form was relatively high,and the organically bound,Mn-oxide bound and amorphous Fe-oxide,bound forms were found to be the main available Zn pool.Fertilizer-P took part in the regulation and control of available Zn in the soils to a certain degree.In the carbonate meadow soil,application of P fertilizer probably aggravated Zn deficiency at low Zn rate,while it was favorable to the storage of available Zn in the case of high Zn rate.     

不同施肥措施对小麦－玉米轮作中作物产量和土壤肥力的影响

A 15-year field experiment was carried out in Henan Province, China, to study the effects of different fertilization practices on yield of a wheat-maize rotation. Fertilizers tested contained N alone (N), N plus P (NP) or plus P and K (NPK), all with or without manure (M). Different long-term fertilization practices affected the yields under the rotation system of wheat and maize differently and the effects on yields was in a general trend of MNPK＞MNP＞MN＞NPK＞NP＞M＞N＞the control. The average contribution rate of soil fertility to the highest yield was 37.9%, and the rest 62.1% came from fertilizer applications. The yield effects of the chemical fertilizers were in the order of N＞P＞K and were increased by application of manure.Balanced fertilization with multielement chemical fertilizers and manure can be effective in maintaining growth in agricultural production. Combined application of chemical fertilizer and organic manure also increased the content of soil organic matter.     

过量施用磷肥对红壤发育的水稻土化学性质的影响及其与水稻生长的关系

A filed experiment with an early rice-late rice rotation was carried out on a paddy soil derived from red soil in the southern part of Zhejing Province to elucidate the effect of excess P application on some important characteristics of soil properies and its relation to nutrient status and grain yields of rice crops.The experimental results indicated that adequate fertilizer P(15 kg P hm^-2)could increase the content of soil available P at the tillering stage of early rice,the contents of N,P and K in the shoots of early rice at primary growth stages,and the grain yield of early rice by increasing valid ears per hectare and weight per thousand grains,which,was mainly related to the higher contents of reduced,non-reduced and total sugar in the shoot at the heading stage, And early rice supplied with excessive P could not yield more than that applied with adequate, P de to the reduction in the valid grain percentage and weight per thousead grains. In addition,one-time excess P supply at a rate as high as 90 kg P hm^-2 could not improve the soil P fertility in case the soil available P content was lower than the initial(3.74mg kg^-1 soil) after an early rice-late rice rotaion,and made a decline in the grain yield increased by per kilogram fertilzer P.Thus,one-time excess P supply should not be adopted for soils with a large P fixation capacity like the paddy soils derived from red soils.     

黑龙江省西部草地苏打盐渍土无机磷的转化及其对有效磷的影响

本文通过相关分析和通径分析研究了无机磷各组分间的转化关系及其对有效磷的影响 ,结果表明 :苏打碱土的Ca2 -P、Ca8-P、Al-P和Fe -P对有效磷贡献量较大 ,O -P对有效磷表现为负贡献 ,Ca10 -P对有效磷几乎无影响。草甸碱土的Ca2 -P和Fe -P主要通过直接作用影响有效磷 ,Ca8-P和Al -P主要通过间接作用影响有效磷 ;碱化草甸土的Ca2 -P对有效磷的影响主要表现为直接作用 ,Ca8-P、Al-P和Fe -P对有效磷的影响主要表现为间接作用。在苏打盐渍土的磷素循环系统中 ,无机磷各形态间存在一定的转化关系 ,Ca2 -P、Ca8-P和Al-P易于相互转化 ,Fe -P和O -P易于相互转化     

长期施肥对砂姜黑土无机磷形态的影响

采用顾益初、蒋柏藩的无机磷分级方法,研究了长期施肥下砂姜黑土无机磷组分含量变化、生物有效性及其与土壤有效磷的关系。结果表明,长期耗竭状况下Ca2-P和Ca8-P的植物营养效率最高,其次为Al-P和Fe-P,O-P和Ca10-P也表现出了一定的有效性;Fe-P和Al-P对植物的营养贡献率最高,虽然Ca2-P和Ca8-P活性最高,但由于含量低,对磷素养分的贡献率较低,土壤磷素极度耗竭下,Ca2-P的植物营养贡献率甚至低于Ca10-P和O-P。砂姜黑土对磷的固定严重,土壤中积累的磷主要向Al-P、Fe-P和有效性更低的Ca10-P和O-P转化,Ca2-P、Ca8-P的增量较少。相关分析和通径分析表明,无机磷组分对有效磷的贡献为:Al-P＞Ca8-P＞Ca2-P＞Fe-P＞O-P＞Ca10-P;建立了Olsen-P与无机磷组分间的回归方程:Y = 3.8751 +0.4674X1 +0.4470X2+ 0.3769X3-0.1166X4-0.07838 X 5 (Y代表有效磷含量,X1、、X2、X3 、X4 、X5分别代表Ca2-P、Ca8-P、Al-P、Fe-P和Ca10-P含量;P＜0.01,R2=0.9989)。     

味精尾液对石灰性潮土无机磷特性及pH值的影响

通过恒温培养试验,探究了以味精尾液为原料的土壤调理剂对北方石灰性潮土无机磷特性和p H值的影响。结果表明,施用味精尾液后土壤有效磷(Olsen-P)、Ca_2-P、Al-P、Fe-P分别增加了70%~120%、155%~288%、29%~42%、6%~10%,Ca10-P减少了7%~8%,且有效性较高的Ca_2-P和Olsen-P持续性好;能够显著降低土壤p H值,培养60 d时,与CK相比,p H值下降了1.17~1.27个单位,而且在一定程度上还能减缓施入土壤的磷肥向无效态转化,提高磷肥有效性。在石灰性土壤施用味精尾液后,运用SPSS软件对土壤Olsen-P及各形态无机磷进行相关性和回归分析得出,Ca_2-P和Fe-P是北方石灰性潮土Olsen-P的主要组分,并得出了Ca_2-P、Fe-P与Olsen-P的回归方程:Y(Olsen-P)=-18.724+1.173X_1(Ca_2-P)+0.905X_4(Fe-P)。     

长期施肥对灰漠土无机磷组分的影响

以国家灰漠土土壤肥力与肥料效益长期监测站为平台,采用蒋柏藩-顾益初土壤无机磷分组方法,对23年长期定位施肥条件下、不同施肥处理土壤无机磷总量(IOP)及组分(Ca_2-P、Ca_8-P、Al-P、Fe-P、O-P、Ca_(10)-P)进行测定,以掌握长期施肥对干旱区灰漠土无机磷组分的影响规律并指导合理施肥。结果表明,长期不施肥(CK)处理土壤无机磷总量无显著变化,组分间主要发生Ca_2-P、Ca_8-P向Ca_(10)-P的转化;长期施肥(NPK、NPKM、NPKS)处理IOP极显著增加,其增加量主要为Ca_2-P、Ca_8-P、Al-P和Fe-P,其中前三者增加作用极为显著;长期施肥条件下,土壤无机磷组分中Ca_8-P转化率最高、占土壤无机磷转化总量的39%~50%,其次是Al-P、占16%~30%,再次是Ca_2-P、占10%~29%,三者合计占78%~88%,其余三种组分Fe-P、O-P、Ca_(10)-P占12%~22%。     

栗钙土中磷肥转化及效应的研究

采用石灰性土壤无机磷的分级方法,研究了磷肥在栗钙土中的转化以及包被物对土壤中磷肥转化的影响和莜麦的磷肥效应。研究结果表明,在不种作物的情况下,磷肥施入土壤后很快转化为Ca2-P、Ca8-P、Al-P、Fe-P等形态,随施肥时间的延长,Ca2-P呈减少趋势,其它形态的无机磷则逐渐增加;在种植莜麦的情况下,莜麦对磷肥的吸收利用率为31.1％,土壤残留为68.9％,残留磷中各形态无机磷占施入磷的比率:28.9％为Ca2-P,11.0％为Ca8-P,10.3％为Al-P,5.5％为Fe-P,9.5％为O-P,3.7％为Ca10-P;包被磷肥较未包被磷肥减少了土壤中Ca2-P向Ca8-P转化,增加了施入磷向Al-P的转化而减少了向Fe-P、O-P的转化,磷肥的利用率提高2.9个百分点。施用磷肥莜麦增产178％。     

不同种植年限黑土型蔬菜保护地磷素状况的研究

采用石灰性土壤无机磷形态分级方法,对不同种植年限的蔬菜保护地0～60cm土层土壤磷素形态及其含量特征与差异进行了研究.结果表明:哈尔滨市蔬菜保护地土壤磷素处于大量积累状态,其中全磷、速效磷、有机磷、Ca2-P、Ca8-P、Al-P、Fe-P、O-P、Ca10-P在0~20era土层积累较多,且随土层深度的增加各形态磷的...     

黑龙江省西部草地土壤无机磷的形态

本文通过牧场试验，探讨了黑龙江省西部草地土壤无机磷形态，结果表明，四种草地土壤均以Ｃａ－Ｐ为主，约占无机磷总量的６０％左右，Ｏ－Ｐ含量少于Ｆｅ－Ｐ和Ａｌ－Ｐ．草甸黑钙土无机磷总量最高，Ｃａ２－Ｐ、Ｃａ８－Ｐ和Ａｌ－Ｐ都是草甸黑钙土重要的贮磷库；草甸风沙土无机磷总量最低，但Ｃａ８－Ｐ含量相对较高；草甸碱土无机磷总量、Ｃａ２－Ｐ和Ａｌ－Ｐ含量显著高于碱化草甸土．向草甸碱土和碱化草甸土施磷酸二铵能显著增加土壤无机磷的总量，尤其显著提高土壤中Ｃａ８－Ｐ和Ａｌ－Ｐ含量．     

长期轮作与施肥对农田土壤磷素形态和吸持特性的影响

通过对黄土旱塬地区长期定位施肥(26a)条件下的不同轮作系统的土壤磷素形态和吸持参数的测定,研究了轮作和施肥对土壤磷素吸持特性和磷素形态的影响,以及土壤磷素吸持参数与磷素形态之间的关系。结果表明,长期轮作与施肥都可以减低土壤磷素的最大吸附量（Qm）,相对于其它轮作和连作,在氮磷（NP）施肥下,小麦-玉米-豌豆轮作可以减低土壤的Qm,在氮磷有机肥（NPM）施肥下,小麦-玉米轮作可以减低土壤的Qm。在施肥相同的条件下,小麦-玉米轮作和小麦-豌豆轮作可以显著增加土壤中各形态无机磷的含量,长期轮作比连作可以增加土壤中的有效磷养分,尤其对Ca2-P的提高效果更为显著。相关分析表明,Qm和磷吸持指数（PSI）与全磷（T-P）、Olsen-P、CaCl2-P、Ca2-P、Ca8-P、Fe-P、Ca10-P和有机磷呈极显著负相关（p＜0.01）,与闭蓄态磷（O-P）呈显著负相关（p＜0.05）,与Al-P关系不显著。土壤有机质（SOM）与Qm、PSI和磷最大缓冲能力（MBC）之间存在极显著负相关关系,与磷吸持饱和度（DPSS）存在显著正相关。通径系数和逐步回归分析表明,在石灰性黑垆土土壤的无机磷形态中,Ca2-P对Olsen-P的贡献最大。     

耕作方式对黄绵土无机磷形态的影响

以设置在陇中黄土高原并已经进行了5年的田间定位试验为基础，采用蒋-顾石灰性土壤无机磷分级法，研究了不同耕作方式对黄绵土无机磷形态的影响。结果表明，供试土壤中78.6%的磷以无机磷形式存在，且以Ca-P占绝大多数。无机磷各形态含量排列顺序为:Ca10-P Ca8-P O-PAl-P Fe-PCa2-P。与传统耕作不覆盖(T)相比，免耕秸秆覆盖(NTS)、免耕不覆盖(NT)、传统耕作结合秸秆还田(TS)均可降低土壤中的Ca8-P、O-P和0—5 cm土层中的Ca10-P含量，其中NTS最为明显；NTS处理可提高土壤中的Al-P、Fe-P含量。不同处理中，Ca2-P、Ca8-P、Al-P、Fe-P均以0—5 cm土层中含量最高，且随着土层的增加呈下降趋势；但是Ca10-P 以5—10 cm土层含量最高；各处理O-P在土壤剖面中的变化没有显著差异。     

不同用量有机肥对陇东旱塬黑垆土磷素形态转化及有效性的影响

以覆盖黑垆土土壤为材料,研究了不同用量有机肥对土壤磷素有效性及不同形态无机磷含量的影响。结果表明:在陇东旱塬黑垆土上施肥能够增加全磷、有效磷含量,有机肥增加效果更明显,且随有机肥施用量的增加而增加。无磷肥输入的氮肥处理区,活性较强的Ca_2-P、Ca_8-P、A1-P和Fe-P含量都有所降低,而较稳定态的O-P和Ca_(10)-P含量则有所提高。与CK相比,有机肥处理随有机肥用量的增加,Ca_2-P、Ca_(10)-P、A1-P含量表现为增加,而Ca_8-P、Fe-P、O-P则相反。同时Ca_2-P与有机质、有效磷显著正相关,与p H值显著负相关。因此,在本试验条件下,从有效态的Ca_2-P和难溶性的Ca_(10)-P含量变化来看,在施等量氮的基础上配施农家肥60 000 kg·hm~(-2)更有利于活化土壤磷和减缓磷吸附,从而提高磷素的有效性。