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。     

Enzymatic hydrolysis of organic phosphorus in extracts and resuspensions of swine manure and cattle manure

Animal manure can be a valuable resource of P for plant growth. Organic phosphates (P_o) are considered bioavailable if they can be hydrolyzed to inorganic P (P_i). Therefore, investigation of the susceptibility of manure P_o to hydrolysis may increase our understanding of manure P_o bioavailability. In this study, we demonstrate that three orthophosphate-releasing enzymes, acid phosphatase from wheat germ, alkaline phosphatase from bovine intestinal mucosa, and fungal phytase from Aspergillus ficcum, were able to hydrolyze certain amounts of P_o in animal manure. A scheme of sequential enzymatic release of P_o in manure was developed and then used to investigate changes in swine and cattle manure P distribution after storage at –20°C, 4°C or 22°C for about a year. Assuming that the P distribution in manure maintained at –20°C remained unchanged (i.e., similar to fresh manure), bioavailable P (P_i and enzyme-hydrolysable P_o) in swine manure remained relatively constant [72.8–76.3% of total P (P_t)]. Soluble but enzymatically unhydrolysable P_o (P_ue) increased from 7.2% to 32.1% of P_t during storage at 4°C. In cattle manure, bioavailable P decreased from 71.6% to 62.9% of P_t, and P_ue increased from 21.7% to 37.2% of P_t during storage at 22°C. These data indicated that the major change during the storage of animal manure for a year was the increase in P_ue, so manure P solubility may increase with storage, but the increase would not produce more bioavailable P in the manure. The effects of storage on the bioavailability of manure P should be further investigated to develop an efficient manure-P management strategy.Trade or manufacturers' names mentioned in the paper are for information only and do not constitute endorsement, recommendation, or exclusion by the USDA-ARS     

Measurement of the maximum amount of water-extractable phosphorus in animal manure compost by continuous and sequential water extraction

Measuring the phosphorus (P) solubility in animal manure compost (AMC) is important to estimate both the risk of P loss from agricultural land and the P availability for crops in agriculture that use AMC as fertilizer. Water-extractable phosphorus (WEP) has most often been used to estimate P solubility in AMC. A single water extraction with a high ratio of compost to water is usually used to determine WEP, but in many cases, this may not evaluate the maximum WEP. In this study, we extracted the P included in AMC by using a continuous extraction method with a large amount of water, and tested this approach for 16 AMCs: four cattle manure composts, five swine manure composts, five layer (chicken) manure composts, and two broiler (chicken) litter composts. The P dissolution patterns were fitted to kinetic models, and the maximum WEP (WEP_max) was determined by the coefficient of the non-linear regression equation. The WEP_max values corresponded to the sum of H₂O- and sodium bicarbonate (NaHCO₃)-extractable P measured using the modified Hedley sequential extraction method. The result also suggests that the maximum amount of WEP from AMC can be estimated rapidly using a sequential extraction (the Hedley method) that has been widely used to characterize P in manure or AMC. The maximum water-extractable magnesium (Mg) (WEMg_max) was significantly positively correlated with WEP_max (r = 0.854, P < 0.01). This suggests that WEP_max in the AMCs is affected by water-soluble magnesium compounds.     

Phosphorus and potassium availability from cattle manure ash in relation to their extractability and grass tetany hazard

ABSTRACT

Due to a decrease in phosphorus (P) and potassium (K) mining, manure is incinerated to concentrate P and K in ash. To understand the alternative use of manure-derived ash as P and K sources, laboratory and greenhouse experiments were conducted to determine the relationship between extractability and P and K uptake in cattle manure ash (CMA) and that between CMA application and a grass tetany hazard. The results showed that more P was extracted with 2% citric acid (90% of the total P) than with 2% formic acid (72–84% of the total P). Ninety-one percent of the total K was soluble in water. A greenhouse pot experiment was conducted to test P and K availability to Guinea grass (Megathyrsus maximus). Cattle manure ash or calcium dihydrogen phosphate (CF) was incorporated into sandy soil at 10, 20, and 50 g P₂O₅ m^?2. Two combinations of CMA and CF were tested at 20 g P₂O₅ m^?2. Potassium rates followed K content in CMA applied at different rates of P equivalent to 19, 38, or 96 g K₂O m^?2. In four harvests, there was no significant difference in the total yields between CMA and CF treatments. The total P uptake was significantly lower in the CMA treatment than in the CF treatment, while it was not in the combined CMA and CF treatments. The P uptake in response to different extraction methods indicated that the extraction of P by 2% formic acid without sonication is recommended to predict P availability in CMA. The potassium uptake from CMA application was comparable to that from the KCl application, and excessive K occurred at 38 and 96 g K₂O m^?2. The grass tetany hazard ratio higher than 2.2 was observed at the beginning period at the lowest application rates of CMA and CF. In conclusion, the combination use of CMA and CF was better than the single use of CMA. Moreover, CMA would be an available K source, but the grass tetany hazard still needs to be considered in application rates and pretreatments.     

猪粪氮素有效性与替代化肥氮当量研究

采用温室盆栽试验,初步研究了猪粪氮素的有效性和替代氮肥的替代当量,并结合田间试验对等有效氮条件下有机无机配施与单施化肥的效果进行了比较。盆栽试验表明,随着猪粪用量的增加,氮素回收率逐渐降低,回收率为22.5%～38.3%,平均30.6%。当猪粪用量为N 120 mg/kg时,其氮素相对于化肥的相对有效性为27%。不同用量下猪粪的替代氮肥当量也具有一定差异,相对替代当量为24.0%～40.8%,平均32.9%。田间试验表明,利用猪粪中的有效氮替代30%的化肥氮对春玉米干物质和籽粒产量以及氮素吸收量没有影响,与100%化肥氮处理相当。     

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.     

Short-term N availability in response to dissolved-organic-carbon from poultry manure, alone or in combination with cellulose

 Short-term changes in N availability in a sandy soil in response to the dissolved organic carbon (DOC) from a poultry manure (application rate equivalent to approximately 250 kg N ha^–1) were evaluated in a 44-day aerobic incubation experiment. The treatments included poultry manure alone and two treatments in which an extra source of C, of low water solubility, was added with the poultry manure in the form of a low (1.05 g kg^–1) and a high (4.22 g kg^–1) amount of cellulose. All treatments were fertilised with the equivalent of 60 kg N ha^–1 of (¹⁵NH₄)₂SO₄ in solution. A control treatment consisted of sieved field-moist soil plus 60 kg N ha^–1 of (¹⁵NH₄)₂SO₄ in solution. Measurements were made of N₂O and CO₂ emissions, inorganic N, DOC, biomass N, biomass C and labelled N contained in the inorganic N and biomass N pools. The dynamics of N turnover in this study were driven mainly by processes of mineralisation–immobilisation with little significant loss of N by volatilisation or denitrification. The DOC supplied with the poultry manure played a more important role in N₂O emissions than differences in C/N ratio. Changes in DOC and cumulative CO₂-C production during the first 11 days were also highly correlated (R ²=0.88–0.66, P<0.01). An initial net immobilisation of N, with significant increases in biomass C and biomass N (P<0.05) for all treatments over the control at day 11, indicated a high availability of C from the DOC fraction. The presence of additional C from the applied cellulose did not enable a massive N immobilisation. Total inorganic N and unlabelled inorganic N concentrations were highest in soils treated with poultry manure alone (P<0.05), indicating that an active gross mineralisation of the added poultry manure and a possible positive priming effect were taking place during the incubation. Received: 29 May 1998     

Remediation of subsoil compaction and compaction effects on corn N availability by deep tillage and application of poultry manure in a sandy-textured soil

Subsoil compaction may reduce the availability and uptake of water and plant nutrients thereby lowering crop yields. Among the management options for remediating subsoil compaction are deep tillage and the selection of crop rotations with deep-rooted crops, but little is known of the effects of applications of organic amendments on subsoil compaction. The objectives of this study were to determine the effects of subsoil compaction on corn yield and N availability in a sandy-textured soil and to evaluate the use of deep tillage and surface applications of poultry manure to remediate subsoil compaction. A field experiment planted to corn (Zea mays L.) was conducted from 2000 to 2001 on a Reelfoot fine sandy loam (fine-silty, mixed thermic Aquic Argiudolls) formed in silty alluvium located in southeast Missouri near the Mississippi River. Treatments were arranged in a factorial design with three levels of subsoil compaction and subsoiling and four rates (averaging 0, 6, 11 and 18 Mg ha⁻¹) of poultry manure. Subsoil tillage to a depth of 30 cm had multiple effects, including overcoming a natural or tillage-induced dense layer or pan and increasing volumetric soil water content and crop N uptake, especially in the 2001 cropping year with low early season precipitation. N recovery efficiency (NRE) was significantly higher in the subsoil treatment compared to the highest compaction treatment in 2001. No significant interactions between manure rates and compaction and subsoiling treatments were observed for corn grain and silage yields, N uptake and NRE. Average increases in corn grain yields over all manure rates due to subsoil tillage of compacted soil were 2002 kg ha⁻¹ in 2000 and 3504 kg ha⁻¹ in 2001. Application of poultry manure had a consistent positive effect on increasing grain yields and N uptake in 2000 and 2001 but did not significantly alter measured soil physical properties. The results of this study suggest that deep tillage and applications of organic amendments are management tools that may overcome restrictions in both N and soil water availability due to subsoil compaction in sandy-textured soils.     

Effect of phosphorus status of the soil on selenium availability

Due to its importance for human and animal health, low bioavailability of selenium (Se) is of concern in large parts of the world. Among the factors determining Se availability is competition for binding sites by other anions. In order to evaluate the effect of different soil P status on Se availability from fertilizer, adsorption studies were conducted with soils ranging from low to very high available P as measured in ammonium lactate (P‐AL) and addition of Se as either selenate or selenite. Generally selenite, and to some extent also selenate, adsorption decreased with increasing P‐AL status of the soil. However, in a silt loam, the increase in P‐AL from 140 (high) to 210 mg P kg^–1 (very high) did not result in a corresponding decrease in Se adsorption. Phosphorus saturation, on the other hand, was found to be lower in the sample that was very high in available P, suggesting that both the total amount of P on binding sites and the amount of plant‐available P influence Se availability. Selenate addition caused an increase in P availability, especially when added together with phosphate to a silt loam with very high P‐AL status.     

Soil microbial biomass phosphorus as an indicator of phosphorus availability in a Gleyic Andosol

Abstract

The relationship between plant phosphorus (P) uptake and soil microbial biomass phosphorus (biomass P) or available phosphorus (Truog P) was estimated in a Gleyic Andosol in Sapporo, Hokkaido, in a 4-year field trial (2004–2007). Every year, the soil was treated in duplicate (each plot 36?m²) or triplicate (each plot 24?m²) with chemical fertilizer, cow manure compost or sewage sludge compost, and then kidney beans (Phaseolus vulgaris) were planted. Pooled data of the shoot content of P at harvest over the 4?years was significantly correlated with biomass P determined 1?month after the application of fertilizer (P?<?0.01). A multivariate analysis revealed that the grain yield was significantly positively correlated with the shoot content of P (P?<?0.01) and significantly negatively correlated with the shoot content of calcium (P?<?0.05), but not correlated with the shoot content of either nitrogen or potassium. These results suggest that P is the most limiting element to affect the productivity of kidney bean plants in this trial and that biomass P is an important P source that explains the differences in P availability among soil amendments. Biomass P is a better indicator of P availability for kidney beans grown in Gleyic Andosols compared with Truog P, which is widely used in Japan.     

Effects of amendments and fertilization on plant growth,nitrogen and phosphorus availability in rehabilitated highly alkaline bauxite‐processing residue sand

The effects of organic–inorganic amendments and nitrogen‐phosphorus (NP) fertilization (NH₄NO₃ plus Ca (H₂PO₄)₂) on ryegrass (Lolium rigidum) growth, and nitrogen (N) and phosphorus (P) availability in highly alkaline bauxite‐processing residue sand (BRS), were examined in a pot experiment. The BRS used was either unamended (control) or amended with organic (e.g. greenwaste compost and biochar) or inorganic (e.g. zeolite) materials at a rate of 10% v/v. BRS from 15 years of rehabilitation (15YRRH) was also used as the second control. NP fertilizer was applied at different rates. The experimental set up was arranged in a two factorial complete randomized design. BRS with zeolite and 15YRRH at NP fertilizer rates of 2.0 and 2.5 t/ha produced the highest dry matter, leaf N concentration and N uptake by ryegrass, which were significantly higher (P < 0.05) than the other treatments, suggesting the potential of zeolite in providing stability of applied N fertilizer in BRS. Further, BRS with biochar at NP rates 2.0 and 2.5 t/ha can also be suitable amendments as they enhance growth and also improved the N and P supplying capacity of BRS. Ryegrass leaf P concentration and P uptake were above the critical P values in the 15YRRH compared with organic–inorganic amended BRS, suggesting that time is important for better P uptake from the residue. It is concluded that zeolite and biochar combined with appropriate NP fertilizer rates can improve plant growth and provide a source of nutrients for ryegrass establishment in bauxite residue storage areas. The results need to be tested in field conditions before being advised in farming practice.     

长期施肥对黑土磷素积累、形态转化及其有效性影响的研究

1980年开始,在小麦大豆玉米轮作制中,研究长期定位施用常量的氮、磷、钾(小麦、玉米施肥量为N150、P2O575、K2O75kg/hm2;大豆为N75、P2O5150、K2O75kg/hm2)和有机肥(马粪,折N75kg/hm2,只在玉米后茬上施用),以及二倍和四倍量对土壤磷素积累、形态变化及磷肥后效的影响。23年研究结果表明,长期不施肥,黑土土壤全磷下降37.4%、速效磷下降了60%;施用磷肥土壤全磷增加53.9%～65.7%、速效磷增加6～15倍。积累的磷素大部分以有效性较高的Ca2-P、Ca8-P、Al-P形态积累在土壤中,施用磷肥可使Ca2-P增加4～15倍,Ca8-P增加4～16倍,Al-P增加1.6～11.8倍,Fe-P增加1.4～4.4倍,O-P增加0.6～1.7倍,Ca10-P增加0.3～0.7倍。所积累在土壤中的磷素具有生物有效性。     

施用粪肥对农田土壤磷素累积和饱和度增加速率的影响

针对施用粪肥导致的我国集约化种养区域农田土壤磷素高量累积和高环境风险问题,利用长期定位试验定量分析了施用粪肥对农田土壤磷素累积和磷饱和度（DPS, degree of P saturation）增加速率（每年1 kg P·hm-2磷素盈余所导致的土壤磷素含量或DPS变化量）的影响。结果表明：连续22年过量磷素投入明显提高了土壤磷素含量和DPS,0~20 cm土层土壤磷素累积、DPS增加与磷素盈余均存在明显的线性相关性。与单施化肥相比,施用粪肥对土壤全磷的累积速率影响不大,但是明显提高了土壤Olsen-P累积和DPS增加速率。施用粪肥下,每年1 kg P·hm-2的磷盈余所导致的0~20 cm土层土壤Olsen-P、CaCl2-P累积和DPS增加量分别为0.071 mg P·kg-1（r=0.608, P=0.029）、0.003 mg P·kg-1（r=0.528, P=0.066）和0.036%（r=0.863,P=0.002）,分别为不施粪肥的3.3、6.0倍和1.2倍。土壤DPS变化与磷含量变化之间也存在明显的线性关系,0~20 cm土层土壤每年全磷、Olsen-P和CaCl2-P含量增加1 mg P·kg-1所导致的土壤DPS增加值分别为0.13%、0.42%和7.78%。20~40 cm土层土壤磷素累积、DPS增加与磷素盈余之间的线性相关性均较差,但与0~20 cm土层相比,施用粪肥和不施粪肥之间累积速率的差异性有增大的趋势,说明施用粪肥促进了磷素向下层土壤的移动。施用粪肥加速了土壤有效磷累积和DPS增加,进而提高了土壤中磷素损失风险,合理施用粪肥是控制集约化种养区域农田磷面源污染的关键。     

磷肥和有机肥对不同磷水平土壤磷吸附-解吸的影响

采用培养试验结合Langmuir吸附等温方程进行拟合求出吸附、解吸的相关参数的方法,研究了磷肥和有机肥对不同磷水平土壤磷吸附和解吸特性的影响。结果表明,随土壤磷水平和磷肥和有机肥用量的增加,土壤最大吸磷量、土壤磷最大缓冲能力显著降低;土壤易解吸磷和土壤磷的解吸率显著增加。土壤易解吸磷和土壤磷的解吸率与土壤Olsen-P呈显著正相关;土壤最大吸磷量、土壤磷最大缓冲容量与土壤Olsen-P呈显著负相关。单位量磷肥所增加的土壤易解吸磷随着磷肥用量和土壤磷水平的增加而增大;土壤磷水平和磷用量是影响土壤磷最大吸磷量和土壤磷最大缓冲能力的重要因素。     

Aging effects of organic and inorganic fertilizers on phosphorus fractionation in a calcareous sandy loam soil

In most arid and semiarid soils, naturally occurring phosphorus(P) is a major yield-limiting plant nutrient. In this study, to investigate the effects of organic(OP) and inorganic P(IP) sources on P fractionation, a calcareous sandy loam alkaline soil was fertilized with OP and IP fertilizers at low(80 mg P kg~(-1) soil) and high(160 mg P kg~(-1) soil) application rates. Three combinations of OP and IP(i.e., 75% OP + 25% IP, 50% OP + 50% IP, and 25% OP + 75% IP) were applied at low and high application rates,respectively, followed by soil aging for 21 d. Soil samples were collected after 1, 2, 3, 7, and 21 d and subjected to sequential extraction to analyze soluble and exchangeable, Fe-and Al-bound, Ca-bound, and residual P fractions. The soluble and exchangeable P fraction significantly increased up to 24.3%, whereas the Ca-bound fraction decreased up to 40.7% in the soils receiving 75% OP + 25% IP and 50% OP + 50% IP, respectively, compared with the control(receiving no P fertilizer). However, the transformation of P fractions was influenced by aging time. Addition of P sources caused instant changes in different P fractions, which then tended to decline with aging time. Change in soil p H was the limiting factor in controlling P availability. At high application rate, the OP source significantly increased soil P availability compared with the IP source with soil aging. Depending on P fractionation, a proper combination of OP and IP fertilizers, as long-term slow and instant P-releasing sources for plant uptake, respectively, may be a sustainable strategy to meet crop P requirements in the arid and semiarid soils.     

含硅熔渣与化肥混合对硅有效性与磷固定率影响研究

采用室内培养方法,研究了含硅熔渣与化肥混合对硅有效性与磷固定率的影响。结果表明,熔渣与化肥混合后,可溶性SiO2含量与磷固定率表现出随水分含量增加而增加的趋势,当水分含量大于150.g/kg时其值增加不明显。NPK三因素配比对可溶性SiO2含量影响最大,其次为双因素配比;且含P配比的增加效应更大,但N、K对磷固定率影响不明显。0.10.mm粒径熔渣可溶性SiO2含量与磷固定率明显高于0.25、1.00.mm粒径熔渣,差异达到显著水平,而0.25.mm与1.00.mm粒径熔渣差异不显著。可溶性SiO2含量与磷固定率随贮存时间的增长而增加,在1020.d达到最大值,之后逐渐减小,但减小幅度较小,总体趋于稳定。磷的固定率与熔渣中Fe2O3、CaO、MgO含量呈正相关,而与熔渣中SiO2、有效硅含量呈负相关,说明熔渣主要通过铁、钙、镁与磷发生吸附,且硅的存在可以有效降低磷的吸附。     

Microbial biomass phosphorus and alkaline phosphomonoesterase activity in the rhizosphere of different wheat cultivars as influenced by inorganic phosphorus and farmyard manure

Wheat cultivars C 306, PBW 175, HD 1553, and HD 2329 were grown in an alkaline soil with and without inorganic P fertilizer and/or farmyard manure in a pot culture experiment. Microbial biomass P (MBP) and alkaline phosphomonoesterase (APM) activities were studied in rhizosphere soils of the above wheat cultivars at different physiological stages. Root weight and P uptake were also estimated simultaneously. Higher microbial biomass P was observed at crown root initiation (CRI) stage while APM activities were higher at panicle initiation (PI) stage. The HD cultivars showed higher MBP and APM activities at PI stage, while at CRI stage, the reverse was true. Though the application of inorganic P apparently showed higher APM activity, the ratio of APM activity and microbial biomass P (APM to MBP) decreased in the presence of inorganic fertilizer P. Inorganic P compared to FYM was the more dominant factor in reducing the APM to MBP ratio. Root weight did not correlate with grain yield. From step-wise regression analysis, it was revealed that microbial biomass P at both CRI and PI stages was a significant factor in influencing the P uptake in relation to grain yield of wheat.     

过磷酸钙用量对猪粪堆肥过程及磷形态变化的影响

【目的】过磷酸钙作为常用的畜禽粪便堆肥添加剂,具有减少氮素损失率并提高氮、磷养分含量等优点,但其对磷的有效性和形态的影响有待深入探讨。通过试验研究不同过磷酸钙添加量对猪粪锯末好氧堆肥过程的影响及堆肥中不同形态磷含量和形态之间的相互转化规律,以期为畜禽粪便堆肥中磷素的转化及合理施用提供科学依据。【方法】将猪粪和锯末以质量比（鲜重）4:1的比例混合,然后按照猪粪和锯末干物质量的5%、10%、15%添加过磷酸钙,以不添加过磷酸钙作为对照（CK）,进行42 d好氧堆肥,监测堆肥温度、含水率、pH、全氮、有机碳、全磷、有效磷、有机磷等指标。【结果】与CK相比,添加适量过磷酸钙可以显著提高堆肥的温度,增加高温持续期2~10 d;提高堆肥物料的持水能力,加快有机碳降解。添加5%~15%的过磷酸钙可以显著降低堆肥初始pH值0.33~0.68个单位,有效抑制堆肥过程中铵态氮的挥发损失,CK、5%、10%和15%的处理在堆肥结束时的氮素损失率分别为29.4%、26.6%、18.5%和8.0%,全氮和全磷含量分别较堆肥初增加17.3~34.2%和37.0%~123.1%。CK有效磷含量随堆肥时间不断上升,第42 d较堆肥初增加73.0%,而添加过磷酸钙5%、10%和15%的处理有效磷含量显著降低,分别较堆肥初减少了4.0%、23.2%和41.8%。随着堆肥的进行,各处理中有效磷占全磷的比例均不断下降,表明堆肥过程降低了磷的有效性。堆肥前期以有机磷的矿化为主,后期以有机磷的合成为主,第42 d有机磷占全磷的比例CK最高（22.1%）,添加5%、10%和15%过磷酸钙的处理分别为15.4%、11.0%和8.7%。【结论】猪粪堆肥中添加过磷酸钙,可以有效减少氮素损失,加快有机物料降解,以10%的添加量效果最佳;堆肥过程降低了磷的有效性,随着过磷酸钙用量的增加有效磷的比例不断下降;腐熟后堆肥中的磷以无机态为主,有机磷占全磷的比例随着过磷酸钙用量的增加而递减。     

Effect of phosphorus‐enriched biochar and poultry manure on growth and mineral composition of lettuce (Lactuca sativa L. cv.) grown in alkaline soil

The use of pyrolysis products of manures gives positive effects on soil fertility, crop productivity and soil carbon sequestration. However, effects depend on soil characteristics, plant species and the raw material from which the biochar is derived, and some negative effects of biochar have been reported. The objective of this study was to evaluate the effectiveness of poultry manure (PM)‐derived biochar on the growth, and P, N, K, Ca, Mg, Fe, Zn, Cu and Mn concentration of lettuce (Lactuca sativa L.) plant. The treatments as follows: control, 20 g/kg poultry manure (PM), 20 g/kg phosphorus‐enriched poultry manure (PM+P), 10 g/kg Biochar (B), 10 g/kg Biochar+P (B+P). Application of biochar and PM significantly increased lettuce growth, and P‐enriched forms of PM and biochar gave the higher growth. PM has no significant effect on the N concentrations but biochar and, P‐enriched PM and biochar treatments significantly increased N concentrations. Phosphorus concentration of the lettuce leaves significantly increased by PM and biochar treatments. Plant K concentrations were also increased by PM and biochar, and their P‐enriched forms. Leaf Ca and Mg concentrations were lower in Biochar and B+P treatments than that of PM and PM+P treatments. Compared to control and PM treatments, biochar applications reduced Fe, Zn, Mn and Cu concentrations of the lettuce plants. The results of this study indicated that application of biochar to alkaline soil is beneficial for crop growth and N, P and K nutrition, but it certainly reduced Fe, Cu, Zn and Mn nutrition of lettuce.