两株解磷细菌的解磷活性及作用机制研究

解磷细菌在增加土壤可溶性磷含量、提高磷肥利用效率方面具有重要作用。为选筛高效解磷菌、探讨其解磷机制,本文利用平板溶磷圈法筛选解磷细菌,采用钼锑抗比色法研究其解磷活性,苯磷酸二钠法研究其磷酸酶活性,利用薄层层析分析其产生的有机酸,根据生理生化特征和16S r RNA基因序列系统发育分析,确定其分类学地位。结果表明,菌株JXJ-11和JXJ-15对植酸钙的降解活性很强,3 d后培养液中可溶性磷浓度分别增加219 mg·L~(-1)和216 mg·L~(-1);对磷酸钙降解活性较弱,最高可溶性磷浓度仅为植酸钙的21.79%~30.37%;解磷细菌可分泌酸性、中性和碱性磷酸酶,降解不溶性磷,可能产生丙酸和琥珀酸等有机酸,降低培养液p H,增加可溶性磷浓度。两株细菌均为革兰氏阴性杆菌,无芽孢,产生硫化氢,其中菌株JXJ-11的16S rRNA基因序列与Sphingomonas melonis DAPP-PG 224T和S.aquatilis JSS7T相似性最高(99.79%),菌株JXJ-15的16S rRNA基因序列与Klebsiella pneumoniae subsp.pneumoniae DSM 30104T相似性最高(99.73%),根据以上信息,确定菌株JXJ-11和JXJ-15分别是鞘氨醇单胞菌属和克雷白氏杆菌属的成员。菌株JXJ-11和JXJ-15的解磷机制包括分泌有机酸和磷酸酶,其中JXJ-11在微生物磷肥研制方面具有潜在应用价值。     

Improvement of phosphorus uptake, phosphorus use efficiency, and grain yield of upland rice (Oryza sativa L.) in response to phosphate-solubilizing bacteria blended with phosphorus fertilizer

Phosphorus (P) limitation in soil is a major concern for crop productivity. However, the use of chemical fertilizer is hazardous to the environment and costly. Therefore, the use of phosphate-solubilizing bacteria (PSB) is an eco-friendly approach for a sustainable agricultural system. In the present study, a field trial was conducted for two consecutive years to study the effects of three PSB strains isolated, Bacillus licheniformis, Pantoea dispersa, and Staphylococcus sp., with different P fertilizer rates on P uptake, P use efficiency (PUE), and grain yield of rice. The activities of soil enzymes were also studied in relation to PSB treatments. Comparative analysis of the yield and biochemical parameters revealed that inoculation of PSB consortium could reduce almost 50% of the recommended P dose in rice cultivation. Three PSB strains in combination with 50% P dose was most effective and showed the highest increases in P uptake and PUE as compared to the uninoculated control. Moreover, the PSB consortium combined with 50% P dose contributed to 50.58% and 35.64% yield increases compared to the uninoculated control for 2018 and 2019, respectively. Significant increases in the activities of soil dehydrogenase, alkaline phosphatase, and acid phosphatase were also recorded under PSB treatment.     

Soil phosphorus availability and rice phosphorus uptake in paddy fields under various agronomic practices

Agronomic practices affect soil phosphorus(P) availability, P uptake by plants, and subsequently the efficiency of P use. A field experiment was carried out to investigate the effects of various agronomic practices(straw incorporation, paddy water management, nitrogen(N) fertilizer dose, manure application,and biochar addition) on soil P availability(e.g., soil total P(STP), soil available P(SAP), soil microbial biomass P(SMBP), and rice P uptake as well as P use efficiency(PUE)) over four cropping seasons in a rice-rice cropping system, in subtropical central China. Compared to the non-straw treatment(control,using full dose of chemical N fertilizer), straw incorporation increased SAP and SMBP by 9.3%–18.5% and 15.5%–35.4%, respectively;substituting half the chemical N fertilizer dose with pig manure and the biochar application increased STP, SAP, and SMBP by 10.5%–48.3%, 30.2%–236.0%, and 19.8%–72.4%,respectively, mainly owing to increased soil P and organic carbon inputs;adding a half dose of N and no N input(reduced N treatments) increased STP and SAP by 2.6%–7.5% and 19.8%–33.7%, respectively, due to decreased soil P outputs. Thus, soil P availability was greatly affected by soil P input and use. The continuous flooding water regime without straw addition significantly decreased SMBP by 11.4% compared to corresponding treatments under a mid-season drainage water regime. Total P uptake by rice grains and straws at the harvest stage increased under straw incorporation and under pig manure application, but decreased under the reduced N treatments and under biochar application at a rate of 48 t ha-1, compared to the control. Rice P uptake was significantly positively correlated with rice biomass, and both were positively correlated with N fertilizer application rates, SAP, SMBP, and STP. Phosphorus use efficiency generally increased under straw incorporation but decreased under the reduced N treatments and under the manure application(with excessive P input), compared to the control. These results showed that straw incorporation can be used to increase soil P availability and PUE while decreasing the use of chemical P fertilizers. When substituting chemical fertilizers with pig manure, excess P inputs should be avoided in order to reduce P accumulation in the soil as well as the environmental risks from non-point source pollution.     

Methanotrophy-driven accumulation of organic carbon in four paddy soils of Bangladesh

Biological methane oxidation is a crucial process in the global carbon cycle that reduces methane emissions from paddy fields and natural wetlands into the atmosphere.However,soil organic carbon accumulation associated with microbial methane oxidation is poorly understood.Therefore,to investigate methane-derived carbon incorporation into soil organic matter,paddy soils originated from different parent materials(Inceptisol,Entisol,and Alfisol) were collected after rice harvesting from four major rice-producing regions in Bangladesh.Following microcosm incubation with 5%(volume/volume)¹³ CH₄,soil¹³ C-atom abundances significantly increased from background level of 1.08% to 1.88%–2.78%,leading to a net methane-derived accumulation of soil organic carbon ranging from 120 to 307 mg kg^-1.Approximately 23.6%–60.0% of the methane consumed was converted to soil organic carbon during microbial methane oxidation.The phylogeny of¹³ C-labeled pmoA(enconding the alpha subunit of the particulate methane monooxygenase) and 16 S rRNA genes further revealed that canonical α(type II) and γ(type I) Proteobacteria were active methane oxidizers.Members within the Methylobacter-and Methylosarcina-affiliated type Ia lineages dominated active methane-oxidizing communities that were responsible for the majority of methane-derived carbon accumulation in all three paddy soils,while Methylocystis-affiliated type IIa lineage was the key contributor in one paddy soil of Inceptisol origin.These results suggest that methanotroph-mediated synthesis of biomass plays an important role in soil organic matter accumulation.This study thus supports the concept that methanotrophs not only consume the greenhouse gas methane but also serve as a key biotic factor in maintaining soil fertility.     

Residual effects of organic acid-treated phosphate rocks on some soil properties and phosphate availability

The effects of the application of organic acid-treated phosphate rocks on the growth and nutrient uptake of Italian rye grass (Lolium multiflorum Lam. cv. Tachiwase) and some properties of the soil were evaluated in a greenhouse pot experiment. Phosphate rocks (PRs) collected from six countries; China, Florida (USA), Jordan, Sri Lanka, Togo, and Tanzania, were treated with 1 M oxalic or tartaric acid at the ratio of 2.5 mL g^-1 PR. The organic acid-treated PRs, containing 12–31% water soluble P, were applied to a granitic regosol (pH 5.8) at 200 mg P pot^-1 (4 kg soil). Untreated PRs and single superphosphate (SSP) were included in the treatments. Italian ryegrass was grown for 175 dafter planting (DAP) with ample supply of other nutrients and water. Shoots were harvested at 56, 119, and 175 DAP and the soils were analyzed for pH and Olsen-P after the experiment. Application of organic acid-treated PRs consistently increased the dry matter yield and P uptake of the plants compared with the application of untreated PRs at each harvest, but they were less effective than SSP. A larger amount of P (calculated per unit water-soluble P applied) was recovered from the organic acid-treated PRs than from SSP. The amount of residual extractable P in the soils with the organic acid-treated PRs was about the same as or significantly larger than that in the soil treated with SSP. Soil pH was also significantly higher than in the control and SSP soils. The results suggest that organic acids could be used to improve the P availability of PRs to plants with favorable residual effects in terms of available P and soil pH, without exerting any adverse effects on plant growth or nutrient acquisition.     

Low-molecular weight organic acids improve plant availability of phosphorus in different textured calcareous soils

Understanding the role of organic acids on phosphorus (P) sorption capacity of soils is very important for its economic and friendly management. Combining P application with low-molecular weight organic acids could result in its higher plant availability for prolonged time. Therefore, citric and oxalic acid (at the rate of 1.0 mM kg^?1 soil) were evaluated for their effect on P sorption capacity and its plant availability in two different textured calcareous soils. Organic acids decreased P sorption capacity and organic carbon partition coefficient (K_oc) whereas increased Gibbs free energy (ΔG) of P. Organic-acid-treated soils required lesser quantity of P fertilizer to produce soil solution P concentration optimum for plant growth (external P requirement [EPR_0.2]), that is, 0.2 mg L^?1. Citric acid was efficient than oxalic acid in the above effects. P sorption parameters of Freundlich model were negatively correlated with lime potential and ΔG whereas had positive correlation (P < 0.05) with EPR_0.2 and K_oc. Incubation with oxalic acid increased available P in loamy sand and loam soil by 20% and 30%, respectively. Thus, organic acids could help reduce application rate of P fertilizer through lowering its adsorption in highly P-fixing soils without compromise on yield.     

模拟干湿交替对水稻土古菌群落结构的影响

干湿交替是自然界普遍存在的现象,但长期以来由于技术的限制,复杂土壤中微生物对水分变化的响应规律仍不清楚。针对我国江苏常熟湖泊底泥发育的典型水稻土,在室内开展湿润-风干以及风干-湿润各三次循环,每次循环中湿润、风干状态各维持7d,利用微生物核糖体rRNA的通用引物进行PCR扩增,通过高通量测序分析土壤古菌多样性变化,同时结合实时荧光定量PCR技术,在DNA和RNA水平研究古菌数量对干湿交替过程的响应规律。结果表明:水稻土湿润-风干过程中,在DNA水平土壤古菌数量降幅约为149倍~468倍,而在RNA水平降幅最高仅为2.06倍;水稻土风干-湿润过程中,在DNA水平古菌数量增幅在147倍~360倍之间,而在RNA水平增幅最高仅为2.95倍。表明在干湿交替过程中,DNA水平的古菌16S rRNA基因数量变化远高于RNA水平。基于高通量测序多样性的结果表明,在DNA和RNA水平,湿润土壤3次风干、以及风干土壤3次加水湿润7d恢复后,土壤古菌群落结构均发生统计显著性改变。在微生物门、纲、目、科和属的不同分类水平下,水稻土古菌主要包括3、10、13、14、10种不同的类群,在RNA和DNA水平的结果基本一致。干湿交替导致部分古菌类群发生显著变化,其中在微生物分类学目水平发生显著变化的古菌最高达到6种,主要包括产甲烷古菌和氨氧化古菌,如Methanobacteriales、Methanosarcinales、Methanomicrobiales和Nitrososphaerales等。这些研究结果表明,反复的干湿交替并未显著改变水稻土中古菌的主要类群组成,古菌类群的绝对数量和相对丰度发生了一定程度的变化,但这些变化与微生物生理作用的联系仍需进一步研究;风干土壤中古菌RNA序列极可能来自于完整的古菌细胞,暗示了这些古菌细胞能够较好地适应水稻土中水分的剧烈变化,风干状态的土壤在一定程度也可用于土壤古菌群落组成研究。     

Community structure of bacteria on different types of mineral particles in a sandy soil

Various types of mineral particles in a soil probably provide different microenvironments for microorganisms. The purpose of this study is to investigate whether different types of mineral in a soil harbor different bacterial populations. DNA was extracted from five types (quartz, feldspar, pyroxene, magnetite, iron-coated reddish brown particles) of sand-size mineral particles separated from a sandy soil, and was amplified for partial 16 S rRNA gene by polymerase chain reaction (PCR). Twenty-nine to 69 amplicons per each type of mineral were cloned and sequenced, followed by phylogenetic affiliation of the sequences. As a result, some types of bacteria were detected on all of the types of mineral including the orders Rhizobiales, Bacillales, and Acidobacteriales. In the case of Acidobacteriales, higher percentages were found on magnetite and quartz. Some taxa were restricted to specific types of mineral; the class Actinobacteria was found on pyroxene but not on quartz, and rarely on magnetite and feldspar. Bacterial diversity at the order level estimated by Chao1 value was higher in feldspar and pyroxene than the other three types of mineral. The UniFrac Significance test indicated that the differences in bacterial communitiy structures among the particles were suggestive except that between feldspar and pyroxene. These results support the idea that different communities of bacteria were associated with each of the mineral types.     

泰国水稻土Fe还原细菌对盐分和有机物改良的响应

In paddy soils of Thailand,the addition of organic matter (OM) is used to efficiently limit the effect of salinity on rice culture and production.OM used as an amendment and fertilizer promotes the reduced condition and increases iron solubilization without provoking ferrous toxicity.In this study,the intricate biogeochemical role of iron-reducing bacteria (IRB) involved in the quality of water and soil of paddy fields,particularly when the paddy fields were subject to salinity and organic matter addition,were studied in paddy fields of Thailand.The results demonstrated that the addition of OM increased the proliferation of cultivable IRB and their specific activity.Cultivable IRB communities decreased in the presence of salt.The presence of salt modified the structure of the bacterial populations by favoring the development of alkaline and moderately halophilic bacteria (Virgibacillus spp.,Oceanobacillus spp.,and Paenibacillus spp.).The paddy soils studied contained very diversified (halosensitive,halotolerant,and halophilic) IRB populations that could be adapted to a variety of salinity conditions (0-90 g L 1 NaCl) using different organic substrates (glucose,acetate,and soil organic matter) to maintain significant activities under extreme conditions of salinity.The rhizosphere of rice stimulated IRB community growth without organic matter,whereas organic matter addition limited the rhizosphere effect on IRB cultivable number in saline condition.The interactive action of salinity and organic amendment had a negative impact on the rhizosphere effect.The presence of specific iron-reducing populations (fermentative,iron-respiring,anaerobic,and facultative anaerobic),having different behaviors under salt and redox stresses,appeared to be a key factor that contributed to the control or enhancement of the quality of water and soil in paddy fields.     

Survival of bacterial DNA and culturable bacteria in archived soils from the Rothamsted Broadbalk experiment

Dried soil samples from many sources have been stored in archives world-wide over the years, but there has been little research on their value for studying microbial populations. Samples collected since 1843 from the Broadbalk field experiment on crop nutrition at Rothamsted have been used to document changes in the structure and composition of soils as agricultural practices evolve, also offering an invaluable record of environmental changes from the pre- to post-industrial era in the UK. To date, the microbial communities of these soils have not been studied, in part due to the well-documented drop in bacterial culturability in dried soils. However, modern molecular methods based on PCR amplification of DNA extracted directly from soil do not require bacterial cells to be viable or intact and may allow investigations into the legacy of bacteria that were present at the time of sample collection.

In a preliminary study, to establish if dried soils can provide a historical record of bacterial communities, samples from the Broadbalk soil archive dating back to 1868 were investigated and plots treated with either farmyard manure (FYM) or inorganic fertilizer (NPK) were compared. As anticipated, the processes of air-drying and milling greatly reduced bacterial viability whilst DNA yields declined less and may be preserved by desiccation. A higher proportion of culturable bacteria survived the archiving process in the FYM soil, possibly protected by the increased soil organic matter. The majority of surviving bacteria were firmicutes, whether collected in 2003 or in 1914, but a wide range of genera was detected in DNA extracted from the samples using PCR and DGGE of 16S rRNA genes. Analysis of DGGE band profiles indicated that the two plots maintained divergent populations. Sequence analysis of bands excised from DGGE gels, from a sample collected in 1914, revealed DNA from - and β-proteobacteria as well as firmicutes. PCR using primers specific for ammonia oxidizing bacteria showed similar band profiles across the two treatments in recently collected samples, however older samples from the NPK plot showed greater divergence. Primers specific for the genus Pseudomonas were designed and used in real-time quantitative PCR to indicate that archived soil collected in 1868 contained 10-fold less pseudomonad DNA than fresh soil, representing around 10⁵ genomes g⁻¹ soil. Prior to milling, dramatically less pseudomonad DNA was extracted from recently collected air-dried soil from the NPK compared to the FYM plot; otherwise, the two plots followed similar trends. Overall bacterial abundance, diversity and survival during the archiving process differed in the two soils, possibly due to differences in clay and soil organic matter content. Nevertheless, the results demonstrate that air-dried soils can protect microbial DNA for more than 150 years and offer an invaluable resource for future research.     

氮肥对稻田土壤反硝化细菌群落结构和丰度的影响

以氮肥田间定位试验为研究对象,利用PCR-DGGE(聚合酶链反应变性梯度凝胶电泳)和荧光定量PCR(real-time PCR)技术,通过对反硝化细菌nirS基因的检测,分析了定位试验第2年稻田反硝化细菌群落结构和丰度的变化。DGGE图谱及依据其条带位置和亮度数字化数值进行的主成分分析(PCA)结果均显示:在氮肥定位试验第2年,与不施肥对照(CK)比较,在水稻各个生育期(分蘖期、齐穗期和成熟期)内,施用氮肥[150kg(N)·hm-2]的稻田根层土或表土中的反硝化细菌群落结构均无明显变化;且稻田根层土或表土中的反硝化细菌群落结构在水稻各个生育期间也均无明显差异。荧光定量PCR结果显示,在水稻生长发育过程中,施用氮肥的稻田根层土或表土中的反硝化细菌nirS基因拷贝数始终显著(P<0.05)高于其对应的不施肥对照。此外,无论施用氮肥与否,根层土中的反硝化细菌nirS基因拷贝数在水稻成熟期时都会显著(P<0.05)降低;但表土中的nirS基因拷贝数在水稻各生育期间无明显变化;且水稻成熟期时施用氮肥和不施肥的稻田表土中nirS基因拷贝数都显著(P<0.05)高于根层土。同时,与对照比较施用氮肥可促进水稻增产44%。研究表明,短期定位试验中施用氮肥能够显著提高稻田土壤反硝化细菌的丰度,但对其群落结构没有明显影响。     

印度西部卡奇沼泽地沉积物中微生物活性和人工培养细菌多样性的研究

The Great Rann of Kachchh, a vast expanse of salt desert in Western India is a unique hostile ecosystem posing an extreme environment to life forms due to high salt content, hyper-axid climate, seasonal water logging and extremes of temperature. In the virtual absence of natural vegetation, soils and sediments of Rann of Kachchh axe microbially dominated ecosystems. In the present study microbial activity and the diversity of cultivated heterotrophic bacteria were investigated in the sediments collected along a 5-m exposed section at Khadir Island in the Great Rann of Kachchh. Microbial activity （as an index of sediment enzymes） was found to be high in the middle of the section （200-280 cm）. Dehydrogenase （DHA）, substrate-induced DHA and alkaline phosphatase activities revealed the oligotrophic nature of the basal portion （320-480 cm）. Abundant bacterial isolates obtained from different depths were found to be clustered in 12 different phylogenetic groups by amplified ribosomal DNA restriction analysis. 16S rRNA gene sequencing revealed the dominant bacterial ribotypes to be affiliated to Firmicutes （Families Bacillaceae and Staphyloeoccaeeae） and Aetinobaeteria （Family Brevibaeteriaceae） with minor contribution of Proteobacteria （Families Phyllobacteriaeeae and Bartonellaceae）, pointing their endurance and adaptability to environmental stresses. Statistical analysis indicated that sediment organic carbon, salinity, total available nitrogen and total available phosphorous are most likely critical determinants of microbial activity in the Khadir Island sediments.     

Biosolubilization of phosphorus from rock phosphate and other P fertilizers in response to phosphate solubilizing bacteria and poultry manure in a silt loam calcareous soil

‘Phosphate solubilizing bacteria' (PSBs) are able to release unavailable P from native and applied P sources into plant‐available soil pool through their solubilizing and acidifying effects. The effects of three indigenous and one exotic PSBs on P solubilization from different P sources, plant biomass production, and P‐uptake efficiency of maize (Zea mays L.) were examined in an incubation and greenhouse study. For incubation study, surface (0–15 cm) soil was collected from an arable field (Inceptisols) and amended with rock phosphate (RP), single superphosphate (SSP), poultry manure (PM), and RP+PM with and without PSBs. The amended soil was incubated in the control environment at 25 ± 2°C for a total of a 100‐d period to establish relative potential rate of P solubilization of added P sources. A complementary greenhouse experiment was conducted in pots by growing maize as a test crop. Growth characteristics, P‐uptake, and P‐utilization efficiency (PUE) were determined. Phosphate solubilizing bacteria generated a solubilization effect on different P sources by releasing more P into plant‐available soil pool, i.e., 14.0–18.3 µg g^?1 in RP, 5.0–9.9 µg g^?1 in SSP, 1.4–4.4 µg g^?1 in PM, and 4.5–7.8 µg g^?1 in RP+PM compared to their sole application without PSBs. The available P from inorganic SSP declined continuously from the mineral pool (after day 30) and at the end 40% of applied P was unaccounted for. However, P losses were reduced to 28 and 27% when PSBs (PSB₁ and PSB₃) were applied with superphosphate treatments. In the absence of PSBs, the recoveries of applied P (in soil) from RP, SSP, PM and RP+PM were 4, 25, 9, and 12%, respectively, those had been increased to 14, 30, 12 and 15% in the presence of PSBs. Similarly, the plant biomass in RP+PSBs treatments compared to the RP without PSBs increased between 12–30% in first sampling (30 DAG) and 13–30% in the second sampling (60 DAG). The P utilization efficiency (PUE) in plants supplemented with PSBs was 20–73% higher compared to those without PSBs. The detection of oxalic and gluconic acids in culture medium treated with PSBs (7.8–25.0 and 25–90 mg L^?1, respectively) confirmed the production of organic acids by the indigenous bacterial isolates. This study indicate that low P recovery both in plant and soil can likely be improved by using indigenous PSBs and organic amendment poultry manure, which allowed a more efficient capture of P released due to P solubilization.     

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.     

不同灌溉和施肥模式对稻田磷形态转化和有效性的影响

为阐明不同灌溉和施肥模式对水稻磷吸收和利用效率、稻田土壤磷形态转化特征的影响及其对土壤磷素有效性的贡献,该研究以杂交籼稻中浙优1号为供试材料,设常规淹灌（Conventional Flooding,CF）、干湿交替（Alternate Wet and Dry irrigation,AWD）2种灌溉模式,以及不施肥（CK）、常规尿素（Ureal,100%PU）、常规尿素减氮20%（80% of Urea,80%PU）、缓控释复合肥减氮20%+生物炭（80% of Control-Released Fertilizer+Biochar,80%CRF+BC）和稳定性复合肥减氮20%+生物碳（80% of Stable Fertilizer+Biochar,80%SF+BC）5种施肥模式,对比分析了不同灌溉和施肥模式下水稻产量、磷吸收效率、稻田土壤磷有效性及土壤磷形态变化特征。1）与CF相比,AWD灌溉模式下80%CRF+BC和80%SF+BC处理水稻产量显著高于100%PU和80%PU处理（P<0.05）;2）AWD灌溉显著增加了成熟期80%SF+BC处理水稻穗部磷累积量,且80%CRF+BC与80%SF+BC处理水稻各器官磷累积量、磷吸收效率与磷肥偏生产力均显著高于80%PU处理;3）AWD灌溉显著提高80%CRF+BC和80%SF+BC处理土壤有效磷、无机磷、有机磷含量与磷活化系数,以及土壤各形态无机磷和0～15 cm 土壤中活性有机磷（Moderately Labile Organic Phosphorus,MLOP）、活性有机磷（Labile Organic Phosphorus,LOP）含量,且其含量均显著高于两组尿素处理;4）相关分析表明,土壤中稳态有机磷（Moderately Resistant Organic Phosphorus,MROP）、LOP、MLOP和Al-P是土壤有效磷的主要决策因子,O-P（闭蓄态磷）和Ca-P是有效磷的主要限制因子。通过适宜的水肥管理提高MROP、LOP、MLOP含量可能是提高土壤有效磷的潜在有效途径。AWD灌溉模式下,生物炭配施稳定性复合肥/缓控释肥能通过调控土壤磷形态转化和磷素活化提高稻田磷有效性,进而提高水稻磷吸收累积和磷素利用效率。研究结果可为通过不同水肥管理模式提高水稻磷利用效率提供理论依据。     

磷素吸附特性演变及其与土壤磷素形态、土壤有机碳含量的关系

在黄土旱塬区长期试验(1985-1997年)中,选取对照(不施肥,CK)、磷肥(P2O5.60.kg/hm2,P)、氮肥(N.120kg／hm2,N)、氮磷(N,120.kg／hm2,P2O5,60.kg/hm2,NP)、氮磷有机肥(N.120.kg/hm2,P2O560.kg/hm2,有机肥75.t／hm2,NPM),种植方式为冬小麦连作的5种有代表性的施肥处理,研究了石灰性土壤磷素吸附特性的演变及其与土壤磷素形态、土壤有机碳(SOC)含量的关系。结果表明,P素的最大吸附量(Qm),1997年对照(CK)、N处理比1985年分别提高了18％和14％;而P、NP和NPM处理分别降低了26％、13％和24％。吸附能常数(k值)随时间延长,对照和N处理相对稳定,P和NP处理呈升高趋势,而NPM处理有降低趋势。土壤磷素吸附饱和度(DPS)和零净吸附磷浓度(EPC0)对照和N处理随时间延长呈降低趋势,P、NP和NPM处理呈升高趋势。Qm与Ca8-P、Al-P存在极显著相关关系(P0.001),与Ca2-P、Pe-P存在显著相关关系(P0.05)。Ca2-P、有机磷含量变化与土壤DPS的相关性达到显著水平(P0.05)。EPC0只与有机磷间存在显著的相关关系(P0.05)。Qm、DPS和EPC0变化与SOC存在显著或极显著的线性相关关系(P0.001)。     

Soil phosphorus status of organic farming in Flanders: an overview and comparison with the conventional management

Abstract. A number of organic farms in Flanders were sampled to investigate the general phosphorus (P) status and degree of P saturation (P_sat) of the soils. Where possible, the soil P status was compared to that in conventional agriculture and related to farm characteristics: agricultural land use, soil texture, fertilization intensity and time since conversion. Generally, the P status of the organic farms was high, and similar to that of conventional farms in Flanders, which is due to the restricted time since conversion to organic farming on most farms. The average soil P_sat was slightly lower (37%) than the average value for East Flanders (39%) taken over the soil profile to 90 cm. However, a large proportion of the field areas on organic farms still had a P_sat greater than 30% (critical P_sat value), which may be an indication that P saturation will continue to be a problem for these farms.     

湖南稻田土壤有机磷组分的施磷效应、季节变化及生物有效性研究

为探明施用磷肥对湖南稻田土壤有机磷组分的影响、有机磷组分的季节变化及其有效性,以湖南省5种不同母质发育的稻田土壤为供试土壤,通过盆栽试验,研究了稻田土壤有机磷组分的施磷效应、在植稻期间的动态变化及其生物有效性。结果表明,施用磷肥可以使土壤中活性有机磷得到较大的增加,而对活性有机磷、中稳性有机磷和高稳性有机磷影响较小。在施磷和不施磷条件下,土壤有机磷的变化主要是中活性有机磷,而其余3种形态有机磷在水稻生长期间几乎保持不变。不管土壤是否施用磷肥,土壤有效磷与有机磷总量总是呈极显著相关,说明土壤有机磷的确是植物可以利用的有效磷源;在早稻生长期间土壤各形态有机磷的生物有效性的大小顺序为:中活性有机磷中稳性有机磷高稳性有机磷活性有机磷;在晚稻生长期间土壤各形态有机磷的生物有效性一般随水稻生育期不同而不同。     

垄作免耕对稻田垄埂土壤有机碳累积和作物产量的影响

依托稻田免耕长期定位试验,研究了垄作免耕对稻田垄埂土壤有机碳累积和作物产量的影响。研究主要涉及常规平作(中稻-冬水田,简称中稻)、常规平作(中稻-油菜,简称稻油)、垄作免耕(中稻)和垄作免耕(稻油)等4个耕作处理。针对垄作对田面微地形的影响,将垄作小区中所有垄埂当成一个整体,统计其土壤有机碳的累积指标,再与平作处理中同体积或同质量的表土层(对比土层)作比较。结果表明,在对比土层和小区垄埂体积相同时,垄作免耕(稻油)的垄埂土壤有机碳密度要显著高于2个常规平作处理中对比土层和垄作免耕(中稻)的垄埂(p0.05);在对比土层与小区垄埂质量相同时,各耕作处理的垄埂或对比土层中单位质量土壤的固碳量依次为:垄作免耕(稻油)常规平作(中稻)垄作免耕(中稻)常规平作(稻油),且处理间差异显著(p0.05)。这表明,针对垄埂和对比土层而言,垄作免耕(稻油)的土壤有机碳累积效应要优于垄作免耕(中稻)和常规平作处理。与传统的常规平作相比,垄作免耕的水稻增产效应明显,虽然其会导致油菜减产,但不影响水旱两季作物的经济总产出。总体而言,垄作免耕(稻油)是一种能兼顾环境和经济效益的稻田保护性耕作措施。