基于31P-NMR与SMT方法的海河流域典型河流沉积物中磷形态特征研究

利用液相~(31)P核磁共振分析方法和SMT分级方法,对比研究了海河流域典型人工河流子牙新河和滏阳新河、自然河流子牙河表层沉积物中磷形态.结果发现,两条河流沉积物中TC、TN、TP含量均很高,且相关性显著,污染较重且具有同源性.沉积物中总磷在568.2~9171.9mg·kg-1之间,其中以HCl-P为主,占总磷的25.5%~81.8%之间,其次为NaOH-P,所占比例为9.3%~55.5%.使用~(31)P-NMR技术在沉积物中共检测到7类磷化合物:正磷酸盐(Ortho-P)、磷酸单酯(Mono-P)、磷脂(Lipid-P)、DNA磷(DNA-P)、焦磷酸盐(Pyro-P)、膦酸盐(Phon-P)及多聚磷酸盐(Poly-P).Ortho-P和Mono-P分别为总磷和有机磷的主要组成成分,含量分别在113.8~6226.1 mg·kg~(-1_和27.0~1991.9 mg·kg~(-1)之间.子牙河、子牙新河和滏阳新河两条河流在沉积物磷组成方面存在很大的差异子牙新河和滏阳新河沉积物中总磷明显高于子牙河.     

Phosphorus speciation in the sediment profile of Lake Erhai, southwestern China: Fractionation and 31P NMR

The distribution characteristics of phosphorus(P) forms in the sediment profile of Lake Erhai,in southwestern China has been investigated by sequential extraction and 31P nuclear magnetic resonance spectroscopy(NMR) of NaOH extracts to understand P dynamics and its potential contribution to lake eutrophication.Contents of P fractions varied in the order of NH4Cl extracted P(NH4ClP) < bicarbonate-dithionite extracted P(BD-P) < HCl-P,Residual-P < NaOH extracted P(NaOH-P).The highly available NH4Cl-P represented less than 1% of total P(TP).BD-P and NaOH extracted reactive P(NaOH-rP) averaged 39%,while the ratio of Fe/P was higher than 15,indicating low P release from the sediments under permanent oxic condition.The less bio-available HCl-P,NaOH extracted nonreactive P(NaOH-nrP) and residual-P contributed 61% of TP.Regression analysis revealed that BD-P,NaOH-rP and HCl-P were positively correlated with the contents of Fe and Mn,Al and Fe,and Ca,respectively.The investigation of P compound groups in NaOH extracts by 31 P NMR showed that ortho-P and monoester-P were the largest two constituents of the P pool,followed by diester-P,phosphonate and pyro-P.A comparison of vertical variations of P groups in the sediment profile suggested that these compounds were involved in the P recycling to different extents in Lake Erhai.In particular,the lake exhibits high potential for labile P release from the surface sediments,which should be taken into consideration even after the outsourced P runoff ceased.     

基于液相31P核磁共振(NMR)技术的巢湖沉积物中有机磷形态研究

利用改进的沉积物有机磷提取方法和液相31P核磁共振(NMR)分析方法,研究了巢湖表层沉积物有机磷形态.结果表明:西部湖区表层沉积物总磷含量高于东部湖区,其平均含量分别为(1089.82±108.14) mg·kg-1和(497.80±51.59) mg·kg-1;东部湖区沉积物中有机磷百分含量(31.88％±2.41％)高于西部湖区(20.86％±1.65％);表层沉积物主要磷份组成包括膦酸盐(Phon-P)、正磷酸盐(Ortho-P)、磷酸单酯(Mono-P)、磷脂(Lipid-P)、DNA(DNA-P)、焦磷酸盐(Pyro-P);磷酸单酯为有机磷的主要组分,平均含量占总磷的22.12％±5.32％;磷酸单酯和DNA百分含量东部湖区大于西部湖区,磷酸单酯百分含量分别为25.99％±2.29％和16.30％±1.06％,DNA百分含量分别为5.61％±0.24％和3.85％±1.01％.31P核磁共振技术可以有效的应用于巢湖等富营养化湖泊沉积物磷形态分析;巢湖表层沉积物以无机磷为主,有机磷种类丰富,以磷酸单酯为主.     

Assessment of labile phosphorus fractions and adsorption characteristics in relation to soil properties of West African savanna soils

A large proportion of total P in the soils of the area is unavailable to plants and consequently P is the second most limiting nutrient. The labile and moderately labile phosphorus fractions and adsorption characteristics of surface and subsurface horizons of eleven soil profiles in the derived savanna (DS) and the northern Guinea savanna (NGS) of West Africa were assessed. The labile P fractions are the resin and HCO₃-extractable inorganic (Pi) and organic (Po) P. The moderately labile fractions are the NaOH-extractable portion of soil P in the Hedley sequential procedure. In the DS soils, the resin P, considered the most readily available fraction, varied from 1 to 14 mg kg⁻¹, HCO₃-Pi ranged from 3.3 to 11, and HCO₃-PO was between 4 and 12 mg kg⁻¹ in the surface horizon. In the NGS, the topsoil contained 1.5–3 mg kg⁻¹ of resin P, 5–8 mg kg⁻¹ of HCO₃-Pi, and 7.5–9.7 mg kg⁻¹ of HCO₃-Po. Sodium hydroxide-Po was the largest of the fractions in all the soils studied. It ranged from 23 to 55 mg kg⁻¹ in the topsoil. In general, the labile P levels were higher in soils of the DS than of the NGS and were related to the oxalate-extractable Fe (Fe_ox), and Al (Al_ox) as well as to soil texture. The subsoil of Kasuwan Magani (profile KS 9–21 cm) required 153 mg P kg⁻¹ to maintain 0.2 mg P l⁻¹ in solution (standard P requirement), and Danayamaka (profile DD 7–32 cm) required 145 mg P kg⁻¹. These could translate to 214 and 200 kg P ha⁻¹ if a plow layer of 10 cm is assumed. Because these are within the plow layer, more P fertilizer would be needed for crop production than in the other soils. The standard P requirement and the adsorption maxima were related to Fe_ox and Al_ox, dithionite-Fe (Fe_d), and texture. The increase in labile P content with decreasing Fe_ox and Al_ox could imply that management practices capable of reducing the activities of Fe and Al in solution might improve P availability.     

环渤海滨海湿地土壤磷形态特征研究

利用SMT分级方法和液相31P核磁共振分析方法,研究了环渤海典型滨海湿地表层土壤磷形态.结果发现,湿地土壤中总磷在410.35~691.57 mg·kg-1之间,其中以HCl-P为主,占总磷的46.67%~82.95%;较易释放的Na OH-P含量较少,占4.98%~22.31%;同时,由于有机质含量丰富,有机磷含量也较高,在受水产养殖污染的湿地中,有机磷含量明显偏高.使用31P-NMR技术在湿地土壤中共检测到6类磷化合物:正磷酸盐(Ortho-P)、磷酸单酯(Mono-P)、磷脂(Lipid-P)、DNA磷(DNA-P)、焦磷酸盐(Pyro-P)及膦酸盐(Phon-P),其中以正磷酸盐为主,含量在181.69~350.64 mg·kg-1之间;磷酸单酯为有机磷的主要组分,占总量的5.25%~37.17%.渤海湾南部湿地土壤中有机磷含量明显高于北部湿地,以稳定性较高的磷酸单酯为主,同时,DNA磷较多地存在于南部湿地,北部湿地含量极少,说明南部湿地微生物活性较高.     

基于液相31P核磁共振技术的人工河流沉积物中生物质磷形态特征的研究

利用液相~(31)P核磁共振技术分析了我国北部海河流域典型人工河流滏阳新河沉积物磷形态.结果发现,滏阳新河沉积物中共检测出6类磷化合物:正磷酸盐(Ortho-P)、磷酸单酯(Mono-P)、磷酯(Lipids-P)、DNA磷(DNA-P)、焦磷酸盐(Pyro-P)、膦酸盐(Phon-P).滏阳新河沉积物中的生物质磷包括膦酸盐(Phon-P,0.11%~1.57%)、磷酸单酯(Mono-P,8.96%~29.58%)、磷酯(Lipids-P,0.28%~2.66%)、DNA磷(DNA-P,0.75%~2.03%)、焦磷酸盐(Pyro-P,0.22%~0.86%),其中,磷酸单酯是生物质磷的主要组成部分.沿艾辛庄闸坝水流方向,磷化合物含量差异明显:闸坝附近TP和生物质磷含量最高,分别为6804.1 mg·kg~(-1)和1709.58 mg·kg~(-1);沿河流流向,TP变化率分别为84.97%、-24.11%、32.84%和-0.11%,生物质磷变化率分别为93.15%、-58.83%、42.65%和18.99%.上覆水中TP和SRP的平均浓度分别为3.0 mg·L~(-1)和2.6 mg·L~(-1),分别超过我国地表水环境质量标准(GB3838-2002)V类水标准(0.4 mg·L~(-1))7.5倍和6.5倍.基于液相~(31)P核磁共振技术,对人工河流水体磷的分布与传输有了全新的认知.因此,本研究可为深入认识磷在典型人工河流沉积物-水体系中的转化提供支持,有助于深入研究典型人工河流磷生物地球化学循环过程,同时为多闸坝人工河流的水流量调度与水生态构建提供数据支持.     

Sheepfolds as “hotspots” of nitric oxide (NO) emission in an Inner Mongolian steppe

We investigated nitric oxide (NO) fluxes at a summer and a winter sheepfold in the Baiyinxile livestock farm, near Xilinhot, Inner Mongolia, which are a typical feature of the regional husbandry. Using a manual static opaque chamber/chemiluminescence measuring system, we intermittently observed fluxes in the summer sheepfold between May 28th and September 26th 2005 and in both winter and summer sheepfolds between March 8th and October 18th 2006. During these periods, mean NO emissions (±S.E., in terms of mass of nitrogen) were 124.0 ± 28.7, 134.6 ± 23.3 (summer sheepfold) and 214.4 ± 79.6 μg NO–N m⁻² h⁻¹ (winter sheepfold), respectively, and thus, three magnitudes higher than observed steppe NO emissions in the same region. The NO fluxes were not significantly different between the 2 years, but in summer they were much higher than in spring (p < 0.05). Temperature and moisture of the faeces layer significantly regulated the NO fluxes (p < 0.01). The direct NO emission factor (EF) for faeces and urine excreted in the sheepfolds was 0.7 g NO–N_emitted kg⁻¹ N_excreted, which was almost 37 times lower than a recently reported N₂O EF. We estimated the total NO emission from the sheepfolds of the Baiyinxile livestock farm to be 1.82 ± 0.43 tons NO–N year⁻¹, which accounts to approximately 12.3% of the total NO emission from this steppe region. With the rapid increase of livestock numbers, sheepfold NO emissions may further increase and contribute to high N deposition in confined areas around sheepfolds.     

Effect of low-molecular weight organic acids on phosphorus release and phytoavailabilty of phosphorus in phosphate rocks added to soils

Phosphorus (P) is critically needed to improve soil fertility in many parts of the world. The use of water-soluble P fertilizers, e.g., single super-phosphate and triple super-phosphate in developing countries to improve crop production has been limited primarily by their high cost. The presence of indigenous phosphate deposits in some countries provides an incentive for direct application or local chemical treatment at low cost to improve the solubility of low reactive phosphate rocks (PRs). The use of naturally occurring low-molecular weight organic acids (LMWOAs) that are produced in soil as microbial metabolites or plant exudates from dead or living cells represents a new perspective in PR research. The LMWOAs contain various functional groups that may play a significant role in PR dissolution. Little information is available, however, about the potential of LMWOAs in releasing P from PRs. This study reports P release from 12 PRs, four each of low, medium, and high reactivity, obtained from various deposits (Kodjari, Tahoua, North Carolina, Gafsa, Khouribga, Tilemsi Valley, Central Florida, Sechura, Minjingu, North Florida, Hahotoe, and Parc W) using nine LMWOAs containing mono-, di-, and tri-carboxylic groups and a mineral acid (H₂SO₄). Laboratory studies showed that the organic acids are effective in releasing P from low and medium reactive PRs, but very ineffective in releasing P from high reactive PRs. The average amounts of P released by all the organic acids from the three types of PRs were 65.5 mmol kg⁻¹ PR from the low reactive PRs, 55.1 mmol kg⁻¹ from the medium, and 11.1 mmol kg⁻¹ from the high; those released from across all the PRs were 21.9 by the mono-carboxylic acid group, 54.2 by the di-carboxylic acid group, and 57.0 mmol P kg⁻¹ by the tri-carboxylic acid group. The P released was negatively correlated with the equilibrium pH, but positively correlated with Ca released from the PRs. Laboratory incubation studies on the release of P from PRs added to soils with or without organic acids and incubated at 25 °C for 15, 30, and 45 days showed that the percentage of plant-available P released varied considerably from 0.95 in the Kodjari PR to 40.1% in the North Carolina PR and was related to PR reactivity. A greenhouse study with corn (Zea mays L.) grown for 60 days on soils treated with PRs or with PRs mixed with organic acids showed that corn response to addition of oxalic or citric acid varied with P rates and PR sources, suggesting that organic acids have potential as amendments for increasing plant-available P in PR-treated soils.     

基于液相31P核磁共振技术的河流沉积物有机磷提取剂选择研究

以高磷污染河流沉积物为研究对象,利用液相31P核磁共振(31P-NMR)技术研究了沉积物中有机磷提取剂的选择和提取过程.结果表明:前提取以BD和EDTA效果最佳,TP和Po的提取量分别为(322.87±13.81)和(119.76±16.00)mg·kg-1、(24.91±15.25)和(20.90±2.58)mg·kg-1,2种提取剂均促进了NaOH的提取效率,前提取后NaOH提取液中TP和Po的提取量分别达到(2271.20±75.63)和(2477.40±112.71)mg·kg-1、(152.04±1.55)和(186.93±20.53)mg·kg-1;对顺磁性离子Fe和Mn而言,利用BD和EDTA+Na2S2O4作为前提取剂可以提取更多的Fe离子,提取液中的浓度分别为(5116.57±24.32)和(10677±215.61)mg·kg-1;EDTA和EDTA+Na2S2O4提取剂对Mn的去除效量较高,提取液中浓度分别为(243.02±2.80)和(266.61±1.61)mg·kg-1.液相31P-NMR图谱显示,上述提取剂处理后均可得到正磷酸盐、焦磷酸、磷酸单酯、磷脂和DNA 5种磷形态,其中EDTA可提高沉积物中正磷酸盐、焦磷酸盐、磷脂和DNA的含量.综合考虑:利用EDTA和NaOH两步提取可实现较高的Po提取量和较低的顺磁性离子干扰,并得到理想的核磁共振图谱,从而保证沉积物中有机磷液相31P-NMR分析的科学性和有效性.     

Effect of P fertilizer application on N balance of soybean crop in the guinea savanna of Nigeria

Soybean (Glycine max (L.) Merr.) is becoming increasingly important in the cereal-based cropping system of the Nigerian Guinea savanna zone and this justifies research on its effects on soil N. Although soybean can obtain 50% or more of its N requirement from the atmosphere, the N contribution of the crop to the system depends on the amount of N contained in roots, haulms, and fallen leaves after grain harvest. At four sites in the northern Guinea savanna, the effects on N balance of P fertilizer and soybean varieties of different duration were tested. The varieties received P fertilizer at the rates of 0, 30, and 60 kg P ha⁻¹. The total N accumulated aboveground at harvest averaged 104 kg N ha⁻¹ in the early and medium varieties, and 135 kg N ha⁻¹ in the late varieties. Across all varieties and sites, total N content was increased by 40–47% when P was applied. Apparent N harvest index averaged 85% but was not significantly affected by variety or P rate. When only grain was exported, the calculated N balance of the early and the medium varieties was −2.6 to −12.2 kg N ha⁻¹ while the longer duration varieties had positive N balances ranging from 2 to 10.9 kg N ha⁻¹. The N accrual was negative when P was not applied and ranged from 2.4 to 5.2 kg N ha⁻¹ with P application. The interaction of variety and site on the N balance was significant at P<0.05. N balance at the southernmost site was −14.2 kg N ha⁻¹ compared with 2.6–10 kg N ha⁻¹ at the northern sites where N₂ fixation was higher. The estimate of N balance is reduced when soybean haulms are exported. A positive N contribution by soybean is, therefore, possible in a soybean–cereal rotation when: (i) P is applied, (ii) the soybean variety is late maturing, and (iii) only grain is exported.     

Soil phosphorus extractability and uptake in a Cirsio-Molinietum fen-meadow and an adjacent Holcus lanatus pasture on the culm measures, north Devon, UK

The seasonal pattern of extractable soil P and soil solution P was determined for topsoil samples taken from a Cirsio-Molinietum fen-meadow community, and also for an adjacent agriculturally improved pasture in Devon, UK. Phosphorus concentration was investigated using three methods during 1993; Olsen's reagent (sodium bicarbonate) for soil P, centrifuging and polymeric suction cups for soil solution P. Solutions were extracted at two-weekly intervals during the spring and at monthly intervals during the summer. Phosphorus removed from both sites by centrifuging was in the range 5–30 μg dm⁻³ soil, in comparison with 1–6 mg kg⁻¹ for Olsen P. Olsen P on the Cirsio-Molinietum was significantly lower than on the improved pasture in mid-March and mid-June. The concentration of P in soil solution removed by suction cups was below the level of detection (<2 μg dm⁻³) on the Cirsio-Molinietum. Suction cup P on the improved pasture peaked in April and May at 16–19 μg dm⁻³ soil. Herbage yield and P concentration were measured throughout the growing season. Above-ground standing crop was greater on the Cirsio-Molinietum than the improved pasture at the beginning of the grazing season, because of the large litter component on the former. Total P content of this material was only 1.81 kg P ha⁻¹ on the Cirsio-Molinietum, in comparison with 5.58 kg P ha⁻¹ on the improved pasture. Phosphorus concentration of plant material obtained by repeated defoliation was approximately 1.0 mg P g⁻¹ DM on the Cirsio-Molinietum, whereas a clear seasonal trend, peaking at 3.5 mg P g⁻¹ DM, was observed on the improved pasture. Phosphorus concentration of litter, grass and sedge from ungrazed plots on the Cirsio-Molinietum indicated distinct seasonal variations for the grass, with no seasonal pattern for the sedge component.     

Growth and value of Chlorella salina grown on highly saline sewage effluent

Chlorella salina was successfully cultivated in secondarily treated domestic sewage effluent of salinity (14%) in an outdoor cultivation tank. Removal efficiencies of NH₄⁺ -N, NO₃⁻ -N, and PO₄³⁻ -P by this alga from secondarily treated sewage effluent were 89–100%, 35–66% and 100%, respectively. The high removal efficiencies of inorganic N and P means that this process can be used as a tertiary sewage treatment. The yield of the sewage-grown algae was 5.1 g m⁻² day⁻¹ for a retention time of 6 days. The high protein content (46.8%), relatively good amino-acid profile and low metal content enabled the use of algal biomass as feed supplement for the silver carp (Hypophthalmichthys molitrix). The food conversion ratios (FCR) of 5% and 10% sewage-grown algae supplemented fish food were better than on the control diet (i.e. artificial fish food alone), while the FCR of 20% sewage-grown algae supplemented fish food and live sewage-grown algae alone were inferior to that on the control diet. These results indicate that cultivation of C. salina in secondarily treated sewage effluent of high salinity can be used as a tertiary sewage treatment to remove inorganic N and P from secondarily treated sewage effluent to reduce pollution problems, and to produce algal protein suitable as a supplement for fish feed in aquaculture.     

An inhibitor of urease activity effectively reduces ammonia emissions from soil treated with urea under Mediterranean conditions

Urea is an important source of ammonia (NH₃) emissions to the atmosphere from agricultural soils. Abatement strategies are necessary in order to achieve NH₃ emission targets by reducing those emissions. In this context, a field experiment was carried out on a sunflower crop in spring 2006 with the aim of evaluating the effect of the N-(n-butyl) thiophosphoric triamide (NBPT) in the mitigation of volatilized NH₃ from a urea-fertilised soil. Ammonia emission was quantified, using the integrated horizontal flux (IHF) method, following application of urea with and without the urease inhibitor NBPT. Urea and a mixture of urea and NBPT (0.14%, w/w) were surface-applied at a rate of 170 kg N ha⁻¹ to circular plots (diameter 40 m). The soil was irrigated with 10 mm of water just after the application of urea to dissolve and incorporate it into the upper layer of soil. Over the duration of the measurement period (36 days) three peaks of NH₃ were observed. The first peak was associated with hydrolysis of urea after irrigation and the others with the increase of ammonia in soil solution after changes in atmospheric variables such as wind speed and rainfall. The total NH₃ emission during the whole experiment was 17.3 ± 0.5 kg NH₃–N ha⁻¹ in the case of urea treated soils and 10.0 ± 2.2 kg NH₃–N ha⁻¹ where NBPT was included with the urea (10.1 and 5.9%, respectively, of the applied urea–N). The lower NH₃ emissions from plots fertilised with urea + NBPT, compared with urea alone, were associated with a reduction in urease activity during the first 9 days after inhibitor application. This reduction in enzymatic activity promoted a decrease in the exchangeable NH₄⁺ pool.     

Residual benefits of promiscuous soybean to maize (Zea mays L.) grown on farmers’ fields around Minna in the southern Guinea savanna zone of Nigeria

Biological nitrogen fixation (BNF) by promiscuous cultivars of soybeans (Glycine max (L.) Merr.) in cereal-based cropping systems of Nigeria’s moist savanna zone offers a potential for minimizing the investment made by resource-poor farmers on nitrogen fertilizers. A 3-year trial was conducted on five farmers’ fields in the southern Guinea savanna zone of Nigeria to assess the residual effects of two successive crops of promiscuous soybean cultivars on the yield of a following maize (Zea mays L.) crop. The soybean cultivars, TGX1456-2E (medium maturity) and TGX1660-19F (late maturity), were grown in 1996 and 1997. Treatments, imposed only in the first year of the trial, were: (i) uninoculated, (ii) inoculated with a mixture of two Bradyrhizobium strains, and (iii) fertilized with 60 kg N ha⁻¹. A fourth treatment was a plot left to fallow. In 1998, all the previous soybean and fallow plots were sown to maize without any fertilizer application. Results in 1996 and 1997 showed a soybean response to inoculation in the first year, but differences due to the residual effect of inoculation in the second year were not significant. Both cultivars showed a similar response to inoculation but responses at the five sites were varied. Soybean cultivar 1456-2E fixed 43–52% of its N amounting to 56–70 kg N ha⁻¹ and cultivar 1660-19F derived 39–54% of its N from N₂-fixation which amounted to 51–78 kg N ha⁻¹. Both cultivars had a high N harvest index resulting in a net removal of 52–95 kg N ha⁻¹ when both grain and stover were exported. Even when the stover was returned, there was a depletion of 23–65 kg N ha⁻¹, with 1456-2E removing more N than 1660-19F. Arbuscular-mycorrhizal infection on maize roots was 11–27% and dependent on previous soybean treatments and farmers’ fields. Plant height, shoot biomass, grain yield, and N uptake of maize were significantly greater in plots previously sown to soybean than in the fallow plots. In general, plots sown to the late maturing cultivar 1660-19F exhibited better residual effect, producing larger yield parameters than the plots planted with medium maturing 1456-2E.     

板栗产区有机堆肥产物磷形态特征及其对叶片磷含量的影响

采用Dou的磷形态分级方法和大田试验,研究了板栗产区栗蓬栗叶-菌渣-秸秆-鸡粪混合堆肥(BYZ)、菌渣鸡粪堆肥(ZF)、栗蓬栗叶-菌渣-鸡粪堆肥(BZ1和BZ2)这4种有机物料中的磷形态特征及其对结果枝叶片磷含量的影响.结果表明:1 4种有机堆肥产物全磷含量表现为:BZ1(10.61 g·kg-1)ZF(9.03 g·kg-1)BYZ(8.56 g·kg-1)BZ2(7.68 g·kg-1),并均以无机磷为主,无机磷占全磷的比例在62.88%~73.62%之间;2 4种有机堆肥产物各形态总磷中除ZF以较稳定的HClP含量及其占回收全磷(Prt)比例最高以外,其他3种均以活性的H_2O-P含量及其占回收全磷(Prt)比例最高,Na OH-P含量均较低;3各形态中的无机磷以活性的H_2O-Pi或Na HCO3-Pi占形态总磷的比例最高(89.17%~96.00%),且在回收全磷中BZ2中的无机磷主要分布在H_2O-Pi和HCl-Pi,其他3种的无机磷主要分布在H_2O-Pi、HCl-Pi和Na HCO3-Pi,各形态有机磷主要分布于残留态磷,BZ2中比例最高;4等磷量大田试验结果表明,板栗结果枝叶片单位面积叶片磷含量整体表现为BZ2BZ1BYZZFCK,高峰期(7月)、平均每月叶片磷含量增值与堆肥产物中水溶性无机磷含量及其占回收全磷的比例呈显著或极显著正相关,推测集中深施情况下有机堆肥产物中水溶性无机磷含量及占全磷的比例是当年板栗叶片磷吸收的重要影响因素.整体研究表明,栗蓬栗叶-菌渣-鸡粪堆肥(BZ2)具有高比例的水溶态无机磷和残留态有机磷库,使板栗叶片磷含量最高,且其原料中板栗产业废弃物配比高达80%(栗蓬栗叶60%+菌渣20%),是产区好氧堆肥原料体系的较佳选择.     

Cation exchange capacities of soil organic matter fractions in a Ferric Lixisol with different organic matter inputs

Soil organic matter (SOM) has an important effect on the physicochemical status of highly weathered soils in the tropics. This work was conducted to determine the contribution of different SOM fractions to the cation exchange capacity (CEC) of a tropical soil and to study the effect of organic matter inputs of different biochemical composition on the CEC of SOM. Soil samples were collected from a 20-year-old arboretum established on a Ferric Lixisol, under seven multipurpose tree species: Afzelia africana, Dactyladenia barteri, Gliricidia sepium, Gmelina arborea, Leucaena leucocephala, Pterocarpus santalinoides, and Treculia africana. Fractions were obtained by wet sieving and sedimentation after ultrasonic dispersion. Relationships between CEC and pH were determined using the silver thiourea-method and were described by linear regression. The CEC of the fractions smaller than 0.053 mm was inversely related to their particle size: clay (<0.002 mm)>fine silt (0.002–0.02 mm)>coarse silt (0.02–0.053 mm), except for the soils under T. africana, D. barteri, and L. leucocephala, where the CEC of the fine silt fraction was highest or comparable to the CEC of the clay fraction. The clay and fine silt fractions were responsible for 76–90% of the soil CEC at pH 5.8. The contribution of the fine silt fraction to the CEC at pH 5.8 ranged from 35 to 50%, which stressed the importance of the fine silt fraction for the physicochemical properties of the soil. Differences in CEC between treatments for the whole soil and the fractions could be explained by the differences in carbon content. Except for the intercept for the clay fraction, SOM had a significant (P<0.001) contribution to both the intercepts (=estimated CEC at pH 0) and slopes (=pH-dependent charge) of the CEC–pH relationships for the whole soil and the fractions. The CEC of SOM at pH 5.8 varied between 283 cmol_c kg⁻¹ C for particulate organic matter, and 563 cmol_c kg⁻¹ C for the fine silt fraction. The biochemical composition of the organic inputs did not have an important effect on the CEC of SOM. In total, SOM was responsible for 75–85% of the CEC of these soils.     

白洋淀沟壕系统水陆交错区生物质磷形态特征研究

利用液相³¹P核磁共振的分析方法,研究了白洋淀水陆交错区中生物质磷（Biogenic-P）的形态特征.结果表明：不同类型水陆交错区磷含量差异较大,水陆交错区中间土壤总磷（TP）含量最高,为1342.81~2444.90 mg·kg^-1;水陆交错区Biogenic-P含量为437.65~1309.20 mg·kg^-1,占TP含量的25.62%~60.26%;使用液相³¹P-NMR技术共检测到7类磷化合物,其中,Biogenic-P共计检测到6种,包括磷酸单酯（Mono-P）、DNA磷（DNA-P）、焦磷酸盐（Pyro-P）、磷脂（Lipids-P）、多聚磷酸盐（Poly-P）和膦酸盐（Phon-P）;水陆交错区Biogenic-P以Mono-P为主,含量为372.94~1086.96 mg·kg^-1,TP含量平均值是全国土壤磷含量平均值的3.41倍;水陆交错区界面土壤与中间土壤相较沉积物和边缘土壤Biogenic-P含量更高;从水陆交错区的中间土壤到沉积物,Biogenic-P含量变化趋势与总有机质（OM）含量变化趋势相反.基于液相³¹P核磁共振技术,本文对白洋淀沟壕系统水陆交错区中Biogenic-P形态特征与分布提出了新的认识,有助于深入理解水陆交错区磷的生物地球化学循环过程,为流域磷输入的控制提供理论支撑.     

Effect of long-term fertilization on C mineralization and production of CH4 and CO2 under anaerobic incubation from bulk samples and particle size fractions of a typical paddy soil

Impacts of nutrient management on C mineralization and greenhouse gas (GHGs) emission from soils have been of much concern in global change. Using laboratory incubation, the production of CH₄ and CO₂ were studied from both bulk samples and the particle size fractions (PSF) of topsoil from a paddy under a long-term different fertilization trial (including non (NF), chemical without (CF) and with manure (CFM) fertilization, respectively) in the Tai Lake Region, China. Four PSFs (2000–200, 200–20, 20–2, <2 μm) were separated from undisturbed samples collected after rice harvest by a low-energy ultrasonic dispersion procedure. Both the bulk samples and PSFs were incubated under submerged condition for 72 days. The concentration of CH₄ and CO₂ evolved during incubation were determined by gas chromatography. C mineralization rates ranged from 0.13 to 0.52 mg C g⁻¹ C day⁻¹, with different fertilizations and size of the PSFs, and were not correlated with C/N ratio. While CO₂ production predominated over CH₄ from C mineralization from both bulk samples and the size fractions, CH₄ production played a predominant role in the total global warming potential (GWP) under all treatments. C mineralization of bulk soil was significantly higher under CF than under CFM and NF. CH₄ production, however, was 3 times as under CFM and 27 times as under NF, indicating a tremendous effect of chemical fertilization alone on the total GWP. CO₂ production from the PSFs differed from CH₄ under a single treatment, which was notably from the coarse PSFs larger than 200 μm. Higher C mineralization and CH₄ production with a higher metabolic quotient under CF implicated a vulnerability of soil functioning of GHGs mitigation in the paddy receiving chemical fertilizers only. Thus, rational organic amendments should be undertaken for mitigating the climate change.     

长期秸秆还田对水稻根系碳矿化与激发效应的影响

长期秸秆还田改变水稻土环境条件,从而会影响水稻残留根系碳在土壤中的矿化和激发效应,其影响的方向和强度尚不明确.因此,基于长期定位施肥试验,采用¹³C-CO₂同位素标记技术,结合室内模拟培养试验,研究不施肥（CK）、单施化肥（CF）和秸秆还田配施化肥（CFS）这3种长期处理下,水稻根系和土壤本身有机碳的矿化特征,分析根系的激发效应的强度与方向,以及各处理CO₂释放量的来源组成.结果表明,经过120 d的室内淹水培养,根系残留（R）将CO₂累积释放量增加了617.41~726.27 mg·kg^-1.CFS+R和CF+R处理根系来源CO₂累积释放量分别为470.82mg·kg^-1和444.04 mg·kg^-1,根系的矿化率分别为18.8%和17.8%,均显著高于CK+R处理（384.19 mg·kg^-1,15.4%）.3个处理的土壤本身有机碳产生的CO₂累积排放量无显著差异,但CFS+R处理的土壤本身有机碳矿化率（4.2%）显著低于CF+R和CK+R处理（5.4%和5.8%）.CFS+R处理中根系的CO₂累积激发效应为29.6%,显著低于CK+R处理的42.5%,高于CF+R处理的14.4%.淹水水稻土CO₂累积释放量中23.47%~27.59%来源于根系,其余来源于土壤,其中,激发效应引起的CO₂释放量占比在CFS+R处理中比CK+R处理小,比CF+R处理大.综上,淹水水稻土长期秸秆还田会提高根系碳的矿化潜力,但是更有利于土壤本身有机碳的稳定.     

Influence of no-tillage on the distribution and lability of phosphorus in Finnish clay soils

No-tillage (NT) is a method adopted to reduce erosion and particulate phosphorus (P) load from arable land to watercourses. However, it has been found to increase the loss of dissolved P with surface runoff, but the reasons for that have rarely been examined in detail. The objective of the present study was to determine the chemical factors explaining this response by investigating the impact of NT on the type and distribution of P reserves as well as on organic carbon (C) in the 0–35 cm topsoil layer of clay soil profiles (Vertic Cambisols). Soil samples were taken from two experimental fields (Jokioinen and Aurajoki) at 0–5, 5–20 and 20–35 cm depths in conventionally tilled (CT) and non-tilled (for 4–5 years) plots. The plots had been cultivated and fertilized according to the common field practices in Finland (15–18 kg P and 100–128 kg N ha⁻¹ year⁻¹).Inorganic and organic P reserves characterized by a modified Chang and Jackson fractionation procedure were not significantly affected by the cultivation methods. However, in the uppermost soil layer (0–5 cm) in NT of the Jokioinen field, the labile P determined by water extraction (P_w) increased significantly, whereas the increase in P extracted with acid ammonium acetate (P_AAC) remained statistically insignificant. The increase in labile P coincided with a significant increase in organic carbon (C), which supports the theory that competition between organic anions and phosphate for the same sorption sites on oxide surfaces will enhance the lability of soil P. In the Aurajoki field with distinct soil cracking, P_w and P_AAC were not affected by NT in the uppermost soil layer, but they increased in the deepest soil layer (20–35 cm) concomitantly with an increase in Al-bound P and organic C. However, the increases were not statistically significant. In both fields, soil acidification due to the repeated application of N fertilizers at a shallow soil depth as well as the accumulation of organic C lowered pH of the uppermost soil layer in NT compared to the deeper soil layers. The results indicated that even short-term NT can increase the labile P in clay soil. However, further studies are needed to assess the long-term changes in lability of surface soil P and, consequently, the possible need for readjustment of the fertilization level in NT.