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1.
Abstract. We studied the effects of five diverse non-agricultural organic wastes on soil composition, grass yield and grass nitrogen use in a 3–year field experiment. The applied wastes were distillery pot ale, dairy salt whey, abattoir blood and gut contents, composted green waste (two annual applications each), and paper-mill sludge (one annual application). With the exception of N immobilization in the paper-mill sludge treatment, the wastes had no unfavourable effects on the soil. In the 2–year treatments, grass dry matter yields from the abattoir and distillery wastes (26.3 t ha−1 ) were larger than those from a NH4 NO3 fertilizer treatment (24.3 t ha−1 ) and from the dairy waste (20.4 t ha−1 ) and composted waste (22.8 t ha−1 ). Yield and N recovery were impaired markedly after the single application of paper-mill sludge, both in the year of application and in the following year. The results demonstrated clear differences in the ability of the applied wastes to provide crop-available N. We conclude that in order to improve prediction of both the benefits and risks from waste recycling to land, more information should be gathered on soil/waste/crop interactions. 相似文献
2.
Assessing phosphorus 'Change-Points' and leaching potential by isotopic exchange and sequential fractionation 总被引:4,自引:0,他引:4
Abstract. There is increasing evidence that phosphorus (P) can be transferred to surface waters by leaching as well as by erosion and surface runoff. Recently it has been suggested that P soluble in 0.01 m CaCl2 may be a good indicator of the specific Olsen-P concentration (usually termed the 'Change Point') at which the rate of P leaching from soil suddenly increases and poses a greater threat of eutrophication to standing waters. We know that these 'Change Points' vary from soil to soil but, so far, we do not fully understand the mechanism(s) involved. Here, we combine methods for assessing isotopically exchangeable P and P sequential fractionation to gain an insight into the processes which cause this sudden increase in P solubilization. We suggest that Change-Points simply define the asymtote of rapid desorption isotherms relating to that P which is most readily isotopically exchangeable (i.e at 24 h –33 P24 ) with the soil solution. This involves ligand exchange at hydroxyl sites associated with Fe and Al cations, which is kinetically governed by the concentration of surface complexes on soil minerals. Individual Change-Points reflect the mineralogy and surface chemistry of different soil types. Laboratory and field measurements of the Olsen-P Change-Point reflect these surface phenomena and are similar. Olsen-P extracts the portion of the exchangeable pool that most readily controls solution P, and the Olsen-P/33 P24 ratio is linearly related to Olsen-P Change-Points. This may provide a method for estimating P Change-Points where gradients of soil P are not available. 相似文献
3.
Simple phosphorus saturation index to estimate risk of dissolved P in runoff from arable soils 总被引:1,自引:0,他引:1
Abstract. There is increasing evidence that phosphorus has been accumulating in the surface horizons of agricultural soils to the extent that some soils represent a potential diffuse source of pollution to surface waters. The relationships between equilibrium phosphorus concentration at zero sorption (EPC 0 ) of soil and a number of soil physicochemical variables were investigated in the surface layers of arable and grassland agricultural soils sampled from the Thame catchment, England. Soil EPC0 could be predicted from an equation including soil test (Olsen) P, soil phosphate sorption index (PSI) and organic matter content (OM) (R2 =0.88; P <0.001) across a range of soil types and land use. The simple index Olsen P/PSI was found to be a good predictor of EPC0 (R2 =0.77; P <0.001) and readily desorbable (0.02 m KCl extractable) P (R2 =0.73; P <0.001) across a range of soil types under arable having soil organic matter contents of <10%. 相似文献
4.
Laboratory investigations of the dissolution of North Carolina phosphate rock (PR) in soil, as affected by soil texture, were conducted using soils created by mixing various proportions of the <45 μm and >45 μm fractions of a lateritic soil. The dissolution of PR in soil, and the resulting changes in plant available P, were estimated by measuring increases in exchangeable Ca (ΔCa) and NaHCO3 -extractable P (ΔPb ), respectively. The total fertilizer phosphate dissolved (ΔP) was calculated from δCa values based on the assumption that dissolution of PR released amounts of Ca and P in a constant ratio determined by the stoichiometry of the PR. δP increased with increasing content of <45 μm particles. APb also increased with the percentage of <45μ fraction, with about 20% of AP being recovered as APb . A smaller proportion of dissolved P was soluble in NaHCO3 for the soil comprising only the <45μ particles. The increase in δP with increased percentage of <45 μn soil was probably due inter alia to the greater P-sorption, Ca-sorption and the pH buffering capacity of the fine grained soil constituents. 相似文献
5.
Abstract. Soils in areas with high livestock density contribute to the eutrophication of aquatic ecosystems through loss of nutrients, especially phosphorus (P). In order to identify the potential for P loss from such soils we determined phosphorus extracted by water (H2 O-P), by double lactate (DL-P), and P sorption capacity (PSC) and degree of P saturation (DPS) in soil samples from two counties, one with low (Harle-catchment) and the other with very high livestock density (Vechta). Both catchments are hydrologically connected with the tidal areas of the North Sea.
The mean concentrations of H2 O-P (0.4mmol/kg) and DL-P (3.9 mmol/kg) were lower in the Harle-catchment than in the Vechta area (1.2 mmol/kg, 6.8mmol/kg). Although oxalate-extractable Al (Alox ) and Fe (Feox ) and the derived PSCs varied according to soil type and to land use, the livestock density and the resulting high concentrations of oxalate-extractable P (Pox ) were shown to be the main reason for the very high DPS of up to 179% in the county of Vechta. These values exceeded DPS reported from other intensive pig feeding areas in western Europe and indicate the potential for significant P loss. Less than 40% of the variation in Pox could be explained by the routinely determined H2 O-Por DL-P. Geostatistical analyses indicated that the spatial variability of Pox depended on manurial history of fields and Alox , showed still smaller-scale variability. These were the major constraints for regional assessments of P losses and eutrophication risk from agricultural soils using available soil P-test values, digital maps and geostatistical methods. 相似文献
The mean concentrations of H
6.
不同有机废弃物对土壤磷吸附能力及有效性的影响 总被引:9,自引:3,他引:6
城郊农地是循环有机废弃物的重要场所,但长期施用畜禽粪和城市污泥可引起土壤磷素积累、磷饱和度提高,增加土壤向环境流失磷的风险。为了解施用不同来源的有机废弃物对城郊耕地土壤磷素化学行为的影响,选择4种不同磷含量的土壤,探讨在等量磷素情况下,施用KH2PO4、猪粪/稻草秸秆堆肥、沼渣、猪粪、鸡粪、生活垃圾堆肥和2种污泥等不同磷源时,土壤有效磷含量及磷吸附能力的差异。结果表明,施用有机废弃物增加了土壤有效磷和水溶性磷含量,降低了土壤对磷的吸附能力,但影响程度因有机废弃物来源而异。施用猪粪/稻草秸秆堆肥和猪粪降低土壤磷最大吸附量比例(9.03%~15.60%)与施KH2PO4(10.59%~16.63%)相当,但施用沼渣、鸡粪和生活垃圾堆肥降低土壤磷最大吸附量的比例(5.09%~9.84%)明显低于施KH2PO4;施用2种污泥降低土壤磷最大吸附量的比例(4.32%~6.77%)最小。不同有机废弃物对土壤有效磷的影响差异较小,但对水溶性磷的影响较大。施用有机废弃物后,土壤磷最大吸附量的下降值与施用有机废弃物中铁、铝、钙含量呈负相关;土壤水溶性磷的变化量与施用有机废弃物后土壤交换性钙的增加量呈负相关,表明有机废弃物中铁、铝和钙等矿质成分的增加,可在一定程度上减少有机废弃物在土壤循环处理时磷对环境的负影响。在农田施用有机废弃物时,不仅要考虑有机废弃物磷素状况,也应适当考虑其他矿质成分的组成特点。该研究可为城郊农地科学施用有机废弃物提供依据。 相似文献
7.
Mitigation of greenhouse gas emissions from soil under silage production by use of organic manures or slow-release fertilizer 总被引:4,自引:0,他引:4
Abstract. Grassland is a major source of nitrous oxide (N2 O) and methane (CH4 ) emissions in the UK, resulting from high rates of fertilizer application. We studied the effects of substituting mineral fertilizer by organic manures and a slow-release fertilizer in silage grass production on greenhouse gas emissions and soil mineral N content in a three-year field experiment. The organic manures investigated were sewage sludge pellets and composted sewage sludge (dry materials), and digested sewage sludge and cattle slurry (liquid materials). The organic manures produced N2 O and carbon dioxide (CO2 ) consistently from time of application up to harvest. However, they mitigated N2 O emissions by around 90% when aggregate emissions of 15.7 kg N ha−1 from NPK fertilizer were caused by a flux of up to 4.9 kg N ha−1 d−1 during the first 4 days after heavy rainfall subsequent to the NPK fertilizer application. CH4 was emitted only for 2 or 3 days after application of the liquid manures. CH4 and CO2 fluxes were not significantly mitigated. Composting and dried pellets were useful methods of conserving nutrients in organic wastes, enabling slow and sustained release of nitrogen. NPK slow-release fertilizer also maintained grass yields and was the most effective substitute for the conventional NPK fertilizer for mitigation of N2 O fluxes. 相似文献
8.
Mediterranean natural forest living at elevated carbon dioxide: soil biological properties and plant biomass growth 总被引:8,自引:0,他引:8
M.C. Moscatelli M. Fonck P. De Angelis H. Larbi A. Macuz A. Rambelli S. Grego 《Soil Use and Management》2001,17(3):195-202
Abstract. Biomass productivity and soil microbial responses to long-term CO2 enrichment have been investigated in a Mediterranean natural forest ecosystem. Several biochemical parameters have been measured on soil samples taken from six open top chambers (OTCs), enclosing clumps of natural Mediterranean woody vegetation including: Quercus ilex L., Phillyrea angustifolia L., Pistacia lentiscus L. and Myrtus communis L. The CO2 concentration of the air inside the OTCs was either ambient or ambient plus 350 μmol mol–1 ( c . 710 ppm as mean daily value). Microbial C biomass, microbial respiration, dehydrogenase, β-glucosidase, acid phosphatase and protease activities, inorganic N and soluble P, were tested in order to evaluate soil microbial size and activity. Statistically correlated seasonal patterns have been identified in some biochemical parameters in response to climatic conditions, soil nutritional status and the physiology of the vegetative cover. In situ soil respiration and above- and below-ground productivity were also measured. Microbial responses to CO2 enrichment were observed only at the beginning of the study and a general progressive reduction of the CO2 effect was recorded as monitoring continued. These results are in agreement with data from literature regarding similar studies on natural complex communities. 相似文献
9.
Laboratory experiments in soil columns were performed to study the influence of dissolved salts on the amount and composition of organic matter (OM) released from soil. Samples of two surface soils from former wastewater infiltration sites were leached with solutions containing dissolved salts (NaH2 PO4 , NaNO3 , CaCl2 ) and by deionized water. The NaH2 PO4 solution induced strongest release with 0.6% of soil organic carbon (Corg ) with 700 ml for 100 g of soil, while CaCl2 released the least, summing to 0.1–0.2% of Corg . The OM released was characterized by UV absorbance (aromaticity), ultrafiltration (molecular size distribution) and solid-phase extraction (polarity). The results suggest that CaCl2 preferentially released readily soluble OM. For the other solutions we assume solubilization by enhanced electrostatic repulsion (water), sodium exchange (NaNO3 ), and sodium exchange and calcium decomplexation and displacement of sorbed organic anions (NaH2 PO4 ) to be the major mechanisms of release. In all experiments a phase of spontaneous desorption was observed, followed by a phase of steady-state desorption. Activation energies for steady-state release were estimated from kinetic investigations and suggest that the release is controlled by diffusion towards the phase boundary. These investigations emphasize the influence of dissolved salts on the nature and quantity of organic matter released from soil. The method presented seems able to characterize soil organic matter with respect to its availability and its mode of association with the soil matrix. 相似文献
10.
The influence of parent material and livestock intensification on plant-available phosphorus values by the Olsen method in Northern Ireland 总被引:2,自引:0,他引:2
Abstract. Leaching of phosphorus (P) from agricultural land is the major cause of eutrophication of surface waters in Northern Ireland. However, soil testing using the Olsen method has shown that while soil P in some catchment areas of the Province is low, surface waters within these catchments are, nonetheless, every bit as eutrophic as other local catchments where soil P is high. Soil P measurements on over 6000 samples from Northern Ireland soils (A horizon only) have indicated that Olsen-P values of improved grassland on most parent materials are linearly related to animal intensification. Exceptions are soils derived from peat, marl and basalt. For each of the latter soils, the measured Olsen-P was shown to be around 10 mg L–1 lower than expected for farms with similar intensification on other parent materials. In particular, the mean Olsen-P values of samples from basaltic soils under grass with total Fe above 62 g kg–1 and total Mg above 16 g kg–1 were significantly lower than those from basaltic soils with low total Fe (<37 g kg–1 ) and total Mg (<8 g kg–1 ). As a result of the depressed Olsen-P value, excessive quantities of P may be applied to these soils to maintain a recommended soil P index thereby enhancing the potential for nutrient enrichment of adjacent surface waters. In such cases, coworkers have shown that acid ammonium oxalate may be a better extractant than bicarbonate as an indicator of plant-available P. 相似文献
11.
Soil properties may affect the decomposition of added organic materials and inorganic nitrogen (N) production in agricultural soils. Three soils, Potu (Pu), Sankengtzu (Sk) and Erhlin (Eh) soils, mixed with sewage sludge compost (SSC) at application rates of 0 (control), 25, 75 and 150 Mg ha−1 were selected from Taiwan for incubation for 112 days. The aim of the present study was to examine the effects of SSC application rates on the carbon decomposition rate, N transformation and pH changes in three soils with different initial soil pH values (4.8–7.7). The results indicated that the highest peaks of the CO2 evolution rate occurred after 3 days of incubation, for all treatments. The Pu soil (pH 4.8) had a relatively low rate of CO2 evolution, total amounts of CO2 evolution and percentage of added organic C loss, all of which resulted from inhibition of microbial activity under low pH. For the Pu and Sk soils, the concentration of NH4 + -N reached its peak after 7–14 days of incubation, which indicated that ammonification might have occurred in the two soils with low initial pH values. NO3 − -N rapidly accumulated in the first 7 days of incubation in the Eh soil (pH 7.7). The direction and extent of the soil pH changes were influenced by the N in the SSC and the initial soil pH. Ammonification of organic N in the SSC caused the soil pH to increase, whereas nitrification of mineralized N caused the soil pH to decline. Consequently, the initial soil pH greatly affected the rate of carbon decomposition, ammonification and nitrification of SSC. 相似文献
12.
Indicator of potential residual carbon in soils after exogenous organic matter application 总被引:3,自引:0,他引:3
G. Lashermes B. Nicolardot V. Parnaudeau L. Thuriès R. Chaussod M. L. Guillotin M. Linères B. Mary L. Metzger T. Morvan A. Tricaud C. Villette & S. Houot 《European Journal of Soil Science》2009,60(2):297-310
An indicator to evaluate the proportion of exogenous organic matter (EOM) remaining in soils over the long-term after application has been developed. A database was constructed with analytical data corresponding to 83 EOMs, including sludges, composts, animal wastes, mulches, plant materials and fertilizers. The data included results of proximal analysis (soluble, SOL, hemicellulose-, HEM, cellulose-, CEL, and lignin-like, LIC, fractions, in g kg−1 total organic matter) and of carbon (C) mineralization during long-term incubations under laboratory conditions (in g kg−1 exogenous organic C, EOC). The potential residual organic C after EOM application to soil was assessed from the extrapolation of the incubation results. Then, partial least square regression was used to relate EOM characteristics to the proportion of potentially residual organic C previously determined from the incubations. The biochemical fractions of EOM were not predictive enough to develop the indicator. The proportion of organic C mineralized during 3 days of incubation (C3d ) was cumulated and appeared to be the most predictive variable of residual organic C. The proposed indicator of residual organic carbon in soils (expressed as g EOC kg−1 ) was IROC = 445 + 0.5 SOL – 0.2 CEL + 0.7 LIC – 2.3 C3d . The indicator was calculated for the main types of EOM applied to soils. When compared with the few field data of residual C measured in long-term field experiments, the values provided by the indicator seemed to be over-estimated (i.e. EOC degradation could be faster under field conditions than during laboratory incubations). 相似文献
13.
我国有机废弃物资源总量及养分利用潜力 总被引:1,自引:0,他引:1
【目的】我国有机废弃物产量巨大,理清我国有机废弃物总量及其养分资源量,有助于实现有机废弃物中养分资源的充分利用,对保障化肥使用量零增长和国家粮食安全具有重大意义。【方法】以我国2009—2019年间典型有机废弃物(秸秆、畜禽粪便、农村人粪尿、污泥和生活有机垃圾)的年产量为研究对象,通过查阅我国统计数据和公开发表的文献资料,对近10年我国有机废弃物总量及其养分资源量进行估算,分析有机废弃物利用潜力。【结果】2009—2019年有机废弃物资源量和养分总量相对稳定,平均有机废弃物总量(干重)为12.9亿t,平均养分含量(N、P2O5、K2O)为4537.9万t。2019年废弃物资源量达13.11亿t (干重),相比2009年增加7.1%;养分总量达到4503.5万t,相比2009年增加3.0%。2019年有机废弃物全量还田可以输入氮(N)约1653.3万t、磷(P2O5)约799.6万t、钾(K2O)约2050.6万t,分别占作物养分需求量的71.8%、75.9... 相似文献
14.
The effect of soil type on phosphorus sorption capacity and desorption dynamics in Irish grassland soils 总被引:7,自引:0,他引:7
Abstract. The phosphorus (P) sorption and desorption dynamics of eleven major agricultural grassland soil types in Ireland were examined using laboratory techniques, so that soils vulnerable to P loss might be identified. Desorption of P from soil using the iron-oxide paper strip test (Pfeo), water extractable P (Pw) and calcium chloride extractable P (Pcacl2 ) depended on soil P status in all soils. However, soil types with high organic matter levels (OM), namely peat soils (%OM >30), had lower Pfeo and Pw but higher Pcacl2 values compared to mineral soils at similar soil test P levels. Phosphorus sorption capacity remaining (PSCr) was measured using a single addition of P to soils and used to calculate total P sorption capacities (PSCt) and degree of P saturation (DPS). Phosphorus sorption capacities correlated negatively with % OM in soils indicating that OM may inhibit P sorption from solution to soil. High organic matter soils exhibited low P sorption capacities and poor P reserves (total P, oxalate extractable P) compared to mineral soils. Low P sorption capacities (PSCt) in peat soils were attributed to OM, which blocked or eliminated sorption sites with organic acids, therefore, P remained in the soil solution phase (Pcacl2 ). In this work, peat and high organic matter soils exhibited P sorption and desorption characteristics which suggest that these soils may not be suitable for heavy applications of manure or fertilizer P owing to their low capacities for P sorption and storage. 相似文献
15.
Abstract. The effects on nitrate leaching of incorporation of paper mill waste at three cultivation depths in fields previously cropped to iceberg lettuce and calabrese are reported. In the lettuce experiment, incorporation of 40 t DM paper mill waste/ha resulted in a decrease in N leaching (measured with suction cups) from 177 to 94 kg/ha (S.E.d = 23). Deep ploughing with and without paper waste increased N leaching from 105 kg/ha (normal ploughing or surface incorporation) to 172 kg/ha (S. E. d = 27). Measurements of nitrate leaching using deep soil cores showed a less clear cut effect. Nitrous oxide (N2 O) emissions were very high immediately after paper waste was ploughed in to a depth of 35 cm. Non–significant increases in biomass N content were measured in the spring following paper waste application. There was no significant reduction in plant N uptake in subsequent crops. Removal of above–ground crop residues did not have a significant effect on nitrate leaching or N2 O losses. In the calabrese experiment, application of 40 t DM paper mill waste/ha followed by summer cropping with iceberg lettuce caused a decrease in N leaching (measured using deep soil cores) from 227 to 152 kg/ha (S. E.d = 22, mean of all cultivation treatments). 相似文献
16.
S.D. Heming 《Soil Use and Management》2004,20(4):410-417
Abstract. The behaviour of potassium (K) in a range of arable soils was examined by plotting the change in exchangeable K of the topsoil (Δ Kex ) at the end of a 3–5 year period against the K balance over the same period (fertilizer K applied minus offtake in crops, estimated from farmers' records of yield and straw removal). Based on the assumption that values for offtake per tonne of crop yield used for UK arable crops MAFF 2000) are valid averages, 10–50% of Δ Kex was explained by the balance, relationships being stronger on shallow/stony soils. Excess fertilizer tended to increase Kex and reduced fertilization decreased it, requiring between 1.2 and 5.4 kg K ha−1 for each mg L−1 Δ Kex . However, merely to prevent Kex falling required an extra 20 kg K ha−1 yr−1 fertilizer on Chalk soils and soils formed in the overlying Tertiary and Quaternary deposits, despite clay contents >18%. Whereas, on older geological materials, medium soils needed no extra K and clays gained 17 kg K ha−1 yr−1 . It is unlikely that the apparent losses on some soil types are anomalies due to greater crop K contents. Theory and the literature suggest leaching from the topsoil as a major factor; accumulation in the subsoil was not measured. Recommendations for K fertilization of UK soils might be improved by including loss or gain corrections for certain soil types. 相似文献
17.
长期施肥褐土不同磷组分对磷素盈余的响应 总被引:2,自引:1,他引:2
18.
Theodore Karyotis Davis D. Onduru Christos Noulas Louis N. Gachimbi Fred N. Muchena 《Soil Science and Plant Nutrition》2005,51(5):645-648
The nutrients status and properties in Kenyan soils (Kiambu, Mbeere Districts) are reported with the aim to elucidate the factors of productivity decline. According to the FAO (1988) system the studied soils were classified as humic Nitisols, haplic Acrisols or luvic Arenosols. The soils were found acidic, as a result of leaching of exchangeable cations and they are poor in organic carbon. Cation exchange capacity was extremely low in the sandy soils of Mbeere. Available phosphorus and exchangeable K+ were low inducing a crucial problem of soil fertility. Among the micronutrients, manganese extracted by DTPA was most abundant element, while micronutrients extracted by 4 M HNO3 ranked as follows: Fe>Mn>Zn>Cu. Copper (DTPA) was low and manganese was extremely high in Kiambu. Iron content varied greatly, while decreased zinc was observed in Mbeere. Nitrogen mineralization over an incubation period of 30 weeks ranged from 54.64 to 145.50 mg kg−1 and represents 4.53–21.09% of the total soil nitrogen. Soil nitrogen was associated to soil organic carbon and was strongly correlated to total soil N. Water harvesting, liming, and improved management of composting and manure are amongst the measures to restore soil fertility. 相似文献
19.
长期不同施肥对红壤性水稻土磷素及水稻磷营养的影响 总被引:2,自引:0,他引:2
【目的】合理的土壤磷素管理对作物生产和环境保护具有重要意义。南方双季稻田土壤磷素特征及磷素吸收信息相对缺乏,本文利用江西省稻田土壤质量演变定位监测试验为平台,系统分析长期不同施肥措施下土壤全磷、磷活化系数及水稻磷素吸收量的变化特征和全磷与磷盈亏的响应关系等,为指导磷肥合理施用提供重要科学依据。【方法】从1984年开始在江西省南昌市进行长期定位试验,设置8个处理,分别为不施肥对照(CK),PK、NP、NK、NPK、70%化肥氮+30%有机肥氮(70F+30M)、50%化肥氮+50%有机肥氮(50F+50M)、30%化肥氮+70%有机肥氮(30F+70M)。早稻施用纯N、P2O5和K2O量分别为150、60和150 kg/hm^2,晚稻分别为180、60和150 kg/hm^2。早、晚稻施用的氮、磷、钾化肥均分别为尿素、过磷酸钙和氯化钾,有机肥分别为紫云英(N、P2O5、K2O含量分别为0.30%、0.08%、0.23%)和腐熟猪粪(N、P2O5、K2O含量分别为0.45%、0.19%、0.60%)。除30F+70M处理,其余处理均为等氮磷钾设计。于1984-2012年每年早、晚稻收获期采集秸秆和稻谷计产,并于晚稻收获后,测定土壤全磷和有效磷含量。分析土壤全磷、磷活化系数(PAC)及早、晚稻磷素吸收量随种植年限的变化规律,研究土壤全磷含量与磷累积盈亏的响应关系。【结果】经29年连续试验,NK处理土壤全磷含量以每年4.6 mg/kg的速度下降,而含磷化肥处理土壤全磷含量升高速率为3.3~19.4 mg/(kg·a)。有机无机配施处理(70F+30M、50F+50M和30F+70M)升高速率平均为16.1 mg/(kg·a),是施NPK肥处理的4.89倍。施磷土壤全磷含量平均增至1.07 g/kg (2010-2012平均值),较初始值提高了1.18倍。不施磷肥处理土壤磷活化系数(PCA)由试验初始的4.24%下降至2.5%左右,施磷肥处理则均显著升高,其中有机无机配施处理平均升高至8.51%,平均年升高速率是施NPK处理的2.89倍。早、晚稻磷素吸收量,施磷肥(PK、NP和NPK)和化肥配施有机肥处理(70F+30M、50F+50M和30F+70M)均显著高于CK,提高幅度分别为29.9%~124%和28.6%~103%,均衡施肥(NPK、70F+30M、50F+50M和30F+70M)磷素吸收量显著高于不均衡施肥(PK和NP)处理,前者平均分别较后两者提高了38.7%和32.9%。早、晚稻产量与磷素吸收量呈极显著线性正相关关系,每吸收磷(P) 1 kg,早稻和晚稻产量分别可提高115和106 kg/hm^2。不施肥(CK)条件下,土壤全磷变化与累积磷盈亏间无显著相关关系,施NK肥处理土壤中每亏缺磷100 kg/hm^2,土壤全磷含量降低6.0 mg/kg,施化学磷肥的3个处理,土壤中每盈余磷100 kg/hm^2,平均提高9.3 mg/kg,而3个有机–无机配施处理,土壤中每盈余磷100 kg/hm^2,平均增加63.3 mg/kg,是无机磷肥的6.78倍。【结论】无论是单施化学磷肥,还是有机无机配施均有效提高土壤全磷含量及磷活化系数,且在等磷量投入条件下,有机无机配施较单施化肥的效果更优。建议减少中国南部红壤性稻田土壤的总磷输入量和提高有机肥施用比例,以改善粮食生产和保护环境。 相似文献
20.
L. Z. Liang R. F. Shen X. Y. Yi X. Q. Zhao Z. C. Chen R. F. Chen & X. Y. Dong 《Soil Use and Management》2009,25(2):152-158
Due to the high economic value of vegetables, farmers in China often apply more fertilizer than is required for plant growth. This leads to phosphorus accumulation in soils, which can pollute the aquatic environment. This conflict arises because vegetables often use nutrients inefficiently, and require high phosphorus levels in the growth medium. In this study, amaranth ( Amaranthus mangostanus L.) was grown in soils with 14.7, 23.8, 45.3, 54.6, 74.2, 101 or 116 mg Olsen-P/kg, and with and without phosphorus fertilizer (175 mg P/kg or equivalent to 385 kg P/ha). The yield of amaranth was positively correlated with soil Olsen-P content. CaCl2 -P content was positively correlated with Olsen-P content and CaCl2 -P markedly increased at Olsen-P contents exceeding 53.8 mg P/kg in the pot experiment or 55.9 mg P/kg in the field survey. These values were regarded as the 'change points' for phosphorus loss; to achieve 85 or 95% of maximum amaranth yield, the amaranth crop required 91or 101 mg Olsen-P/kg soil, respectively, and application of 175 mg P/kg was still able to significantly increase amaranth yield at an Olsen-P level of 74.2 mg P/kg soil. These results indicated that the phosphorus requirement of amaranth exceeded the 'change point' (53.8 or 55.9 mg Olsen-P/kg); the C min (minimum concentration in the media at which no net influx occurs) of phosphorus for 3-week-old amaranth was 1.55 μ m . This value is much higher than that reported for other crops, and may explain the inefficient P use of amaranth. The high C min value also indicates that the phosphorus requirement of amaranth is beyond the 'change point' of P loss. 相似文献