长期定位施肥对蔬菜保护地土壤磷素形态的影响

蔬菜保护地土壤富磷现象相当严重,因此,了解保护地土壤磷素形态特征对合理施肥及保护环境具有十分重要的意义.本文利用修正的Hedley土壤磷素分级方法,研究了长期定位施肥条件下蔬菜保护地不同施肥处理间土壤磷素形态变化.分别对土壤中的无机磷、有机磷、残余态磷以及各形态磷在全磷中所占的比重进行了分析.结果表明,不同施肥处理土壤之间磷素形态差异较大,除残余态磷,均表现为施有机肥处理高于不施有机肥处理,氮磷钾肥配施处理高于肥料单施处理.土壤磷主要以无机磷形式存在,其中以HCl-P所占比重最大,平均含量达754.04 mg·kg-1,占全磷40%左右.在长期定位施肥条件下,蔬菜保护地土壤中的磷对环境的污染潜力不容忽视.     

不同磷水平石灰性土壤Hedley磷形态生物有效性的研究

通过盆栽试验,采用修正的Hedley 9种磷素形态分级方法,研究了不同磷素水平石灰性土壤上连续种植三茬作物后,土壤各形态磷的动态变化及其对作物有效性的影响,结果表明:种植三茬作物后,不同磷水平土壤Hedley磷素各形态的减少率为H2O-PiNaHCO3-PiH2O-PoNaHCO3-PoNaOH-Pi、NaOH-PoHCl-Pi、HCl-Po残留态,并且减少率均为低磷土壤中磷土壤高磷土壤。表明水溶态无机磷对作物的有效性最高,NaHCO3-Pi由于土壤中绝对含量高,是作物吸收的主要形态。无机态磷素的有效性要明显高于有机态磷素。NaOH-P库对土壤活性磷具有补充作用。在低磷胁迫下作物对磷素利用效率最高,HCl提取态磷和残留磷也可以作为作物吸收的一种潜在磷源,但是利用这些形态磷来补充活性磷十分有限,因此中低磷土壤必须注意增加磷肥的投入来维持土壤磷供应能力,从而增加作物产量。高磷土壤则应严格控制磷肥用量,充分利用积累态磷素的有效性,以降低高磷土壤对环境造成的潜在威胁。     

不同施肥条件下红壤旱地磷素形态及有效性分析

磷素是红壤地区农业生产的最重要的限制因素，因此红壤磷素形态与转化问题的研究，对红壤地区农业生产具有重要意义。用Hedley方法对不同施肥条件下红壤旱地土壤磷素形态进行了研究，结果表明：施磷肥能明显增加红壤各形态无机磷含量和大多数形态有机磷含量；红壤中，对植物最有效的树脂磷和碳酸氢钠磷含量很少，铁铝结合态磷和残留磷含量很多；对有效磷（Bray磷）贡献最大的磷素形态是碳酸氢钠无机磷、铁铝结合态无机磷和存在于土壤团聚体内表面的有机磷。这对于了解不同施肥条件对红壤旱地磷素有效性的影响、探索磷素消长规律、指导红壤旱地磷素管理等都有一定的理论和实践意义。     

长期施肥对薄层黑土酶活性及土壤肥力的影响

利用29年的长期定位试验,对不同的施肥方式下薄层黑土酶活性及肥力进行了研究,探讨长期施肥对土壤酶活性及与土壤肥力的影响。结果表明,化肥与有机肥配合施用能明显提高土壤有机质、全氮、全磷、碱解氮、有效磷含量,增强土壤脲酶、磷酸酶、转化酶、过氧化氢酶、脱氢酶活性。相关分析结果显示,土壤脲酶、磷酸酶、转化酶、过氧化氢酶、脱氢酶活性与有机质、全氮、全磷、有效磷、碱解氮呈显著正相关。土壤脲酶、磷酸酶、转化酶、过氧化氢酶、脱氢酶综合活性可以反映长期施肥后薄层黑土质量的变化趋势。     

抚仙湖流域有机-常规种植菜地土壤磷素淋溶模拟研究

利用3种不同高度的土柱,对有机-常规种植菜地土壤进行了磷素淋溶模拟研究,结果表明：有机种植菜地土壤磷素淋溶量远高于常规种植菜地土壤,不同高度土柱在模拟780 mm降雨量条件下,前者磷素淋溶平均水平是后者的26倍左右。灌溉不仅降低了不同土壤有效磷含量,而且使土壤磷素吸附解吸特征发生明显改变。此外,田间监测结果显示,有机种植对地下水磷素水平的提高明显大于常规种植。可见,有机种植中土壤磷素由淋溶进入地下水体相对于常规种植风险更大,有机种植业的发展必须采取必要措施,减缓土壤磷素淋溶流失。     

长期轮作与施肥对农田土壤磷素形态和吸持特性的影响

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

不同施肥制度对黄泥田土壤酶活性及养分的影响

对连续施肥23年的黄泥田土壤酶及土壤养分因子进行了分析,探讨长期不同施肥条件对土壤酶活性及土壤肥力的影响.结果表明,与对照相比,不同施肥制度(化肥、化肥+牛粪、化肥+秸秆回田)下土壤有机质增幅达19.5%～47.1%,氮素增幅达20.6%～47.9%,磷素增幅达36.7%～499.0%,钾素增幅达55.8%～80.0%.施肥提高了土壤脲酶、过氧化氢酶、转化酶和磷酸酶的活性,其中有机无机肥配施增幅达10.3%～28.6%.土壤有机质和养分含量与部分酶活性存在极显著或显著的相关性.表明黄泥田土壤酶活性与土壤肥力密切相关,可作为评价土壤肥力性状的生物学指标.     

种植年限对设施菜田土壤剖面磷素累积特征的影响

以山东寿光集约化设施菜田为研究对象,分析了不同种植年限设施菜田土壤磷素投入和土壤磷素累积的差异,比较不同种植年限土壤剖面中无机磷、有机磷、Olsen-P和CaCl2-P含量的变化特征。结果表明：磷素过量积累是设施菜田的显著特征,主要由于有机肥以粪肥投入为主,复合肥中P素比例偏高,收获作物带走量仅占磷素投入的7.2%;随着种植年限增加,P素累积现象明显,过量的磷素盈余导致了土壤剖面中不同形态磷含量的上升,其中以无机磷尤其明显;用来表征土壤有效磷指标的Olsen-P与CaCl2-P有显著的相关性,研究区域中当土壤（Olsen-P）达到80.7mg·kg-1时,土壤CaCl2-P开始显著升高,增大了设施菜田磷素淋溶风险。     

长期施磷对山原红壤磷库组成及有效性的影响

通过33年施肥试验研究了不同施磷处理对山原红壤中磷素形态转化及含量的影响。结果表明,长期施用磷肥增加了红壤中全磷和速效磷的含量;施磷处理下土壤表层无机磷、有机磷显著积累。不同施肥处理下土壤无机磷组分均以Fe-P为主,占总量的50%左右;相关分析表明无机磷组分中的Fe-P、Al-P与速效磷分别呈极显著正相关(r=0.908)、显著正相关(r=0.706),表明Fe-P、Al-P为山原红壤的有效磷源。对于土壤有机磷而言,所有施肥处理的土壤中稳性有机磷比例最高,其次为中等活性有机磷,再次为高稳性有机磷,活性有机磷最低,前二者占有机磷总量的90%左右。有机磷组分与速效磷的相关性分析结果表明,中等活性有机磷、中稳性有机磷分别与土壤速效磷呈极显著正相关(r=0.861)、显著正相关(r=0.840)。说明中等活性有机磷和中稳性有机磷是土壤速效磷的主要来源。增施磷肥尤其是氮、磷、钾肥与农家肥配施后,可促进其他形态有机磷向有利于作物吸收的中等活性有机磷、中稳性有机磷转变。     

不同种植年限设施菜田土壤无机磷组分的累积和释放特征

[目的] 探明设施栽培条件下土壤磷素随种植年限的变化规律,揭示温室土壤无机磷积累和淋溶损失的主体成分,为设施农业合理施用磷肥和可持续发展提供依据。[方法] 采集了辽宁省铁岭县（2～28 a）和海城市（2～33 a）不同种植年限的设施土壤,以土壤全磷、有效磷、无机磷组分含量的变化及磷素释放曲线为切入点,分析了设施栽培条件下土壤磷素随种植年限的变化规律。[结果] ①铁岭和海城设施菜田耕层土壤全磷、无机磷和有效磷含量随种植年限的增加均呈先增加后降低的趋势,在种植20 a左右达到峰值。全磷含量为主,最高分别达到了5.76±0.61 g/kg和7.08±0.72 g/kg。②两地设施菜田土壤无机磷以Ca₈-P含量高,分别是无机磷总量的34.2%和59.9%,其次为Fe-P和Al-P。Ca₈-P含量随种植年限的增加而增加,而Fe-P含量则随种植年限的增加而降低。③设施菜田种植2～15 a左右磷素的释放率与15 a后对比相对较高,释放量与Ca₂-P,Fe-P之间的相关性达到显著水平。[结论] 研究区域范围设施菜田土壤磷素积累以Ca₈-P形态为主,Ca₂-P和Fe-P是磷素淋失的主要形态。     

Soil pH and phosphatase activity

Abstract

Approximately twenty years before this study, a site that consisted of a mixed oak forest was harvested, cleared, and divided into three treatment areas consisting of approximately 20 acres each. The three areas were planted to oak (forest), grass (grassland) and corn (agricultural) respectively. The influence of pH on the rate of phosphatase activity was determined over a broad range of soil pH in soil sampled from each treatment area. Phosphomonoesterase activities were measured at a pH of 2 through 12 and phosphodiesterase activities determined at a pH of 4 through 12. In the forest soil only a acid phosphomonoesterase was detected whose pH optima was maximal at the measured soil pH of 4.9. A neutral phosphomonoesterase was found in the grassland soil, pH 6.6, with a broad pH optima ranging from 4.6 to 7.0, while the detection of an acid phosphatase and a alkaline phosphatase, with a pH optima of 4.8 and 11.0 respectively, was found associated with the agriculture soil with a measured pH of 7.2. Phosphodiesterase activity was optimum or near optimum at the measured pH of each soil examined. The released phosphatases apparently have different pH optima in relation to maximal activity suggesting the presence of different kinds of phosphomonoesterases and phosphodiesterases and perhaps that the enzymatic reaction in soil is catalyzed by more than one enzyme or by multiple forms of the same enzyme. The results of the study would indicate that a relationship exists between soil pH and (1) the synthesis and release of phosphatases in soil, (2) the complexion of the organisms producing the enzymes and (3) phosphatase stability or conformation. Based upon the results of the study, the analysis of phosphatase activity at the measured soil pH would seem to be a necessary part of any investigation designed to determine the contribution of phosphatase enzymes to the cycling of P.     

Response of phosphomonoesterases in soils to chloroform fumigation

The chloroform fumigation technique has been successfully employed to quantify intracellular and extracellular urease and arylsulfatase activities in soil. In this study, the same approach was evaluated for its ability to differentiate between various pools of phosphomonoesterase activities in soils and reference proteins purified from plant and microbial sources. The activities of acid and alkaline phosphatases were assayed in 10 surface soils and reference proteins at their optimal pH values before and after chloroform fumigation and in the presence and absence of toluene. Chloroform fumigation decreased the activities of acid and alkaline phosphatases in soils, on average, by 6 and 8%, respectively. Similarly, the activities of two purified reference enzyme proteins were decreased after fumigation, with acid and alkaline phosphatase activities exhibiting a reduction of 17 and 8%, respectively. Toluene treatment caused an increase in the activities of acid and alkaline phosphatases by 8 to 18% in nonfumigated soils, but showed no effect in the fumigated soils. Average enzyme protein concentrations, calculated for the 10 soils based on the activity values of the soils and the specific activity of the purified enzymes (i.e., activity values per mg protein), were 22.5 and 2.1 mg protein (kg soil)^—1 for acid and alkaline phosphatase, respectively. The decrease in enzyme activity by the fumigant was either by direct denaturing of the periplasmic and extracellular portion of the particular protein after lysis of the microbial cell membrane, by absorption and/or inhibition of the released phosphomonoesterases by organic and inorganic constituents or by degradation of the protein by soil proteases. The ratios of acid phosphatase protein concentrations relative to organic C in six soils were significantly, but negatively correlated with soil organic C, suggesting differences in organic C quality. Comparison of the activity values of soil phosphatases with those of the protein concentrations present in soils indicated that alkaline phosphatase has greater catalytic efficiency than does acid phosphatase.     

红壤磷酸单酯酶活性测定方法的改进

以甘油磷酸钠为底物,通过添加适量无机磷减少土壤吸附作用对磷酸单酯酶活性测定的影响,探讨红壤磷酸单酯酶活性测定方法的改进.在4个红壤样品的测试结果中,与Rogers法相比,RSD从≤10.2%降为≤3.2%;省去了HCl浸提步骤:耗时从19 h左右变为2 h左右.与对硝基苯磷酸盐法相比,底物更具代表性:所测磷酸单酯酶活性为P4.4～6.8 μmol/(g土·h),比对硝基苯磷酸盐法的测定值P 0.8～2.2 μmol/(g土·h)更大,更灵敏.     

Characterization of extracellular phosphatase activities in periphytic biofilm from paddy field

Periphytic biofilms exist widely in paddy fields, but their influences on the hydrolysis of organic phosphorus(P) have rarely been investigated. In this study,a periphytic biofilm was incubated in a paddy soil solution, and hydrolysis kinetic parameters(half-saturation constant(Km) and maximum catalytic reaction rate(Vmax)), optimal environmental conditions, substrate specificity, and response to different P regimes of the phosphatase activities in the periphytic biofilm were determined, in order to characterize extracellular phosphatase activities in periphytic biofilms from paddy fields. The results indicated that the periphytic biofilm could produce an acid phosphomonoesterase(PMEase), an alkaline PMEases, and a phosphodiesterase(PDEase). These three phosphatases displayed high substrate affinity, with Km values ranging from 141.03 to 212.96 μmol L^-1. The Vmax/Km ratios for the phosphatases followed the order of alkaline PMEase > acid PMEase > PDEase, which suggested that the PMEases, especially the alkaline PMEase, had higher catalytic efficiency. The optimal pH was 6.0 for the acid PMEase activity and 8.0 for the PDEase activity, and the alkaline PMEase activity increased with a pH increase from 7.0 to 12.0. The optimal temperature was 50℃ for the PMEases and 60℃ for the PDEase. The phosphatases showed high catalytic efficiency for condensed P over a wide pH range and for orthophosphate monoesters at pH 11.0, except for inositol hexakisphosphate at pH 6.0. The inorganic P supply was the main factor in the regulation of phosphatase activities. These findings demonstrated that the periphytic biofilm tested had high hydrolysis capacity for organic and condensed P,especially under P-limited conditions.     

Phosphatase activity and phosphorus fractions in Karri (Eucalyptus diversicolor F. Muell.) forest soils

Summary Karri forest soils contain negligible concentrations of labile-P, low concentrations of total P and more P in organic forms than inorganic. The ratio of organic P to inorganic P was lowest (1:2) in recently burnt surface soils and greatest (7:1) at depth in soil that had been undisturbed for long periods of time. Phosphomonoesterase and phosphodiesterase activities (to 10 cm depth, phosphomonoesterase 700–1300; phosphodiesterase 2000–2400 g nitrophenol released h^-1 g^-1 fresh weight) were comparable to those in other, organically rich forest soils. The optimum pH for phosphatase activities were within 1–2 units of soil pH (6) and little reduction in activity was observed over the pH range 4–8. Phosphatase activity was reduced by air-drying (up to 20-fold reduction) and was almost entirely absent in soils that were heat-affected as a result of logging/burning operations. Neither phosphomonoesterase nor phosphodiesterase were directly related to soil P fractions or total P. A reduction in P demand is postulated as the cause of reduced phosphatase activity and the increased concentration of organic P with increasing soil depth.     

Phosphomonoesterase,phosphodiesterase, phosphotriesterase,and inorganic pyrophosphatase activities in forest soils in an alpine area: effect of pH on enzyme activity and extractability

We investigated different types of phosphatase activity (phosphomono-, phosphodi-, phosphotriesterase, inorganic pyrophosphatase) in five forest soils in Vorarlberg, Austria. Phosphatase activity was determined both in soils and in soil extracts prepared with different solutions (distilled water, 0.1M sodium pyrophosphate at pH 7, 0.1M sodium phosphate buffer/1M KCl at pH 6.5, and a modified universal buffer at pH 4, 6.5, 9, and 11). High phosphomonoesterase activity in these soils indicated a severe deficiency in available P. Acidic phosphomonoesterase prevailed over alkaline phosphomonoesterase activity. Phosphodiesterase was highest in the least acidic soil but no general trend towards an optimum pH was recognized. Phosphotriesterase activity was observed in only two of the five soils and favoured an alkaline optimum pH; this activity was not detected in strongly acid soils. Inorganic pyrophosphatase activity was high in soils with no phosphotriesterase. Phosphomonoesterase, phosphodiesterase and inorganic pyrophosphatase activities were much lower in soil extracts than in soils.     

芦苇根际土壤有机磷组分的季节变化及与磷酸酶活性的关系

通过野鸭湖湿地一年实验研究了芦苇根际土壤中各组分有机磷含量随植物生长的变化规律,分析了不同有机磷组分与磷酸单酯酶、磷酸二酯酶活性间的关系。结果表明:有机磷含量分布为活性有机磷(L-OP)中活性有机磷(ML-OP)中稳定性有机磷(MR-OP)高稳定性有机磷(HR-OP),各组分含量均随芦苇生长先降低后升高。在芦苇对养分需求最大的旺盛生长期,L-OP、ML-OP含量达到最低值,分别为2.46、3.27 mg/kg;在此阶段,MR-OP、HR-OP含量也有所降低。在有机磷矿化过程中,HR-OP一定程度上可转化为ML-OP,ML-OP与MR-OP主要转化为L-OP。磷酸单酯酶与磷酸二酯酶活性均随芦苇生长先降低后升高,在其旺盛生长期达到最低值,分别为Ph OH 0.37 mg/(g·h)和PN 62?g/(g·h)。磷酸酶活性均与L-OP、ML-OP、HR-OP含量呈极显著或显著正相关,活性磷含量的高低对磷酸酶活性有明显的影响作用,两种磷酸酶在一定程度上也可水解转化稳定性高的有机磷组分。衰亡期的芦苇,其衰败的老根及脱落物可间接促进磷酸酶活性。     

长期定位施肥对黑土磷酸酶活性的影响

对长期不同培肥制度下黑土磷酸酶活性进行研究。结果表明,中性磷酸单酯酶活性最高,磷酸二酯酶活性次之,磷酸三酯酶活性最低。不同施肥处理中性磷酸单酯酶活性顺序为:NPKNKM1+N2PK秸秆+N3PKCKM2+N1PK。磷酸二酯酶活性顺序为:M1+N2PKM2+N1PK秸秆+N3PKCKNKNPK。磷酸三酯酶活性各处理间无显著差异。     

Effect of long-term fertiliser use on acid and alkaline phosphomonoesterase and phosphodiesterase activities in managed grassland

Soil phosphatase activities play an important role in the mineralisation of soil phosphorus (P). In this study acid and alkaline phosphomonoesterase and phosphodiesterase activities of soils under long-term fertiliser management (ca. 100 years) were measured to determine the effects of fertiliser inputs on the cycling and availability of P. Enzyme activities were compared with microbial biomass P, determined by fumigation-extraction, and with extractable P using NH₄F-HCl. Experimental plots were divided into three groups: those receiving farm-yard manure (FYM), those receiving mineral P and those receiving no P amendment. Plots receiving FYM had the highest extractable P values and the greatest enzyme activities. There was no obvious relationship between extractable P and microbial biomass P except in those plots where no P was added (r²=0.778), emphasising the importance of fertiliser management in P dynamics in soils. Acid phosphomonoesterase activity was high in all plots, including those where microbial biomass P levels were low. This supports the findings of previous studies suggesting that acid phosphomonoesterase activity in soils is primarily of root origin. All phosphatase enzyme activities were significantly correlated with extractable P in plots receiving mineral P. This relationship was negative for acid phosphomonoesterase activity (r²=-0.947), suggesting that acid phosphomonoesterase activity is suppressed by extractable P in managed grasslands receiving mineral P fertilisers.     

Effect of tillage and residue management on enzyme activities in soils: III. Phosphatases and arylsulfatase

This study was carried out to investigate the effect of tillage and residue management on activities of phosphatases (acid phosphatase, alkaline phosphatase, phosphodiesterase, and inorganic pyrophosphatase) and arylsulfatase. The land treatments included three tillage systems (no-till, chisel plow, and moldboard plow) in combination with corn residue placements in four replications. The activities of these enzymes in no-till/double mulch were significantly greater than those in the other treatments studied, including no-till/bare, no-till/normal, chisel/normal, chisel/mulch, moldboard/normal, and moldboard/mulch. The effect of mulching on activities of phosphatases was not as significant as on activities of arylsulfatase. The lowest enzyme activities were found in soil samples form no-till/bare and moldboard/normal treatments, with the exception of inorganic pyrophosphatase, which showed the lowest activity in no-till/bare only. Among the same residue placements, no-till and chisel plow showed comparable arylsulfatase activity, whereas the use of moldboard plow resulted in much lower arylsulfatase activity. The activities of phosphatases and arylsulfatase were significantly correlated with organic C in the 40 soil samples studies, with r values ranging from 0.71*** to 0.92***. The activities of alkaline phosphatase, phosphodiesterase, and arylsulfatase were significantly correlated with soil pH, with r values of 0.85***, 0.78***, and 0.77***, respectively, in the 28 surface soil samples studied, but acid phosphatase and inorganic pyrophosphatase activities were not significantly correlated with soil pH. The activities of phosphatases and arylsulfatase decreased markedly with increasing soil depth and this decrease was associated with a decrease in organic C content. The activities of these enzymes were also significantly intercorrelated, with r values ranging from 0.50*** to 0.92***. Received: 4 October 1995