Nematode faunal response to long-term application of nitrogen fertilizer and organic manure in Northeast China

Nematode faunal response to the long-term (20-year) application of nitrogen fertilizer and organic manure was monitored in a Hapli-Udic Cambosol of Northeast China, where no fertilizer (C), nitrogen fertilizer (N), organic manure (M) and nitrogen fertilizer plus organic manure (N + M) treatments were compared. The obtained results showed that total nematode abundance responded positively to the M and N + M treatments. The numbers of Acrobeloides increased in the M and N + M treatments at maize jointing and booting stages, and those of Aphelenchoides were higher in the N + M treatment than in the N treatment at maize ripening stage. Early in the growing season, the numbers of bacterivores of cp-1 (cp, colonizer-persister) and cp-2 guilds were higher in the M and N + M treatments than in the N treatment, while those of bacterivores and fungivores of cp-4 guilds were higher in the C treatment than in the N, M and N + M treatments. Except at maize seedling stage, the numbers of fungivores of cp-2 and herbivores of cp-3 guilds were higher in the N + M treatment than in the C treatment. Ratios of the weighted abundance of representatives of specific functional guilds were used as indicators of food web structure, enrichment and decomposition channels. Values of the enrichment index (EI) at maize seedling and jointing stages were higher in the M and N + M treatments than in the C and N treatments, while an opposite trend was observed in the channel index (CI). Higher EI and lower CI suggest an enriched soil food web dominated with bacterial decomposition channels in the M and N + M treatments.     

长期施用有机肥与化肥对潮土土壤化学及生物学性质的影响

研究长期施用有机肥与化肥对潮土土壤化学和生物学性质的影响结果表明,有机肥和化肥均使土壤有机质、全N、全P、速效磷、速度钾、阳离子交换性提高,增加土壤微生物数量和活性,但有机肥在培肥地力、创造有利于微生物生长繁育的土壤环境方面明显优于化学肥料。     

Critical sulphur concentration and sulphur requirement of microbial biomass in a glucose and cellulose-amended regosol

 The critical S concentration and S requirement of the soil microbial biomass of a granitic regosol was examined. S was applied at the rate of 0, 5, 10, 20, 30 and 50 μg S as MgSO₄·7H₂O, together with either 3000 μg glucose-C or 3333 μg cellulose-C, 400 μg N, and 200 μg P g ^–1 soil and 200 μg K g^–1 soil. Microbial biomass, inorganic SO₄ ^2–-S, and CO₂ emission were monitored over 30 days during incubation at 25  °C. Both glucose and cellulose decomposition rates responded positively to the S made available for microbial cell synthesis. The amounts of microbial biomass C and S increased with the level of applied S up to 10 μg S g^–1 soil and 30 μg S g^–1 soil in the glucose- and cellulose-amended soil, respectively, and then declined. Incorporated S was found to be concentrated within the microbial biomass or partially transformed into soil organic matter. The concentration of S in the microbial biomass was higher in the cellulose- (4.8–14.2 mg g^–1) than in the glucose-amended soil (3.7–10.9 mg g^–1). The microbial biomass C:S ratio was higher in the glucose- (46–142 : 1) than in the cellulose-amended soil (36–115 : 1). The critical S concentration in the microbial biomass (defined as that required to achieve 80% of the maximum synthesis of microbial biomass C) was estimated to be 5.1 mg g^–1 in the glucose- and 10.9 mg g^–1 in the cellulose-amended soil. The minimum requirement of SO₄ ^2–-S for microbial biomass formation was estimated to be 11 μg S g^–1 soil and 21 μg S g^–1 soil for glucose- and cellulose-amended soil, respectively. The highest levels of activity of the microbial biomass were observed at the SO₄ ^2–-S concentrations of 14 μg S g^–1 soil and 17 μg S g^–1 soil, for the glucose and cellulose amendments, respectively, and were approximately 31–54% higher during glucose than cellulose decomposition. Received: 20 October 1999     

长期施有机肥与缺素施肥对潮土微生物活性的影响

利用中国科学院封丘农业生态国家实验站潮士农田生态系统养分平衡长期定位试验地,研究长期施有机肥或缺索施肥对农田土壤呼吸强度及酶活性的影响.结果发现,与不施肥对照(CK)相比.施肥处理均不同程度地提高了土壤的呼吸强度及转化酶、脲酶与磷酸酶活性;从N、P、K平衡施肥角度比较,施有机肥[OM)与有机无机配施(1/20M+1/2NPK)的效果均显著高于施无机肥(p<0.05);从缺素施肥角度分析,缺P显著低于NPK处理(p<0.05),缺N次之,缺K影响较小.结果表明,长期配施有机肥更有利于提高潮土的微生物活性,长期缺施P肥最不利于保育潮土的微生物学质量.     

长期有机–无机肥配施对农田杂草土壤种子库的影响

为揭示长期有机-无机肥配施处理下农田杂草土壤种子库的特征变化规律,本研究通过田间长期定位施肥模式试验,运用群落生态学方法研究了小麦-大豆轮作制度下大豆种植季7种施肥处理区杂草土壤种子库的结构及其生物多样性特征。结果表明,土壤样品中共检出杂草种子16种,隶属于10科; 土壤种子库总密度分布在15995~106300 grain/m2范围。长期有机-无机肥配施处理区的杂草土壤种子库优势物种组成较为简单,优势种为12种,配施麦秸处理区主要以栗米草为主,配施粪肥处理区主要以水苋菜为主; 土壤种子库的密度显著降低至15995~41900 grain/m2范围; 物种丰富度降低至7.67~9.33范围,并且将物种多样性和均匀度指数维持在休闲与纯化肥处理区之间（1.5~2.0和0.6~0.8）。长期配施麦秸、 粪肥均显著影响土壤杂草土壤种子库的结构特征,且麦秸与粪肥品种间差异的影响大于麦秸施用量差异的影响。因此,本研究认为有机-无机肥配施既有利于作物的优质高产,也可以通过调整有机肥种类以及与施用量来调控杂草土壤种子库,实现经济效益和生态效益的双赢。     

Mechanisms of soil N dynamics following long-term application of organic fertilizers to subtropical rain-fed purple soil in China

In this study, a ¹⁵N tracing incubation experiment and an in situ monitoring study were combined to investigate the effects of different N fertilizer regimes on the mechanisms of soil N dynamics from a long-term repeated N application experiment. The field study was initiated in 2003 under a wheat-maize rotation system in the subtropical rain-fed purple soil region of China. The experiment included six fertilization treatments applied on an equivalent N basis (280 kg N ha⁻¹), except for the residue only treatment which received 112 kg N ha⁻¹: (1) UC, unfertilized control; (2) NPK, mineral fertilizer NPK; (3) OM, pig manure; (4) OM-NPK, pig manure (40% of applied N) with mineral NPK (60% of applied N); (5) RSD, crop straw; (6) RSD-NPK, crop straw (40% of applied N) with mineral NPK (60% of applied N). The results showed that long-term repeated applications of mineral or organic N fertilizer significantly stimulated soil gross N mineralization rates, which was associated with enhanced soil C and N contents following the application of N fertilizer. The crop N offtake and yield were positively correlated with gross mineralization. Gross autotrophic nitrification rates were enhanced by approximately 2.5-fold in the NPK, OM, OM-NPK, and RSD-NPK treatments, and to a lesser extent by RSD application, compared to the UC. A significant positive relationship between gross nitrification rates and cumulative N loss via interflow and runoff indicated that the mechanisms responsible for increasing N loss following long-term applications of N fertilizer were governed by the nitrification dynamics. Organic fertilizers stimulated gross ammonium (NH₄⁺) immobilization rates and caused a strong competition with nitrifiers for NH₄⁺, thus preventing a build-up of nitrate (NO₃⁻). Overall, in this study, we found that partial or complete substitution of NPK fertilizers with organic fertilizers can reduce N losses and maintain high crop production, except for the treatment involving application of RSD alone. Therefore, based on the N transformation dynamics observed in this study, organic fertilizers in combination with mineral fertilizer applications (i.e. OM, OM-NPK, and RSD-NPK treatments) are recommended for crop production in the subtropical rain-fed purple soils in China.     

Soil enzymatic activity as affected by long term application of farm yard manure and mineral fertilizer under a rainfed soybean–wheat system in N-W Himalaya

Long-term experimental sites are expected to provide important information regarding soil properties as affected by management practices. This study was designed to examine the effects of continuous fertilization, and manuring on the activities of enzymes involved in mineralization of C, N, and P on a long term (33 years) field trial under sub-temperate conditions in India. Treatments at the site included application of recommended doses of nitrogen and phosphorus (NP), nitrogen and potassium (NK), nitrogen, phosphorus and potassium (NPK), farmyard manure (FYM) with N (N + FYM), FYM with NPK (NPK + FYM) and un-amended control (C). The study was done under rainfed soybean–wheat rotation. Manure application increased soil carbohydrate, dehydrogenase, acid and alkaline phosphatases, cellulase, and protease activity significantly. Urease activity was not influenced by the manure treatment and the activity was highest in controls. Both acid and alkaline phosphatase activities were negatively influenced by chemical fertilizer treatment. Almost all the enzymes studied were significantly correlated with soil C content. The results suggest that application of FYM directly or indirectly influences the enzyme activity and it in turn regulates nutrient transformation.     

Soil micronutrient availability to crops as affected by long-term inorganic and organic fertilizer applications

Micronutrient status in soils and crops can be affected by different fertilization practices during a long-term field experiment. This paper investigated the effects of different fertilization treatments on total and DTPA-extractable micronutrients in soils and micronutrients in crops after 16 year fertilization experiments in Fengqiu County, Henan Province, China. The treatments of the long-term experiment included combinations of various rates of N, P and K in addition to two rates of organic fertilizer (OF) treatments. Winter wheat and summer maize were planted annually. Soil macro- and micronutrients along with pH and organic matter (OM) were analyzed. Grains and above ground parts of both crops in the final year were harvested and analyzed for Cu, Zn, Fe and Mn. The results showed that soil Cu, Zn, Fe and Mn concentrations did not change among the different treatments to a significant level, except for a slight decrease of soil Zn in the CK (no fertilizer application) compared to the OF treatment. The DTPA-extractable soil Zn, Fe and Mn concentrations increased from 0.41 to 1.08 mg kg⁻¹, from 10.3 to 17.7 mg kg⁻¹, and from 9.7 to 11.8 mg kg⁻¹, respectively, with increasing soil OM content, thus showing the importance of soil OM in micronutrient availability for crops. The NPK treatment also had higher DTPA-extractable micronutrient concentrations in soil. Deficiency of N or P resulted in a low yield but high micronutrient concentrations in crops except Cu in maize stalks. Higher available soil P significantly decreased crop micronutrients, possibly because of their precipitation as metal phosphates. Maize stalks contained higher concentrations of micronutrients than those of wheat straw, whereas wheat grain had higher micronutrients than those of corn grain. The transfer coefficients (TCs) of micronutrients from straw to grain were significantly different between winter wheat (1.63–2.52 for Cu; 2.31–3.82 for Zn; no change for Fe; 0.55–0.84 for Mn) and summer maize (0.24–0.50 for Cu; 0.50–1.21 for Zn; 0.02–0.04 for Fe; 0.07–0.10 for Mn). In conclusion, application of organic matter significantly increased the DTPA-extractable concentrations of Zn, Fe and Mn compared to the CK, grain and vegetative tissue in the CK and NK had higher micronutrient concentrations than those in other treatments.     

Long-term effects of farmyard manure and sewage sludge on some soil biochemical characteristics

 Changes in some soil biochemical properties were investigated following repeated applications of aerobically digested sewage sludge (SS) under field conditions over 12 years, and compared with those of an adjacent soil cultivated and amended with 5 t ha^–1 year^–1 (dry weight) farmyard manure (FYM) for at least 40 years, as well as with those of an adjacent uncultivated soil, in order to ascertain changes in soil quality. A short-term aerobic incubation was used to determine the potential of the samples to mineralize the organic C supplied. Results indicated that cultivation caused a reduction in total, humified and potentially mineralizable organic C, total N, light-fraction (LF) C, total and water-soluble carbohydrates, phenolic compounds, cation-exchange capacity (CEC), microbial biomass C, specific respiration, hydrolytic and urease activities, and an increase in the heavy metal content. Total and water-soluble carbohydrates and phenolic compounds expressed as a percentage of total organic C (TOC) were similar in the differently managed plots. Of the two amendments, FYM treatments showed higher amounts of TOC and N, LF-C, total and water-soluble carbohydrates, phenolic substances, CEC, specific respiration of biomass, hydrolytic and urease activities, similar amounts and characteristics of humified organic matter and lower concentrations of Cu, Zn and Cr. Both FYM and SS were inadequate treatments for the restoration of soil organic matter lost as a consequence of cultivation. Received: 20 October 1998     

Effects of animal manure and mineral fertilizer on the total carbon and nitrogen contents of soil size fractions

Summary Soil was sampled in autumn 1984 in the 132 field (sandy loam soil) of the Askov long-term experiments (started in 1894) and fractionated according to particle size using ultrasonic dispersion and sedimentation in water. The unmanured plot and plots given equivalent amounts of N (1923–1984 annual average, 121 kg N/ha) in either animal manure or mineral fertilizer were sampled to a depth of 15 cm, fractionated and analysed for C and N. Mineral fertilizer and animal manure increased the C and N content of whole soil, clay (<2 m) and silt (2–20 m) size fractions relative to unmanured samples, while the C content of the sand size fractions (fine sand 1, 20–63 m; fine sand 2, 63–200 m; coarse sand, 200–2000 m) was less affected. Clay contained 58% and 65°70 of the soil C and N, respectively. Corresponding values for silt were 30% and 26%, while sand accounted for 10% of the soil C. Fertilization did not influence this distribution pattern. The C : N ratio of the silt organic matter (14.3) was higher and that of clay (10.6) lower than whole-soil C:N ratios (12.0). Fertilization did not influence clay and silt C : N ratios. Animal manure caused similar relative increases in the organic matter content of clay and silt size fractions (36%). In contrast, mineral fertilizer only increased the organic matter content of silt by 21% and that of clay by 14%.     

Size and activity of soil microbial communities in long-term experimental grassland plots treated with manure and inorganic fertilizers

We determined the size, activity, and affinity of the microbial community for glucose in soils from long-term experimental grassland plots. The plots had been treated annually with either farmyard manure, inorganic NPK fertilizers, farmyard manure+inorganic NPK fertilizers, (NH₄)₂SO₄ only, or no experimental amendment sine 1897. The largest biomass and activity differences were between the (NH₄)₂SO₄-treated soil, which was very acid, and the rest, which were nearer neutral. In the (NH₄)₂SO₄-treated soil, the biomass C to organic C ratio was small, but overall the community had high respiratory activity per unit of biomass (qCO₂) and high overall affinity for glucose (low K _m). The effects of the manure treatment were a greater biomass C and a lower overall glucose affinity than in the control plot. In the presence farmyard manure, NPK led to smaller biomass and a lower biomass to organic C ratio while having no significant effect on either glucose K _m or qCO₂. In the absence of farmyard manure, NPK led to significantly greater glucose affinity but had no significant effect on the biomass, the biomass C to organic C ratio or qCO₂.     

The use of 15N labelling to study the turnover and utilization of ruminant manure N

 An improved understanding of the cycling of animal manure N is a prerequisite for making better use of this N source. A sheep was fed ¹⁵N-labelled grass in order to study the fate of ¹⁵N-labelled ruminant manure N in the plant-soil system. The uniformity of labelling was found to be satisfactory when an appropriate feeding strategy was used. The mineralization of labelled faecal N was compared to the mineralization of labelled feed N and indigestible feed N by measuring residual labelled organic N in unplanted topsoil in the field. After 18 months, 61% of both faecal N and feed N was recovered in organic form in the topsoil, while 94% of the indigestible feed N was still present in the soil. The influence of slurry distribution in soil on the crop uptake of labelled faecal N in slurry was studied in a sandy and a sandy loam soil. The crop uptake of labelled faecal N was compared with the uptake of ¹⁵N-labelled mineral fertilizer in a reference treatment. The uptake was 28–32% of that of the reference treatment with simulated slurry injection, 13–25% with incorporated slurry and 18–19% with slurry on the soil surface. The mineralization of faecal N in the autumn after application in spring was low irrespective of the slurry distribution in soil. The results demonstrate that the contact between animal manure and the soil matrix significantly influences the short-term turnover and availability of faecal and ammonium N in slurry, especially in fine-textured soils. Received: 31 October 1997     

塑料大棚内长期施肥对菜田土壤磷素组成及其含量影响

对塑料大棚内自1988年开始的蔬菜施肥长期定位试验田土壤磷索组分和含量进行了研究.结果表明,除了长期单独施用氮肥引起耕层土壤全P、有效P降低外.其他施肥处理均能提高土壤中全P和有效P含量.长期施用有机肥土壤闭蓄态P(O-P)含量最高.占无机P总置的35%～47%;不施有机肥土壤磷酸钙(Ca-P)含量最高,占无机P总量的29%～39%.施用有机肥可以显著提高土壤有机P总量,有机肥组各处理土壤活性有机P和中等活性有机P含量均显著高于不施有机肥组各对应处理,而稳定性有机P和高稳定性有机P含量则低于不施有机肥组.长期施用磷肥会增加土壤中无机P积累,且有效性较高的Ca-P、磷酸铝(Al-P)积累程度高于较稳定的O-P、磷酸铁(Fe-P),土壤有效P含量与各组分无机P及其总量、活性有机P、中等活性有机P及有机P总量呈显著正相关.而与稳定性有机P、高稳定性有机P和全P含量的相关性不明显.因此,长期施用有机肥和磷肥能够改变土壤磷索组成.提高磷素有效性.     

长期有机无机肥配施对水稻产量及土壤有效养分影响

利用中国农业科学院红壤实验站开始于1982年的水稻长期定位试验,研究长期有机无机肥配施对水稻产量及土壤速效氮、磷、钾含量的动态变化(1982—2011年)特征。29年研究结果表明:长期有机无机肥配施(NPKM)能提高水稻产量,培肥地力。长期施用化肥(NPK)导致水稻产量降低。稻谷产量随着施肥量的增加而增加。在等氮投入情况下,增施化学磷肥的增产效应要高于化学钾肥,且早稻表现尤为明显;长期单施有机肥和单施化肥对稻谷产量的影响没有显著差异。随着施肥时间的延长,各处理水稻产量差异越显著。各施肥处理土壤碱解氮增加速率表现为慢-快-慢三个阶段,有机肥的施用相较单施化肥,能够显著提高土壤碱解氮含量(p0.05)。土壤有效磷的累积主要与化学磷肥的施用有关,各施肥处理土壤有效磷历年平均含量变化趋势为:NPKM、NPM、PKMNPKM、NKM(p0.01);土壤速效钾以有机肥和化学钾肥配施的处理(NPKM、NKM、PKM)增加最快,单施化学肥料的处理(NPK)增加最慢。随着氮、磷施用量的增加,土壤中氮、磷素出现盈余,但NPKM处理相比其他处理能够有效降低盈余量;各处理土壤中钾素均表现为亏缺状态,红壤性水稻田至少每年应补充投入钾素200 kg hm-2才能基本维持土壤钾素平衡。     

长期施用化肥对我国南方水田表土有机碳含量的影响

利用meta分析研究水田土地利用方式下化肥对土壤有机碳含量的影响。结果显示:长期施用化肥处理的表层水稻土土壤有机碳含量较不施肥处理显著提高1.00±0.23 g kg-1,是不施肥处理的1.06倍±1.01倍。分析认为施肥处理下,较高的根系生物量导致较高的碳输入水平,另外相对充足的养分供应提高土壤固碳效率,这是施肥处理下土壤具有较高有机碳含量的两个原因。但不同轮作制度下,化肥对有机碳含量提升作用有差异:稻-稻-旱轮作制下化肥的作用不显著,而稻-旱轮作与稻-稻轮作制度下化肥对有机碳含量的提升作用显著。方差分析发现相同施肥措施下,稻-稻-旱轮作体系下土壤有机碳含量在三种轮作制度中最高,而稻-旱轮作与稻-稻轮作没有显著差异。尽管施用化肥能增加土壤有机碳含量,但评价施用化肥对温室效应的影响还需要综合考虑化肥生产、运输与施用过程中的温室气体排放三要素。     

Effects of manure application on carbon,nitrogen, and carbohydrate contents of a silt loam and its particle-size fractions

Summary Changes in the organic matter and carbohydrate contents of a silt loam and of its particle-size fractions were examined after 10 years of applying solid cattle manure. Relative to the unmanured soils, bi-annual applications of 40 and 80 Mg ha^-1 manure increased C, N, and total carbohydrate contents of the whole soil and of all the particle-size fractions. The manure application had no effect on the composition of the carbohydrates. However, the organic matter of the soil with the high application rate (80 Mg ha^-1) was enriched in carbohydrates. The distribution of carbohydrates in the particlesize fractions and the ratio (Ga+Ma):(Ar+Xy) indicated that carbohydrates of both plant and microbial origin were increased upon application of manure to the soil.     

Long-term yield trend and sustainability of rainfed soybean–wheat system through farmyard manure application in a sandy loam soil of the Indian Himalayas

A long-term (30 years) soybean–wheat experiment was conducted at Hawalbagh, Almora, India to study the effects of organic and inorganic sources of nutrients on grain yield trends of rainfed soybean (Glycine max)–wheat (Triticum aestivum) system and nutrient status (soil C, N, P and K) in a sandy loam soil (Typic Haplaquept). The unfertilized plot supported 0.56 Mg ha⁻¹ of soybean yield and 0.71 Mg ha⁻¹ of wheat yield (average yield of 30 years). Soybean responded to inorganic NPK application and the yield increased significantly to 0.87 Mg ha⁻¹ with NPK. Maximum yields of soybean (2.84 Mg ha⁻¹) and residual wheat (1.88 Mg ha⁻¹) were obtained in the plots under NPK + farmyard manure (FYM) treatment, which were significantly higher than yields observed under other treatments. Soybean yields in the plots under the unfertilized and the inorganic fertilizer treatments decreased with time, whereas yields increased significantly in the plots under N + FYM and NPK + FYM treatments. At the end of 30 years, total soil organic C (SOC) and total N concentrations increased in all the treatments. Soils under NPK + FYM-treated plots contained higher SOC and total N by 89 and 58% in the 0–45 cm soil layer, respectively, over that of the initial status. Hence, the decline in yields might be due to decline in available P and K status of soil. Combined use of NPK and FYM increased SOC, oxidizable SOC, total N, total P, Olsen P, and ammonium acetate exchangeable K by 37.8, 42.0, 20.8, 30.2, 25.0, and 52.7%, respectively, at 0–45 cm soil layer compared to application of NPK through inorganic fertilizers. However, the soil profiles under all the treatments had a net loss of nonexchangeable K, ranging from 172 kg ha⁻¹ under treatment NK to a maximum of 960 kg ha⁻¹ under NPK + FYM after 30 years of cropping. Depletion of available P and K might have contributed to the soybean yield decline in treatments where manure was not applied. The study also showed that although the combined NPK and FYM application sustained long-term productivity of the soybean–wheat system, increased K input is required to maintain soil nonexchangeable K level.     

长期定位施肥对砂姜黑土肥力及生产力的影响研究

长期定位试验研究化肥与有机肥配施对砂姜黑土土壤肥力和作物产量的影响结果表明 ,长期施肥可提高土壤碱解氮、速效磷及有机质含量 ,不同肥料组合间差异较大 ,以有机肥与化肥配施处理效果最佳 (但同时必须重视K素的投入 ) ,土壤速效钾仅全部施用有机肥处理有所增加 ,单施N、P化肥处理下降最多 ,至 15年后下降2 5 .8%。长期未施肥处理 (对照 )碱解氮变化最大 ,较试验前下降 2 6 .5 % ,其他养分指标变化较小。有机肥与化肥配施处理产量前期不及单施化肥处理 ,中后期则反之。砂姜黑土基本生产力随种植时间延长而渐降 ,土壤对秋粮大豆或玉米的供肥能力高于小麦。     

长期不同施肥对稻田土壤有机质和全氮的影响

通过对湖南新化、宁乡、株洲、桃江、武岗5个国家级稻田肥力长期定位试验点18年的田间定位试验,研究了不同施肥方式下0-20 cm土层土壤有机质和全N含量的演变规律。结果显示,中量和高量有机肥与化肥配合处理在提高土壤有机质和全N含量方面效果明显优于单施化肥和秸秆还田处理,且随有机肥用量的增加而增加,表明有机肥与化肥配合施用是提高土壤有机质和N素肥力的重要措施。在不同施肥方式下,稻田土壤有机质总体上呈现出上升或者下降的趋势,但在不同的年份会有波动。     

长期冬种绿肥对红壤性水稻土微生物特性及酶活性的影响

以农业部衡阳红壤环境重点野外科学观测基地长期冬种绿肥稻田为平台,研究了双季稻种植区长期冬种绿肥下红壤性水稻土微生物特性及酶活性与土壤质量的关系,阐明了长期冬种绿肥翻压下土壤健康的微生物指标功能。研究分析了26年冬种不同绿肥的红壤性水稻土微生物学参数之间的差异及其提升土壤肥力的作用,结果表明,与冬季休闲处理相比,长期冬种绿肥翻压处理的微生物种群数量、微生物生物量碳(SMBC)、微生物生物量氮(SMBN)、土壤呼吸、脲酶、转化酶和脱氢酶活性都有所提高,代谢熵(qCO2)降低,以长期冬种紫云英翻压处理效果最明显。微生物种群数量、SMBC、脲酶、脱氢酶与土壤总有机碳(TOC)、全氮(TN)、速效氮(AN)、缓效钾(SLK)和速效钾(AK)呈显著或极显著相关;TOC,TN,AN,SLK,AK,微生物种群数量,脲酶、转化酶、脱氢酶活性与水稻产量呈显著正相关关系。长期冬种绿肥翻压能明显地改善红壤性水稻土的微生物特性与酶活性,提高土壤肥力。