太湖地区稻田绿肥固氮量及绿肥还田对水稻产量和稻田土壤氮素特征的影响

通过田间试验,利用15N自然丰度法,研究了太湖地区水稻土冬季绿肥的固氮量,以及绿肥还田后配施氮肥对水稻产量、稻田土壤供氮能力及土壤氮素淋失特征的影响。试验结果表明,紫云英和蚕豆当季分别能固定氮约32.8和68.8 kg km-2进入稻田生态系统以培肥土壤和供下季水稻利用。蚕豆秸秆还田后基本能满足水稻生长所需的氮,紫云英和蚕豆还田施氮120 kg km-2时,既可保证水稻较高产量,又节约当季化学氮肥45%～55%。紫云英和蚕豆还田不施氮肥处理,整个生长期耕层土壤溶液NH+4-N、NO-3-N和TN浓度均低于配施氮肥的处理;蚕豆还田处理土壤溶液TN浓度高于紫云英还田处理。随氮肥用量增加,NH+4-N、NO-3-N和TN浓度有增加趋势,不同施氮量间差异不显著。绿肥-水稻轮作,紫云英和蚕豆还田土壤氮素淋溶显著降低。配施氮肥增加了土壤氮的淋失量,尤其施氮300 kg km-2处理,土壤淋溶液NH+4-N、TN浓度显著高于施氮0～240 kg km-2的处理。     

麦秆还田氮肥运筹对水稻产量及土壤氮素供应的影响

通过田间对比试验,研究了小麦秸秆全量还田后不同N肥运筹模式对水稻生长及土壤N素供应的影响。结果表明,小麦秸秆全量还田使水稻增产5.3%,且N肥运筹模式由传统模式A(基蘖肥:穗肥=5:5,基肥:分蘖肥=6:4)优化为B(基蘖肥:穗肥=6.5:3.5,基肥:分蘖肥=8:2)时,增产幅度更大,达9.3%。秸秆全量还田主要通过提高水稻结实率和成穗率,增加有效穗数,实现水稻增产。秸秆还田影响了水稻生长进程,表现为抑制水稻前期(孕穗期)生长和N素累积,而促进后期生物量增加和N素累积。同一时期,N肥模式B水稻生物量、N素累积量均高于模式A。秸秆全量还田后,土壤矿质N发生变化,水稻生育前期较不还田处理(CK)低,而后期较CK高,且N肥运筹模式B较A高。秸秆还田提高了N肥利用率,RNA、RNB分别比CK增加4.1和8.6个百分点,且土壤N素表观盈余量表现为:RNBRNACK。因而,小麦秸秆全量还田,并采用N肥运筹模式B,是实现水稻高产,维持土壤N素平衡的有效措施。     

Effect of long-term application of rice straw,farmyard manure and inorganic fertilizer on potassium dynamics in soil

Knowledge of K-dynamics in soils can help devise practices for efficient K management in intensive rice-wheat systems. We studied the effect of long-term application of rice straw, farmyard manure (FYM) and inorganic fertilizer on total K and its distribution among different forms in 60-cm soil profile after 14 years of rice-wheat cropping. The exchangeable, the non-exchangeable and the lattice K respectively comprised 1%, 3–10% and 89–95% of total K in surface soil under different treatments. Application of rice straw and FYM positively impacted total K status of soil and its distribution among different forms. The greatest concentrations of total K, lattice K, exchangeable K and NH₄OAc-extractable K were observed in plots receiving both rice straw and FYM together and the lowest in inorganic fertilizer treated plots. On the contrary, the non-exchangeable K was the highest in inorganically fertilized plots and the lowest in rice straw amended plots. The exchangeable, the water soluble and the NH₄OAc-extractable K decreased with soil depth and did not indicate K movement beyond the rooting zone of the crops. The results showed that incorporation of rice residue in soil, instead of burning, besides reducing environmental pollution led to improved K-fertility of soils.     

施氮量对土壤无机氮分布和微生物量氮含量及小麦产量的影响

在高肥力土壤条件下,研究了施氮量对土壤无机氮分布和微生物量氮含量及小麦产量的影响。结果表明,小麦生长期间,施氮处理0100.cm土层硝态氮积累量显著大于不施氮处理;当施氮量大于150.kg/hm2时,随施氮量增加,0100.cm土层硝态氮积累量显著增加;随小麦生育进程推进,施氮处理上层土壤硝态氮下移趋势明显,至小麦成熟时,施氮1952～85.kg/hm2处理60100.cm土层硝态氮含量显著大于其它处理。小麦生长期间,0100.cm土层铵态氮积累量较为稳定,施氮处理间亦无显著差异。与不施氮肥相比,施氮提高小麦生长期间040.cm土层土壤微生物量氮含量;当施氮量小于240.kg/hm2时,随施氮量增加,土壤微生物量氮含量增加。小麦的氮肥利用率随施氮量增加而降低;施氮1051～95.kg/hm2,收获时小麦植株吸氮量、生物产量、子粒产量和子粒蛋白质含量提高;而施氮量大于240.kg/hm2时,小麦生育后期的氮素积累量降低,收获时植株吸氮量、生物产量和子粒蛋白质含量降低。说明本试验条件下,施氮1051～50.kg/hm2可满足当季小麦氮素吸收利用,获得较高的子粒产量和蛋白质含量。继续增加施氮量,土壤微生物量氮含量增加,但土壤中残留大量硝态氮,易淋溶损失。     

Excessive application of farmyard manure reduces rice yield and enhances environmental pollution risk in paddy fields

The present study examined the effect of excessive application of farmyard manure (FM) on rice production and environmental pollution in paddy fields of Japan. A long-term field experiment was conducted during the period 1976–2006 to examine the trends of rice yield and yield components as affected by the excessive FM application (20 Mg ha^?1 year^?1 containing 110 kg N, 180 kg P₂O₅, and 320 kg K₂O). Rice growth, soil fertility, and surface water quality were also assessed in the final year (2006). The results obtained were compared with those of a conventional practice with recommended doses of inorganic fertilizer (IF), i.e. 85 kg N, 68 kg P₂O₅, and 53 kg K₂O ha^?1 year^?1, and an unfertilized control (CR). The excessive FM application resulted in a gradual decrease in grain yield, which was mostly explained by the reduction of grain fertility under the luxuriant rice growth. This reduction may have been due to the higher accumulation of soil nutrients such as N, P, and K. Moreover, the excessive FM application increased chemical oxygen demand, total P, and soluble K concentrations in the paddy surface water and their effluent loads compared to the conventional practice with the recommended IF application.     

长期施肥对土壤微生物生物量碳、氮及矿质态氮含量动态变化的影响

利用位于陕西杨凌的17年长期定位试验研究了长期不施肥(CK)、单施化肥(F)、化肥配施有机肥(F+M)和化肥加秸秆还田(F+S)处理对小麦-玉米轮作体系中作物不同生长时期土壤微生物生物量碳、氮(SMBC、SMBN)和矿质态氮含量的影响。结果表明,0—10 cm土层土壤SMBC、SMBN和矿质态氮含量的变化范围分别为264.8~752.2、37.51~14.8和3.83~8.5 mg/kg。不同处理相比,F+M处理中各采样时期(小麦苗期、拔节期、灌浆期及玉米播种期、大喇叭口期、灌浆期和收获后)土壤SMBC和SMBN含量均为最高,分别为不施肥对照的1.382~.65和1.892~.50倍;F+S处理矿质态氮含量最高,SMBC和SMBN也高于F和CK处理,大部分采样时期的差异达显著水平(P0.05);与CK相比,长期单施化肥也使各时期SMBC和SMBN含量提高。在小麦拔节期到灌浆期的旺盛生长阶段各施肥处理土壤SMBN含量均下降,而矿质态氮含量变化不大,处于较低水平;在玉米大喇叭口期到灌浆期的旺盛生长阶段,F+M、F+S和F处理土壤矿质态氮含量显著下降,而SMBN含量均有所升高。表明在土壤矿质态氮含量较高时,作物首先利用矿质态氮,而在土壤矿质态氮含量处于较低水平时,微生物固持的氮素可能会释放出来供作物吸收利用。     

适宜的水氮处理提高稻基农田土壤酶活性和土壤微生物量碳氮

为探讨节水灌溉与氮肥施用对稻田土壤微生物特性的影响,该试验采用防雨棚池栽试验,研究2个灌溉模式（常规灌溉与控制灌溉）与3个水平施氮量（90、180和270 kg/hm2））对稻基农田土壤脲酶活性、土壤过氧化氢酶活性、土壤磷酸酶活性、土壤转化酶活性、土壤微生物量碳及土壤微生物量氮的影响。研究结果表明,随着施氮水平增加,土壤脲酶活性和土壤微生物量氮增加,土壤过氧化氢酶活性、土壤磷酸酶活性、土壤转化酶活性、土壤微生物量碳、土壤微生物量碳与土壤微生物量氮的比值、土壤微生物熵均呈先增加后降低趋势;与常规灌溉相比,控制灌溉显著提高稻基农田土壤脲酶活性、土壤过氧化氢酶活性、土壤磷酸酶活性、土壤转化酶活性、土壤中微生物量碳、土壤微生物量氮、土壤微生物熵,降低土壤微生物量碳与土壤微生物量氮的比值。在该试验条件下,以控制灌溉模式下施氮量180 kg/hm2可获得最优的生物环境,土壤脲酶活性、土壤过氧化氢酶活性、土壤磷酸酶活性、土壤转化酶活性、土壤中微生物量碳、土壤微生物量氮分别达到3.02×10-2 mg/g、0.93 mL/g、5.70 mg/g、10.08 mL/g、237.58 mg/kg、52.60 m/kg。该研究对认识稻基农田水氮耦合关系、指导江淮丘陵季节性干旱区水稻优质节水高产高效栽培实践提供理论依据。     

Long-term effects of straw and farmyard manure on crop yields and soil properties

The effect of cereal straw with added mineral N fertilization on crop yields, N uptake, total organic C content and hot water soluble C content in topsoil and on the relationships between organic C content in topsoil and organic matter balance was evaluated in a long-term field experiment established in 1966. The effect of straw plus mineral N fertilization was similar to the effect of farmyard manure (FYM) in the dry matter yields and also in the N uptake by plants. The effect of straw and mineral N fertilization on the organic C accumulation in soil was inferior to the effect of farmyard manure. Relationships between organic matter balance and total organic C content in the topsoil was positive and statistically significant. A favourable effect of mineral NPK fertilization on the C sequestration to soil was related to the effect of FYM fertilization.     

Changes in microbial biomass after continuous application of azolla and rice straw in soil

A model experiment was conducted under tropical conditions with a view to evaluating the changes in microbial biomass and nutrient dynamics in upland soil through the continuous application of azolla and rice straw (2 g C kg^-1 soil per each application). Flush decomposition of C was observed immediately after each application and the rate of mineralization did not change appreciably during this period. After flush decomposition, the rate of C mineralization from azolla was higher than that from rice straw until 9 to 13 weeks after each application and thereafter the mineralization rate was similar. The amount of inorganic N released from azolla increased following each application, whereas inorganic N in rice straw plot was immediately immobilized and the rate of immobilization increased until the 3rd application and did not increase further after the 4th application. The amounts of biomass C and N increased immediately after residue incorporation, reached the maximum level one week after each application and declined thereafter. Maximum biomass formation increased until the 2nd application and then the level remained constant. Maximum biomass N formation was higher in azolla than in rice straw after the 1st application, but after repeated applications, the difference became less pronounced: Continuous increase in biomass in a certain week after each application was observed, probably because of the cumulative effects of the previous applications. The increase suggests that continuous application of organic materials may enable to improve the amount of soil microbial biomass.     

施用预处理稻秆的土壤供氮特征及对冬小麦氮吸收的影响

采用盆栽试验方法,研究了经过预处理的水稻秸秆(预处理稻秆)施入土壤后对土壤的供氮特征及小麦氮营养的影响。研究结果表明,稻秆经过预处理后,纤维素、半纤维素以及二氧化硅比原始稻秆都有所降低,而可溶性物质增加;施用时配施无机氮肥,小麦全生育期内土壤微生物量N和矿质态N平均分别比对照(纯土壤)提高232.3%和66.0%,小麦干物重和吸收总氮量分别比对照高56.3%和124.3%,并优于未经处理的原始秸秆及单施尿素处理。可见处理秸秆配施尿素能够显著改善土壤的供氮状况,促进小麦对氮素的吸收,增加小麦产量,提高化学肥料氮的利用率。     

Analysis of soil microbial biomass nitrogen and 15N with a high background of labeled mineral N

Abstract

Microbial biomass is determined from the excess of extractable organic N released from fumigated soil samples. In the presence of relatively high contents of labeled mineral N, small differences in organic N and N may not be detectable. Two approaches were tested to determine organic N content and its N enrichment in the presence of considerably greater concentrations of labeled mineral N: (i) Removal of mineral N from mixed solutions of alanine and NH₄ or NO₃ by reduction and boiling under alkaline conditions, prior to Kjeldahl digestion. (ii) Including mineral N in Kjeldahl N analysis, by reduction under acidic conditions prior to digestion and calculating organic N and N content by subtracting mineral N and N. The removal of mineral N was either incomplete‐ particularly regarding labeled mineral N, or partly destroyed organic N as well. When mineral N was included in the digest, the recovery of N and ¹⁵N was sufficiently accurate to obtain good results of organic N and ¹⁵N by subtracting the known quantities of mineral N, even when organic N was only 20% of the total Kjeldahl N. This procedure was used to determine the flush of Kjeldahl N in fumigated soils that were incubated with labeled mineral N and cellulose.     

Variations in soil microbial biomass and N availability due to residue and tillage management in a dryland rice agroecosystem

Seasonal changes in the levels of soil microbial biomass C (MBC) and N (MBN), N-mineralization rate and available-N concentration were studied in rice–barley supporting tropical dryland (rainfed) agroecosystem under six combinations of tillage (conventional, minimum and zero tillage) and crop residue manipulation (retained or removed) conditions. Highest levels of soil MBC and MBN (368–503 and 38.2–59.7 μg g⁻¹, respectively) were obtained in minimum tillage residue retained (MT+R) treatment and lowest levels (214–264 and 20.3–27.1 μg g⁻¹, respectively) in conventional tillage residue removed (CT−R, control) treatment. Along with residue retention tillage reduction from conventional to zero increased the levels of MBC and MBN (36–82 and 29–104% over control, respectively). The proportion of MBC and MBN in soil organic C and total N contents increased significantly in all treatments compared to control. This increase (28% in case of C and 33% N) was maximum in MT+R and minimum (10% for C and N both) in minimum tillage residue removed (MT−R) treatment. In all treatments concentrations of N in microbial biomass were greater at seedling stage, thereafter these concentrations decreased drastically (21–38%) at grain-forming stage of both crops. In residue removed treatments, N-mineralization rates were maximum during the seedling stage of crops and then decreased through the crop maturity. In residue retained treatments, however, N-mineralization rates were lower than in residue removed treatments at seedling stage of both crops. At grain-forming stage in all instances the N-mineralization rates in residue retained treatments considerably exceeded the rates in corresponding residue removed treatments. Tillage reduction and residue retention both increased the proportion of organic C and total N present in soil organic matter as microbial biomass. Microbial immobilization of available-N during the early phase of crops and its pulsed release later during the period of greater N demand of crops enhanced the degree of synchronization between crop demand and N supply. The maximum enhancement effects were recorded in the minimum tillage along with residue retained treatment. In the dryland agroecosystem studied, two management practices in combination proved more advantageous than either practice alone in maintaining soil fertility levels. For soil fertility amelioration in dryland agroecosystems with least dependence upon chemical fertilizer input, post-harvest retention of about 20 cm shoot biomass (accounting for 25–40% aboveground biomass) of previous crop and its incorporation in soil through minimum tillage in the succeeding crop is suggested, especially in the case of cereal.     

Effects of farmyard manure and inorganic fertilizer on the dynamics of soil microbial biomass in a tropical dryland agroecosystem

Changes in the soil microbial biomass following applications of farmyard manure and inorganic fertilizer, alone and in combination, were studied for two annual cycles in a rice-lentil crop sequence grown under rainfed tropical dryland conditions. During the two annual cycles the microbial biomass C range (g g^-1) was 146–241 (x = 204), 191–301 (245), 244–382 (305), and 294–440 (365) in control, fertilizer, manure and manure+fertilizer plots, respectively. The corresponding ranges for microbial biomass N (g g^-1) were 16.5–21.0 (19.5), 20.4–38.2 (26.0), 23.0–34.6 (27.0) and 26.2–42.4 (33.3), and for microbial biomass P (g g^-1) 4.4–8.2 (7.0) 6.0–11.2 (9.6), 11.2–22.0 (17.0), and 10.0–25.4 (18.3). The maximum increase in the microbial biomass, due to these inputs was observed under the manure+fertilizer treatment followed, in decreasing order, by manure alone and fertilizer alone. Within individual crop periods the levels of microbial biomass decreased sharply from the seedling to the flowering stage and then increased slightly with crop maturity. The maximum levels of microbial biomass C and P were observed during the summer fallow. The maximum accumulation of microbial biomass N occurred in the early rainy season, immediately after the soil amendments. Microbial biomass C, N, and P were positively related to each other throughout the annual cycle.     

化肥有机肥配合施用下双季稻田氮素形态变化

为揭示有机无机肥配合施用下稻田氮素的动态及迁移特征,在湘南双季水稻农作区第四纪红土发育的红黄泥稻田上进行了连续6年田间试验。通过比较不施氮肥（PK）、施用有机肥猪粪（M）、化肥（NPK）及有机肥化肥配合（NPKM）,研究稻田表层全氮、无机氮动态变化,不同层次（25—30、55—60、85—90 cm）土壤溶液无机氮动态,耕层土壤无机氮动态等。结果表明,NH4+-N是红壤双季稻田无机氮素存在的主要形态,施用化学肥料处理（NPK）施肥后1～3 d表面水NH4+-N浓度占全氮比例可达0.5～0.9,有机肥处理（M）为0.3左右。不同层次土壤溶液及其土壤氮素浓度呈现一致的特征,即施肥后短期内出现浓度峰值随后迅速下降,且随着往下推移,氮素峰值出现时间延长,表层水全氮及无机氮在施肥后1～2 d出现浓度高峰,耕层土壤及25—30 cm土壤溶液无机氮浓度高峰约在施肥后3～5 d。化肥有机肥配施有利于水稻稳产高产,年产量达12.2 t/hm2,比不施氮肥的对照产量（7.3 t/hm2）增加68%;土壤有机质6年提升18.5%,显著高于化肥。施用有机肥（M）及有机无机肥配合（NPKM）显著降低了稻田表层水全氮及不同层次土壤溶液和耕层土壤NH4+-N峰值浓度,提高水稻产量和培肥土壤,有利于减少当前氮肥过量施用带来的环境负荷。     

秸秆还田下氮肥运筹对白土田水稻产量和氮吸收利用的影响

【目的】研究小麦秸秆直接还田条件下不同氮肥基追比例运筹方式对白土稻田水稻产量和氮素吸收利用的影响, 为华中低产白土稻田水稻合理施肥提供科学依据。【方法】设置2种小麦秸秆还田量(0和3000 kg/hm2)及3种氮肥基肥-分蘖肥-穗肥施用比例(80-0-20、 60-20-20 和40-30-30)和不施氮的对照, 共7个处理, 分别为N80-0-20、 N60-20-20、 N40-30-30、 N80-0-20+S、 N60-20-20+S、 N40-30-30+S和CK。水稻收获期采集代表性样品考察水稻产量结构性状, 同时测定水稻籽粒和秸秆产量, 分析籽粒和秸秆氮素含量, 计算水稻氮素吸收量和氮肥利用效率。【结果】基肥-分蘖肥-穗肥施用比例60-20-20的处理水稻籽粒产量最高, 两年试验较不施分蘖肥的对照分别增产9.4%~12.9%和7.4%~8.9%。实施小麦秸秆直接还田后, 水稻籽粒产量较不施秸秆的对照分别提高10.2%~23.4%和0.8%~5.5%。不施秸秆条件下, 基-蘖-穗肥施用比例60-20-20的处理水稻籽粒含氮量最高, 较不施氮的对照提高11.3%, 而秸秆含N量随中后期追肥比例的加大而提高。秸秆还田条件下, 氮肥后移能明显提高水稻籽粒和秸秆含氮量。水稻籽粒氮素吸收量, 基-蘖-穗肥比例60-20-20处理最多, 2011年较对照N80-0-20分别增加13.7%和24.8%, 2012年提高14.5%和9.2%; 秸秆氮素积累量则随中后期追肥用量的增加而增多, 基-蘖-穗肥比例40-30-30处理最多。不施秸秆条件下, 基-蘖-穗肥比例60-20-20的处理氮素干物质生产效率、 氮素稻谷生产效率、 氮收获指数均最高, 百公斤籽粒吸氮量最低。秸秆还田条件下, 氮素干物质生产效率和氮素稻谷生产效率均随中后期追肥量的增加而下降, 而百公斤籽粒吸氮量则最高。氮素农学效率、 氮肥回收利用率和偏生产力也是60-20-20比例的处理最高, 较对照N80-0-20农学效率分别提高4.90和2.44 kg籽粒/kg N, 氮肥利用率提高7.82和21.29个百分点, 偏生产力提高4.90和2.44个百分点。【结论】综合水稻产量、 氮素吸收量以及氮肥利用效率, 安徽省江淮丘陵低产白土地区, 小麦秸秆直接还田条件下, 单季中稻氮肥的基肥-分蘖肥-穗肥施用比例, 以60-20-20运筹方式较为适宜。     

Effect of application of rice straw and cellulose on methane emission and biological nitrogen fixation in a subtropical paddy field

Methane-oxidizing bacteria (MOB, methanotrophs) limit the flux of methane to the atmosphere from sediments and soils, and consume atmospheric methane (King 1992; Oremland and Culbertson 1992). IPCC (1995) reported that an aerobic soil is equivalent to a sink of 10–20% of methane emissions. Hence MOB play an important role in regulating the atmospheric methane content (Mancinelli 1995). Over the last 20y, although a large amount of information has been supplied on the biochemistry of MOB, few ecological investigations have been devoted to them so far (Holzapfel-Pschorn et al. 1985; Oremland and Culbertson 1992).     

秸秆还田结合氮肥运筹管理对白土稻田土壤理化性状的影响

【目的】 研究不同氮肥基追比例运筹方式下小麦秸秆直接还田对白土稻田理化性状和水稻产量的影响,为江淮低产白土改良培肥提供科学依据。 【方法】 采用两因素裂区试验,因素一为小麦秸秆 (S) 直接还田 (3000 kg/hm2)和小麦秸秆不还田;因素二为氮肥基肥-分蘖肥-穗肥施用比例。设 3 种基施:分蘖肥:穗肥比例 (80–0–20、60–20–20 和 40–30–30),共 6 个处理,分别为 N_80–0–20、N_80–0–20 + S、N_60–20–20、N_60–20–20 + S、N_40–30–30 和 N_40–30–30 + S。水稻收获期采集 0—20 cm 代表性土壤样品分析理化性状, 包括 pH、有机质、氮磷钾养分含量、阳离子交换量 (CEC)、团聚体结构和容重,测定水稻籽粒产量。 【结果】 与不还田相比,3 种氮肥运筹方式下,小麦秸秆还田土壤 pH 均明显升高,以 40–30–30 方式升高幅度最大,增加达到显著水平;无论是否实施麦秸还田,不同氮肥运筹方式间土壤 pH 差异不显著。土壤有机质、有效磷、速效钾含量明显提高, CEC 增大。土壤中 >5 mm 和 1～0.25 mm 两个粒径机械稳定性及水稳定性大团聚体数量增多,< 0.25 mm 小团聚体数量减少,团聚体质量提高;土壤容重下降,总孔隙度增加,白土淀浆板结的不良物理性状改善,氮肥 60–20–20 运筹方式下秸秆直接还田改良培肥白土效果最好。4 年 4 地试验,与无秸秆的对照相比,3 种氮肥运筹方式下,水稻籽粒产量分别提高 10.2%～23.4%、0.8%～5.5%、4.9%～6.4% 和 6.4%～9.6%,平均增产 16.2%、3.6%、5.5% 和 8.1%,N_60-20-20 + S 处理水稻籽粒产量最高。 【结论】 综合水稻产量、秸秆还田后土壤养分状况、团聚体稳定性和容重、孔隙度等物理性状,安徽省江淮丘陵白土单季稻区,水稻基肥–分蘖肥–穗肥施用比例 60–20–20 运筹方式下,配合实施小麦秸秆直接还田,能有效改良培肥低产白土稻田,提高水稻产量。      

分根装置中接种AM真菌对玉米秸秆降解及土壤微生物量碳、氮和酶活性的影响

本试验通过两室分根装置种植玉米,利用网袋法研究接种Glomus mosseae和Glomus etunicatum两种AM真菌对玉米秸秆降解的影响。试验分别在玉米移栽后第20 d、30 d、40 d、50 d和60 d时取样,通过测定接种AM真菌后玉米秸秆中碳、氮释放,土壤中3种常见酶活性、微生物量碳、微生物量氮及土壤呼吸的动态变化,探讨AM真菌降解玉米秸秆可能的作用机制。研究结果表明:经60 d的培养后,与未接种根室相比,接种G.mosseae和G.etunicatum真菌的菌根室玉米秸秆降解量提高了20.75%和20.97%;另外,接种G.mosseae和G.etunicatum加快了玉米秸秆碳素释放,降低了氮素释放,致使碳氮比降低25.45%和26.17%,有利于秸秆进一步降解。在本试验条件下,接种AF真菌的菌根室中土壤酸性磷素酶、蛋白酶和过氧化氢酶活性均有显著提高,并增加了微生物量碳、氮和土壤呼吸作用,形成了明显有别于根际的微生物区系。这一系列影响都反映出AM真菌能够直接或间接作用于玉米秸秆的降解过程,是导致玉米秸秆降解加快的重要原因。     

控释肥对稻草覆盖红壤花生产量及土壤有效氮平衡的影响

采用田间试验研究了稻草覆盖等量施肥条件下,配施控释肥(controlled release fertilizer,CRF)20%(MF20)、40%(MF40)、60%(MF60)、传统一次施肥(MF0)、不施肥(CK1)以及无覆盖分次施肥(CK2)对花生产量、氮素吸收利用及土壤有效氮平衡的影响。结果表明:在一次性施肥条件下,配施20%控释肥(MF20)处理,花生产量最佳,达到分次施肥产量水平,过多配施控释肥将影响产量;氮素表观利用率随控释肥配施比例的增大先增加后降低,MF20处理氮肥表观利用率最高(57.39%),分别较MF0和CK2处理增加20.94%和3.84%。MF20处理氮肥农学利用率、偏生产力、氮素吸收效率以及花生吸氮量均最高,但随着控释肥配施比例的增加均呈降低趋势,而氮素表观损失率的变化趋势相反。土壤氮盈余则随着控释肥比例增大而明显增加。综合有效氮平衡,本试验的土壤条件下,减氮施肥技术对挖掘花生自身固氮潜力、提高肥料利用率、保证红壤区花生高产稳产等具有重要的意义。