镁碱度对土壤微生物生物量及氮素矿化的影响

土壤剖面中Mg2+的大量存在是土壤发生碱化的原因之一。测定了疏勒河昌马冲积扇缘镁碱化盐渍土土样的Mg2+碱度、Mg2+/Ca2+、pH值、HCO3-+CO32-等化学性质指标,分析了这些化学性质指标对土壤微生物生物量碳(氮)及其潜在可矿化氮的影响。结果表明:微生物生物量碳、微生物熵、微生物生物量氮随Mg2+/Ca2+、Mg2+碱度的升高而线性下降,而潜在可矿化氮随Mg2+/Ca2+、Mg2+碱度的升高而指数下降;另外,微生物生物量C/N与Mg2+/Ca2+和Mg2+碱度的反向变化关系说明,Mg2+碱化盐渍土环境中细菌在微生物群落中占优势。总之,高Mg2+碱度对土壤微生物而言是一种严重的胁迫环境,它使得微生物生物量变小、活性显著降低。     

日光温室番茄缺镁与土壤盐分组成及离子活度的关系

研究了石灰性土壤日光温室不同栽培年限及番茄不同程度缺镁的土壤水溶盐分中离子组成、比例及Mg2+、Ca2+、K+离子活度等的变化及关系.结果表明:随着栽培年限的增加,温室土壤水溶盐分中Ca2+、K+、NO3-含量显著增加;水溶性盐分中阳离子以Ca2+为主,栽培5 a后NO3-成为阴离子主要成分;土壤中NO3-含量的增加是导致土壤盐分累积的主要因素.随番茄缺镁程度的加剧,土壤水溶性盐中Ca2+、K+、NO3-、全盐量及Ca2+/Mg2+、K+/Mg2+摩尔比均呈增加趋势,番茄出现缺镁的土壤含盐量达到盐渍化水平.随着土壤盐分含量增加,Ca2+、Mg2+活度均呈指数下降趋势,番茄缺镁的土壤溶液中Mg2+和Ca2+活度显著低于不缺镁土壤,(K+)/(Mg2+)、(Ca2+)/(Mg2+)活度比显著高于不缺镁土壤,(K+)/(Mg2+)活度比随缺镁程度加剧达显著差异,番茄缺镁的土壤溶液(K+)/(Mg2+)活度比大于1.盐分累积使Mg2+活度大幅降低以及K+富集对植物吸收Mg2+的拮抗作用是石灰性土壤上番茄缺镁的主要诱因.     

钙镁比调控对不同部位烟叶Mg、K、Ca吸收的影响

通过田间小区试验,研究了土壤施用镁肥进行Ca2+/Mg2+调控及叶面喷施对不同部位烟叶镁、钾、钙的含量及累积量的影响.结果表明,土壤Ca2+/Mg2+下调及叶面喷施镁肥能促进烟叶镁、钾、钙的吸收累积,尤其是烟叶镁的吸收;与对照相比,土壤Ca2+/Mg2+调控到18、14、10、8及叶面喷施条件下,烟叶镁的含量分别增加6.67%、26.73%、19.22%、29.13%、18.80%,烟叶镁的总累积量分别增加6.08%、20.57%、39.86%、41.29%、20.66%;土壤Ca2+/Mg2+调控到10、8时烟叶钾、钙的总累积量也有显著增加;土壤Ca2+/Mg2+下调及叶面喷施镁肥能促使烟叶Ca/Mg和K/Mg降低,有利于烟叶中镁、钾、钙的平衡.     

两种母岩发育森林土壤微生物生物量碳代谢的差异性

针对不同母岩发育土壤的微生物生物量碳代谢特征及驱动因子不明确的科学问题,以石灰岩和碎屑岩两种母岩发育的森林土壤为研究对象,利用18O-H2O标记测定微生物生长速率、微生物呼吸速率、微生物生物量碳利用效率（CUE）以及微生物周转时间,并结合土壤理化性质、土壤有机质矿物保护特性和土壤酶活性以及微生物生物量和群落组成,明确岩性对森林土壤微生物生物量碳代谢的影响机制。结果表明：石灰岩发育土壤的pH和0.05mm～0.002 mm粒径含量高于碎屑岩发育土壤,而有机碳（SOC）、全氮（TN）、可溶性碳（DOC）、C:P和N:P却低于碎屑岩发育土壤（P<0.05）;石灰岩发育土壤交换性钙镁（(Ca+Mg)）和游离态铁铝（(Fe+Al)d）含量高于比碎屑岩发育土壤,但非晶态铁铝（(Fe+Al)o）含量则低于碎屑岩发育土壤;石灰岩发育土壤碳氮磷循环、相关酶活性均显著低于碎屑岩发育土壤（P<0.05）;石灰岩发育土壤微生物生物量磷（MBP）高于碎屑岩发育土壤,但微生物生物量碳（MBC）、真菌细菌比（F:B）和革兰氏阳性菌阴性菌比（G+:G-）则显著低于碎屑岩发育土壤（P < 0.05）;石灰岩发育土壤微生物生长速率和周转速率显著高于碎屑岩发育土壤（P < 0.05）,但微生物呼吸速率和CUE在两种土壤之间差异并不显著。土壤微生物生长速率和微生物周转速率均与土壤pH、(Ca+Mg):(Fe+Al)o、(Ca+Mg):SOC、(Fe+Al)d:SOC和革兰氏阴性细菌呈显著正相关（P<0.05）,而与DOC、铁铝结合态有机碳、酶活性、MBC:MBN、F:B和G+:G-比呈显著负相关关系（P < 0.05）。此外,土壤CUE与MBC和MBC:MBN呈显著负相关（P < 0.05）;微生物呼吸速率仅与酚氧化酶活性呈显著负相关（P<0.05）。两种岩石发育的森林土壤微生物生物量碳代谢受生物和非生物因素的控制,这一研究结果为解释不同母岩发育森林土壤有机碳库的差异提供参考。     

运东近滨海地区燕麦秸秆盐分积累与改良盐碱地潜力分析

为探明燕麦在运东滨海盐碱地区秸秆盐分积累特点以及改良盐碱地的潜力,选用"坝莜1号"、"白燕2号"和"花早2号"燕麦,采用单因素随机区组试验,以品种和土壤含盐量作为因素,进行了2组田间试验,测得燕麦的生物量、秸秆离子浓度和积累量及秸秆与土壤离子浓度比值。研究结果显示,"坝莜1号"燕麦开花-灌浆至成熟期整株生物量从2.9 t·hm-2增加至3.8 t·hm-2,延迟20 d收获则减少至2.5 t·hm-2。"白燕2号"在低土壤盐分浓度(1.0 g·kg-1左右)下的生物量(3.1 t·hm-2)显著大于中浓度(2.0 g·kg-1左右,1.7 t·hm-2)和高浓度(3.0 g·kg-1左右,0.4 t·hm-2)下的生物量。中等土壤盐分浓度下"坝莜1号"的生物量(3.8 t·hm-2)显著高于"白燕2号"(3.1t·hm-2)和"花早2号"(2.2 t·hm-2)。"坝莜1号"秸秆中Na+、K+浓度从开花到成熟均显著增加,而Mg2+、Ca2+和Cl-则显著降低。延迟20 d收获,除Ca2+外,其他离子浓度均显著降低。随着土壤盐分的升高,"白燕2号"秸秆Na+、Mg2+、Ca2+和Cl-浓度显著升高,而K+显著下降。3个品种的Na+、K+和Mg2+之间存在显著差异,而Cl-和Ca2+浓度无显著差异。燕麦秸秆中Cl-浓度最高,K+和Na+基本相当,均高于Mg2+和Ca2+。"坝莜1号"秸秆中Na+、K+、Mg2+、Cl-积累量成熟期最高,延迟收获20 d后积累量均显著降低。"白燕2号"秸秆Na+、K+、Mg2+、Ca2+、Cl-积累量随土壤盐分升高显著下降。除Ca2+外,Na+、K+、Mg2+、Cl-积累量品种之间差异显著。"坝莜1号"秸秆与土壤离子浓度比值中,Na++K+最大(46~63),其次是Cl-(30~46)、Mg2+(24~30)和Ca2+(3~15);延迟收获后Na++K+和Cl-秸秆与土壤浓度比值显著下降,Mg2+比值无显著变化,Ca2+比值显著升高。随着土壤盐分升高"白燕2号"秸秆与土壤Na++K+和Cl-浓度比值显著下降,Ca2+无显著变化。秸秆与土壤离子浓度比值在品种之间存在显著差异。燕麦理论上具有改良盐碱地的潜力,但收获时间和土壤盐分均会显著地影响燕麦生物量、离子浓度和积累量,从而影响燕麦改良盐碱地的效果。     

长期施肥处理对玉米生长期潮土微生物生物量和活度的影响

以1989年建立的中国科学院封丘农田生态系统国家试验站的长期定位试验为平台,研究经18a连续不同施肥处理后玉米季土壤微生物生物量碳氮和微生物活度的动态变化及其与土壤有机碳之间的相互关系,并探讨施肥措施对土壤微生物及其活性的影响。施肥处理包括:(1)有机肥(OM);(2)1/2化肥和1/2有机肥(1/2OM+1/2NPK);(3)氮磷钾肥(NPK);(4)氮磷肥(NP);(5)磷钾肥(PK);(6)氮钾肥(NK);(7)不施肥,即对照(CK)7个处理。结果表明,微生物生物量碳氮和微生物活度在玉米生长期内均有明显的时间变异性,其中微生物生物量碳与微生物活度的动态变化比较一致,其间的极显著相关关系表明潮土微生物生物量碳的变化可以在很大程度上代表土壤微生物活度的变化。施肥制度显著影响微生物生物量碳氮和微生物活度的变化,总体趋势为OM1/2OM+1/2NPKNPKNPPKNKCK,表明OM有利于保持土壤的生物化学环境及促进土壤的生物学活性;与OM处理相比,化学肥料的长期施用有降低土壤微生物生物量和微生物活度的趋势,尤其是缺素处理的表现更为明显,其中以缺磷处理的表现最为严重。土壤微生物生物量碳氮、微生物活度与土壤有机碳变化均呈极显著正相关。     

含镁粉尘对菱镁矿区土壤性质的影响

菱镁矿在开采和冶炼过程中释放出的大量粉尘(主要成分为MgCO3和MgO)严重污染了矿区内的土壤。通过分析辽宁海城某一矿区内距冶炼厂不同距离的废弃地土壤理化性质与微生物生物量及活性,发现距冶炼厂越近,土壤水溶性Mg2+含量、pH以及微生物代谢熵越高,而有机C、全量N、全量P、矿质N、速效P、微生物生物量C和N及N矿化速率越低。同时水溶性Mg2+含量与全量N、矿质N、速效P、水溶性Ca2+、土壤微生物生物量C和N、土壤N矿化速率呈显著负相关,表明高浓度Mg2+的存在,影响了土壤的理化性质及微生物特性,降低了土壤质量。     

不同施肥管理措施对土壤碳含量及基础呼吸的影响

连续7年试验研究了施用15t/hm2和7.5t/hm2有机肥(包括EM堆肥、EM鸡粪肥和传统堆肥)、化肥和对照处理对土壤碳含量与基础呼吸的影响,结果表明:随有机肥施用量的提高,土壤可溶性碳、总有机碳、微生物生物量碳和土壤的基础呼吸随之增加。施用化肥可一定程度提高土壤可溶性碳、总有机碳、微生物生物量碳和土壤的基础呼吸。不同施肥措施对土壤有机碳、微生物生物量碳和土壤基础呼吸的影响趋势为EM堆肥处理>传统堆肥处理>化肥处理>对照,施肥对土壤微生物代谢商的影响趋势为EM堆肥处理<传统堆肥处理<化肥处理<对照。土壤微生物生物量碳与可溶性碳、总有机碳及土壤基础呼吸之间呈极显著正相关。土壤微生物代谢商与土壤可溶性碳、总有机碳、微生物生物量碳及基础呼吸之间呈极显著负相关。     

磷钾肥施用对日光温室土壤溶液离子组成的影响

采用土培模拟试验研究了施用磷、钾肥对大田和温室土壤溶液电导率（EC）、离子含量及其比例的影响。结果表明,温室栽培土壤溶液EC、K+、Na+、Ca2+、Mg2+、NO3-含量以及K+ / Ca2+、K+ / Mg2+摩尔比分别为大田土壤的2.5、95.0、16.6、1.9、3.2、4.0、31.0和39.0倍,说明日光温室土壤离子累积及养分比例失调问题突出。施用磷、钾肥对土壤溶液中不同离子含量的影响不同,增加磷肥施用量,显著降低了大田和温室土壤溶液EC和Ca2+、Mg2+离子含量,而对土壤溶液K+、NO3--N和NH4+-N离子浓度均无显著影响;随施钾量增加,大田及温室土壤溶液EC、K+、Na+、Ca2+、Mg2+和K+/Ca2+、K+/Mg2+摩尔比均呈显著增加趋势。温室栽培实践中因过量施用磷、钾肥而造成的阳离子养分比例失调而带来的营养及生态环境问题值得关注。     

运用多隔层根箱研究黑麦草根际微域中芘的降解

采用多隔层根箱,通过尼龙撩网插片的控制,实现根室土(S0)、离根室0～2 mm(S1)、2～4 mm(S2)、4～6 mm(S3)及>6 mm(S4)各室层土壤的分离采集,测定各室层土壤可提取态芘含量、土壤微生物生物量碳、土壤基础呼吸强度、微生物熵、代谢熵、脱氢酶和多酚氧化酶活性。结果表明:种植黑麦草处理的各室层内土壤可提取态芘含量存在显著的不同,可提取态芘含量在各室层的大小顺序为S4>S3>S0>S2>S1;各室层土壤微生物生物量碳、土壤基础呼吸强度、微生物熵、代谢熵、脱氢酶和多酚氧化酶活性表现出与可提取态芘含量变化相反的趋势。未种植黑麦草处理的各室层土壤可提取态芘含量、土壤微生物生物量碳、土壤基础呼吸强度、微生物熵、代谢熵、脱氢酶和多酚氧化酶活性没有差异。种植黑麦草处理各室层土壤可提取态芘含量与土壤微生物生物量碳、土壤基础呼吸强度、微生物熵、代谢熵、脱氢酶活性和多酚氧化酶活性之间均存在显著的负相关性(p<0.05)。主成分分析结果表明种植黑麦草处理土壤微生物活性在各室层间发生了明显的变化。     

Microbial biomass and activity in alkalized magnesic soils under arid conditions

The effects of salinity and Mg²⁺ alkalinity on the size and activity of the soil microbial communities were investigated. The study was conducted along the border area of the alluvial fan of the Taolai River. Thirty soil samples were taken which had an electrical conductivity (EC) gradient of 0.93-29.60 mS cm⁻¹. Soil pH ranged from 8.60 to 9.33 and correlated positively with Mg²⁺/Ca²⁺ ratio, exchangeable Mg²⁺ percentage and HCO₃⁻+CO₃²⁻. Mg²⁺/Ca²⁺ varied considerably from 3.04 to 61.31, with an average of 23.03. Exchangeable Mg²⁺ percentage generally exceeded 60% and had a positive correlation with Mg²⁺/Ca²⁺. HCO₃⁻+CO₃²⁻ averaged 1.63 cmol kg⁻¹ and usually did not exceed 2.0 cmol kg⁻¹.Microbial biomass, indices of microbial activity and the activities of the hydrolases negatively correlated with Mg²⁺/Ca²⁺ or exchangeable Mg²⁺ percentage. Biomass C, biomass N, microbial quotient (the percentage of soil organic C present as biomass C), biomass N as a percentage of total N, potentially mineralizable N, FDA hydrolysis rate and arginine ammonification rate decreased exponentially with increasing EC. The biomass C/N tended to be lower in soils with higher salinity and Mg²⁺ alkalinity, probably reflecting the bacterial dominance in microbial biomass in alkalized magnesic soils. The metabolic quotient (qCO₂) positively correlated with salinity and Mg²⁺ alkalinity, and showed a quadratic relationship with EC, indicating that increasing salinity and Mg²⁺ alkalinity resulted in a progressively smaller, more stressed microbial communities which was less metabolically efficient. Consequently, our data suggest that salinity and Mg²⁺ alkalinity are stressful environments for soil microorganisms.     

基于电导率和结构稳定性阳离子比的微咸水灌溉水质评估方法

电导率（Electrical Conductivity,EC）和结构稳定性阳离子比（Cation Ratio of Soil Structural Stability,CROSS）是评估微咸水对土壤渗透性能影响的重要指标。虽然CROSS全面地考虑了Na+、K+、Ca2+和Mg2+对土壤结构稳定性的复杂影响,但CROSS的离子浓度系数在不同地区的适用性存在差异,有必要根据当地的水质条件确定基于EC和CROSS评估方法的分类标准。该研究旨在分析CROSS替代钠吸附比（Sodium Adsorption Ratio,SAR）评估水质危害的合理性以及其在河套灌区的适用性。在河套灌区不同区域采集73份地下水水样,并采用EC和SAR、EC和CROSS对其进行评估。结果表明,基于2种方法的地下水分类结果中,仅有34.25%的水样分类结果相同,并且不同的CROSS计算方法（基于阳离子相对絮凝能力（Flocculation）的CROSSf、相对分散能力（Dispersion）的CROSSd和优化的（Optimal）CROSSopt）在河套灌区的适用性也不相同。建议采用CROSSd或CROSSopt,并结合土壤盐分和离子浓度评估河套灌区地下水水质。该评估方法更全面地考虑了地下水和土壤中的离子组成对土壤渗透性能的影响,有效避免了不合理的微咸水利用导致的土壤结构恶化等问题,可为微咸水的安全可持续利用提供理论支撑。     

Soil ecological study on dynamics of K,Mg, and Ca,and soil acidity in shifting cultivation in Northern Thailand

Abstract

Soil degradation caused by excessive land use is presently one of the major constraints on sustainable agriculture in the mountainous area of northern Thailand. In order to obtain basic information about soil fertility problems involved in the transition from traditional shifting cultivation to more intensive upland farming, the dynamics of K, Mg, and Ca, and soil acidity in the farming systems of both Karen and Hmong/Thai peoples were investigated. In the fields that lay fallow for more than 5 y, the soils were highly acidic and poor in exchangeable bases, mainly due to the fact that the fallow vegetation rapidly absorbed inorganic bases (K, Mg, and Ca) in the soils. In the fields both under fallow and cropping within 3 y after the slash and burn practice, the high acidity observed in the soils at the fallow stage seemed to be alleviated by ash input with high alkalinity. The aboveground biomass ranged from 9 to 10 t ha^?1 in the 8 y fallow field and the sum of inorganic bases and alkalinity, which were expected to be added to the soils with ash input, ranged from 3 to 4 kmol( + ) ha^?1 or kmol(-) ha^?1 , respectively. In the fields under continuous cultivation for more than 4 y after the slash and burn practice, the subsoils showed a more acidic nature than in the fields immediately after burning. Judging from the high concentrations of inorganic bases in the soil solution from the subsoils, the decrease of the content of exchangeable bases and resulting soil acidification might have proceeded through leaching loss of these bases. Among the exchangeable bases in the soils, Ca and Mg were generally predominant and K occurred as trace. Comparison of the total contents of the bases with the contents of exchangeable ones showed that most of Ca occurred in an exchangeable form while most of K and Mg occurred in the nonexchangeable forms in the soils. Therefore, Ca was likely to be readily depleted along with soil acidification in continuous cultivation.     

Effect of synthetic dairy factory effluent containing different acids (H3PO4, HNO3 and CH3COOH) on soil microbial and chemical properties and nutrient leaching

The effects of addition of synthetic dairy factory effluent (DFE) containing phosphoric, nitric or acetic acids as cleaning agents on soil chemical and microbial properties and potential nutrient leaching from a dairy farm soil were studied in an 84-day open incubation/leaching experiment and in a short-term (24?days) closed incubation. Dairy factory effluent resulted in increased leaching of Na⁺ and Ca²⁺. The main anion leached in the DFE treatments was Cl^?, whilst in the control treatments it was NO ₃ ^? . Leachates from DFE-treated soil had a greater electrical conductivity (EC) and lower pH than those from controls, but type of acid had little effect on the ionic content or composition of leachates. At the conclusion of the experiment, soils from DFE treatments showed a large accumulation of exchangeable Na⁺, a reduction in exchangeable Ca²⁺ and significant increases in microbial biomass C, basal respiration and β-glucosidase and arylsulphatase activities. Microbial activity was greatest from the acetic acid-DFE treatment. There was a significant increase in extractable P in the phosphoric acid-DFE treatment, but addition of nitric acid-DFE did not increase leaching of NO ₃ ^? . In the short-term incubation experiment, EC increased over time in all treatments, while pH, microbial biomass and basal respiration decreased. During the first few days after a one-off DFE addition, there was an increase in both microbial biomass C and basal respiration, but these differences dissipated after 3?days. It was concluded that while additions of DFE have significant effects on chemical and microbial soil properties, a change in the form of acid present in the DFE has relatively minor effects on these properties.     

Effects of collembola on nutrient cycling and microbial biomass on intact soil microcosm

(Jpn. J. Soil Sci.Plant Nutr., 77, 299–306, 2006)

The effects of Collembola (Folsomia candida Willem) on nutrient cycling, microbial biomass, and soil respiration were studied using intact soil microcosms. Intact soil microcosms (dia. 10·6 cm and depth 15 cm) were taken from pine forest soil, and were divided into four treatments · the unmanipulated control and three Collembolan manipulations in which microcosms were defaunated by deep-freezing, and then F. candida were introduced at three densities (0, 50, 100 per microcosm). The microcosms were incubated on forest floor with a roof. At 3- to 4-week intervals the microcosms were irrigated with deionized water for analyses of nutrients (Na+, K+, NH4+, Ca2+, Mg2+, Cl?, NO3?, SO42?) in the leachate. Soil respiration was measured using an infrared gas analyser. After 13 and 34 weeks of exposure, microcosms were destructively sampled. Collembola did not significantly affect microbial biomass C, N, and P nor soil respiration. Because the experiment was started in winter, nutrient leaching increased from spring to summer with increasing microbial activity. At the end of the experiment, leached nitrate from microcosms was significantly different between the 0 and 50 Collembolan treatments. Total established Collembolan biomass was under 4% of the soil microbial biomass in the microcosms, while manipulation of Collembola affected soil nitrogen dynamics at high microbial and collembolan activity.     

贵州烟田土壤pH、交换性钙镁和CaCO3含量分布特征及其相互关系

【目的】明确贵州烟田土壤pH、交换性钙(Ca²⁺)、交换性镁(Mg²⁺)和碳酸钙(CaCO₃)的含量分布特征及其相互关系,指导土壤酸碱调节及钙镁肥料施用。【方法】采集贵州全省烟区500个典型烟田耕层(0～20 cm)土样,采用经典方法测定土壤p H、Ca²⁺、Mg²⁺和CaCO₃含量,利用SPSS比较不同成土母质、土壤类型和区域之间pH、Ca²⁺、Mg²⁺和CaCO₃的含量差异,定量分析pH与Ca²⁺、Mg²⁺和CaCO₃之间的关系。【结果】土壤pH、Ca²⁺和Mg²⁺含量偏低的烟田分别占20.0%、18.2%和56.4%,偏高的烟田分别占37.0%、55.8%和29.6%。CaCO₃低于10 g kg^-1 烟田占88.4%。不同成土母质、...     

Microbial biomass and activity in salt affected soils under arid conditions

The effects of salinity on the size, activity and community structure of soil microorganisms in salt affected arid soils were investigated in Shuangta region of west central Anxi County, Gansu Province, China. Eleven soils were selected which had an electrical conductivity (EC) gradient of 0.32–23.05 mS cm⁻¹. There was a significant negative exponential relationship between EC and microbial biomass C, the percentage of soil organic C present as microbial biomass C, microbial biomass N, microbial biomass N to total N ratio, basal soil respiration, fluorescein diacetate (FDA) hydrolysis rate, arginine ammonification rate and potentially mineralizable N. The exponential relationships with EC demonstrate the highly detrimental effect that soil salinity had on the microbial community. In contrast, the metabolic quotient (qCO₂) was positively correlated with EC, and a quadratic relationship between qCO₂ and EC was observed. There was an inverse relationship between qCO₂ and microbial biomass C. These results indicate that higher salinity resulted in a smaller, more stressed microbial community which was less metabolically efficient. The biomass C to biomass N ratio tended to be lower in soils with higher salinity, reflecting the bacterial dominance in microbial biomass in saline soils. Consequently, our data suggest that salinity is a stressful environment for soil microorganisms.     

长期施用氮磷钾肥和石灰对红壤性水稻土酸性特征的影响

利用34年的长期定位施肥试验,研究不施肥(CK)、施氮磷钾肥(NPK)和氮磷钾化肥配施石灰(NPK+Ca O)对红壤性水稻土不同形态酸、土壤盐基离子及水稻植株阳离子吸收量的影响,探讨土壤交换性H+和Al3+占交换性酸的比例、土壤盐基离子、植株带出阳离子数量与土壤酸度的关系。结果表明,长期NPK处理早、晚稻土壤p H较CK处理分别降低0.2和0.3个单位,交换性酸提高2.3倍和4.2倍,水解性酸提高35.4%和40.0%;NPK+Ca O处理早、晚稻土壤p H较NPK处理分别提高0.5和0.7个单位,较CK处理分别提高0.3和0.4个单位,交换性酸、水解性酸均显著低于NPK和CK处理(p0.05)。土壤交换性H+、Al3+含量高低顺序均为NPK+Ca OCKNPK。土壤交换性盐基离子以交换性Ca2+所占比例最大(81.8%~89.3%),NPK+Ca O处理交换性Ca2+较CK和NPK处理分别提高40.1%和62.9%。交换性Ca2+、交换性盐基离子、盐基饱和度与土壤p H正相关,与交换性酸、水解性酸负相关,交换性Mg2+与交换性酸、水解性酸负相关,交换性Na+与水解性酸负相关。植株移出带走的钙、镁、钾、钠离子量及其总量对土壤p H、交换性酸和水解性酸有一定影响,但其相关性均不显著。研究表明长期施用化肥条件下通过配施石灰可有效缓解稻田土壤的酸化,促进酸性稻田土壤的生态修复与改良。