土壤非交换性钾释放动力学特征及其生物

采用生物耗竭法和0.2mol L-1的NaTPB化学浸提法,利用不同动力学方程对我国8种主要土壤非交换性钾的释钾特性及其生物有效性进行定量评估。结果表明,供试土壤非交换性钾释放分为快速释放和稳定释放两个阶段,一级动力学方程、Elovich 方程、双常数曲线方程和抛物线扩散方程均能描述土壤非交换性钾的释放过程。根据双常数方程中的参数（a）所表征的土壤非交换性钾释放速率常数,供试8种土壤的释钾能力按取土地区存在着自西向东、自北向南渐减的趋势。盆栽试验中,在累积释钾量高且释放速率快的土壤上,黑麦草累积生物量、累积吸钾量和相对含钾量较高,表现出强的供钾能力;与此相反,累积释放量低且释放速率慢的土壤上,黑麦草各项指标偏低,供钾能力较弱。以黑麦草钾素丰缺临界值34.00 mg kg-1 DW-1和土壤非交换性钾释放速率396.32 mg kg-1 h-1作为评价指标,供试8种土壤中,仅取自新疆石河子、陕西常武和黑龙江哈尔滨地区的土壤在短期不施用钾肥的情况下能保证黑麦草丰产且不出现缺钾症状。因此,为了维持土壤钾素平衡和保证作物高产稳产,在我国西北、东北地区耕地土壤中应加强秸秆的循环利用,而在华中和华东地区则需增施钾肥和有机肥。     

长期施用化肥和稻草对红壤性水稻土非交换性钾释放动力学的影响

研究了长期定位施肥试验中连续27年(1981-2007)施用化肥和稻草对红壤性水稻土非交换性钾释放特征及其动力学的影响.本试验选择了其中5个处理:CK(不施肥)、NP(施氮、磷肥)、NPK(施氮、磷、钾肥)、NP+RS(施氮、磷肥和稻草)和NPK+RS(施氮、磷、钾肥和稻草).结果表明,长期施用钾肥和稻草的条件下,各处理土壤中非交换性钾的释放均存在2个不同的阶段:即第一阶段(1～14 h)表现为直线上升阶段,第二阶段(14～796 h)为缓慢增长阶段.5个处理中,长期不施钾处理(CK和NP)的土壤非交换性钾累积释放量较低,分别为62.22和56.12 mg/kg,长期施钾处理(NPK、NP+RS和NPK+RS)的土壤非交换性钾累积释放量较高,分别为67.52、64.41和75.33 mg/kg.施稻草处理(NPK+RS和NP+RS)的土壤非交换性钾释放量明显高于相应不施稻草处理(NPK和NP)的土壤,这可能与长期施用稻草促使土壤矿物钾中的一部分向非交换性钾转化有关.用抛物线扩散、零级反应、一级反应和Elovich方程模拟土壤非交换性钾的释放动力学结果表明,Elovich方程能比较好地模拟5个处理土壤非交换性钾的释放动力学.分段直线方程能更好地描述土壤非交换性钾释放的机制.     

耕作土壤非交换性钾有效性的研究

采用两种化学连续提取法及连续耗钾实验,研究了几种耕作土壤非有效性钾释放特性及有效性。结果表明,供试土壤非交换性释放特性和有效性与粘土矿的密切相关,富含伊利石的土壤非交换性钾的释放量大,速率快,有效性高,黑麦草吸收该土壤的非交换性钾量及总吸钾量高,生物量大。而富含高岭石或蒙脱石的土壤非有效性钾有效性明显较低,非交换性钾的释放量和速率,黑麦草吸收该土壤的非交换性钾量,总吸钾量及生物量的均值分别仅为富含     

我国北方主要土壤非交换性钾释放速率的研究

采用连续流动交换技术研究了我国北方２５个供试土壤非交换性钾的释放速率。结果表明,土壤晨交换性钾释放缓慢,而持续时间长;最大释放速率变幅为０．１９５￣２．３０ｍｇ／（ｋｇ·ｍｉｎ）,６００分钟平均释放速率变幅为０．０６６￣１．１２１ｍｇ（ｋｇ·ｍｉｎ）,释放持续时间一般在６００分种以上。在６００分种释放时间内非交换性钾释放百分率变幅在５．４％￣３９．６％之间。土壤非交换性钾释放速率与盆栽耗钾试验中玉     

耕作土壤释钾速率及其与钾有效性的关系研究

对 1 0个不同母质土壤进行生物吸钾试验和化学测定 .结果表明 ,二级动力学方程dkt/dt=k(k0 -kt) 2 可以很好地描述连续提取条件下土壤释钾特性。初始释钾速率与有效钾含量呈极显著正相关 ,与黑麦草生物总量及吸钾总量均呈极显著正相关 .2mol/LHNO3提取的释钾速率相关显著性明显高于氢质树脂法 ,其中 0～ 2h的土壤释钾速率能较好地描述土壤钾的有效性     

不同有效钾提取方法的原理与效率比较

以6种典型含钾矿物为研究对象,探讨了盐溶液提取法、阳离子交换树脂法及四苯硼钠法等不同有效钾提取方法的原理、效率及影响因素的影响效应和机制。结果表明：盐溶液提取法对含钾矿物中钾的提取能力受离子种类、浓度及pH的影响,不同种类盐提取剂对矿物中钾释放的促进作用也因含钾矿物类型而异。NH4+ 使矿物层间塌陷,显著抑制各种矿物中非交换态钾的释放。阳离子交换树脂法对溶液中钾的提取能力与饱和离子种类及振荡强度有关。H+、Na+ 饱和树脂吸附溶液钾的能力大于Ca2+ 饱和树脂。振荡强度选为120 r/min可消除树脂法提取钾素时液膜扩散阻力的干扰。四苯硼钾的溶度积常数Ksp为2.40 × 10-8（25℃）。不加NaCl条件下,四苯硼钠浓度是影响四苯硼钠法对含钾矿物中钾的提取能力的主要因素。由不同方法的提取原理可以看出,铵盐类提取剂适用于速效钾为当季作物主要钾源（速效钾含量较高）的土壤钾素有效性的评价。而其他盐提取剂通过延长提取时间,可提取部分非交换态钾,可能较醋酸铵法更适合于提取非交换态钾为当季作物主要钾源的土壤有效钾。阳离子交换树脂法也可提取土壤非交换态钾,但操作较为繁琐,该方法更适用于原位研究土壤钾素的迁移、扩散等特性。四苯硼钠法提取效率较高,通过调节其提取力,可提取不同程度的非交换态钾,是具有较好应用前景的适于各类土壤和作物的土壤有效钾测定方法。     

土壤非交换性钾释放动力学特征及其生物有效性

采用生物耗竭法和0.2 mol L-1四苯硼钠化学浸提法,利用不同动力学模型对我国8种主要土壤非交换性钾的释钾特性及其生物有效性进行定量评估。结果表明,供试土壤非交换性钾释放分为快速释放和稳定释放两个阶段,一级动力学模型、Elovich模型、双常数模型和扩散模型均能描述土壤非交换性钾的释放过程。根据双常数模型中参数(a)所表征的土壤非交换性钾释放速率常数,供试8种土壤的释钾能力按取土地区存在着自西向东、自北向南渐减的趋势。盆栽耗钾试验中,在累积释钾量高且释放速率快的土壤上,不施钾处理黑麦草累积生物量、累积吸钾量和相对含钾量较高,表现出强的供钾能力;与此相反,累积释放量低且释放速率慢的土壤上,其各项指标偏低,供钾能力较弱。四种动力学模型所表征的土壤非交换性钾释放速率与不施钾处理黑麦草含钾量及吸钾量极显著相关。以黑麦草钾素丰缺临界值34.0 g kg-1和土壤非交换性钾释放速率396 mg kg-1 h-1作为评价指标,供试8种土壤中,仅取自新疆的干旱土、陕西和黑龙江的均腐土在短期不施用钾肥的情况下能保证黑麦草丰产且不出现缺钾症状。     

山东主要土壤供钾能力和非交换性钾释放的研究

用生物耗竭方法,研究和比较了山东省主要农业土壤:棕壤、褐土和潮土的供钾能力。结果表明,以土壤交换性钾、缓效钾含量和耗竭过程中作物吸钾总量和吸收来自土壤非交换性钾的数量、比率及土壤非交换性钾释放速度和数量为依据,评价土壤供钾能力有褐土＞潮土＞棕壤的总趋势。     

四苯硼钠溶液中含钾矿物非交换态钾的释放特性研究

含钾矿物的全钾含量、非交换态钾总量以及非交换态钾的释放速率因矿物种类而异,且3种参数之间没有必然的相关性。供试5种含钾矿物非交换态钾总量由高到低的顺序是:金云母 5.19% 黑云母3.08% 蛭石2.01% 白云母1.18% 钾长石0.24%,占各矿物全钾的比例分别为:58.4% 、99.7% 、62.5% 、14.2% 和4.98% ,平均达48%。选择较弱提取力的四苯硼钠溶液进行非交换态钾的释放特性研究,5种矿物非交换态钾3d释放累积量顺序为:黑云母 蛭石 金云母 白云母 钾长石;非交换态钾平均释放速率也表现为同样的顺序。上述5种矿物在弱提取力的四苯硼钠溶液中释放3 d,非交换态钾的平均释放速率分别为5.99、2.34、0.52、0.22和0.17 mg/(kgmin),差异明显。如何根据非交换态钾的释放量和释放速率来综合评价矿物钾的生物有效性是未来研究中需要明确的问题。     

不同土壤钾素释放动力学及其供钾特征的研究

应用自行研制的连续流动交换仪研究了取自不同类型的19个土壤样品的钾素释放动力学及其供钾特征。不同土壤钾的释放差异很大,钾的释放持续时间变幅为100～600分钟;最大释放速率变幅为0.46～20.55毫克千克-1分-1;平均释放速率变幅为0.009～1.25毫克千克-1分-1;总释放量变幅为40～430毫克千克-1。供试土壤钾的释放过程可以用一级反应方程拟合,表明钾的释放速率主要受交换位上钾离子饱和度的影响。应用一级方程计算出钾的释放速率常数变幅为5.4810-3～65.6210-3分-1。多数土壤的钾释放过程符合单一的一级反应;而以云母类为主,且含有部分绿泥石的土壤的钾释放过程由两个速率不同的一级反应构成,表明不同吸附位上的钾离子可能有不同的释放机制。用供试土壤连续种植玉米幼苗57茬进行土壤钾素耗竭试验,结果表明应用连续流动交换仪研究得出的土壤钾素释放的动力学参数可以较可靠地评价土壤的供钾特征。释钾速率快,持续时间长,总释放量大的土壤(如青海栗钙土),在耗竭试验中显出很强的供钾能力;而释钾速率慢,持续时间短,总释放量小的土壤(如广东砖红壤)在盆栽试验中供植物吸收的钾量很低。有的土壤(如四川紫色土)钾的总释放量不低,但释放速度快,持续时间短,在盆栽试验     

Soil Potassium‐Release Characteristics and the Correlation of its Parameters with Garlic Plant Indices

Abstract

Potassium (K)‐release characteristics (PRC) of soil play a significant role in supplying available K. Information about PRC in the Hamadan soils is limited. The objective of this research was to study the PRC in nine soils from the Hamadan province by successive extraction with 0.01 M CaCl₂ over a period of 2000 h. The correlation of kinetic equation rate constants with soil properties and garlic indices was also studied. The release of K was initially rapid. More than 60% of the total K released during the first 168 h. The amount of K released after 168 h varied among soils and ranged from 292.8 to 736.8 mg kg^?1. The amount of K released after 2000 h was significantly correlated with K extracted by 1 M HNO₃, 0.01 M CaCl₂, and 0.1 M BaCl₂, whereas it was not significantly correlated with other soil properties. Potassium‐release characteristics were evaluated using five kinetic equations. Statistical analysis showed that the Elovich equation described the K‐release kinetics. A plot of other equations shows a discontinuity in slope at 168 h. Thus, two equations were applied to segments of the total reaction time (2 to 168 and 168 to 2000 h). The release‐rate constants (slope) in segment 1 are higher than in segment 2. The release‐rate constant of the Elovich equation and the zero‐order equation in two segments were significantly correlated with 1 M HNO₃, 0.01 M CaCl₂, and 0.1 M BaCl₂. Rate constants of the other equations were not significantly correlated with soil properties. The release‐rate constants of the Elovich equation and release‐rate constants of the zero‐order equation in two segments were significantly correlated with garlic indices. Rate constants of other equations were not significantly correlated with garlic indices. The results of this research showed that the Elovich and zero‐order equations can be used to describe K‐release characteristics.     

磷处理土壤中磷的释放动力学研究

Phosphate release from three selected soils after treatments of 1.6 and 2.4 mmol L^-1 P was investigated using sequential extractions and fitted using six kinetic models, including zero order （Z）, first order （F）, second order （S）,parabolic diffusion （PD）, two constant rate （TC）, and Elovich type （ET） equations. The results showed that the rate of P release was initially rapid and then gradually declined with time. Also, P release increased with added P. Total P release followed the order： paddy soil with 2.4 mmol L^-1 P 〉 red soil with 2.4 mmol L^-1 P 〉 paddy soil with 1.6 mmol L^-1 P〉 fluvo-aquic soil with 2.4 mmol L^-1 P 〉 fluvo-aquic with 1.6 mmol L^-1 P 〉 red soil with 1.6 mmol L^-1 P. For the two P treatments P release from the paddy soils in the first extraction was 44.3% and 45.6% of total released P, respectively,which were higher than those from red and fluvo-aquic soils. The ratio of P release at the end of release time was 14.0%and 13.1% in the paddy soil treated with 1.6 and 2.4 mmol L^-1 P, respectively, but only 5.1% and 9.2% in the red soil and 7.0% and 5.2% in the fluvo-aquic soil, respectively. Comparison of the coefficients of determination （R^2） indicated that ET, TC, and PD equations could describe the P release data better than Z, F, and S equations.     

Mathematical models to study the kinetics of potassium release from swell-shrink soils of Central India in relation to their mineralogy

Employing four mathematical models (first-order, parabolic-diffusion, Elovich and zero-order), kinetics of potassium desorption from eight soils with and without cropping were studied to evaluate their ability in explaining K release from soils. The decline in the soil test K in cropped soils over original soils was drastic in easily desorbable forms compared to that of strongly held forms like 3 M H₂SO₄ K. Results showed that parabolic diffusion as well as first-order kinetic equation explained the K release data well for both original and K depleted (cropped) soils. Elovich and zero-order equations were not suitable to describe the kinetic data. However, zero-order equation explained K release data better in case of K-depleted soils as compared to original soils. Soils with higher initial K contents registered higher release rate constants. Over the entire period of cropping the range of release rate (b) decreased from 1.26 to 1.53 × 10^?2 to values ranging from 1.12 to 1.30 × 10^?2 h^?1. In contrast, the first-order equation, parabolic diffusion showed higher b values for cropped soils as they represent the diffusion gradient. Mica and its biotite content in both silt and clay fractions showed significant correlation (r) with b values. Similarly with the rate of K release, clay content of soils maintained significant r whereas the silt content did not.     

土壤钾解吸的动力学方程和大麦反应的关系

本文应用Ｅｌｏｖｉｃｈ、抛物线扩散、权函数和指数方程研究电超滤恒电场下１２种土壤钾解吸的动力学。Ｅｌｏｖｉｃｈ、抛物线扩散和权函数方程具有高的相关系数和小的标准差，可以很好地描述土壤钾解吸的动力学，而指数方程的相关系数低和标准差大而不适宜应用。本文成功地建立了动力学方程与大麦多点田间试验钾肥反应和土壤钾素状况之间的相关关系，Ｅｌｏｖｉｃｈ、抛物线扩散和权函数方程的常数（斜率或截距）与土壤速效钾、大     

Potassium Fixation and Release Characteristics in Rhizosphere and Nonrhizosphere Soils for a Rapeseed–Rice Cropping Sequence

Potassium (K) fixation and release in soil are important factors in the long-term sustainability of a cropping system. Changes in K concentration and characteristics of K fixation and release in rhizosphere and nonrhizosphere soils in the rapeseed (Brassica napus L.)–rice (Oryza sativa L.) rotation were investigated using a rhizobox system. The concentrations of different forms of K in both rhizosphere and nonrhizosphere soils decreased with plants compared to without plants, regardless of K fertilizer application. Potassium uptake by crops mainly came from the rhizosphere soil. In the treatment without K fertilizer (–K), the main form of K supplied by the soil to the crops was 1.0 mol L^?1 nitric acid (HNO₃) nonextractable K, followed by nonexchangeable K, and then exchangeable K. In the treatment with K fertilizer (+K), the main K forms supplied by the soil to the crops were exchangeable K and nonexchangeable K. The amount and rate of K fixation after one cycle of the rapeseed–rice rotation was greater in rhizosphere soil than in nonrhizosphere soil. The amount and rate of K fixation of soil in the +K treatment were significantly less than in the –K treatment. The cumulative amounts of K released with 1.0 mol L^?1 ammonium acetate (NH₄OAc) and 1.0 mol L^?1 HNO₃ extraction increased with the increasing numbers of extractions, but the K-releasing power of soil by successive extraction decreased gradually and finally became almost constant. The release of K was less in rhizosphere soil than in nonrhizosphere soil. The release of K in the +K treatment was similar to that in the –K treatment in rhizosphere soil, but the K release in nonrhizosphere soil was greater with the +K than the –K treatment. Overall, the information obtained in this study will be helpful in formulating more precise K fertilizer recommendations for certain soils.     

动力学模型在土壤钾素释放特征描述中的运用及其与化学方法提取的钾素之间的相关性研究

Potassium (K) release characteristics in soil play a significant role in supplying available K. Information on K-release characteristics in soils of central Iran is limited. The objectives of this study were to determine K release characteristics and correlations of K release rate constants with K extracted by different chemical methods in surface soils of ten calcareous soils of central Iran. The kinetics of K release in the soils was determined by successive extraction with 0.01 mol L^-1 CaCl₂ in a period of 2--2 017 h at 25±1 ^oC. Soil K was extracted by distilled water, 0.5 mol L-1 MgNO₃, 0.002 mol L^-1 SrCl₂, 0.1 mol L^-1 BaCl₂, 0.01 mol L^-1 CaCl₂, 1 mol L^-1 NaCl, 1 mol L^-1 boiling HNO₃, 1 mol L^-1 NH₄OAC, Mehlich 1, 0.002 mol L^-1 SrCl₂ 0.05 mol L^-1 citric acid, and ammonium bicarbonate-diethylenetriamine pentaacetic acid (AB-DTPA). A plot of cumulative amounts of K released showed a discontinuity in slope at 168 h. Thus, two equations were applied to two segments of the total reaction time (2--168 and 168--2017 h). Cumulative amounts of K released ranged from 55 to 299 mg kg^-1 in 2--168 h and from 44 to 119 mg kg^-1 in 168--2 017 h. Release kinetics of K in the two time segments conformed fairly well to parabolic diffusion, simplified Elovich, and power function models. There was a wide variation in the K release rate constants. Increasingly higher average concentrations of soil K were extracted by distilled water, Mehlich 1, SrCl₂, CaCl₂, SrCl₂ + citric acid, AB-DTPA, MgNO₃, NaCl, NH₄OAc, BaCl₂ and HNO₃. Potassium release rate constants were significantly correlated with K extracted. The results of this study showed that information obtained from mathematical modeling in two reaction time segments can help to estimate the K-supplying power of soils.     

Availability of exchangeable and non-exchangeable K in Argentine soils with different mineralogy

There were two objectives in the study: 1) To determine exchangeable K and non-exchangeable K in soils with different potassium depletion levels and mineralogy as plant sources 2) To establish a relationship between the mineralogy vs exchangeable K (Ke) and non-exchangeable K (Kne) mobilization. An extraction experiment of soils was carried out in a greenhouse, with a total of 6 consecutive crops of ryegrass. Different supply rates for plant K were determined by Ke and Kne mobilization according to the soil intensity of use. The contribution of the Ke was greater and generated higher amount of K uptake during maximum availability period (from 0 to the 1st harvest) than in the later period when soil K was already depleted. For this the initial exchangeable K and the illite concentration of soils accounted for almost 100% (R² = 0.981 P=0.01) of the K taken up by ryegrass. For the following period (from the 2nd harvest to the 6th), Kne forms became more important. Plant K supply was not only a result of initial exchangeable K and illite concentration but presumably also of primary K-bearing minerals.     

不同浸提剂以及保存方法对土壤矿质氮测定的影响

为探明影响土壤矿质氮测定的因素,从棕壤、潮土和黄棕壤3种类型土壤中各采集10个经不同施肥处理的土样,用连续流动注射分析仪测定经不同浸提剂以及不同保存方法处理后土样的NO3-N和NH4-N含量。结果表明:不论是棕壤、潮土还是黄棕壤,2 mol.L?1 KCl提取硝态氮的数量与0.01 mol.L?1 CaCl2提取的数量相关性均达到P<0.01水平;3种土壤各个土样硝态氮含量的测定值多表现为新鲜土<冷冻土<风干土;将鲜样浸提后作短时间的冷冻处理,其效果与鲜样24 h内的测定结果较接近;土样不同保存方式以及浸提液的保存时间对3种土壤NH4-N测定结果的影响规律不及NO3-N明显。