共查询到19条相似文献,搜索用时 171 毫秒
1.
以名山县蒙山茶园紫色土为对象,用物理方法将蒙山茶园紫色土分成粒径大小不同的土壤组分(≤0.002mm,0.02~0.002mm,0.2~0.02mm,2~0.2mm),分别通过动力学和热力学方法研究它们对K+的吸附-解吸行为。结果表明:紫色土不同粒级组分对K+的吸附量表现为小于0.002mm>0.02~0.002mm>原土>0.2~0.02mm>2~0.2mm,而解吸量则呈相反的规律。用Elovich方程、双常数方程、抛物线扩散方程及一级扩散方程分别对K+的吸附-解吸动力学数据进行拟合,并用Langmuir、Freundlich和Temkin热力学方程对等温吸附过程进行拟合。原土及各粒级组分K+的吸附量均随K+初始浓度的增大而增大,但各粒级组分吸附量大小关系各不相同,K+均向最小粒径富集。运用动力学方法,原土和各粒径组分对K+的吸附特性均用Elovich吸附方程拟合最佳,原土和各粒级组分对K+的解吸特性均用Elovich解吸方程拟合效果最佳。运用热力学方法,原土和土壤各粒级组分以及分别去除有机质和游离氧化铁后对K+的吸附特性均用Freundlich吸附方程拟合效果最佳,原土和土壤各粒级组分以及分别去除有机质和游离氧化铁后对K+的解吸特性均用Freundlich吸附方程拟合效果最佳。 相似文献
2.
蒙山茶园土壤组分对铝吸附解吸热力学特征的影响 总被引:1,自引:0,他引:1
采用间歇法和振荡平衡法,通过实验室模拟,研究了蒙山茶园土壤(紫色土和黄壤)原土及各粒级组分对铝吸附解吸的热力学特征,并分析土壤有机质、游离氧化铁和CEC对其吸附解吸的影响。结果表明:(1)不同土壤原土及各粒级组分对铝的吸附量都随铝离子浓度的增大而增加,且各粒级土壤对铝的吸附量不同,表现为土壤颗粒比表面越大,有机质、游离氧化铁和CEC越高,其吸附量越大。紫色土原土及各粒级组分对铝的等温吸附过程用Freundlich方程描述最佳,说明紫色土对铝的吸附是多层吸附;而黄壤原土及各粒级组分对铝的等温吸附过程则用Langmuir方程描述最佳,说明黄壤对铝的吸附以单层吸附为主。(2)紫色土原土及各粒级组分对铝的解吸率表现出以下关系:粗砂粒原土细砂粒粉粒粘粒,黄壤原土及各粒级组分对铝的解吸率则表现出以下关系:细砂粒粗砂粒原土粉粒粘粒,两者解吸率的大小关系均与其有机质及游离氧化铁相反,表明两种土壤的原土及各粒级组分中有机质和游离氧化铁越高,其专性吸附率就越高,从而解吸率越小,说明土壤有机质和游离氧化铁影响土壤对铝的固持能力。(3)土壤最大吸附量与有机质、游离氧化铁含量和CEC都表现出显著或极显著的正相关关系,而其最大解吸率也均与有机质、游离氧化铁含量和CEC表现出显著或极显著的负相关关系。 相似文献
3.
长期定位施肥对非石灰性潮土K+解吸动力学的影响 总被引:7,自引:1,他引:7
采用连续液流法研究了长期定位施肥潮土K+解吸的动力学特性。结果表明,1)不同处理的土壤K+解吸的平衡时间和平衡解吸量有很大差异,平衡解吸量的变化与CEC和粘土中高岭石的含量密切相关;2)长期施肥使K+解吸速率产生了差异,解吸速率也与CEC、粘粒含量和高岭石的变化密切相关;3)不同处理在不同的反应阶段其解吸率差异很大,粘粒含量高的处理在反应初期解吸较快;4)平衡前不同时段的解吸速率和解吸率与反应时间lnt有极显著的线性相关,且与土壤粘粒含量密切相关;5)一级动力学方程是描述潮土中K+解吸过程的最优模型,该过程是扩散控制过程。 相似文献
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5.
选择代表性的酸性、中性和石灰性紫色土为实验材料,采用平衡吸附和动力学吸附法研究了紫色土对可溶性有机碳(DOC)的吸附-解吸特征,分析了土壤理化性质与DOC吸附量之间的关系。结果表明,紫色土对DOC的吸附容量呈以下顺序:酸性紫色土〉中性紫色土〉石灰性紫色土。石灰性紫色土对DOC的解吸率明显高于酸性、中性紫色土,其迁移淋失问题值得重视。紫色土对DOC的吸附过程包括快速吸附和慢速吸附2个阶段,0~0.5 h内吸附速率最大,随后吸附速率逐渐减小,4~6 h内基本达到吸附平衡。土壤pH值、有机质、粘粒和活性铁铝氧化物含量是影响土壤DOC吸附量与解吸率的重要因素。通径分析表明,土壤理化性质对DOC吸附量的直接作用系数大小顺序为活性铝含量〉土壤pH值〉有机质,对DOC解吸率的直接作用系数大小顺序为活性铁含量〉粘粒〉有机质。多元线性回归模型能较好地预测土壤对DOC的吸附及解吸的变化。 相似文献
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7.
五氯酚在酸性土壤表面的吸附-解吸特征研究 总被引:16,自引:5,他引:16
本实验研究五氯酚在江西红壤和南京黄棕壤表面的吸附-解吸特征,结果表明:Freundlich和Langmuir等温吸附方程均能较好地描述PCP在两种土壤表面的吸附,且黄棕壤表面的最大吸附量大于红壤。用动力学方程对PCP在红壤中的吸附过程进行拟合,Elovich方程、双常数方程和一级动力学方程均得到较好的结果,其相关系数(R2)在0.96 ~ 0.99之间,达到极显著水平。Elovich方程反映出PCP在土壤表面吸附的能量非均质分布;而抛物线扩散方程不能描述PCP的吸附过程,其相关系数0.46 ~ 0.48。PCP在土壤中的解吸率与有机质含量和pH值相关,随有机质含量增加,PCP解吸率降低,即黄棕壤表土<黄棕壤底土,红壤表土<红壤底土;随模拟酸雨的pH值降低,土壤因对PCP的吸附能力增加,其解吸率降低。 相似文献
8.
酸性紫色土对硼的等温吸附-解吸和吸附动力学试验表明,硼的等温吸附符合Frendlich方程,根据方程的K值(0.441),供试土壤对硼的吸附较弱。锌与硼复合,对土壤硼的吸附量和解吸量影响均不大,但吸附强度下降。钙则大大地提高了土壤对硼的吸附量和吸附常数,使土壤硼平均吸附量提高191.9%,并使平均解吸率下降6.4%。土壤吸附硼的动力学以Elovich方程(Ct=a+blnt)描述最佳,反映土壤对硼吸附速率大小的方程参数b值以B+Ca〉B+Ca+Zn〉B+Zn〉B,钙对硼的吸附速率影响比锌的作用更强。 相似文献
9.
不同土地利用方式土壤对铜、镉离子的吸附解吸特征 总被引:1,自引:0,他引:1
采用一次平衡法对Cu2+、Cd2+在城市及城郊农田、林地、草地3种土地利用方式土壤中的吸附解吸过程进行比较研究, 结果表明: Cu2+、Cd2+在3种土地利用方式土壤中的吸附量均随平衡液浓度的增加而增大, Cu2+、Cd2+在农田土壤上的吸附量均高于林地和草地土壤。分别用Langmuir和Freunlich两种等温吸附方程对吸附过程进行拟合, 3种土壤对Cu2+的吸附过程运用Langmuir方程拟合效果好, 而对Cd2+的吸附过程运用Freunlich方程拟合效果更好。Cu2+在3种土壤的解吸量大小顺序为农田>林地>草地, Cd2+在3种土壤的解吸量大小顺序为农田>草地>林地。两种离子在3种土壤中的动态吸附是个快速反应的过程, 随时间延长, 吸附反应趋于平衡。运用双常数函数方程和Elovich方程能较好地拟合重金属在土壤上的吸附动力学过程。Cu2+、Cd2+的吸附与土壤黏粒含量、有机质含量、CEC和pH均有关。 相似文献
10.
不同土壤对钾的选择吸附特性 总被引:3,自引:0,他引:3
用K Ca交换平衡法对砖红壤、红壤、土、黑土和水稻土K的选择吸附特性研究结果表明 :KG 和KV 系数随着K Ca平衡体系中吸附相中钾与钙比率的变化而改变 ,其曲线特征说明土壤胶体存在着对K亲和力不同的吸附点位。在低钾饱和度时 ,土壤对K的高选择吸附主要归于粘粒矿物楔形区域电荷点位吸附 ,五种土壤楔形区域相对吸附点位顺序为 :黑土 >土 >水稻土 >红壤 >砖红壤 ,该相对吸附点位顺序与土壤含有风化云母和蛭石有关。在高钾饱和度时 ,五种土壤对K的吸附主要发生于粘粒矿物的晶层表面电荷点位 ,粘粒矿物的晶层表面电荷起源也许起决定作用 ,此时KG 选择系数的大小顺序为 :砖红壤 >红壤 >黑土 >土 >水稻土 相似文献
11.
Abdeta Jembere Alemayehu Regassa Tolossa 《Archives of Agronomy and Soil Science》2017,63(12):1676-1684
Termites are reported to improve soil physicochemical properties thereby enhance soil fertility of their mound and foraging areas. Empirical study pertaining to these effects is missing in Southwest Ethiopia. For this study, soil samples affected by termite activities were collected at 1 m interval within 0–3 m distance from the base of six termite mounds on gently sloping and sloping land and analyzed for physicochemical parameters. The result of the analysis depicted that soil bulk density (1.38–1.15 g cm?3) and moisture content (21.1–9.9%) decreased with increased distance from the mound base. While clay content decreased with increased distance from the mound base from72.0% to 45.5%, sand and silt contents increased from 8.0% to 21.3% and 19.3% to 28.5%, respectively. PH (6.23), organic carbon (3.85%), total nitrogen (0.4%), cation exchange capacity CEC (30.43 cmol kg?1), exchangeable Ca (13.73 cmol kg?1), Mg (3.15 cmol kg?1), and PBS (56.8%) were higher on termite mounds. While, electrical conductivity (0.03 dS m?1–0.06 dS m?1), exchangeable K (0.52–0.93 cmol kg?1) and Na (0.02–0.03 cmol kg?1) showed increasing trend with the distance from the mound base. Our results indicated that termite mounds are important sinks of organic matter and mineral nutrients, and hence contribute to the enhancement of soil fertility. Thus, for subsistent farmers the uses of termite mounds as a fertilizer present an opportunity to improve agricultural production. 相似文献
12.
The effects of total electrolyte concentrations of the equilibrium solutions (t.e.c.) on Ca2+-Na+ exchange equilibria in two soil samples (high and low in organic matter, clay content and CEC) were studied. Homoionic (Na+-saturated) soil samples were equilibrated with solutions having a large range in sodium adsorption ratio (SAR) at 25, 50, 75 and 100 meq. 1-1 t.e.c. The exchange equilibria data were analysed, using a thermodynamic approach and the selectivity coefficients of Gapon (1933), Vanselow (1932) and Krishnamoorthy et al. (1948) (KG, KV and KKDO). At a given proportion of Ca2+: Na+ in the equilibrium solution, the development of the exchangeable sodium percentage (ESP) in both soil samples increased with the increase in t.e.c. At a given SAR, the effect of t.e.c. on the development of ESP was less on a soil sample with high organic matter (O.M.), clay content and cation exchange capacity (CEC) than on a soil sample with low O.M., clay content and CEC. The values of exchange selectivity coefficients decreased with the increase in t.e.c, and did not remain constant throughout the exchange isotherm for any of the t.e.c. tried. 相似文献
13.
S.K. Reza Utpal Baruah T. Chattopadhyay Dipak Sarkar 《Archives of Agronomy and Soil Science》2013,59(4):507-518
Distribution of potassium (K) in soils is governed by the agroecological region (AERs), as the operational intensity of factors and processes of soil formation vary with AER. Therefore, we aimed at finding out the relationship between the forms of K(K forms) with AER and the association of K forms with soil properties in the North-Eastern region of India. For this, horizon-wise soil samples were collected from pedons, three each from three AERs (15 (hot sub-humid to humid), 16 (warm per-humid) and 17 (warm per-humid with less cool winter)) in the North-Eastern India. The water balance diagram for AER shows that precipitation (P) exceeds the potential evapo-transpiration (PET) from June to October, AER 16 shows almost no period when the PET is more than the P and AER 17 shows that the region experiences only a short water deficit of 100–150 mm during post-monsoon period. Soil samples were analysed for physical and chemical properties and K forms. The soils were acidic to neutral with low cation exchange capacity (CEC). The water-soluble K ranged between 0.006 and 0.144 cmol kg?1, exchangeable K between 0.07 and 0.54 cmol kg?1, fixed K from 16.7 to 61.3 cmol kg?1 and total K from 17.4 to 63.6 cmol kg?1 in soils of different horizons. Further, the results revealed that all the K forms followed the trend of AER 16 > AER 17 >AER 15. Exchangeable K showed higher correlation with clay (r = 0.519**), while fixed K with organic carbon (r = 0.390*). 相似文献
14.
Anjorin Godwin Ajiboye Adeleke Joseph Ogunwale 《Archives of Agronomy and Soil Science》2013,59(2):247-258
The potassium status of soils developed over talc overburden in a southern Guinea savanna of Nigeria was evaluated using exchangeable, acid extractable, total and residual potassium values in particle-size fractions. Soil samples collected from genetic horizons of six profile pits at Kampe Forest Reserve were separated into sand, silt and clay fractions. Exchangeable K, acid-extractable K, total K and residual K were determined in these fractions. Reserved K values were similar to those of mobile K, but lower than total and residual K, whereas exchangeable K showed the lowest values. Total K was >25 cmol kg?1 in all the profiles; reserved K ranged from 9.26 to 24.45 cmol kg?1 and mobile K ranged from 5.12 to 29.57 cmol kg?1. Exchangeable K accounted for <1% of total K and ranged from 0.20 to 0.50 cmol kg?1. In most cases, the clay fraction of the soils had the highest values for all potassium forms, followed by the silt fraction, while the sand fraction had the lowest values for these forms of potassium. 相似文献
15.
Pig slurry in quantities of 200, 400, 500, 600, 800, and 1000 m3 ha-1 year-1 was added to two calcareous soils, which differed in concentration and type of clay minerals. The soils were cultivated with two successive crops of pepper and tomatoes grown in containers. A control was given no slurry. The soils were analysed after harvesting for exchangeable K+. Differences in exchangeable K+ were studied in relation to the concentration and type of clay minerals. The soil with the higher clay content and of the illite type retained K in the exchangeable form to a much greater extent than the soil with the low clay content. In the soil with the lower clay content, of the interstratified illitic — montmorillonite type, very little K was incorporated into the exchange complex. The exchange capacity being low, the amount of K added had little effect on the level of exchangeable K+. 相似文献
16.
《Communications in Soil Science and Plant Analysis》2012,43(21):2532-2544
The adsorption isotherms indicated that the adsorption of boron (B) increased with its increasing concentration in the equilibrium solution. The Langmuir adsorption isotherm was curvilinear and it was significant when the curves were resolved into two linear parts. The maximum value of adsorption maxima (b1) was observed to be 7.968 mg B kg?1 in Garhi baghi soil and the bonding energy (k) constant was maximum at 0.509 L mg?1 in Jodhpur ramana soil. The Langmuir isotherm best explains the adsorption phenomenon at low concentrations of the adsorbent, which of course was different for different soils. There was significant correlation between b1 and clay (r = 0.905**), organic matter contents (r = 0.734*), and cation exchange capacity (CEC; r = 0.995**) of soils. A linear relationship was observed in all the soils at all concentration ranges between 0 and 100 mg B L?1, indicating that boron adsorption data conform to the Freundlich equation. Soils that have a higher affinity for boron adsorption, like Garhi baghi, tended to desorb less amount of boron, that is, 43.54%, whereas Ballowal saunkhari desorbed 48.00%, Jodhpur ramana 48.42%, and Naura soil 58.88% of the adsorbed boron. Boron desorption by these soils is positively and significantly correlated with the sand content (r = 0.714**) and negatively with clay content (r = ?0.502*) and CEC (r = ?0.623**). The maximum value of 37.59 mg kg?1 for desorption maxima (Dm) was observed in Garhi baghi soil and also a constant related to B mobility (Kd) was found to be maximum in Garhi baghi (0.222 L kg?1) soil Note: *P<0.05; **P<0.01. 相似文献
17.
R. Lal 《Land Degradation \u0026amp; Development》1996,7(2):87-98
Temporal changes in soil chemical and nutritional properties were evaluated in a long-term experiment conducted on Alfisols in West Africa. Effects of land use and cropping duration on soil chemical properties at 0–5 cm and 5–10 cm depths were evaluated for five treatments: (1) alley cropping with Leucaena leucocephala established on the contour at 4-m intervals; (2) mucuna (Mucuna utilis) fallowing for 1 year followed by maize (Zea mays)-cowpea (Vigna unguiculata) cultivation for 2 years on severely degraded land; (3) fallowing with mucuna on moderately degraded soils; (4) ley farming involving growing improved pastures for 1 year, grazing for the second year, and growing maize-cowpea for the third year on severely degraded land; (5) ley farming on moderately degraded soils. Soil chemical properties were measured once every year from 1982 through 1986 during the dry season, and included pH, soil organic carbon (SOC), total soil nitrogen (TSN), Bray-P, exchangeable cations, and effective cation exchange capacity (CEC). Regardless of the cropping system treatments, soil chemical quality decreased with cultivation time. The rate of decrease at 0–5 cm depth was 0·23 units year−1 for pH, 0·05 per cent year−1 for SOC, 0·012 per cent year−1 for TSN, 0·49 cmol kg−1 year−1 for Ca2+, 0·03 cmol kg−1 year−1 for Mg2+, 0·018 cmol kg−1 year−1 for K+, and 0·48 cmol kg−1 year−1 for CEC. Although there was also a general decrease in soil chemical quality at 5–10 cm depth, the trends were not clearly defined. In contrast to the decrease in soil properties given above, there was an increase in concentration at 0–5 cm depth of total acidity with cultivation time at the rate of 0·62 cmol kg−1 year−1, and of Mn3+ concentration at the rate of 0·081 cmol kg−1 year−1. Continuous cropping also increased the concentration of Bray-P at 0–5 cm depth due to application of phosphatic fertilizer. Trends in soil chemical properties were not clearly defined with regards to cropping system treatments. In general, however, soil chemical properties were relatively favorable in ley farming and mucuna fallowing treatments imposed on moderately degraded soils. Results are discussed in terms of recommended rates of fertilizer use, in view of soil test values, expected yields, and critical limits of soil properties. 相似文献
18.
Hailegnaw Niguss Solomon Mercl Filip Pračke Kateřina Száková Jiřina Tlustoš Pavel 《Journal of Soils and Sediments》2019,19(5):2405-2416
Purpose
The majority of biochar studies use soils with only a narrow range of properties making generalizations about the effects of biochar on soils difficult. In this study, we aimed to identify soil properties that determine the performance of biochar produced at high temperature (700 °C) on soil pH, cation exchange capacity (CEC), and exchangeable base cation (Ca2+, K+, and Mg2+) content across a wide range of soil physicochemical properties.
Materials and methodsTen distinct soils with varying physicochemical properties were incubated for 12 weeks with four rates of biochar application (0.5, 2, 4, and 8% w/w). Soil pH, CEC, and exchangeable base cations (Ca2+, K+, and Mg2+) were determined on the 7th and 84th day of incubation.
Results and discussionOur results indicate that the highest biochar application rate (8%) was more effective at altering soil properties than lower biochar rates. Application of 8% biochar increased pH significantly in all incubated soils, with the increment ranging up to 1.17 pH unit. Biochar induced both an increment and a decline in soil CEC ranging up to 35.4 and 7.9%, respectively, at a biochar application rate of 8%. Similarly, biochar induced increments in exchangeable Ca2+ up to 38.6% and declines up to 11.4%, at an 8% biochar application rate. The increment in CEC and exchangeable Ca2+ content was found in soils with lower starting exchangeable Ca2+ contents than the biochar added, while decreases were observed in soils with higher exchangeable Ca2+ contents than the biochar. The original pH, CEC, exchangeable Ca2+, and texture of the soils represented the most crucial factors for determining the amount of change in soil pH, CEC, and exchangeable Ca2+ content.
ConclusionsOur findings clearly demonstrate that application of a uniform biochar to a range of soils under equivalent environmental conditions induced two contradicting effects on soil properties including soil CEC and exchangeable Ca2+ content. Therefore, knowledge of both biochar and soil properties will substantially improve prediction of biochar application efficiency to improve soil properties. Among important soil properties, soil exchangeable Ca2+ content is the primary factor controlling the direction of biochar-induced change in soil CEC and exchangeable Ca2+ content. Generally, biochar can induce changes in soil pH, CEC, and exchangeable Ca2+, K+, and Mg2+ with the effectiveness and magnitude of change closely related to the soil’s original properties.
相似文献19.
The Burdur Lake is located in the southwest of Turkey, and its area has decreased by 40% from 211 km2 in 1975 to 126 km2 in 2019. In this study, we investigated how the soil has changed in the lacustrine material. Three soil profiles were sampled from the former lakebed (chronosequence profiles: P1, 2007; P2, 1994; and P3, 1975), and three soil profiles under different land use types (biosequence profiles: P4, native forest vegetation; P5, agriculture; and P6, lakebed) were sampled. The chronosequence and biosequence soil profiles represented various distances from the Burdur Lake and showed different stages of lacustrine evolution. Soil electrical conductivity (EC; 18.1 to 0.4 dS m-1), exchangeable Na+ (34.7 to 1.4 cmol kg-1) and K+ (0.61 to 0.56 cmol kg-1), and water-soluble Cl- (70.3 to 2.1 cmol L-1) and SO42- (275.9 to 25.0 cmol L-1) decreased with increasing distance from the Burdur Lake, whereas the A horizon thickness (10 to 48 cm), structure formation (0 to 48 cm), gleization-oxidation depth (0 to 79 cm), and montmorillonite and organic matter (OM; 25.9 to 46.0 g kg-1) contents increased in the chronosequence soil profiles. The formation of P3 in the chronosequence and P5 in the biosequence soil profiles increased due to longer exposure to pedogenic processes (time, land use, vegetation, etc.). Changes in EC, exchangeable cation (Na+ and K+) and water-soluble anion (Cl- and SO42-) concentrations of the salt-enriched horizon, OM, gleization-oxidation depth, A horizon thickness, and structure formation of the chronosequence and biosequence soil profiles (especially the topsoil horizon) were highly related to the distance from the Burdur Lake, time, and land use. 相似文献