模拟氮沉降对内蒙古典型草地土壤pH和电导率的影响

陆地生态系统氮沉降增加可导致土壤酸化,从而可能造成土壤生态系统结构和功能的退化。依托内蒙古典型草地设置的模拟氮沉降试验,研究了连续6年9个氮添梯度(0、1、2、3、5、10、15、20、50 g m~(-2)a~(-1)),2个氮添加频次(一年两次或一月一次)及2种管理方式(封育或刈割)等4种模式对土壤p H和电导率的影响。结果表明,4种模式下氮添加量3 g m~(-2)a~(-1)以下4个处理间的土壤p H无显著差异,在氮添加量为20 g m~(-2)a~(-1)(与我国粮食作物年施氮量接近)时,土壤p H分别比对照平均降低了1.1~1.9个单位;封育一年两次添加氮素在添加量5 g m~(-2)a~(-1)以上时土壤p H显著下降,而封育每月一次添加氮素在添加量20 g m~(-2)a~(-1)以上时,土壤p H才出现显著下降的现象。4种模式下土壤p H与土壤阳离子交换量及土壤交换性钙呈极显著正相关,说明高量氮添加促进了土壤中盐基离子的耗竭。高量氮添加(50 g m~(-2)a~(-1))显著增加了土壤EC值;除封育每月一次添加氮素处理外,氮添加10 g m~(-2)a~(-1)以下各处理间的土壤电导率(EC)无显著差异;土壤EC值与土壤硝态氮含量呈极显著正相关。研究结果将为我国北方半干旱草地土壤酸化的量化表征及氮素管理提供数据支撑。     

重庆市江津柑橘果园土壤pH与盐基饱和度的关系探讨

根据江津市柑橘果园土壤71个灰棕紫泥土样的分析资料,应用统计方法,探讨pH和盐基饱和度的关系。土壤pH与盐基饱和度呈y=8.4451x2+115.54x-305.28,R2=0.8541非线性正相关,且受占优势的交换性Ca2+制约。分析了盐基饱和度的可能的影响因素。     

Volatilization losses of surface-applied urea nitrogen from Vertisols in the Indian semi-arid tropics

The N loss from Vertisols was estimated by measuring the loss of ¹⁵N-labelled urea N under conditions that promote NH₃ volatilization. Urea granules were placed on the top of 150-mm deep soil columns (Vertisols) collected from three sites with a range in pH, electrical conductivity, and cation exchange capacity. There were two contrasting moisture treatments, one near field capacity (wet) and another with intermittent wetting of the soil surface before allowing the columns to dry (moist-dry). The results indicated that losses were influenced markedly by pH and moisture treatment, being 29.5, 33.5, and 33% from the wet soils and 37, 42, and 40.5% from the moistdry soils with pH values of 7.7, 8.2, and 9.3, respectively. These observations clearly indicate that broadcasting of urea on the surface of Vertisols may cause substantial N losses.     

Cation exchange capacity of density fractions from paired conifer/grassland soils

The cation exchange capacity (CEC) of a soil depends on the type and amount of both mineral and organic surfaces. Previous studies that have sought to determine the relative contribution of organic matter to total soil CEC have not addressed differences in soil organic matter (SOM) composition that could lead to differences in CEC. The objectives of this study were (1) to compare the CEC of two distinct SOM pools, the “light fraction (LF)” composed of particulate plant, animal, and microbial debris, and the “heavy fraction (HF)” composed of mineral-bound organic matter; and (2) to examine the effects of differences in aboveground vegetation on CEC. Soil samples were collected from four paired grassland/conifer sites within a single forested area and density fractionated. LF CEC was higher in conifer soils than in grassland soils, but there was no evidence of an effect of vegetation on CEC for the HF or bulk soil. LF CEC (but not HF CEC) correlated well with the C concentration in the fraction. The mean CEC of both fractions (per kg fraction) exceeded that of the bulk soil; thus, when the LF and HF CEC were combined mathematically by weighting values for each fraction in proportion to dry mass, the resulting value was nearly twice the measured CEC of bulk soil. On a whole soil basis, the HF contributed on average 97% of the CEC of the whole soil, although this conclusion must be tempered given the inflation of CEC values by the density fractionation procedure.     

不同尺度下低山茶园土壤阳离子交换量空间变异性研究

 【目的】研究茶园土壤阳离子交换量（CEC）的空间变异性特征，可以为茶园生态建设以及茶园土壤肥力管理提供理论依据。【方法】本文利用地统计学方法探讨了两个取样尺度下四川蒙顶山茶园土壤CEC的空间变异性特征。【结果】（1）小尺度下，茶园土壤CEC具有强烈的空间相关性（C0/（C0+C）值为18.84%），相关距离高达1 818 m，结构性因子是影响其空间变异的主要因素；（2）微尺度下，茶园土壤CEC仍具有强烈的空间相关性（C0/（C0+C）值为16.52%），空间相关距离达311 m，结构性因子是影响其空间变异的主要因素。【结论】小尺度下土壤CEC在坡度方向变异明显，横坡方向变异最弱；普通Kriging插值分析表明其在东北至西南方向呈明显的条带状分布，并在垂直方向随海拔高度的上升而增加；微尺度下土壤CEC的变异方向与小尺度下不同，在接近坡度的方向空间变异明显，接近横坡方向变异最弱；土壤CEC沿横坡方向呈条带状分布并伴随部分斑块状分布，从坡面至上而下，呈先增加后减少再增加的趋势。     

有机质与粘粒复合对土壤阳离子交换量的贡献

对棕壤、黄棕壤、黄褐土和(土娄)土344个样品阳离子交换量(CEC)与有机质、粘粒用方程y(CEC)=b_0+b_1χ_1(粘粒％)+b_2χ_3(有机质％)+b_3χ_1χ_2进行回归分析表明,在粘粒与有机质数量比为3～16(平均为8左右接近有机质与粘粒CEC之比)时,有机粘粒复合显著影响土壤CEC,且复合消耗有机质与粘粒总交换点的数量分别为41.8％,26.7％,31.9％和19.8％。     

黑龙江省土壤和芦苇系统中阴阳离子空间变异

采用离子色谱分析和原子分光光度计的方法,测出黑龙江省5个样点6~10月土壤和芦苇(Phragmites communis)中的Cl-、NO-3、SO2-4、K+、Na+、Mg2+、Ca2+含量,初步分析黑龙江省芦苇-土壤系统中Cl-、NO-3、SO2-4、K+、Na+、Mg2+、Ca2+空间变异规律。结果表明,芦苇中阴阳离子含量普遍高于土壤。土壤中Cl-、K+和Na+的空间分布具有相似性,都表现为大庆离子含量显著高于其他样点。Mg2+和Ca2+空间分布也具有相似性,均表现为牡丹江含量相对较高,同江和大庆含量相对较低。芦苇中阴阳离子在同江含量最低,可能与气候条件有关。     

外源镁对强酸性紫色土壤阳离子交换效应的研究

[目的]为研究外源镁对强酸性紫色土壤阳离子交换效应。[方法]选择重庆地区强酸性紫色土壤为对象,采用1：5的土水比,用10emol（＋）／LMgSO4溶液对土壤进行多次交换处理。[结果]在实验条件下,外源镁能快速取代土壤胶体上吸附的各种盐基离子,但对致酸离子（H＋、A1＋）则难以达到快速、完全取代,经5次交换后,盐基饱和度由46．6％上升至72．4％,土壤pH仅上升0．7个单位;Mg2＋与Ca＋、Na＋的交换分别可以用指数方程Y=14．998e-1．4849x（R2=0．9938）、二次方程Y=0．011 1x2-0．1005x＋0．233（R‘=0．986）进行很好地拟合;Mg“与K’的交换后期明显表现出有部分土壤次生黏土矿物层间固定的K’会被交换出来,导致被交换出的K’总量增加。[结论]在无酸碱中和的条件下,外源钱可以改变土壤胶体盐基离子的构成,但对于改良强酸性土壤并无实际意义,反之,过量的外源镁还可能造成土壤其他盐基离子的损失。     

不同有机物料对黑土及其复合胶体比表面积和电荷性质的影响

通过盆栽试验研究了施用动物粪便、动物残体、草本残体、木本残体4种不同有机物料对黑土胶体及黑土阳离子交换量(CEC)的影响。结果表明:不同来源有机物料对黑土胶体及黑土CEC的影响存在差异。与CK相比,动物粪便处理下黑土胶体比表面降低7.33%,而动物残体处理下提高了59.58%,木本残体提高了57.46%,草本残体提高了100.18%。pH<6时,各处理土壤胶体表面可变电荷量(Q表面)的曲线大致相似;在pH>6时,各有机处理土壤胶体样的表面电荷(Q样)均高于CK,并且动物粪便与木本残体的Q表面曲线相似且数值较高,CK与动物残体Q表面的曲线大致相同且数值较低。在pH为8～10时,各处理Q样由大到小依次为:动物粪便>木本残体>动物残体>草本残体>CK,动物粪便土壤胶体参比的表面电荷(Q参)与动物残体Q参的曲线大致相同并且数值较高,CK与草本残体Q参曲线相似且数值较低。不同来源有机物料对黑土CEC的影响也有所不同,动物粪便、动物残体、木本残体显著提高黑土CEC,而草本残体作用不明显。     

Uptake of lead by coen from roadside soil samples

Abstract

The uptake of Pb by young, greenhouse grown corn plants from roadside soil samples was found to be not only dependent upon the total amount of Pb in the soil, but also upon the amount of Pb in the soil relative to the soils capacity to sorb Pb. This is in agreement with the uptake of Pb by corn grown on soils amended with PbCl₂, although plant accumulation of Pb from roadside soils was much less than from PbCl₂ amended soils at comparable Pb concentrations. The use of crushed limestone as a road building material which results in high soil pH values next to the roadside is probably responsible for the reduced plant availability of Pb in the roadside soils.