仁怀市茅坝镇高粱基地土壤硒地球化学分布特征及赋存形态

以贵州省仁怀市茅坝镇有机高粱基地为研究对象,开展了土壤硒的地球化学分布及赋存形态特征研究。结果表明,高粱基地土壤全硒含量范围为0.24~1.35 mg/kg,平均为0.50 mg/kg,为全国土壤背景值的1.72倍。研究区富硒土壤分布较广,富硒土壤占总面积的50%;土壤硒的化学形态以有机物-硫化物结合态及元素态硒为主,占比为57.14%,铁-锰氧化物结合态硒、可交换态及碳酸盐结合态硒、残渣态硒含量相近,占比分别为14.21%、14.19%和12.70%,水溶态硒含量最低,占比为1.76%;水溶态硒与可交换态及碳酸盐结合态硒占比之和较高(15.95%),说明土壤硒的生物有效性较强,容易被植物吸收利用,有利于富硒农作物的种植和生产。土壤全硒、各形态硒含量与有机质含量呈正相关,表明有机质的增加有利于硒在土壤中的积累;土壤pH与水溶态硒含量呈显著正相关(P<0.01),而与全硒和其他形态硒含量呈负相关,证实碱性条件下硒主要以硒酸盐形式存在,而使硒的生物有效性得到提高。由此可知,研究区高粱基地富硒水平较高,分布面积较大,且硒的生物有效性较强,为提高茅台酒酿造原料红缨子高粱的品质和发展地方富硒特色农产品提供了良好的土地资源条件。

贵州省威宁县核桃基地土壤重金属元素含量及污染评价

对贵州省威宁县牛棚镇黑田村、新山村的核桃基地土壤中铅、镉、铬、铜、汞、砷这6种重金元素含量进行了检测,以绿色食品产地环境条件中土壤环境要求为背景值作为标准对其单项和综合污染指数进行分析评价。结果表明:调查区域内土壤重金属含量差异较大,且部分受到了不同程度的污染。在重金属污染因子中,Cd是主要污染因子。

绿色食品基地土壤中砷含量的测定

由于水体污染和农药的普遍使用,土壤中的砷含量增高,砷又会从土壤中进入植物体,间接的危害人体健康。因此,土壤中砷含量的高低是评价绿色食品的重要依据之一。本论文根据国标（GBI5618-1995）中的样品消解方法,研究了利用硝酸、硫酸、高氯酸消解体系对样品前处理的影响,优化了比例参数,应用氢化物发生-原子荧光光谱法,测定绿色食品基地土壤中的砷,其含量为5.7965~9.4193mg/kg,经用国家级土壤标准物质进行分析证明,该方法有快速、准确、灵敏度高等优点,可以用于绿色食品基地的审评检测。

黔产红托竹荪基地土壤-红托竹荪体系矿质元素含量及相关性分析

掌握织金县红托竹荪中矿质元素的含量水平,通过适当调控土壤,利于红托竹荪生长,也可为红托竹荪的营养性和安全性评价提供参考依据。通过对基地土壤-红托竹荪矿质元素钾(K)、钙(Ca)、铁(Fe)、锌(Zn)、硒(Se)的测定,并对其进行相关性分析。结果表明:土壤中矿质元素平均含量大小为Fe>K>Ca>Zn>Se,红托竹荪中矿质元素平均含量从高到低依次为K>Ca>Fe>Zn>Se;富集能力最强的为钾元素;基地土壤-红托竹荪间的矿质元素相关性统计显示矿质元素Fe与土壤pH呈显著负相关(P<0.05);土壤(Ca)-红托竹荪(Ca、Zn)、土壤(Se)-红托竹荪(Se)为极显著正相关(P<0.01);土壤(K)-红托竹荪(Fe、Zn)、土壤(Fe)-红托竹荪(Fe)为显著正相关(P<0.05)。基地土壤间矿质元素的相关关系为:K-Fe、K-Se、Ca-Zn呈极显著正相关;K-Ca、Ca-Se在0.05水平上呈显著正相关;Ca-Fe、K-Fe呈极显著负相关。红托竹荪中矿质元素K-Zn、Ca-Fe呈显著正相关;K-Ca、K-Fe、Ca-Zn呈极显著正相关。其他矿质元素则无显著相关关系。在土壤中添加一定浓度的钾、钙元素可能促进红托竹荪对其他矿质元素的吸收,一定程度上可能提高竹荪的品质。

哈尔滨蔬菜基地土壤中喹诺酮类抗生素的污染现状

建立超高效液相色谱-紫外检测(LC-UV)结合质谱检测(MS)法测定哈尔滨周边蔬菜基地土壤中喹诺酮类抗生素残留,并对其生态风险进行评估。样品经乙腈-磷酸盐缓冲液提取,C18固相萃取小柱富集、净化后用甲醇洗脱液进行洗脱。采用多反应监测负离子模式内标法检测蔬菜基地土壤中喹诺酮类抗生素残留。确定最佳提取条件,包括样品提取时间、温度和提取溶剂量等。4种喹诺酮类抗生素在相关范围内线性关系良好,相关系数为0.9994~0.9997。4种喹诺酮类抗生素的加标样品检测值的相对标准偏差为1.13%~2.15%,加标回收率为68.1%~80.2%。哈尔滨蔬菜基地土壤中检出的喹诺酮类抗生素残留浓度范围为21.73~132.45μg·kg^(-1),双城蔬菜基地中仅检测出环丙沙星(CIP),为116.53μg·kg^(-1);五常蔬菜基地检测出环丙沙星和诺氟沙星(NOR),其中环丙沙星的检出量最高,为132.45μg·kg^(-1);平房蔬菜基地检测出环丙沙星和恩诺沙星(ENR),残留量分别为128.54μg·kg^(-1)和21.73μg·kg^(-1);呼兰蔬菜基地土壤中环丙沙星、恩诺沙星、洛美沙星(LOM)和诺氟沙星均被检出,浓度分别为20.54、120.35、37.41和37.41μg·kg^(-1)。生态风险评估结果表明,土壤中检测出的抗生素的风险商(RQ)值均≥1,表现出高度风险,对生态系统具有潜在的不利影响。

深圳市蔬菜基地土壤微量元素含量状况调查及施肥策略

对深圳市22家蔬菜基地抽取土壤样品100个,检测土壤中微量元素含量,结果表明,深圳市蔬菜基地土壤主要缺少锰(Mn)、钼(Mo)、硼(B)3种微量元素,其中有16家基地土壤缺硼和钼,11家基地缺硼,据此提出了有针对性的施肥策略。

开县蔬菜基地土壤对汉丰湖水质的影响

为了解三峡水库蓄水后被淹没的肥沃土壤对"汉丰湖"水质的影响,结合2007年开县环境监测站对开县156～175m水位线以下的蔬菜基地的调查监测数据,对"汉丰湖"存在的污染贡献和成库后潜在的环境风险进行研究。结果表明,部分监测点总汞、总镍超标;部分监测点总磷和化学需氧量达到清库标准要求,为政府制定措施提供技术参考和理论依据。

宅基地复垦土壤培肥效果研究

宅基地复垦设施土壤培肥的目的是为了合理有效地利用土地资源,使复垦土壤迅速恢复农业生产。试验采取4因素3水平随机组合设计。结果表明:增施高量有机肥能够提高宅基地复垦土壤有机质和速效养分,与对照相比有机质提高65.22%;水解氮增加2.31倍;速效磷增加3.26倍;速效钾提高66.53%。T1、T5、T7处理能够迅速改善复垦土壤物理结构,与基础土壤相比降低土壤容重16.35%～25.45%;增加土壤总孔隙度14.62%～21.51%;毛管孔隙度增加11.89%～15.66%;非毛管孔隙度增加25.55%～38.32%;与对照相比土壤渗水系数提高了12.0～17.4倍;能够明显提高蔬菜产量,平均增幅44.01%～53.51%。筛选出的"有机肥+无机肥+脱硫石膏改良剂"、"有机肥+无机肥+秸秆"为天津地区宅基地复垦土壤培肥适宜模式。

宅基地土壤理化性状分析与利用

为更好地利用宅基地复垦耕地,推进乡村生态文明建设,文章对重庆市秀山县宅基地复垦耕地土壤(简称宅基地土壤)和大面积常规耕地土壤(简称耕地土壤)理化性状进行比较分析。结果表明:1)宅基地土壤的pH比耕地土壤高,宅基地土壤呈碱性的比例高达50%左右;2)宅基地土壤的有机质和碱解氮比耕地土壤含量低;3)宅基地土壤的有效磷和速效钾比耕地土壤含量高,特别是速效钾,宅基地土壤是耕地土壤的3.3倍。由于两类土壤理化性状差异大,在宅基地土壤培肥改良、农业规划布局和后续产业发展等利用上必须引起高度重视,为乡村生态文明建设、农业绿色高质高效发展、建设节约型社会和确保粮食安全等提供重要支撑。

3种有机物料配肥下的宅基地复垦土壤重金属污染风险评估

【目的】为确立宅基地复垦土地的绿色安全培肥方案。【方法】以成都平原宅基地复垦土壤为研究对象,设置空白对照(CK)、常规化肥(CF)、秸秆全量还田(S1)、秸秆1.5倍还田(S2)、菌渣等碳量还田(R1)、菌渣1.5倍碳量还田(R2)、猪粪等碳量还田(M1)、猪粪1.5倍碳量还田(M2)共8个施肥处理,研究3种不同有机物料培肥处理的复垦土壤中Cu、Cd、Cr、Pb、Zn和As的重金属含量及其变化特征,并利用内梅罗综合指数法及潜在生态风险评价法对复垦土壤重金属进行风险评估。【结果】复垦土壤重金属含量的高低次序为Zn>Cr>Cu>Pb>As>Cd,随着时间推移及秸秆、菌渣和猪粪3种有机物料增加,土壤重金属含量呈上升趋势;3种物料处理内梅罗指数和潜在生态风险系数均处于轻微风险范围,其中猪粪1.5倍碳量还田(M2)处理均大于其他施肥处理,而秸秆全量还田(S1)处理均小于其他施肥处理。【结论】推荐S1处理为最佳绿色安全培肥方案,即小麦季使用55 911 kg/hm^2的秸秆与276 kg/hm^2的尿素、575 kg/hm^2的过磷酸钙、15 kg/hm^2的氯化钾混施还田,玉米季使用46 449 kg/hm^2的秸秆与350 kg/hm^2的尿素、792 kg/hm^2的过磷酸钙、108 kg/hm^2的氯化钾混施还田。

施用不同改良材料对黄土区空心村复垦土壤结构和有机质含量的影响

[目的]解决黄土区空心村废弃宅基地复垦土壤结构不良,肥力低下的严重问题,为空心村复垦土壤的质量提升提供理论依据。[方法]选取6种不同改良材料处理进行了5 a的田间定位试验,分析了对照(CK)、熟化剂(TM)、粉煤灰(TF)、有机肥(TO)、熟化剂+粉煤灰(TMF)、熟化剂+有机肥(TMO)、粉煤灰+有机肥(TFO)处理对复垦土壤结构稳定性和有机质含量的改善效应。[结果]与对照处理相比,长期施用不同改良材料后空心村复垦土壤有机质含量明显增加,促使水稳性微团聚体(<0.25 mm)胶结形成水稳性大团聚体(>0.25 mm),水稳性大团聚体含量均呈增加趋势。在0-15 cm土层,TM,TF,TO,TMF,TMO,TFO处理下水稳性大团聚体含量分别比CK处理增加了328.2%,130.0%,87.8%,81.1%,36.7%,12.2%。TF,TO,TMF,TMO,TFO处理显著增加了土壤团聚体平均重量直径(MWD)、几何平均直径(GMD)值,降低了不稳定团粒指数(E_(LT))、分形维数(D)(p<0.05)。土壤有机质含量与MWD,GMD,>2 mm粒级水稳性团聚体含量呈极显著正相关关系,与E_(LT),D,<0.25粒级水稳性微团聚含量呈极显著负相关。其中,粉煤灰+有机肥处理下空心村复垦土壤的水稳性大团聚体和有机质含量最高,土壤结构稳定性提升效果最好。[结论]在黄土区空心村废弃宅基地复垦土壤整治中,粉煤灰+有机肥的有机无机结合处理是黄土区空心村复垦土壤结构改善和肥力提升适宜的改良措施。

钾多姿(K44)农用流体肥在红枣上的应用试验

红枣是哈密地区主要特色林果产品。长期以来,人们不重视红枣施肥,加上栽培措施粗放,导致产量低、品质差,如何提高红枣产量与经济效益,是当前生产上亟待解决的重要问题。为了进一步提高红枣产量,迫切需要应用科学的施肥技术。为此,英国欧麦思农用流体公司于2013年,针对哈密市德农红枣科技服务合作社红枣基地土壤的特点,开展应用了钾多姿（K44）农用流体肥在红枣上的肥效试验,以探讨其对红枣产量和经济效益的影响。

新疆柯坪双行矮化超高密度骏枣丰产栽培技术

新疆柯坪县从2007年开始以直播造林方式发展骏枣,截至2014年底,已有骏枣结果园2.8万余亩（占耕地面积的33%）,未结果 骏枣园1000亩。笔者总结了双行矮化超高密度骏枣丰产栽培技术,供果农朋友参考。1 1-4年生骏枣园的管理1.1基本情况 柯坪县艾比本林果业农民专业合作社生产基地土壤为沙壤土,有机质含量0．1％，2007年用酸枣种子直播建园，2008年嫁接骏枣。宽窄行配置，宽行行距2．2米，窄行行距0．8米，株距0．22—1．00米，亩嫁接成活株数760株以上。

Cross-Reference Benchmarks for Translating the Genetic Soil Classification of China into the Chinese Soil Taxonomy

Soil classification is the foundation for exchange and extension of research findings in soil science and for modern management of soil resources. This study explained database and research methodology to create a cross-reference system for translating the Genetic Soil Classification of China (GSCC) into the Chinese Soil Taxonomy (CST). With the help of the CST keys, each of the 2 540 soil species in GSCC has been interpreted to its corresponding soil order, suborder, great group, and sub-group in CST. According to the methodology adopted, the assigned soil species have been linked one another to their corresponding polygons in the 1:1000000 digital soil map of China. Referencibility of each soil species between the GSCC and CST systems was determined statistically on the basis of distribution area of each soil species at a high taxon level of the two systems. The soils were then sorted according to their maximum referencibility and classified into three categories for discussion. There were 19 soil great groups in GSCC with maximum referencibility > 90% and 22 great groups between 60%-90%. These soil great groups could serve as cross-reference benchmarks. There were 19 great groups in GSCC with maximum referencibility < 60%, which could be used as cross-reference benchmarks until new and better results were available. For these soils, if the translation was made at a lower soil taxon level or on a regional basis, it would improve their referencibility enabling them to serve as new cross-reference benchmarks.

A case study of seismic response of earth embankment foundation on liquefiable soils

A case study of seismic response of an earth embankment foundation on liquefiable soils in Kansai area,western Japan was presented. Based on a calibrated cyclic elasto-plastic constitutive model for liquefiable sand and Biot dynamic coupled theory,the seismic analysis was carried out by using a dynamic effective stress finite element method under plane strain condition. A recent design study was illustrated in detail for a river earth embankment subjected to seismic excitation on the saturated deposits with liquefiable sands. Simulated results of the embankment foundation during liquefaction were obtained for acceleration,displacement,and excess pore water pressures,which were considered to yield useful results for earthquake geotechnical design. The results show that the foundation soil reaches a fully liquefied state with high excess pore pressure ratios approaching to 1.0 due to the earthquake shaking. At the end of the earthquake,the extensive liquefaction causes about 1.0 m lateral spreading at the toe and 60 cm settlement at the crest of the earth embankment.

Study on one-dimensional consolidation of soil under cyclic loading and with varied compressibility

This paper presents a semi-analytical method to solve one dimensional consolidation problem by taking consideration of varied compressibility of soil under cyclic loading. In the method, soil stratum is divided equally into n layers while load and consolidation time are also divided into small parts and time intervals accordingly. The problem of one-dimensional consolidation of soil stratum under cyclic loading can then be dealt with at each time interval as one-dimensional linear consolidation of multi-layered soils under constant loading. The compression or rebounding of each soil layer can be judged by the effective stress of the layer. When the effective stress is larger than that in the last time interval, the soil layer is compressed, and when it is smaller, the soil layer rebounds. Thus, appropriate compressibility can be chosen and the consolidation of the layered system can be analyzed by the available analytical linear consolidation theory. Based on the semi-analytical method, a computer program was developed and the behavior of one-dimensional consolidation of soil with varied compressibility under cyclic loading was investigated, and compared with the available consolidation theory which takes no consideration of varied compressibility of soil under cyclic loading. The results showed that by taking the variable compressibility into account, the rate of consolidation of soil was greater than the one predicted by conventional consolidation theory.

Solution of a rigid disk on saturated soil considering consolidation and rheology

The problem of a rigid disk acting with normal force on saturated soil was studied using Biot consolidation theory and integral equation method and the Merchant model to describe the saturated soil rheology. Using integral transform techniques, general solutions of Biot consolidation functions and the dual integral equations of a rigid disk on saturated soil were established based on the boundary conditions. These equations can be simplified using Laplace-Hankel and Abel transform methods. The numerical solutions of the integral equations, and the corresponding inversion transform were used to obtain the settlement and contact stresses of the rigid disk. Numerical examples showed that the soil settlement is small if only consolidation is considered, so the soil rheology must be taken into account to calculate the soil settlement. Numerical solution of Hankel inverse transform is also given in this paper.

Experimental study of seismic cyclic loading effects on small strain shear modulus of saturated sands

The seismic loading on saturated soil deposits induces a decrease in effective stress and a rearrangement of the soil-particle structure, which may both lead to a degradation in undrained stiffness and strength of soils. Only the effective stress influence on small strain shear modulus Gmax is considered in seismic response analysis nowadays, and the cyclic shearing induced fabric changes of the soil-particle structure are neglected. In this paper, undrained cyclic triaxial tests were conducted on saturated sands with the shear wave velocity measured by bender element, to study the influences of seismic loading on Gmax. And Gmax of samples without cyclic loading effects was also investigated for comparison. The test results indicated that Gmax under cyclic loading effects is lower than that without such effects at the same effective stress, and also well correlated with the effective stress variation. Hence it is necessary to reinvestigate the determination of Gmax in seismic response analysis carefully to predict the ground responses during earthquake more reasonably.

Subsidence rules of underground layer thickness： Lu＇an Coal Base coal mines for different soil as an example, China

Damage caused by underground coal mining is a serious problem in mining areas in China; therefore, studying and obtaining the rules of ground movement and deformation under different geological conditions is of great importance. The numerical software ANSYS was used in this study to simulate mining processes under two special geological conditions： （1） thick unconsolidated soil layer and thin bedrock; （2） thin soil layer and thick bedrock. The rules for ground movement and deformation for different soil layer to bedrock ratios were obtained. On the basis of these rules, a prediction parameter modified model of the influence function was proposed, which is suitable for different values of unconsolidated soil layer thickness. The prediction results were verified using two sets of typical field data.