河北土壤铜的含量和分布

河北省土壤铜含量丰富.全铜平均25.4ppm,高于全国、世界平均含量.有效铜(DTPA—C_u)平均1.17ppm,<0.5ppm低铜土壤只占耕地总面积的6%.高铜土壤多分布在城镇郊区、洼淀和矿区土壤上.铜在剖面中以淋溶为主,表层富集过程非常微弱.土壤铜含量决定于母质类型.在成土过程中其数量变迁与土壤机械组成、土壤有机质、土壤碳酸钙、土壤PH等有关.     

ASTER遥感数据在矿区生态损害现状监测中的应用

德兴铜矿矿山多年开采对矿区生态环境造成极大的损害,为维护矿区可持续发展,生态损害现状调查尤为重要。利用ASTER数据结合野外实测各类地物反射光谱曲线,利用矿物指数提取矿区重金属和粘土污染;采用差值法提取水体污染状况;采用NDVI彩色密度分割法提取矿区植被污染信息。研究表明,铜矿区生态损害现状甚为严重,利用遥感手段监测矿区生态环境是完全可行的。这为矿区土地复垦与生态修复提供了技术支持和决策依据。     

硫酸盐对木糖废水厌氧处理的影响

在中温35℃±1℃条件下,对含高浓度硫酸盐的木糖生产废水进行了厌氧消化研究,主要研究了pH值和COD/SO42-比值等因素对COD,、SO42-去除率、以及它们之间关系的影响.实验证明,投加铁离子是解除硫化物抑制的有效方法;在中性及偏酸环境中有利于COD的去除;当COD/SO42-的比值大于2.78时,COD的去除率几乎不受COD/SO42-比值的影响.     

不同形态钾肥对马铃薯产量及品质的影响

采用随机区组设计,研究了在施入等量钾肥的前提下,硫酸钾及氯化钾配施对马铃薯植株生育性状、氨基酸、钾含量等品质和产量及商品薯率的影响。结果表明,等量不同形态钾肥对植株株高和主茎数有一定的影响,对其他生育性状基本无影响;对块茎中蛋氨酸含量无显著影响,对其他类型氨基酸、总氨基酸、还原糖和钾含量有一定影响;对马铃薯产量、经济效益、商品薯率均有一定影响。其中,硫酸钾与氯化钾配施显著提高了株高和主茎数;二者配施提高了块茎中总氨基酸、还原糖和钾的含量;二者配施后冲施黄腐酸显著提高了马铃薯产量、经济效益、商品薯率。二者配施后冲施黄腐酸马铃薯产量和商品薯率均最高,平均667 m2产量达3691.4 kg,且有效降低土壤碱性。单施氯化钾较单施硫酸钾处理更易促进马铃薯块茎中氨基酸合成;而单独施用硫酸钾更易促进钾的吸收,使马铃薯块茎表皮更光滑、有光泽,外观品质更好。     

铜对西洋菜生长影响的研究

为了研究西洋菜是否可以应用于有重金属铜污染的富营养化地表水体的治理和生态修复中，以不同浓度的铜处理3d的西洋菜为实验材料，研究了在短期的培养条件下铜对西洋菜生长的影响。主要测定了抗氧化系统的几种酶，包括POD、CAT、SOD的活性以及可溶性蛋白、叶绿体色素含量的变化。研究表明，浓度为0.05mg·L^-1左右的Cu^2＋对西洋菜的生长有一定的促进作用，此时西洋菜利用光能等的能力均有一定的提高;浓度为0.5～5mg·L^-1的Cu^2＋对西洋菜的生长造成一定的环境胁迫，此时西洋菜保护酶活性明显提高;浓度大于5mg·L^-1的Cu^2＋对西洋菜造成严重的过氧化损伤，此时保护酶的调节能力降低。西洋菜对铜的耐受能力不高，只适合应用于铜浓度极低的富营养化水体的治理和生态修复。     

Observations on the bismuth sulfide colorimetric procedure for sulfate analysis in soil

Abstract

The bismuth sulfide and methylene blue colorimetric finishes for soil sulfate determination by the Johnson‐Nishita distillation method were examined and compared. Both procedures gave comparable results when applied to soils and soil extracts, but the bismuth method was more rapid and more reliable. Nitrogen flow rate over the range 100–500 ml/min was not critical for the bismuth method, provided appropriate distillation times were employed. However, the release and transfer of hydrogen sulfide in the bismuth method was effected in one‐third of the time required for the méthylène blue finish, largely due to the elimination of a gas‐washing step. Predrying of soil extract samples increased recovery of hydrogen sulfide with the bismuth procedure arid could be used to increase sensitivity. Nitrate interference was observed with the bismuth procedure but attributed to interference during the reduction step. The bismuth procedure can readily be adapted for microdetermination in the 0–40 ppm sulfate‐S range.     

Exogenous Nitric Oxide Involved in Subcellular Distribution and Chemical Forms of Cu~（2＋） Under Copper Stress in Tomato Seedlings

Nitric oxide（NO）,a bioactive signaling molecule,serves as an antioxidant and anti-stress agent under abiotic stress.A hydroponics experiment was conducted to investigate the effects of sodium nitroprusside（SNP）,a NO donor,on tomato seedlings exposed to 50 μmol L-1CuCl 2.The results show that copper is primarily stored in the soluble cell sap fraction in the roots,especially after treatment with Cu＋SNP treatment,which accounted for 66.2% of the total copper content.The copper concentration gradually decreased from the roots to the leaves.In the leaves,exogenous NO induces the storage of excess copper in the cell walls.Copper stress decreases the proportion of copper integrated with pectates and proteins,but exogenous NO remarkably reverses this trend.The alleviating effect of NO is blocked by hemoglobin.Thus,exogenous NO is likely involved in the regulation of the subcellular copper concentrations and its chemical forms under copper stress.Although exogenous NO inhibited the absorption and transport of excess copper to some extent,the copper accumulation in tomato seedlings significantly increased under copper stress.The use of exogenous NO to enhance copper tolerance in some plants is a promising method for copper remediation.     

Establishment of Efficient Regeneration System of Populus×euramericana cl.‘Bofeng’

Compared with the species of Leuce section,the difficulty in plant regeneration during tissue culture for the species of Aigeiros section is a key limiting factor for their application in genetic engineering of forest trees.In this study,the plant growth regulators combination,copper concentration,light intensity,and the selection pressures of kanamycin were investigated using leaves of Populus×euramericana cl.’Bofeng’ as explants,and a stable and high efficient regeneration system was established.Using this system,both the shoot regeneration rate and rooting rate were up to 100%,and the average number of differentiated shoots in each leaf explant was up to 20,and the survival rate of seedlings reached 98%.The optimal selection pressure of kanamycin in shoot inducement for leaf-explant was 40 mg·L^-1,and the optimal selection pressure of kanamycin in root inducement of adventitious bud was 20 mg·L^-1.The authors also found that differentiation rate of adventitious buds of P.×euramericana cl.’Bofeng’ could be significantly promoted by increased copper concentration,and this is the first report about the key role of copper（Cu） in explant regeneration of Poplars.This regeneration system with high frequency which was established by the authors was as good as that of species of Leuce section,and it provides a good technological platform for genetic engineering of forest tree which uses the species of Aigeiros section as model materials.     

肌肉注射硫酸安普霉素在猪体内的药代动力学和生物利用度研究

对6头健康猪单剂量静脉注射、肌肉注射国产硫酸安普霉素,研究其在猪体内的药代动力学和生物利用度.用微生物法测定血清药物浓度,结果平均回收率为99.03%,血清最低检测浓度为0.05μg/ml,日内日间变异系数为2.2%～5.1%,且血清浓度在0.05～3μg/ml范围呈良好线性关系(r＝0.9965).对猪静注、肌注硫酸安普霉素20mg/kg后,经MCPKP药代动力学计算机程序处理,体内药物运转符合开放型二室模型,肌肉注射0.856h后达峰药浓度Cmax为36.09±1.22μg/ml;t1/2分别为1.58±0.67h、1.06±0.11h,CLB分别为0.15L/kg/h、0.17 L/kg/h,V1分别为0.71L/kg、0.1L/kg,绝对生物利用度为AUC i.m/AUC i.v＝88.47%±3.32%,上述药代动力学数据为动物临床用药提供有价值的理论依据.