土壤中不同老化时间的DDT对小麦根系的生物有效性

研究了水、正己烷、正己烷/丙酮ASE对土壤中不同老化时间的DDT的逐级提取量的差别及其与小麦根吸收的关系。结果表明,有机氯的水提量随老化时间增加而下降,正己烷提取量随老化时间增加而下降,正己烷/丙酮提取量随老化时间增加而上升。植物根吸收随老化时间增加而下降。根吸收与水提量没有确定关系,与正己烷提取量具正相关关系,与正己烷/丙酮提取量有负相关关系。正己烷提取量可被作为土壤有机氯DDT的有效态部分。     

Modelling the fate of organic chemicals in the soil plant environment: Model study of root uptake of pesticides

The fate of organic chemicals in the soil-plant-atmosphere environment and the governing processes were studied with a coupled dynamic soil transport and plant compartment model. Scenarios with applications of pesticides on sand and loam soils with chemical uptake in barley and wheat were used in the model calculations. Root uptake and concentrations in the plant compartments stem, leave and fruit were calculated for the pesticides terbuthylazine, isoproturon and carbofuran.

The effectivity of uptake from soils with different soil sorption coefficients had been shown for sand and loam soils. The processes degradation in plant and volatilization from leaves to atmosphere are especially effective for carbofuran and terbuthylazine. Although the concentrations in corn at harvest are lower than the maximum allowed concentrations, the peak concentrations in the course of the vegetation period are significantly higher (factor ≤ 200).     

菊花组培快繁技术研究

以菊花嫩茎段为材料,进行无菌系建立、芽分化、生根等试验,探讨菊花组培快繁技术.结果表明:(1)以MS BA2.0 mg.L-1 NAA0.1 mg.L-1(单位下同)为培养基,分别置于普通培养室(不开灯,200~500 lux)与人工气候箱中培养,在前者条件下基本上不诱导芽的形成,25天后有部分黄白色愈伤组织形成;而在人工气候箱中培养则产生丛生芽,每茎段在30 d后可形成8~10个丛生芽.(2)分别以①MS BA1.0 NAA0.1,②MS BA2.0 NAA0.1,③MS BA3.0 NAA0.1为增殖培养基,培养25 d后芽增殖3.65~5.90倍.(3)在a.1/2MS NAA0.2;b.1/2MS IAA0.2;c.1/2MS IBA0.2共三个培养基中进行生根培养,生根率均达100%,但前两个培养基中长出的根系细长、数量少,而后一个培养基则根系粗短、数量多.     

铝对豌豆根边缘细胞存活率和粘胶层厚度的影响

根边缘细胞（Root border cells）是从根冠游离并聚集在根尖周围的一群特殊细胞，铝毒的作用部位正是根尖，因此推测边缘细胞在铝毒反应中起着重要作用。作者研究了不同铝浓度（0、50、100、250、500μmol／L AlCl3（含0．1mmol／L CaCl2，pH4．5）与离体豌豆（Pisum Sativum）根边缘细胞共培养1h、2h、4h、6h、8h、24h后根边缘细胞存活率、粘胶层厚度及细胞数量的变化，以揭示铝毒胁迫边缘细胞的响应。结果为：随着处理时间的延长，边缘细胞的存活率明艰下降；在0～100μmol／L铝浓度范围，边缘细胞存活率有随铝浓度升高而降低的趋势；8h及24h边缘细胞存活率为铝浓度500μmol／L时显著高于0、50、100和250μmol／L时，6h边缘细胞存活率为250和500μmol／L铝浓度时显著高于0、50、100μmol／L AlCl3时。随处理时间延长，边缘细胞数量降低，铝浓度100，250和500μmol／L时边缘细胞数量低于0和50μmol／L时，且铝浓度越高，细胞数量越少；随处卵时间延长和铝浓度升高，粘胶层相对面积增加，铝浓度500和250μmol／L时粘胶层相对面积增加尤为明湿。通过与pH7．01水溶液及pH4．50水溶液中粘胶层变化的比较，发现粘胶层在铝处理8h后出现一个峰值，可能是粘胶物质的诱导合成和分泌。研究结果表明，铝毒对根边缘细胞具有致死效应，这种致死效应在一定浓度范围符合剂量依数性关系，高浓度时则边缘细胞存活率反而升高，这与根边缘细胞对铝毒作出的适应性响应——粘胶层的增厚和细胞降解增强有关。粘胶层起着保护和减轻边缘细胞铝毒的作用。     

不同抗生素种类及浓度对麻疯树培养的影响

以麻疯树(jatropha ctrcas)的子叶、真叶、根及其对应的愈伤组织作为实验材料,研究各种抗生素对其生长的影响;在MS培养基中添加不同浓度和不同种类的抗生素,比较其对麻疯树不同外植体及对应愈伤组织生长的影响.方差分析和总体观察的结果表明,用于筛选转化植株的最佳抗生素是卡那霉素,其最佳抗性筛选浓度范围为10～25mg/L.表9参10     

抗赖氨酸加苏氨酸的玉米种子蛋白突变体

通过离体选择抗赖氨酸加苏氨酸玉米突变体，不仅获得了积累游离苏氨酸和赖氨酸等氨基酸的突变类型，也选择到了种子蛋白组份发生改变的高蛋氨酸突变体和高赖氨酸体细胞无性系变异体。高蛋氨酸种子中总蛋氨酸的含量比对照增高２２．６％，这是由于醇溶蛋白Ｚｅｉｎ－２部分及其蛋氨酸含量增高所致。高赖氨酸变异体种子游离必需氨基酸增高显著（２－１０倍），总赖氨酸比对照亲本增高２８．１％，含量约占种子干重的０．４０％，种子蛋白清蛋白、球蛋白和谷蛋白组份含量增高而醇溶蛋白减少。高赖氨酸和高蛋氨酸特性遗传稳定，植株育性正常。     

根系分泌物及其在植物营养中的作用

论述了根系分泌物的种类和影响因素，根系分泌物在植物营养中的调节作用、异种克生作用，根系分泌物与根际微生物的相互作用。在铁胁迫条件下，许多高等植物都能产生一系列生理和形态方面的适应性反应，禾本科植物通过根际特定分泌物——麦根酸类物质来自动调节其体内的铁营养状况；在磷胁迫条件下，根系分泌的低分子有机酸种类主要有柠檬酸、草酸、酒石酸和苹果酸，它们在植物根际的富集能明显促进土壤中磷的释放，提高作物对磷的吸收，缓解植物的磷胁迫；在锌胁迫条件下，双子叶植物的根系分泌物对锌的活化作用不明显，而禾本科植物的根系分泌物可以活化石灰性土壤中难溶性锌。     

紫花苜蓿品种间根系发育过程分析

从根系发育角度分析了不同紫花苜蓿品种在甘肃黄土高原丘陵沟壑区的适应性．研究表明：品种间侧根发生总数差异较大，Ameristand201和Sandili均为14个，陇东苜蓿(Longdong)仅为6个，65％的侧根发生于营养生长阶段；品种间主根生长，根系体积、根系生物量的积累在各个生育期的表现分为3种类型，Ameristand201，Sandili，Ameri-graze401在整个生育期内的生长速率较快，且速率基本保持一致；陇东苜蓿，Derby，Sitel在整个生育期内生长速率较慢，但在盛花期(7月中旬)后，生长速率急剧增加；Goldenempress，Defi，Algonqiun介于前两者之间．从根系发育过程分析，Amefistand201，Sandili，Amerigraze401对黄土高原丘陵沟壑区的季节性降水反映相对迟钝，在干旱半干旱生境中具有较好的适应性．     

粉葛根腐病的病原鉴定

近年来发现一种严重为害粉葛块根的土传病害。经显微镜直接检查、病原菌分离培养观察、致病性测定及田间病害调查，初步鉴定该病为粉葛镰刀菌根腐病，病原菌为腐皮镰刀菌(Fusarium solani，属半知菌亚门真菌)；该病的发生是由于腐皮镰刀菌与植物线虫复合感染所致。该报道在中国尚属首例。     

The effect of diesel fuel on common vetch (Vicia sativa L.) plants

When petroleum hydrocarbons contaminate soil, the carbon:nitrogen (C:N) ratio of the soil is altered. The added carbon stimulates microbial numbers but causes an imbalance in the C:N ratio which may result in immobilization of soil nitrogen by the microbial biomass, leaving none available for plant growth. As members of Leguminosae fix atmospheric nitrogen to produce their own nitrogen for growth, they may prove more successful at growing on petroleum hydrocarbon contaminated sites. During a wider study on phytoremediation of diesel fuel contaminated soil, particular attention was given to the performance of legumes versus other plant species. During harvesting of pot experiments containing leguminous plants, a recurring difference in the number and formation of root nodules present on control and contaminated Common vetch (Vicia sativa L.) plants was observed. The total number of nodules per plant was significantly reduced in contaminated plants compared to control plants but nodules on contaminated plants were more developed than corresponding nodules on control plants. Plant performance of Common vetch and Westerwold's ryegrass (Lolium multiflorum L.) was compared to illustrate any difference between the ability of legumes and grasses to grow on diesel fuel contaminated soil. Common vetch was less affected by diesel fuel and performed better in low levels of diesel fuel contaminated soil than Westerwolds ryegrass. The total amount of diesel fuel remaining after 4 months in Common vetch planted soil was slightly less than in Westerwolds ryegrass planted soil.