60Co-γ射线对菊花组培苗的诱变效应

对菊花(Chrysanthemum morifolium Ramat.)品种秋之山的组培苗, 采用5～30 Gy的60Co-γ射线照射处理。研究了γ射线对组培苗生长、增殖和生根的影响以及对组培再生植株移栽后生长开花的影响。结果表明20 Gy是γ射线处理菊花组培苗的致死剂量；从生根和继代培养生长和增殖的结果看，诱变处理的最佳剂量在10 Gy左右；组培再生植株移栽后发现，10 Gy处理的植株中花色变异率为8.2%。与对照花鲜艳的纯黄色相比，变异花增加了不同深浅的红色素，且突变植株均为同质稳定突变。     

UV-B增加对玉米生长发育和产量的影响

在大田栽培和自然光条件下，模拟紫外辐射增加对玉米生长发育、产量和品质的影响。分析结果表明，UV-B增加，导致株高变矮，叶面积降低，绿叶数、叶龄下降，干物重减少，发育期延迟，产量降低，玉米叶片类黄酮含量增加，叶绿素含量降低。这些变化具有随生育期不同而不同的特点。     

基于夏玉米冠层内辐射分布的不同层叶面积指数模拟

为了模拟夏玉米冠层内各层叶面积指数垂直分布,光合有效辐射（photosynthetically active radiation, PAR）是研究作物群体光合作用和长势的重要特征参数,阐明冠层内PAR的垂直分布规律与冠层结构等参数之间的相关关系,可为遥感定量反演冠层结构参数提供模型基础。该文基于PAR在冠层内的辐射传输规律结合冠层结构模拟不同太阳高度角的PAR透过率垂直分布模型,并用地面冠层分析仪测量值进行验证,结果表明模型对封垄前玉米抽雄期冠层内PAR透过率垂直分布模拟精度较高。通过不同太阳高度角PAR透过率的垂直分布模型结合消光系数运用不同算法分别反演层叶面积指数（leaf area index, LAI）,并与不同高度层LAI实测值进行比较。结果显示：Bonhomme& Chartier算法反演不同高度层LAI精度较高,上层均方根误差（root mean square error,RMSE）为0.18,中层RMSE为0.55,下层RMSE为0.09。不同太阳高度角反演结果存在差异,30°和45°高度角均能较好地反演下层LAI,RMSE分别为0.11与0.09;30°高度角反演中层LAI精度较高,RMSE为0.30;45°高度角反演上层LAI精度较高,RMSE为0.18。结果表明基于不同太阳高度角构建的层LAI反演模型更适于实现夏玉米不同高度层LAI的遥感估算。该研究可为模拟垄行结构冠层内LAI垂直分布提供参考。     

观赏植物诱变育种的研究现状和展望

本文综述了观赏植物辐射诱变育种的研究现状,并对花卉辐照诱变的手段、方法、处理材料和适宜辐照剂量、辐照机理与方法及应用作了总结,同时对观赏植物辐射诱变育种存在的问题及发展方向进行了探讨。     

电解质辅助微波辐射凝固胶清工艺的研究

采用新型微波辐射凝固法凝固胶清,研究了不同种类用量的电解质、微波辐射的温度和功率对胶清凝固的影响;并将酸凝固胶清橡胶和微波凝固胶清橡胶的理化性能和力学性能进行了对比研究。结果表明,当乙酸铵用量达到胶清质量2%以上、温度在97℃、功率为900 W时,凝固时间在4 min左右,其凝固效果好;微波凝固胶清橡胶的理化性能和力学性能均比酸凝固胶清橡胶高。     

Willow production related to climatic variations in Southern Sweden

The aim of this study is to quantify the variations of energy forestry production at different locations in south Sweden that can be expected because of variations in climate only. The growth of first‐year shoots of willow (Salix viminalis) is simulated by means of a model based on photosynthesis. The production is examined over a 15‐year period and at 13 different locations. The mean yearly stem production ranged between 10.0 tonnes of dry matter per hectare and year at Helsingborg and 6.5 tonnes per hectare and year at Hagshult. The yearly variation was within ±25 % for sites located in the inland areas while those at the coast generally showed variations within ±15%. On a regional basis, Skåne had the highest mean production with 9.4 tonnes per hectare and year while the production of the Mälardalen region was about 13% lower. The difference in production between Mälardalen and Östergötland was about 2%. A sensitivity analysis showed that the growth response of clones to temperature might be an important selection criterion when aiming at increasing the production.     

玉米不同自交系幼苗光合对 UV-B 辐射增强的响应

为了探讨玉米不同自交系对UV-B辐射增强的响应，在摸拟光照培养条件下，研究了增强UV-B辐射对玉米不同自交系气体交换参数的影响。结果表明，五叶期UV-B辐射处理6 d后，供试的48个自交系中近一半以上材料的幼苗叶片光合速率、气孔导度和蒸腾速率显著降低10％以上，其材料比例分别为64．6％，47．9％，54．2％；而有62.5％的材料胞间CO2浓度表现为显著增加；相关分析发现，气孔导度与蒸腾速率对UV-B辐射增强的响应值间存在极显著正相关关系；根据气体交换参数对UV-B辐射增强的响应程度将48个材料分成6类，其中对增强UV-B辐射反应比较敏感的材料和能够忍耐UV-B辐射增强的材料均占12．5％。说明玉米不同自交系幼苗叶片气体交换参数对UV-B辐射增强反应敏感程度具有显著的基因型差异，从中能够筛选出对UV-B辐射增强反应敏感和有忍耐能力的材料。     

The effect of gamma‐radiation on the release of carbon dioxide from fresh soil

Abstract

The release of CO₂ from fresh soil at medium moisture was examined for 14 days after the application of gamma‐radiation over the range 0.025 ‐ 10 Mrad. All doses stimulated the release of CO₂ compared with non‐irradiated soil, but there was no extra yield of gas between 4 and 10 Mrad. Rapid evolution occurred during irradiation and over the next 24 hours, but towards the end of incubation both irradiated and untreated soil produced CO₂ at similar rates.

Studies to elucidate the origin of CO₂ indicated that the contribution from enzymes was predominant up to 2 Mrad, but at 10 Mrad, 45% of the gas could be formed by radiolytic decarboxylation of soil organic matter. Consequently, heavy irradiation of soil cannot stop production of CO₂, and if high concentrations do interfere with the application of radiation to specific soil research investigations, the gas should be displaced or allowed to diffuse from the sample.     

Nitrate and bromide contents of glasshouse radish as affected by soil content and global radiation

Abstract

Samples (208) of radish (Raphanus sativus L.) foliage and root were collected from commercial glasshouses. Simultaneously corresponding soil samples were taken. Both plant and soil samples were analysed for nitrate and bromide.

The nitrate contents of foliage and root are affected by global radiation and by nitrate content of the soil. An interaction between the two factors was found; It indicated that soil nitrate content had a considerable effect in summer, but much less so in winter under poor light conditions, when the level of nitrate in the crop is high regardless of the nitrogen status of the soil. To study the effect of radiation on nitrate content of radish in summer it was found best to consider the cumulative amount of radiation during 10 days before harvest; in winter, a period of 20–30 days was more suitable.

The bromide content of foliage and root (highest values being resp. 390 and 73 mg Br per kg fresh product) was correlated with the concentration of bromide in the 1:2 volume soil extract. An increase of 1 mmol NO₃ per 1 soil extract lowered the Br content of fresh radish roots by 5.8 mg Br per kg.     

Effects of Salinity and Soil–Drying on Radiation Use Efficiency,Water Productivity and Yield of Quinoa (Chenopodium quinoa Willd.)

Drought and salinity reduce crop productivity especially in arid and semi‐arid regions, and finding a crop which produces yield under these adverse conditions is therefore very important. Quinoa (Chenopodium quinoa Willd.) is such a crop. Hence, a study was conducted in field lysimeters to investigate the effect of salinity and soil–drying on radiation use efficiency, yield and water productivity of quinoa. Quinoa was exposed to five salinity levels (0, 10, 20, 30 and 40 dS m^?1) of irrigation water from flower initiation onwards. During the seed‐filling phase the five salinity levels were divided between two levels of irrigation, either full irrigation (FI; 95 % of field capacity) or non‐irrigated progressive drought (PD). The intercepted photosynthetically active radiation was hardly affected by salinity (8 % decrease at 40 dS m^?1) and did not differ significantly between FI and PD. Radiation use efficiency of dry matter was similar between salinity levels and between FI and PD. In line with this, no negative effect of severe salinity and soil–drying on total dry matter could be detected. Salinity levels between 20 and 40 dS m^?1 significantly reduced the seed yield by ca. 33 % compared with 0 dS m^?1 treatment owing to a 15–30 % reduction in seed number per m², whereas the seed yield of PD was 8 % less than FI. Consequently, nitrogen harvested in seed was decreased by salinity although the total N‐uptake was increased. Both salinity and drought increased the water productivity of dry matter. Increasing salinity from 20 to 40 dS m^?1 did not further decrease the seed number per m² and seed yield, which shows that quinoa (cv. Titicaca) acclimated to saline conditions when exposed to salinity levels between 20 and 40 dS m^?1.