四川省部分豆科植物根瘤菌的遗传多样性

从四川省豆科植物鸡眼草属、合欢属、豇豆属、葛属、金合欢、杭子梢分离获得了103株根瘤菌,采用AFLP、BOXAIR-PCR研究了这些菌株的遗传多样性.结果表明,分离自四川省豆科植物6个属的根瘤菌存在明显的遗传多样性,AFLP分析中,全部供试菌株的相似性为21%,全部供试菌株可分为26个AFLP遗传群;BOXAIR-PCR聚类分析结果表明,103个菌株分在70%相似性水平处,供试菌株被分为18个BOX遗传群.除部分菌株外,多数根瘤菌按宿主类型聚群,同一宿主而地理来源不同的根瘤菌分布于不同的遗传群,表明宿主和地理环境对根瘤菌具有深刻影响.图3表1参9     

Effects of vegetation type on soil microbial community structure and catabolic diversity assessed by polyphasic methods in North China

Soil microbes play a major role in ecological processes and are closely associated with the aboveground plant community.In order to understand the effects of vegetation type on the characteristics of soil microbial communities,the soil microbial communities were assessed by plate counts,phospholipid fatty acid (PLFA) and Biolog microplate techniques in five plant communities,i.e.,soybean field (SF),artificial turf (AT),artificial shrub (AS),natural shrub (NS),and maize field (MF) in Jinan,Shandong Province,North China.The results showed that plant diversity had little discernible effect on microbial biomass but a positive impact on the evenness of utilized substrates in Biolog microplate.Legumes could significantly enhance the number of cultural microorganisms,microbial biomass,and community catabolic diversity.Except for SF dominated by legumes,the biomass of fungi and the catabolic diversity of microbial community were higher in less disturbed soil beneath NS than in frequently disturbed soils beneath the other vegetation types.These results confirmed that high number of plant species,legumes,and natural vegetation types tend to support soil microbial communities with higher function.The present study also found a significant correlation between the number of cultured bacteria and catabolic diversity of the bacterial community.Different research methods led to varied results in this study.The combination of several approaches is recommended for accurately describing the characteristics of microbial communities in many respects.     

镉胁迫对豆科作物生理生态效应研究进展

镉(Cd)污染对豆科作物的生理生态可产生较大影响.低浓度的Cd胁迫对豆科作物的生物量与株高、根长的增长具有一定的刺激效应,但高浓度的Cd胁迫对豆科作物生长有抑制效应;Cd在豆科作物各器官的富集和分布,存在根>茎>叶>籽粒的规律;Cd胁迫可导致豆科作物的细胞亚微结构发生变化,并可使DNA发生变化,诱导细胞衰老;在超氧化物歧化酶(SOD)、过氧化氢酶(CAT)、过氧化物酶(POD)等保护性酶的调节下,可以在一定程度上缓解Cd胁迫对豆科作物膜脂的过氧化伤害作用,但这种保护作用有一定限度.在总结国内外相关研究基础上,就Cd胁迫豆科作物的试验研究方法及其对豆科作物的生理生态效应进行了简要综述,并指出了存在的问题与发展前景.     

Effects of fertiliser and intercropping on cadmium uptake by maize

This study investigated the effect of fertilisation and intercropping on the uptake of cadmium (Cd) by maize plants (Zea mays L. var. Guangtian-2). Maize was intercropped with soybean, peanut, chickpea, alfalfa, adzuki bean, garden pea, amaranth, Chinese mustard, and flowering Chinese cabbage. The results showed that most legumes substantially enhanced Cd uptake by maize under different fertiliser treatments. Cd accumulation in the leaf tissues of maize was increased by garden pea to 1.5 times the amount in the control (maize alone) with PK fertiliser. Maize intercropped with garden pea absorbed 1225 μg plant^?1 Cd and transferred 925.9 μg plant^?1 Cd to above ground tissues. Adzuki bean proved as the most valuable intercrop for enhancing Cd extraction from soil by maize owing to its relatively large maize bioconcentration factor of 5.9 and large transfer factor of 0.47 in the no fertiliser treatment. The results suggest that legumes caused a greater effect than non-legumes on Cd concentration in maize under different fertilisers; application of NPK fertiliser had positive effects on Cd level in intercropped maize.     

石灰岩和砂岩地区豆科类植物紫花光叶苕(Vicia villosa)中铁和锰的不同分配模式

豆科类植物生物量的减少主要与氮和磷之间的平衡受到影响而有紧密的相关性。然而,其他营养元素之间的不平衡也能响应生物量的减少,比如铁和锰营养元素。选择了贵州茂兰相邻的石灰岩和砂岩地区土壤进行了野外种植实验。实验结果表明:生长着的豆科类植物铁(Fe)和锰(Mn)出现互为相反的分配模式:在砂岩地区生长的豆科类植物根部对铁的吸收相对高于石灰岩地区;而对锰的吸收,石灰岩地区高于砂岩地区。因此,植物根部的Fe∶Mn,砂岩地区高于石灰岩地区。这个结果说明豆科类植物根部对Fe和Mn的吸收存在不同模式。然而,在叶片中的Fe∶Mn砂岩地区和石灰岩地区之间基本没有区别,这说明铁和锰从根部到叶片的迁移具有不同模式。当叶片的Fe∶Mn(质量之比)低于2.9时,有可能响应豆科类植物生物量的减少。我们在研究植物与土壤的营养元素含量之间相关性时,越过环境因素,必须考虑植物内部随生长过程而发生变化的营养元素的化学计量,比如,生长着的植物中Fe∶Mn比值的变化等。