狼山鸡保种群不同世代MHC BF基因遗传多样性研究

通过Illumina平台Miseq重测序方法分析不同世代(G0、G5、G10、G12、G14、G15、G17)的MHC BF1和BF2基因座位多态性,揭示狼山鸡不同世代间MHC BF基因遗传多样性,为更好地监测保种效果提供科学的决策依据。在狼山鸡7个世代中分别鉴定出MHC BF1、BF2基因59和34个SNPs。狼山鸡MHC BF1基因观察杂合度(Ho)、期望杂合度(He)和多态信息含量(PIC)在G10、G12、G14保持稳定,Ho在不同世代变化情况为G17G15G14、G12、G10G5G0,He和PIC在不同世代变化情况为G17、G15G14、G12、G10G5G0,MHC BF2基因的Ho在G10、G14、G15保持稳定,其他世代变化情况为G17、G12G15、G14、G10G0、G5;He和PIC在G12、G14、G15和G17保持稳定,在其他世代变化情况为G17、G15、G14、G12G10G5、G0。从本研究结果看,狼山鸡不同世代MHC BF1和BF2遗传多样性变化规律不太一致,但总体规律符合波动选择(时空变换的选择)假说,随着时间的推移MHC BF基因遗传多样性变得更为丰富,在某些连续几个世代群体遗传多样性基本保持稳定,这可能与MHC BF基因功能有关。     

黄土高原人工灌草系统不同立地条件土壤种子库特征

本研究通过野外调查取样与室内试验相结合，连续两年对黄土高原人工灌草系统不同坡向、坡位进行取样，以期对该区土壤种子库的物种组成、密度特征及其物种多样性进行初步了解。研究结果表明：该人工灌草生态系统土壤种子库共有9科，15种，其组成因坡位、坡向以及年份而异；坡向、坡位均显著影响土壤种子库物种多样性指数、丰富度指数与土壤种子库密度（P<0.05），土壤种子库密度为3 218～5 492粒·m^-2，总体呈现为阴坡显著高于阳坡（P<0.05），下坡位显著高于上坡位（P<0.05）；坡位和坡向均对物种均匀性系数无显著影响；年份对土壤种子库无显著影响。上述研究可为黄土高原人工灌草系统的可持续利用与恢复提供参考依据。     

大型综合医院户外空间植物景观研究

为营造良好的医院户外空间,采用文献查阅和综合分析等方法对广州市3家大型综合医院的绿地植物景观进行研究。结果表明:3家医院共有植物116种,其中骨干树种和基调树种的重复率较高,乔灌比值偏小,常绿与落叶比相对合理,色彩应用设计合理。在交往空间的搭配中,广东省中医院的交往空间最丰富,广东省人民医院私密型空间较少,中山大学第一附属医院对病人户外交往空间考虑不够,空间应用的元素较为单一。     

喀斯特山区2个鲫鱼群体基于转铁蛋白的遗传多样性研究

为了解喀斯特山区2个不同鲫鱼群体在蛋白质水平的遗传多样性及其遗传差异,运用聚丙烯酰胺凝胶电泳方法对喀斯特山区2个群体鲫鱼的血清转铁蛋白电泳表型及多样性进行研究。结果表明:群体克隆多样性指数表现为草海鲫鱼(0.32)﹥红鲫(0.25,对照)﹥普安鲫鱼(0.13);3个鲫鱼群体的13个克隆由9个不同的等位基因产生,等位基因的频率分别为Tf~a0.144 9、Tf~b0.202 9、Tf~c0.036 2、Tf~d0.058 0、Tf~e0.007 2、Tf~f0.239 1、Tf~g0.014 5、Tf~h0.275 4、Tf~i0.029 0;普安鲫鱼与草海鲫鱼和红鲫无共享的基因型;普安鲫鱼与草海鲫鱼之间的遗传相似性指数较高(0.714 3),遗传距离较小(0.285 7)。总体来看,草海鲫鱼的克隆多样性水平较高,其转铁蛋白多样性程度较普安鲫鱼丰富;2个群体之间存在较近的亲缘关系,未达到遗传距离种的分化标准。     

Comparison of phenolic profiles and antioxidant activities in skins and pulps of eleven grape cultivars(Vitis vinifera L.)

Eleven grape cultivars were analysed to explore the variety differences of fresh grape phenolic profiles. The results showed that free phenolics were predominant in grape skins and pulps, and showed the higher antioxidant activities than bound. In 11 cultivars, Muscat Kyoho extracts had the highest total phenolic content in skins(10.525 mg GAE g~(–1) FW) and pulps(1.134 mg GAE g~(–1) FW), and exhibited the highest DPPH radical scavening capacity(EC_(50)=11.7 μg mL~(–1)) and oxygen radical absorbance capacity(ORAC) value(190.57 μmol TE g~(–1) FW) of free phenolic in skin. In addition, the most abundant phenolics in grape skins were found to be flavonoids such as kaempferol in Kyoho skin(541.2 μg g~(–1) FW), rutin, catechin and epicatechin in Muscat Kyoho skin(262.3, 86.3 and 70.0 μg g~(–1) FW, respectively). Furthermore, the principal component analysis showed a strong difference of phenolic profiles with the cultivars, existing forms and distributions. Pearson correlation coefficient analysis showed a significant linear correlation between total phenolic content and antioxidant activity(P0.05). Therefore, both skins and pulps were rich sources of bioactive phenolic compounds, and Muscat Kyoho was the ideal source among all samples.     

内蒙古桦木沟林场不同地貌野生花卉资源分布

内蒙古桦木沟林场地形地貌类型广泛,野花资源丰富,尚未得到有效开发。为了解野生花卉资源习性和生物学特征,开发利用野花资源,在路径调查的基础上,采用典型样地调查法,调查分析了其野花资源分布。共调查野花资源177种,隶属于40科129属,菊科、豆科、毛茛科等种类和种群数量较丰富。不同地貌Margalef丰富度指数1.35~8.28,Shannon-Wiener指数变异范围1.42~2.59,Simpson指数为0.59~0.96,湿地草甸、疏林草地物种多样性丰富,沙地多样性最低。湿度、光照等是影响野花多样性分布的重要因素。林场分布着丰富而有较大开发价值的喜光、耐荫、耐涝、喜湿、耐旱等不同生态型野生花卉。部分野生花卉资源濒危,亟需保护。     

凤凰单丛茶树资源遗传多样性的ISSR分析

采用ISSR分子标记技术对48份凤凰单丛茶品种(系)进行了遗传多样性分析。选用10个多态性高、分辨力强的ISSR引物分别对供试材料基因组DNA进行扩增,共获得121个位点,其中多态位点带98个,多态位点比率(PPB)为81.0%。品种(系)之间的遗传相似系数变化范围在0.590 9~0.967 4之间。UPGMA聚类分析结果表明,在GS值为0.792的水平上供试材料可划分为7大类,其亲缘关系远近与地理来源关系不大且与香味类型没有必然的联系。     

观赏植物菌根真菌多样性研究进展

菌根真菌具有丰富遗传多样性、形态多样性、物种多样性、生态系统多样性和功能多样性。而观赏植物是重要的依赖菌根真菌的植物类群,对于美化环境、改善生态条件、促进经济发展等方面均具有重要价值,人们给予了众多研究,其中,观赏植物菌根真菌多样性研究表明观赏植物菌根真菌具有丰富的形态、物种和功能多样性。本文系统总结了国内外观赏植物菌根真菌多样性研究所取得的成果、存在的问题,并探讨了今后研究方向,旨在为进一步开展观赏植物菌根研究与应用提供依据。     

Soil aggregation: Influence on microbial biomass and implications for biological processes

Our 1988 paper, describing the effects of cultivation on microbial biomass and activity in different aggregate size classes, brought together the ‘aggregate hierarchy theory’ and the ‘microbial biomass concept’. This enabled us to identify the relationships between microbial and microhabitat (aggregate) properties and organic matter distribution and explain some of their responses to disturbance. By combining biochemical and direct microscopy based quantification of microbial abundance with enzyme activities and process measurements, this study provided evidence for the role of microbial biomass (especially fungi) in macroaggregate dynamics and carbon and nutrient flush following cultivation. In the last ten years environmental genomic techniques have provided much new knowledge on bacterial composition in aggregate size fractions yet detailed information about other microbial groups (e.g. fungi, archaea and protozoa) is lacking.We now know that soil aggregates are dynamic entities – constantly changing with regard to their biological, chemical and physical properties and, in particular, their influences on plant nutrition and health. As a consequence, elucidation of the many mechanisms regulating soil C and nutrient dynamics demands a better understanding of the role of specific members of microbial communities and their metabolic capabilities as well as their location within the soil matrix (e.g. aggregates, pore spaces) and their reciprocal relationship with plant roots. In addition, the impacts of environment and soil type needs to be quantified at the microscale using, wherever possible, non-destructive ‘in situ’ techniques to predict and quantify the impacts of anthropogenic activities on soil microbial diversity and ecosystem level functions.