苦荞粒形相关性状的遗传分析

利用籽粒大小差异较大的2个苦荞品种的杂交后代开展了与产量具有密切关系的粒形相关性状的遗传规律及其性状间的相关性分析。结果表明,F₂和F₃群体的粒长、粒宽、长宽比和千粒重表现值范围都超过亲本的表现值,并且粒长、粒宽和长宽比的变异系数均小于10%,千粒重的变异系数大于10%。另外,粒长、粒宽、长宽比和千粒重的加性方差均大于显性方差,广义遗传率在F₂和F₃代中分别为0.77~0.82和0.82~0.85,固定遗传率都达到0.80以上。粒形性状间的相关性分析结果表明,粒长、粒宽和千粒重相互间都存在极显著的正相关,粒宽和千粒重,粒长和长宽比的遗传相关系数较大。以上结果表明,具有较高遗传率的粒形相关性状可以在后代早期进行选择,但由于这些性状是数量性状而且受多个基因的控制,因此建议继续繁殖后代到基因型稳定,同时考虑性状间的相关性选拔最为有效。     

南瓜银叶突变体48a的表型特征及其遗传学分析

南瓜银叶突变体48a是在嫩食型中国南瓜中分离筛选到的稳定遗传自交系,银色叶不仅可以作为标记性状应用到育种中,还可为南瓜抗虫、抗病、耐寒等一系列研究提供重要的材料基础。笔者对银叶突变体的表型特征及叶片的解剖结构进行鉴定分析,发现植株整体长势、熟性与野生型无明显差异;成熟叶片正面全部呈银灰色,叶绿素含量明显降低,叶片上表皮细胞与栅栏细胞间明显剥离,存在明显的空隙。利用突变体48a和野生型49a南瓜自交系构建的六世代遗传群体,调查发现F2的绿叶与银叶符合3∶1的分离比,回交群体BC1P1分离比符合1∶1,表明南瓜银色叶性状由单隐性基因控制。     

野生老芒麦种质资源鉴定与基部叶鞘绒毛变异分析

为更好地利用老芒麦(Elymus sibiricus L.)野生资源,本研究从我国青藏高原、西北、华北、东北地区以及国外部分地区共采集了1 723份野生披碱草属种质资源,通过表型特征观测和流式细胞仪检测,共鉴定出了990份野生老芒麦种质,246份垂穗披碱草种质,并测得老芒麦的DNA含量在5.86～7.30 Gb之间,平均DNA含量为6.66 Gb;垂穗披碱草材料的DNA含量在9.50～10.36 Gb之间,平均DNA含量为9.97 Gb。研究结果显示,在西北、华北以及东北地区的部分野生老芒麦材料在苗期基部叶鞘出现了绒毛,分析发现该表型出现的概率与经度和纬度呈极显著正相关关系(P<0.01),与海拔、年年均气温以及年平均降雨量呈极显著负相关关系(P<0.01)。表明老芒麦苗期基部叶鞘绒毛的有无与环境因子之间存在着必然的联系,可能是老芒麦种质应对不同环境类型的适应性机制之一。本研究为老芒麦的形态鉴定提供了新的依据,为老芒麦种质资源挖掘和育种应用提供了材料基础。     

山西芝麻种质资源遗传多样性分析

为了解山西芝麻种质资源遗传多样性,本研究对189份山西芝麻种质资源的10个质量性状和8个数量性状进行遗传多样性分析和聚类分析。结果表明：189份山西芝麻种质资源的表型性状存在较大的遗传差异,质量性状以主茎茸毛量的遗传多样性指数最高,为1.15,以蒴果棱数的变异系数最高,为63.88%;数量性状以节间长度的遗传多样性指数最高,为2.09,以单株产量的变异系数最高,为47.66%;通过聚类分析,将189份山西芝麻种质资源分为4个类群,类群Ⅰ可作为选育八棱、高秆品种的亲本材料,类群Ⅱ为矮秆、短节间特异材料,类群Ⅲ为高产选育目标材料,综合性状较好,可直接作为优异亲本加以利用,类群Ⅳ包含一批单花、高产特异材料。     

A global sensitivity analysis of cultivar trait parameters in a sugarcane growth model for contrasting production environments in Queensland,Australia

New sugarcane cultivars are continuously developed to improve sugar industry productivity. Despite this sugarcane crop models such as the ‘Sugar’ module in the Agricultural Productions System sIMulator (APSIM-Sugar) have not been updated to reflect the most recent cultivars. The implications of misrepresenting cultivar parameters in APSIM-Sugar is difficult to judge as little research has been published on the likely values of these parameters and how uncertainty in parameter values may affect model outputs. A global sensitivity analysis can be used to better understand how cultivar parameters influence simulated yields. A Gaussian emulator was used to perform a global sensitivity analysis on simulated biomass and sucrose yield at harvest for two contrasting sugarcane-growing regions in Queensland, Australia. Biomass and sucrose yields were simulated for 42 years to identify inter-annual variability in output sensitivities to 10 parameters that represent physiological traits and can be used to simulated differences between sugarcane cultivars. Parameter main effect (S_i) and total effect (ST_i) sensitivity indices and emulator accuracy were calculated for all year-region-output combinations. When both regions were considered together parameters representing radiation use efficiency (rue), number of green leaves (green_leaf_no) and a conductance surrogate parameter (k_L) were the most influential parameters for simulated biomass in APSIM-Sugar. Simulated sucrose yield was most sensitive to rue, sucrose_fraction (representing the fraction of biomass partitioned as sucrose in the stem) and green_leaf_no. However, climate and soil differences between regions changed the level of influence cultivar parameters had on simulation outputs. Specifically, model outputs were more sensitive to changes in the transp_eff_cf and k_L parameters in the Burdekin region due to lower rainfall and poor simulated soil conditions. Collecting data on influential traits that are relatively simple to measure (e.g. number of green leaves) during cultivar development would greatly contribute to the simulation of new cultivars in crop models. Influential parameters that are difficult to measure directly such as transp_eff_cf and sucrose_fraction are ideal candidates for statistical calibration. Calibrating crop models either through direct observation or statistical calibration would allow crop modellers to better test how new cultivars will perform in a range of production environments.     

Phenotypic variation in Azospirillum brasilense Sp7 does not influence plant growth promotion effects

The Azospirillum genus comprises free-living, plant growth-promoting, nitrogen-fixing bacteria found in the rhizosphere of plant roots. Azospirilla are able to promote plant growth mainly through improvement of root development. Bacterial surface components, such as extracellular polysaccharides and proteins, are involved in root colonization. Phase variation – or phenotypic variation – is one of the mechanisms by which microorganisms adapt to environmental changes. This phenomenon is characterized by the presence of a sub-population of the bacteria presenting a different phenotype relative to the major population. In this study we characterized phenotypic variation of Azospirillum brasilense Sp7. When plated on solid media, some A. brasilense colonies were shown to possess a much more mucoid morphology, producing 7.5–8 times more exopolysaccharide with different monosaccharide composition than the parental strain Sp7. The rate of appearance of this kind of variant colonies was 1 in 5000, in agreement with the accepted rate for the phase/phenotypic variation phenomenon. The variants were significantly more resistant to heat and UV-exposure than the parental strain and displayed genomic changes as seen by the different band patterns following ERIC-PCR, BOX-PCR and RAPD analyses. In plant inoculation experiments under greenhouse conditions, with maize, wheat, soybean and peanuts, the EPS overproducing variants performed as similar as the parental strain. Therefore, EPS overproduction did not confer an apparent advantage to A. brasilense in terms of induction of plant growth promotion.     

贵州黑马羊间性、无角、颌下髯及颈部肉垂遗传特征分析

通过实际观察、杂交试验、考察育种记录、遗传分析和适合性检验,对贵州黑马羊间性、无角、颌下髯以及颈部肉垂特征遗传规律进行了研究,同时分析和探讨了黑马羊相关遗传特征表现的基因表达方式和遗传关系.结果表明:①“无角×无角”繁殖的F1代无角羊占72.41％,有角羊占24.14％,无角间性羊占3.45％；②“有角×有角”繁殖的F1代有角羊为100％.③“有角×无角”、“无角×有角”的正反交试验,F1代无角羊占52.20％、有角羊占47.80％.④对166只19个群体的黑马羊统计,颌下有髯率为80.72％,颈部有肉垂率为19.28％;无角(P)对有角(p)呈显性,无间性(I)对间性(f)呈显性,颌下有髯对无髯呈显性,颈部有肉垂对无肉垂呈完全显性；有角山羊基因型为ppH,正常无角羊基因型为PPII、PPIi和PpII、PpIi,间性羊基因型为PPii、Ppii,且山羊间性与无角存在连锁关系.     

青鳞鱼鱼肉提取物在加热过程中的性质研究

本文以青鳞鱼鱼肉为原料，采有冷水法和酶水解法制备提取物并对其在加热过程中的性质进行了研究。结果表明：①青鳞鱼鱼肉蛋白含量为68．3-71％且水溶性蛋白与水不溶性蛋白之比约为2：9；②酶水解法提取物非蛋白氮约为其总氮的50％．而冷水法提取物则为41．5％；③酶水解法提取物在50℃、60℃、70℃、80℃和90℃的温度条件下加热2h后．颜色明显加深，同时产生大量的呈香物质。但常规成分基本无变化；而冷水法提取物在同样的温度条件下，其颜色、滋味等感官特性变化不明显，但常规成分变化却明显；④提取物水溶性蛋白的变性温度为60—70℃，70—90℃时提取物总氮大部分是非蛋白氮。青鳞鱼提取物在加热过程中的这些性质为其加工和利用提供了重要的理论依据。     

大赖草染色体对小麦农艺性状和抗病、耐热性的效应研究

【研究目的】明确大赖草染色体对小麦农艺性状、抗病性和耐热性的效应,为进一步利用大赖草优异基因提供理论依据。【方法】通过黄矮病、白粉病、条锈病人工接种或自然发病鉴定抗病性,以分期播种模拟高温胁迫环境,通过千粒重变化评价耐热性,收获后调查农艺性状、再生性,对小麦-大赖草二体附加系、代换系和亲本‘中国春’进行农艺性状效应鉴定。【结果】结果表明,10个异染色体系苗期对白粉病菌株E09均表现高感,温室成株期白粉病抗性好于对照普通小麦‘中国春’;对条锈病抗性表现均优于‘中国春’。大赖草H染色体有增加穗长、小穗数、提早抽穗期、增加黄矮病抗性的正向效应。大赖草H、A染色体具有增加耐热性的正向效应;大赖草J染色体对粒长、粒宽和粒厚均有正向效应。大赖草A、L染色体含有控制芒的基因,大赖草F具有再生性和复小穗基因,【结论】10份异染色体系中未发现含高抗小麦白粉病基因的大赖草染色体,大赖草附加系DALr#A、DALr#F、DALr#H、DALr#J可用于小麦农艺性状、抗黄矮病、条锈病和耐热性的改良。