小麦白粉病成株抗性和抗倒伏性及穗下节长度的QTL定位

由小麦品种花培3号和豫麦57杂交获得了DH群体168个株系, 利用305个SSR标记对白粉病成株抗性、抗倒伏性和穗下节长度进行了QTL定位研究。DH群体及两亲本于2005年和2006年种植于山东泰安, 2006年种于安徽宿州。利用基于混合线性模型的QTLNetwork 2.0软件, 共检测到12个加性效应位点和10对上位效应位点。在4D染色体上控制白粉病成株抗性的qApr4D, 贡献率为20.0%, 在各环境中稳定表达, 其抗病等位基因来源于抗病亲本豫麦57; 在7D染色体上控制小麦穗下节长度的qIlbs7D, 贡献率为12.9%, 在各环境中稳定表达。加性效应和上位效应对小麦白粉病成株抗性、抗倒伏性和穗下节长度的遗传起重要作用, 并且基因与环境常常具有互作效应。以上两个QTL可分别用于小麦白粉病成株抗性和穗下节长度的分子标记辅助选择。     

利用BC2F2高代回交群体定位水稻籽粒大小和形状QTL

以我国优良籼稻恢复系蜀恢527为轮回亲本, 以来自菲律宾的Milagrosa为供体亲本, 培育了样本容量为199株的BC₂F₂高代回交群体。选取85个均匀分布在12条染色体上的多态性SSR标记进行基因型分析, 同时对粒长、粒宽、长宽比和千粒重4种性状进行了表型鉴定。采用性状－标记间的单向和双向方差分析对上述性状进行了QTL定位。单向方差分析(P<0.01)共检测到了10个控制粒长、粒宽、长宽比和千粒重的QTL, 其中有3个具有多效性。由于粒长和长宽比的高度相关性, 控制长宽比的2个QTL均能在粒长QTL中检测到。位于第3染色体着丝粒区域的qgl3b是一个控制粒长、长宽比和千粒重的主效QTL, 它可以分别解释粒长、长宽比和千粒重表型变异的29.37%、26.15%和17.15%。该QTL对于粒长、长宽比和千粒重均表现较大的加性效应(来自蜀恢527的等位基因为增效)和负向超显性。位于第8染色体的qgw8位点是一个控制粒宽的主效QTL, 同时也是控制千粒重的微效QTL, 能解释粒宽表型变异的21.47%和千粒重表型变异的5.16%。该QTL对粒宽和千粒重均具有较大的加性效应(来自蜀恢527的等位基因为增效)和正向部分显性。双向方差分析(P<0.005)共检测到61对显著的上位性互作, 涉及54个QTL, 其中23个是能同时影响2~4个性状的多效位点, 且有8个位点与单向方差分析检测到的相同。控制长宽比的13对上位性互作位点中, 与控制粒长的上位性互作位点完全相同的有8对。以上结果为进一步开展水稻籽粒大小和形状有利基因的精细定位、克隆和分子设计育种奠定了基础。     

深厚砂砾石地基墙幕结合防渗体系搭接长度优化研究

目前深厚砂砾石地基墙幕结合防渗体系普遍采用10m的经验搭接长度,针对搭接长度在设计中偏于保守的现状,结合新疆下坂地水利枢纽工程,采用了有限元数值模拟计算和归一化处理的方法,在防渗体系不同深度布置尺寸和搭接长度的情况下,建立有限元数值计算模型,对防渗墙的受力和位移进行研究分析,计算分析出新疆下坂地墙幕结合防渗体系优化搭接长度度值,并总结出墙幕优化搭接长随防渗墙修建深度的变化规律,为深厚砂砾石地基墙幕结合防渗体系的设计和施工提供一定的参考。     

Classification of Peruvian highland maize races using plant traits

The maize of Latin America, with its enormous diversity, has played an important role in the development of modern maize cultivars of the American continent. Peruvian highland maize shows a high degree of variation stemming from its history of cultivation by Andean farmers. Multivariate statistical methods for classifying accessions have become powerful tools for classifying genetic resources conservation and the formation of core subsets. This study has two objectives: (1) to use a numerical classification strategy for classifying eight Peruvian highland races of maize based on six vegetative traits evaluated in two years and (2) to compare this classification with the existing racial classification. The numerical classification maintained the main structure of the eight races, but reclassified parts of the races into new groups (Gi). The new groups are more separated and well defined with a decreasing accession within group × environment interaction. Most of the accessions from G1 are from Cusco Gigante, all of the accessions from G3 (except one) are from Confite Morocho, and all of the accessions from G7 are from Chullpi. Group G2 has four accessions from Huayleño and four accessions from Paro, whereas G4 has four accessions from Huayleño and five accessions from San Geronimo. Group G5 has accessions from four races, and G6 and G8 formed small groups with two and one accession each, respectively. These groups can be used for forming core subsets for the purpose of germplasm enhancement and assembling gene pools for further breeding.     

The theoretical proportion of the donor genome in near-isogenic lines of self-fertilizers bred by backcrossing

Summary The length was estimated of the chromosome segment with the desired marker gene introgressed from a donor by backcrossing into a recurrent parent. It was found that, for instance, for a chromosome with a length of 100 cM the length of the segment is 32 cM in BC6.These estimates were compared with those made by Hanson (1959). Two corrections proved to be necessary.The implications for breeders and researchers are discussed. Differences between two near-isogenic lines often ascribed to the difference in genotype at the marker locus, may also be caused by genes linked to the marker gene and dragged into the backcross product.     

微灌自压软管合理铺设长度的确定

自压软管微灌技术是目前经济技术条件下一种比较实用的节水灌溉技术,在新疆得到了迅速推广,有广阔的应用前景。该文在室内试验的基础上,结合水力学理论和高等数学知识对自压软管的水力性能进行了分析研究,提出了确定软管合理铺设长度的计算方法,给出了满足均匀度要求的适宜铺设长度,结果与工程成功经验相比是一致的。该文结合工程算例,给出了设计步骤,可供膜下自压软管灌溉规划设计时参考。     

Carrot root size distribution in response to biostimulant application

In 2009–2011, in Poland (53°13′N, 17°51′E), field experiments were conducted concerning the influence of biostimulants Kelpak SL and Asahi SL on the size grades of yield of carrot cv. ‘Karotan’. Kelpak SL is produced from seaweed Ecklonia maxima; Asahi SL is composed of nitrophenols. Biostimulants were sprayed from fourth-leaf stage of carrot, once, twice or three times in growing period. Seaweed extract was used at total doses of: 0, 2, 3, 4, 5, 6 and 7?l?ha^?1, while Asahi SL at 1?l?ha^?1. It was found that biostimulants had a favourable effect on total and commercial root yield, but this effect was dependent on the type of preparation, the dose, the time and the number of treatments. The best results in increasing the commercial yield were achieved after a single application of Kelpak SL at doses 2 or 3?l?ha^?1 at the fourth-leaf stage (13.1% and 12.4% respectively, compared to the control). Both biostimulants Kelpak SL and Asahi SL positively affected the root size distribution by increasing the yield of medium roots (1.9–3.8?cm in diameter) as well as large roots (3.8–5.0?cm), by 30.5% and 15.8%, respectively.     

Experimental Study on the Extended Length of Negative Reinforcement Cut-in Phases in Continuous Beams

In this paper through the static loading tests of 6 inflexion zones and 2 cantilever zones in full-size constrained R/C beams, the stress performance in rebars cut-in-phases and subjected to negative moment is studied. The stress properties of extended length of rebars with different shear-span ratiosare analysed on basis of the full measurement of strain distributions combined with the investigation on state and regularity of the diagonal cracks development and series of new knowledge are obtained. It is found that current Concrete Design Code provisions on the extended length are inadequate for the high shear-span ratio and superfluous for the low shear-span ratio. The theoretical and experimental foundations are provided for determining proper value of extended length for rebars cut-in-phases.     

Molecular mapping of a new gene for resistance to rice blast (Pyricularia grisea Sacc.)

A single dominant blast resistance gene conferring resistance to a Korean rice blast isolate was identified in rice variety `Suweon 365'. We report the chromosomal localization and molecular mapping of this blast resistance gene designated as Pi-18, which confers resistance to Korean isolate `KI-313' of the blast pathogen. To know whether there is a relationship among genes conditioning resistance to location-specific isolates of the blast pathogen and thereby to identify linked markers to resistance gene for isolate KI-313 collected in Korea, RFLP markers previously reported to be linked to major blast resistance genes in different rice germplasm and other markers mapped to nearby regions were surveyed for polymorphism between a resistant (`Suweon 365') and a susceptible (`Chucheongbyeo') parent. Linkage associations of the RFLP markers with the resistance gene were verified using an F2 and F3 segregating population of known blast reaction. RFLP analysis showed that Pi-18 was located near the end of chromosome 11, linked to a single copy clone RZ536 at a distance of 5.4 centiMorgans (cM) and that this gene was different from Pi-1(t). An allelism test revealed that this gene was also different from Pi-k. Currently, a combination of RAPD and microsatellite primers is being employed to find additional markers in this region. Tightly linked DNA markers will facilitate selection for resistant genotypes in breeding programs and provide the basis for map based cloning of this new blast resistance gene. This revised version was published online in July 2006 with corrections to the Cover Date.