水稻粒型基因研究进展及应用

水稻(Oryza sativa L.)粒型包含粒长、粒宽和长宽比等一系列农艺性状,是影响水稻稻米品质和产量的重要因素之一。随着功能基因组学和分子标记技术的发展,越来越多的粒型基因逐渐被定位和克隆。本文主要总结了目前已经克隆的与水稻粒型有关的基因：粒长基因有GS3、GL7、GL3.3等;粒宽基因有GW2、GW5、GS5等;长宽比基因有GW7、TGW3、GS2等,各个基因之间的互作关系以及各个粒型基因在生产中的实际应用。同时,指出了水稻粒型基因在进行分子植物育种时出现的问题并针对相应的问题提出解决建议。     

Screening and identification of soybean varieties with high phosphorus efficiency at seedling stage

In order to simplify the workload and find a reliable method for screening soybeans with different phosphorus(P)efficiencies,47 soybean varieties were screened from 90 varieties according to yield under normal phosphorus,and 10 indicators including root phenotype,phosphorus utilization efficiency at the seedling stage and yield were measured.Through single-index cluster analysis,the performance value and relative value of the abovementioned indexes under low-phosphorus conditions were analyzed,and then,the combined indexes were analyzed by principal components method.The membership function method and the cluster analysis method was used to calculate and analyze the comprehensive score value.Three indexes of root P utilization efficiency(X₁),relative value of root P utilization efficiency(X₂),and root volume(X₃)under low P at the seedling stage were selected as the most consistent with the yield screening results under low P condition,and the mathematical model of the comprehensive score value was obtained:D=1.218X₁t 0.320X₂t 0.007X₃-0.664(P=0.000,R²=1.000).The comprehensive score can screen and identify the P efficiency of soybeans with fewer indexes in the early growth stages,which provides a more rapid and reliable mathematical model for screening and identifying a larger number of germplasm resources for P efficiency.     

Dynamics of Cotton Rhizosphere Bacterial Community Structure in Cotton Continuous Cropping Field Soil

[Objective] The aim of this study is to understand the dynamics of cotton rhizosphere bacterial community structure in cotton continuous cropping field soil. [Method] 16S rDNA genes were sequenced by high-throughput sequencing technology to determine the community structure of cotton rhizosphere bacteria in different developmental stages using an upland cotton cultivar (Gossypium hirsutum cv. TM-1). [Result] Four dominant phyla were found in the cotton rhizosphere bacterial community including Proteobacteria, Acidobacteria, Planctomycetes, and Bacteroidetes. The four dominant phyla and Firmicutes were largely influenced by cotton root. The relative abundances of Acidobacteria, Planctomycetes, Bacteroidetes were promoted, and Proteobacteria and Firmicutes were inhibited, by cotton root. There were significant differences in community structure, but not species richness or α-diversity among different developmental stages of the cotton rhizosphere bacterial community; the differences between the flowering stage and the budding stage were greater than the differences between the budding stage and the seedling stage. The diversity of the rhizosphere bacterial community in cotton continuous cropping field soil was significantly higher than that of the bulk soil; the β-diversity values of both the rhizosphere and bulk soil bacterial communities were highest in the flowering stage. [Conclusion] The structure and dynamics of the cotton rhizosphere bacterial community in cotton continuous cropping field soil was defined by high-throughput sequencing. The effect of cotton on the rhizosphere bacterial community structure was most significant in the flowering stage.     

朝鲜黄杨种源试验苗期效果初报

利用引进的锦州、沈阳、大连、鞍山4个产地朝鲜黄杨(Buxus microphylla var.koreana)种源进行播种试验,对幼苗出苗率、保存率、苗高、地径、分枝数、冠幅调查测量。结果表明:4个种源的出苗率、当年苗高、分枝数、冠幅均存在显著差异,地径差异不显著。沈阳种源播种出苗率最高,为75.48%;沈阳、大连种源当年苗高14.53 cm、14.08 cm,分枝数9.43条、9.21条,冠幅12.02 cm、10.00 cm,显著高于鞍山、锦州种源;苗木越冬保存率均在90%以上。沈阳种源表现最好。鞍山和锦州种源表现较差。     

优质水稻新品种芽期耐冷性鉴定

对来自不同地区的多个水稻品种进行芽期耐冷性试验,结果表明:15份优质水稻品种发芽期14℃、7 d处理,耐冷性均表现为极弱;14℃、14 d处理,龙稻18、通禾66耐冷性表现为极强,九稻68、吉粳511耐冷性表现为强。在芽期试验中,所有品种芽期耐冷性为强。     

拔节后补灌对不同穗型冬小麦耗水和籽粒产量的影响

为探究拔节期和开花期不同补灌方案对不同穗型冬小麦耗水特性、籽粒产量和水分利用效率的影响，于2017-2019年在山东省泰安市以大穗型品种山农23和中多穗型品种山农29为试验材料，以拔节后无灌水(T1)为对照，设置拔节期补灌目标为0~20 cm土层相对含水率达100%田间持水率(T2)、拔节期和开花期补灌目标为0~20 cm土层相对含水率达100%田间持水率(T3)和拔节期补灌目标为0~40 cm土层相对含水率达100%田间持水率(T4) 3种补灌方案。结果表明，拔节后不同补灌方案对大穗型和多穗型小麦品种影响基本一致。与T1处理相比，T4处理显著提高了0~100 cm土层土壤相对含水率，使60~100 cm土层土壤相对含水率在开花期仍保持较高水平；T3处理显著提高了拔节期0～60 cm和开花期0~40 cm土层土壤相对含水率。与T3处理相比，T4处理的拔节至开花阶段耗水量增加了28.9%，其中对上层土壤总供水的表观消耗量增加了66.4%；T4处理在开花至成熟阶段对深层土壤总供水的表观消耗量增加了68.0%，对上层土壤总供水的表观消耗量降低了37.4%。在开花至成熟期降水较多(121.2 mm)的年份，T4处理的开花至成熟阶段耗水量、开花后旗叶净光合速率和籽粒产量相对于T3处理均无显著变化，但总耗水量较高，水分利用效率显著降低；在开花至成熟期降水较少(45.2 mm)的年份，T4处理的开花至成熟期的阶段耗水量、开花后旗叶净光合速率、籽粒产量和水分利用效率较T3处理均显著降低。因此，在小麦全生育期降水量为111.6~220.2 mm、开花后降水量为45.2~121.2 mm的条件下，大穗型和中多穗型小麦品种均以在拔节期和开花期将0~20 cm土层补灌至100%田间持水率的补灌方案最优，可同时实现高产和高水分利用效率。     

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。     

灌水对强筋小麦籽粒产量及营养品质的影响

为明确水地强筋冬小麦高产、优质、高效的灌溉技术，试验设3个灌水时期8个灌溉处理［越冬期灌1水（W₁），拔节期灌1水（W₂），孕穗期灌1水（W₃），越冬期和拔节期灌2水（W₁₂），越冬期和孕穗期灌2水（W₁₃），拔节期和孕穗期灌2水（W₂₃），越冬期、拔节期和孕穗期灌3水（W₁₂3），全生育期不灌水处理（CK）］,于小麦成熟期测定籽粒产量、总蛋白及其组分含量和淀粉含量。结果表明，与不灌水的CK比较，所有灌水处理的籽粒产量、有效穗数、穗粒数、千粒重、蛋白质产量以及籽粒淀粉含量均显著增加，但籽粒的总蛋白及其组分含量均呈不同程度降低（W₁处理除外）。越冬期灌水对有效穗数、籽粒产量、总蛋白及其组分含量、淀粉含量的提升作用较大；拔节期灌水对穗粒数的提升作用较大，但对淀粉含量的提升作用较小，对总蛋白及其组分含量的降低作用较大；孕穗期灌水对千粒重的提升作用较大，对蛋白质产量的提升作用较小。随着灌水次数增加，小麦籽粒产量显著提高，淀粉含量先显著提高后基本不变，而籽粒总蛋白及其组分含量降低。W₁₂3处理籽粒产量最高，其次是W₁₃处理；W₁处理籽粒蛋白质及其组分含量最高，其次是W₁₂及W₁₃处理；W₂₃处理淀粉含量最高，其次是W₁₂或W₁₃处理。综合各项指标，最好的灌水组合是越冬期和孕穗期灌2水（W₁₃）。     

烘烤凋萎期失水速度对烟叶质量的影响

凋萎期失水速度在烟叶质量的形成过程中具有重要作用,是影响烟叶质量的关键指标。为了优化烘烤工艺,寻找最佳的凋萎期失水速度,以秦烟96为试验材料,2014~2015年在甘肃陇南地区应用变频技术通过风量调节研究了烘烤凋萎期7组失水速度对烟叶质量的影响。试验结果表明,凋萎期失水速度控制在5~7 g∕(kg·h)之间,不但可以让未变黄的烟叶继续变黄,消除青烟,让已变黄的烟叶适度失水,同时降低了变黄后烟叶的水分含量,为烟叶定色创造了条件,有利于防止棕色化反应的发生。