水稻复合农艺性状QTL剖析

为了解水稻复合性状的数量性状基因座(QTL),在利用单片段代换系进行QTL鉴定的基础上,剖析了水稻株高QTL与主茎高和穗长QTL,主茎高与倒一节间长、倒二节间长、倒三节间长和倒四及以下节间长QTL,谷粒长宽比QTL与粒长和粒宽QTL,每穗粒数QTL与一次枝梗数和二次枝梗数QTL的关系。结果表明:鉴定出株高QTL的6个单片段代换系中有4个只检测出了主茎高QTL,其加性效应百分率为86.00%～99.55%,有1个只检测出了穗长QTL,其加性效应百分率为48.31%,有1个同时检测出了主茎高QTL和穗长QTL,其中主茎高QTL的加性效应百分率为81.72%,穗长QTL加性效应百分率为18.28%;在检测出主茎高QTL的7个单片段代换系中,有1个只检测出倒一节间长QTL,有2个只检测出倒二节间长QTL,有2个检测出倒一节间长QTL和倒二节间长QTL,有2个只检测出倒三节间长QTL;不同的单片段代换系中检测出的节间长的QTL加性效应百分率变化范围为-128.62%～172.07%;7个检测出谷粒长宽比QTL的单片段代换系中,有5个只检测出粒长QTL,1个只检测出粒宽QTL,1个同时检测出了粒长QTL和粒宽QTL;检测出每穗粒数QTL的3个单片段代换系中,有2个只检测出二次枝梗数的QTL,有1个同时检测出一次枝梗数QTL和二次枝梗数的QTL。这些结果表明,代换片段中如能检出复合性状QTL,也可以检出其构成性状QTL;复合性状QTL的加性效应的大部分可由其构成性状QTL的综合效应来解析,但相同的复合性状,不同代换片段检出的构成性状QTL不同。     

北方白菜型冬油菜花器特性及农艺性状与含油量的相关性

为研究北方白菜型冬油菜花冠直径与千粒重及含油量之间的相关性,以20份不同的白菜型冬油菜为材料，测定花器大小、农艺性状、种子含油量及蛋白质含量,并对控制花器特征基因mf6、apetala和myb进行实时荧光定量PCR分析。结果表明:花冠直径受雌蕊直径影响较大,主成分分析提取的3个主成分可综合为花器各性状长度、雌蕊直径和花器各性状宽度；以花冠直径为指示性状，将20份白菜型冬油菜花冠划分为3类群；相关性分析表明，花冠直径与千粒重呈极显著正相关，相关系数0.663；千粒重与含油量呈极显著正相关，与蛋白质含量呈显著负相关。相较于小花，mf6在大花中相对表达量上调了151.63%，而apetala和myb分别下调了83.80%和72.70%。北方白菜型冬油菜品种间花器大小存在显著差异；在育种中可通过增加花冠直径来提高千粒重，进而增加油菜产油量，培育高含油量白菜型冬油菜品种。mf6、apetala和myb基因对白菜型冬油菜花器生长发育均具有一定调控作用。     

蓖麻株高性状主基因+多基因遗传分析

本研究选用蓖麻YC2×YF1高、矮秆组合的2组6世代群体(P1、P2、F1、B1、B2和F2),对株高性状进行了主基因+多基因混合遗传模型分析。结果表明,蓖麻株高受1对主基因和多基因共同控制。2组群体在B1、B2和F2三个分离世代中主基因遗传率分别为37.05%/49.57%、30.51%/34.48%和43.98%/43.64%;主穗位高和主茎节数均受2对主基因和多基因共同控制,且主基因的互作效应显性效应加性效应。3个分离世代中,2组群体主穗位高主基因遗传率分别为67.91%/92.72%、86.89%/92.13%和60.18%/66.87%,主茎节数主基因遗传率分别为91.83%/91.50%、35.22%/63.37%和85.76%/94.58%。主茎节长由多基因控制,遗传率分别为47.64%/47.64%、38.87%/38.87%和25.25%/52.71%。以上遗传模式决定了蓖麻杂种后代株高、主穗位高和主茎节长的正向超亲遗传,而主茎节数则倾向于低值亲本。因此,主穗位高和主茎节数可以作为株高的早期间接选择指标。     

Drought and heat stress reduce yield and alter carbon rhizodeposition of different wheat genotypes

Drought and high temperature are major environmental stress factors threatening wheat production during grain filling stage resulting in substantial yield losses. Four wheat genotypes (Suntop, IAW2013, Scout and 249) were planted under two temperature levels (25 and 30°C) and two water levels (15% and 25% soil moisture content). Wheat yield, leaf δ¹³C, plant rhizodeposition, shoot biomass and root traits were examined. Low moisture (drought stress) and high temperature (heat stress) decreased the grain yield of all wheat genotypes, in particular 249, while combined drought and temperature stresses had the most pronounced negative effect on plant biomass and grain yield. Decreasing soil water availability decreased the allocation of plant‐derived C to soil organic carbon (SOC) and to microbial biomass through rhizodeposition. Leaf δ¹³C decreased with increased yield, suggesting that higher yielding genotypes were less water stressed and allocated less C to SOC and microbial biomass through rhizodeposition. Wheat genotypes with lower root/shoot ratios and thinner roots were more efficient at assimilating C to the grain, while genotypes with higher root/shoot ratios and thicker roots allocated more C belowground through rhizodeposition at the expense of producing higher yield. Therefore, improving these traits for enhanced C allocation to wheat grain under variable environmental conditions needs to be considered.     

Mechanisms associated with tiller suppression under stagnant flooding in rice

Stagnant flooding (SF) during vegetative growth triggers stem elongation usually at the cost of tiller production in rice, reducing grain yield. To explore physiological mechanisms associated with tillering suppression under SF, three contrasting genotypes (Swarna and Swarna‐Sub1, both sensitive and IRRI154, tolerant) were evaluated under standing water depths of 0, 5, 30 and 50 cm. SF significantly suppressed tiller formation but increased plant height, root biomass, shoot elongation (ratio of plant height before and after flooding), leaf emergency and non‐structural carbohydrate (NSC) concentration (in root–shoot junction) in all genotypes at the early stage of development. Chlorophyll concentration in the upper leaves (upper most fully expanded leaf at top) was higher than in lower leaves (lowest green leaf at base), but decreased under SF in both. SF increased hydrogen peroxide (H₂O₂) at the early stage of treatment, with concomitant increase in malondialdehyde (MDA) production by stems and leaves. MDA concentration in root–shoot junction increased but delayed. Tiller number correlated negatively with plant height, shoot elongation, leaf emergency, MDA concentration in leaves and root–shoot junction, root biomass, and NSC concentration in the root–shoot junction. The results suggested existence of compensatory mechanisms between tiller growth and shoot elongation in rice for resilience under SF, where energy is mainly diverted for shoot elongation to escape flooding. The SF‐tolerant genotype produced less H₂O₂ and maintained energy balance for higher survival and better growth under stagnant flooding.     

引进甘蔗种质资源杂交后代适应性评价

通过对引进甘蔗种质资源24个杂交后代的的10个农艺性状进行主成分分析、回归分析与通径分析,科学评价引种甘蔗种质资源在广西本地的农艺性状表现,探究各农艺性状间的协同制约关系,为甘蔗种质资源的精准评价和杂交育种材料的科学选配提供理论依据。结果表明:(1)主要农艺性状变异系数为6.79%~29.44%,24个甘蔗种质在分蘖和蔗糖产量上有较大的遗传改良潜力。(2)主成分分析将这10个农艺性状凝聚成4个主成分,分别为产量因子、有效茎因子、糖分因子和出苗因子,贡献率分别是35.2%、16.5%、15.3%、12.1%,累计贡献率达到79.1%;(3)通径分析中各性状对糖产量的直接通径系数大小依次为:蔗茎产量(0.927)>蔗糖分(0.399)>单茎重(0.039)。表明:甘蔗品种(系)GUC23-1、GUC15-2、GUC23、GUC34、GUC25在广西的丰产性最优,在甘蔗引种和选育中,考虑将蔗茎产量、蔗糖分、单茎重作为主要选择性状。     

三江源区不同建植年限人工草地根系动态特征

根系动态特征能够反映人工草地植物利用土壤资源的效率和群落恢复演替的程度。本研究以三江源区不同建植年限（5、6、9和13年）人工草地植物根系为研究对象，利用“微根管”技术，连续两个生长季（2015年5-9月和2016年5-9月）探究了4个建植年限人工草地根系动态特征。结果表明：地上生物量和丰富度在建植5~9年呈下降趋势，建植9~13年显著上升；土壤理化性质呈“N”字型变化，不同建植年限间差异显著；随建植年限增加，根系寿命、累积生产量和累积死亡量均波动上升，根系的生长和死亡主要发生在0~10 cm土层；根系平均现存量随建植年限增加持续增加，建植6~9年趋于深层化；根系生产量、死亡量和现存量具有明显季节变化，6月为生长高峰期，7月为现存量高峰期，8月为死亡高峰期，建植9年人工草地根系正生长高峰期迟于其他建植年限；建植年限和土层深度直接影响根系寿命，其余环境因子通过影响土壤速效养分或地上生物量间接影响根系现存量。综上所述，建植人工草地能够增加地上生物量和丰富度，改善土壤质量，促进根系现存量的增加，建植6~9年人工草地的二次退化现象只是暂时性过渡阶段，可在此阶段制定合理的人工管理措施来保证土壤养分的稳定输入，加快群落正向演替的进程，从而提高人工草地的群落稳定性和恢复力。     

苏姜猪A-FABP基因遗传多态性及其与肉质性状的关联分析

研究采用PCR-RFLP技术分析苏姜猪、姜曲海猪、长白猪群体A-FABP基因遗传多态性,并用统计学方法分析基因座多态与肉质性状的相关性。结果表明:3个猪种A-FABP基因内含子1均具有Bsm I酶切多态性,分别检测到3种基因型(AA、AB和BB),χ~2适合性检验显示,3个猪种A-FABP基因型分布处于Hardy-Weinberg平衡(P0.05)。多态信息含量(PIC)分析显示,3个品种猪均为中度多态;基因型与肉质性状关联分析显示,不同基因型肌内脂肪含量、大理石纹差异显著,大理石纹AA、AB型显著高于BB型(P0.05),肌内脂肪含量AA显著高于AB、BB型(P0.05)。结论显示,苏姜猪、姜曲海猪、长白猪A-FABP基因intron 1多态性对肉质性状影响显著。