生态环境对籼粳稻杂交后代穗部性状的影响及其与亚种特性的关系

【目的】探讨生态环境对籼粳稻杂交后代穗部性状的影响及其与亚种特性的关系。【方法】以辽宁育成的两个典型的籼粳交重组自交系F6群体(RIL1:中优早8号/丰锦、RIL2:七山占/秋光)为试材,分别在四川和辽宁同年种植,研究穗部性状和亚种特性变化规律及其相互关系。【结果】穗部形态、解剖性状与亚种特性都发生了极显著的变化。从辽宁到四川,穗颈粗和穗颈大维管束数极显著减少,第二节间小维管束数和大维管束比极显著增加,结实率特别是二次枝梗结实率极显著下降,程氏指数更加偏粳。穗颈大维管束数、大小维管束比、大维管束比、结实率和千粒重在亚种类型间差异显著。穗颈节间维管束数目与穗"库"结构性状呈极显著正相关,与籽粒充实特性相关不显著;相反,亚种特性与穗"库"结构性状相关不显著,而与籽粒充实特性呈极显著的正相关。【结论】生态环境对籼粳交后代的穗部性状有极显著的影响。依穗颈粗去选择维管束性状是一条切实可行的途径。穗颈大维管束数、籽粒充实特性、程氏指数三者之间互相制约,北方的育种者要在实践中统筹兼顾。

生态条件对籼粳稻杂交后代亚种特性与经济性状的影响

以两个典型的籼粳交重组自交系F6群体(RILSA:中优早8号/丰锦、RILSB:七山占/秋光)为试材,分别在四川和辽宁同年种植,研究亚种特性和经济性状变化规律及其相互关系的结果表明,不同生态条件下籼粳交后代的亚种特性和经济性状都发生了显著的变化.生态条件对程氏指数和构成性状的影响因群体和性状而异,RILSA群体在四川和辽宁都呈偏粳分布,RILSB群体在辽宁接近正态分布,在四川呈偏粳分布,总体上四川表现比辽宁更加偏粳.与辽宁相比,四川穗数、结实率和千粒重降低,因而产量极显著下降,而穗粒数在不同地区和不同群体间差异不显著.程氏指数和构成性状与产量和经济性状有正相关的趋势,据此进行人工选择可能是北方稻区籼粳稻杂交育成品种仍然基本保持粳亚种特性的重要原因.此外,还讨论了籼粳分化与生态条件的关系等相关问题.

籼粳交后代中的穗型指数与亚种特性及产量性状的关系

以两个典型的籼粳交重组自交系F6群体(RILSA:中优早8号/丰锦;RILSB:七山占/秋光)为试材,分别在四川和辽宁种植,研究穗型指数(PTI)与亚种特性及产量性状的关系。结果表明,PTI在籼粳交后代中表现连续变异,籼粳交可以创造大量具不同PTI的株系,可以作为理想穗型选育的来源。生态环境对PTI有显著影响,从辽宁到四川,PTI显著变小。PTI与大多数亚种特征性状呈显著负相关。PTI在不同亚种类型间有明显差异,总体上有籼(H)>偏籼(H′)>偏粳(K′)>粳(K)的趋势,但PTI不可以作为判别亚种类型的依据,因为籼粳交后代中的PTI在不同亚种类型间交错重叠。PTI与穗部性状和产量性状大多呈负相关,两群体中绝大多数株系的PTI为中下部优势型,在产量上具有明显优势。

生态条件对籼粳稻杂交F_2代亚种特性分化与经济性状的影响

以籼粳稻杂交F2代群体(七山占/秋光)为供试材料,2010年分别在广东省与辽宁省同年种植,研究籼粳亚种属性和经济性状的分化规律以及两者之间的相互关系。结果表明,广东和辽宁2个生态地区群体,亚种特性呈相似正态分布,未出现偏分现象,说明在F2群体中遗传重组对群体的作用呈主导性。经济性状发生较显著的分化,穗数、千粒重、1次枝梗数及粒数辽宁地区显著高于广东,而产量、穗粒数及结实率呈现相应生态条件的偏向性,籼型及偏籼型在广东地区较高,粳型及偏粳型在辽宁地区较高,说明在籼粳交F2代中不同的籼粳类型存在较为显著的生态适应性,并且该结果在相关性分析也得了验证。此外,对进一步研究籼粳分化机制的相关问题进行了讨论。

籼粳稻杂交后代亚种特性的鉴别实践意义浅论

由于水稻在籼粳属性上的界限并没有截然分开,而在缓慢的进化过程中,籼粳亚种特性是连续变异的,自然状态下的籼粳血缘也可能相互融合,相互渗透。通过对籼粳稻杂交后代亚种特性鉴别的重要性和主要鉴别方法及发展历程进行阐述,将有利于指导杂交育种中的亲本选配,提高水稻育种效率。

籼粳稻杂交后代的剑叶气孔性状与亚种特性的关系

水稻品种‘秋光’和‘七山占’的杂交后代F9群体,用TM1000台式扫描电镜观察水稻剑叶气孔各种性状的结果表明:籼粳杂交后代剑叶的气孔性状间变化规律不同,背部气孔密度大于腹部,背部气孔长度小于腹部,而气孔宽度则是背部大于腹部。杂交后代按照程氏指数分为籼稻、偏籼稻、偏粳稻、粳稻4种类型,它们的叶片背部气孔密度大小依次为粳型>偏籼型>偏粳型>籼型;腹部和背部气孔密度的变化规律相一致。背部气孔长度依次为偏粳型>偏籼型>籼型>粳型;腹部气孔长度变化为籼型>偏粳型>偏籼型>粳型;背部气孔宽度变化为粳型>偏粳型>偏籼型>籼型;腹部气孔宽度变化为偏粳型>偏籼型>粳型>籼型。

阳光玫瑰葡萄全程肥水管理技术

阳光玫瑰是日本果树试验场安云津分场培育,为二倍体欧美杂交种葡萄,亲本为安云津21号×白南。日本于2006年进行了新品种登记,2009年在日本正式推广,同年引入我国。该品种丰产、品质优良,是中晚熟黄绿色品种中有巨大推广潜力的优秀品种。阳光玫瑰有“白南”的血缘,虽属欧美杂交种,但具有典型的欧亚种特性。该品种果穗圆锥形,穗重600克左右,大穗可达1800克,平均果粒重8~12克,无核处理果粒可达18克以上。果粒着生紧密,椭圆形,黄绿色,果面有光泽,果粉少。

阳光玫瑰葡萄应用“葡宁”效果试验

阳光玫瑰(Shine-Muscat),别名夏音马斯卡特、耀眼玫瑰,为欧美杂交种,由日本果树试验场安芸津葡萄、柿研究部选育而成。该品种虽属欧美杂交种,但具有典型的欧亚种特性。果穗圆锥形,单穗质量600 g左右,大穗可达1800 g,药剂处理后平均单粒质量13~18 g。果粒着生紧密,椭圆形,黄绿色,果面有光泽,果粉少。果肉鲜脆多汁,有玫瑰香味,可溶性固形物含量17%左右,最高可达23%,鲜食品质极优。引入我国后,种植面积不断扩大,继美国红地球葡萄之后,全国形成又一波发展阳光玫瑰葡萄热潮。

Population Dynamic and Biological Characteristics of the Gypsy Moth Lymantria dispar （Lepidoptera： Lymantriidae） in West-Siberian Geographic

Gypsy moth, Lymantria dispar （L.） is one of the most widespread defoliators of deciduous and larch forests in Kazakhstan. Preferred host plants, flying capacity of females and neonate caterpillars, preferred places for egg laying, major factors of mortality and other characteristics vary considerably between different populations of the pest. According to several year researches on gypsy moth, in Kazakhstan, the main biological characteristics of this pest in the regions were investigated. Results of research showed that gypsy moth exists in central and northern of theses regions. From biological and geographical aspects, gypsy moth which there is in Kazakhstan is close to the same species from Siberia western regions. The pest lays on the different heights of trees trunk. It was found that the number of eggs in each egg mass and egg masses laid by the pest are different. The lack of egg eaters and the over- reproduction of the pest at the natural conditions have resulted in the development of bacterial and viral diseases in the populations of this pest from the regions of Kazakhstan to Siberia west.

花时性状在籼粳交后代中的表现及其对外部环境的响应

以籼稻、粳稻和典型籼粳稻杂交衍生的重组自交系群体为试材,研究花时性状在籼粳稻杂交后代中的表现及其对外部环境的响应规律。结果表明,:花时性状在籼粳稻杂交后代中均呈连续变异,表现出数量性状的遗传特点。始花时、盛花时和终花时之间存在极显著的正相关,始花时与开花持续时间呈极显著的负相关。籼粳交后代中,花时与程氏指数相关不显著。籼稻与粳稻的花时性状对外部环境的敏感性不同,与粳稻相比,籼稻更容易受外部环境的影响。07:01—08:00的平均气温与籼稻的始花时、盛花时显著负相关,对粳稻影响不显著,14:01—15:00的平均气温与典型粳稻的盛花时呈显著的负相关,日最高气温与籼稻的始花时和终花时呈显著的负相关。无论籼稻还是粳稻,气温高低仅影响花时的早晚,对开花持续时间的长短影响不大。籼稻对空气湿度较粳稻敏感,07:01—08:00,08:01—09:00,10:01—11:00及07:01—15:00的平均湿度与籼稻的终花时呈显著至极显著的正相关,空气湿度对粳稻花时的影响未达显著水平,无论籼稻还是粳稻,空气湿度对开花持续时间均无显著影响。太阳辐射强度对花时性状的影响未达显著水平。

Drivers of understorey biomass:tree species identity is more important than richness in a young forest

Aims Positive biodiversity-ecosystem functioning relationships have been widely reported,predominately from grassland ecosystems.However,this does not necessarily have to apply accordingly in more complex situations such as in forests across different vertical strata.For instance,overstorey tree species richness has been shown to be associated with a lower understorey productivity.Whether or not tree species richness effects add to understorey productivity by increasing(i.e.due to habitat heterogeneity)or reducing resource availability(i.e.through increasing competition)and whether understorey productivity is indeed being governed more strongly by tree species identity are likely to change over time.Moreover,studies also suggested that richness-productivity relationships change with the environmental context.Using an experimental forest plantation with manipulated tree species richness,this study examined these temporal and environmental dynamics across strata.Methods In the context of the Biodiversity-Ecosystem Functioning project in subtropical China(BEF-China),we made use of understorey biomass samples repeatedly collected over a time period of 3 years along a tree species richness gradient.The effects of tree species richness,tree species identities and time were studied across different environmental treatments for their impact on understorey biomass.Important Findings While we found significant and consistent tree layer identity effects on understorey biomass,no such effect was encountered for tree species richness.Our results also indicate that among structural layers in forests,there might not be a single,generalizable overstorey species richness-understorey productivity relationship,and that the extent as to which overstorey-related environmental factors such as light transmittance contribute to understorey productivity change with time.Overall,we demonstrate that temporal dynamics should be considered when studying relationship among structural layers in forests.