干热河谷印楝树干液流密度动态变化特征研究

采用TDP技术对金沙江干热河谷元谋段主要造林树种印楝的树干液流密度动态变化进行了观测,得到3点主要结论:①无论干热季节或湿润季节,印楝树干液流密度昼夜变化的规律性较强,呈明显的单峰曲线;②由干热季节转向湿润季节时,印楝树干液流密度呈下降趋势,5年生印楝在5月、7月及10月的典型晴天里的树干液流密度日变化平均值分别为12.11、7.48及6.90cm3·cm-2·h-1;③在干热季节里印楝蒸腾耗水具有相当的被动性,而在湿润季节时其蒸腾耗水则表现出主动性和平氨性,反映了印楝在不同季节里的耗水机制差异.     

秋水仙素处理日本矮紫薇种子变异的初步研究

用0.05％、0.10％、0.15％3种不同浓度秋水仙素和24、48、72 h 3个不同处理时间,对日本矮紫薇种子发芽性状和幼苗生长性状进行研究.结果表明:0.05％、0.10％、0.15％浓度秋水仙素处理日本紫薇种子24、48、72 h,随着秋水仙素浓度的增加和处理时间的延长其种子发芽率、发芽势、出苗率均有降低的现象,0.15％浓度秋水仙素溶液处理的日本矮紫薇种子72 h时出苗率低于10％.随着秋水仙素处理浓度和时间的延长,幼苗生长表现出矮化、根部变短、叶片变厚的趋势.该研究获得了3株矮化的变异植株及2株株型变异的幼苗,对日本矮紫薇突变体产生、筛选及良种选育提供了基础.     

籼稻体细胞胚胎发生特异性蛋白质研究

以籼稻Oryza sativa L.subsp. indica品种“广陆矮4号”幼穗和种子为外植体，在含有2，4-D2.0mg/L的MS培养基上，分别形成胚性和非胚性愈伤组织，建立体细胞胚胎发生实验系统。应用Native/SDS双向凝胶电泳分析，结果表明，非胚性愈伤组织分化培养前后均存在一种分子量为45kD的非胚性蛋白质N1，另一种非胚性蛋白质N2（54kD）仅     

紫薇新品种‘蜀紫粉’

‘蜀紫粉’紫薇是从‘温江大红’实生苗中选育出的新品种。观赏价值高,花期为6月中旬—9月中旬,花色呈紫红色,适宜在四川盆地海拔300~800 m的低山丘陵区栽培。     

南方稻区迟熟中籼品种主要经济性状遗传参数估计

应用方差和协方差分析方法对1989年南方区试中籼迟熟组的8个品种的13个性状进行了遗传参数估计,结果表明,参试品种的着粒密度、有效穗和千粒重的遗传基础较丰富,抽穗日数和小区产量的遗传差异则较小;千粒重、着粒密度、穗长和抽穗日数的广义遗传率较高,日产量和小区产量则较低,结实率的遗传变异系数和广义遗传率最低;产量与着粒数的相关较微弱,与有效穗,着粒密度等性状的遗传相关显著,与每穗实粒数、结实率和千粒重的环境相关值较大,有效穗、着粒数和千粒重三个产量构成因素两两之间的三种相关值均为负值,其遗传相关达显著或极显著标准;同一遗传型在不同环境条件中,穗粒数和有效穗与产量的关系较大。     

早籼型水稻温敏核不育系M103S的选育与光温反应特性

以温敏核不育水稻安农S—1为母本，以常规高产早籼稻品系92153为父本进行杂交，通过低温选择和人工气候箱鉴定，育成了育性转换临界温度23—24℃的早籼型温敏核不育系M103S。光周期长于12．5h，日平均温度高于24℃，可以用于制种，日平均温度低于23℃，可以用于繁殖。光周期长于13．5h，日平均温度高于23℃，可以用于制种。自然条件下不育起点温度为日均温23—24℃，耐低温期为3—4d。敏感期为抽穗前的7—14d。播始历期为53—79d，主茎叶片数10．0—12．6片。从播种到始穗的活动积温和有效积温，分别为1493．8—1766．3℃和733．4—1058．3℃。不育期的株高63．6—77．5cm，平均72．0cm，单株有效穗6．4—12．0个，平均9．3个，穗长20．9—22．7cm，平均21．2cm，每穗颖花数112．1—137．3朵，平均122．3朵。可育期株高65．7cm，单株有效穗7．2个，穗长17．2cm，每穗总粒数114．1粒，结实率47．23％，千粒重31．34g。以M103S为母本，与100多个早籼品种进行测配，杂种表现生育期早、穗大、粒多、千粒重高。     

不同播期、收获期和储存期对优质长粒籼稻整精米率的影响

整精米率是影响优质长粒籼稻发展的重要因素之一.为明确长江中下游稻区优质长粒籼稻适宜的播期、收获期和储存期,以3个长粒优质常规籼稻为材料,探讨了不同播期(5月10日、5月20日、5月25日、5月30日)、收获期(90％谷粒成熟、完全成熟、完全成熟后6d)、储存期(10 d、40 d、60 d)对水稻整精米率的影响.结果 ...     

FACE对杂交籼稻汕优63干物质生产与分配的影响

2005--2006年利用我国惟一的农田开放式空气CO2浓度增高（FACE）研究平台,以三系杂交籼稻汕优63为供试材料,设计比大气CO2浓度（对照,370umol．mol^-1）高200umol．mol^-1的FACE处理（570umol．mol^-1）和施N量为125kg·hm^-2（LN）、250kg·hm^-2（NN）处理,研究其对汕优63物质生产与分配的影响。结果表明：（1）两季平均,FACE处理使汕优63移栽-分蘖中期、分蘖中期-拔节期、拔节-抽穗期和抽穗-成熟期干物质生产量分别比对照增加了39％、20％、32％和41％,结果使成熟期生物产量显著增加（＋33％）;（2）与干物质生产量相比,汕优63平均叶面积指数（LAI）和净同化率（NAR）对CO2的响应有相似的季节性变化趋势,但LAI的响应值明显大于NAR;（3）FACE处理使汕优63不同生育时期叶片和稻穗占地上部干重的比例下降,而使茎鞘占地上部干重的比例明显增加;（4）三系杂交籼稻汕优63成熟期生物产量以及不同生育阶段平均LAI、NAR和干物质生产量对FACE的响应与粳稻品种存在明显差异．而干物质分配差异较小。     

乳熟阶段短期高温对不同品种早籼稻直链淀粉含量和RVA谱特征参数的影响

以2个杂交稻（淦鑫203和金优402）和4个常规稻（中531、B670、E134和ST66）为材料,于水稻乳熟期进行高温处理3d,处理温度分别为35℃和38℃,以同期田间自然温度为对照,研究乳熟期高温对不同品种早籼稻直链淀粉含量和RVA谱特征参数的影响,并对稻米淀粉RVA谱特征值与直链淀粉含量进行相关分析.结果表明,无论是对照还是高温处理,中531和B670的直链淀粉含量、消减值及回复值较低,但崩解值较高,而E134和ST66表现为直链淀粉含量、消减值及回复值较高,崩解值较低;杂交稻淦鑫203和金优402则介于两者中间.与对照相比,38℃高温显著降低淦鑫203、金优402、中531和E134的崩解值,显著提高淦鑫203、中531的消减值、显著降低金优402、中531、B670和E134的回复值.各处理淀粉RVA谱变化趋势较一致,但因品种及温度而略有差异.38℃高温处理下稻米淀粉黏滞性曲线始终低于对照,但常规稻中531和B670的RVA谱形态与对照差异不大.此外,稻米直链淀粉含量与RVA谱各特征值间存在显著相关性.     

Effect of nitrogen application during ripening period on photosynthesis and dry matter production and its impact on yield and yield components of semidwarf iniica rice varieties under water culture conditions

Abstract

A water culture pot experiment was conducted to analyze the effects of N application during the ripening period (RP) on photosynthesis, dry matter production, and its impact on grain ripening and yield in two semidwarf indica type varieties viz. Gui Zhao 2 (GZ) and BR3 (BR) compared with a japonica type variety Koganemasari (KO) under four N rates viz. 0 (N₀), 10 (N₁₀), 20 (N₂₀), and 40 (N₄₀) mg L^?1. Results showed that N application enabled to maintain a higher leaf area and delay leaf senescence in both indica and japonica type varieties but the decrease in the rate, of leaf area was higher in the former than in the latter and the rate was reduced with increasing N rates. Flag leaf photosynthesis and SPAD values of N treated plants were higher throughout the RP, showing the presence of a significant correlation either for each variety or all the varieties together. Higher photosynthetic rate was supported by higher leaf chlorophyll (SPAD value basis) content, stomatai conductance, and N concentration in leaf blades. Top dry matter content increased with increasing N rates mainly due to mean leaf area rather than NAR except for BR during RP but it was higher in KO than in GZ and BR. Reduction of shoot weight due to translocation of dry matter to panicles during RP was suppressed by N rates both in GZ and BR while shoot weight increased in the N-treated plants in KO. The dependency of KO on current photosynthates for panicle weight was found to be almost hundred percent while the contribution of stored carbohydrates in shoot before heading to panicle weight in GZ and BR was in the range of 4-27 and 33-54%, respectively and the rest was contributed by current photosynthates. The percentage increased with increasing N rates. Percentage of ripened grains (PRG) increased with increasing N rates in GZ and BR due to the increase in dry matter production and in the photosynthetic rates of apex leaves, despite the larger spikelet number and larger hull size. However, KO showed almost no variation although it had the highest PRG among the varieties. Brown rice yield followed the same pattern as that of PRG in GZ and BR and the highest yield was produced by BR followed by GZ and KO. These results suggest that N application during RP was more effective in increasing yield in the semidwarf indica type varieties than in the japonica type variety.