水杨酸对NaCl胁迫下水稻(Oryza Saliva L.)幼苗生理活性的影响

用0.2%水杨酸处理1.2%NaCl胁迫下的水稻种子,测定其以下几个生理指标:种子的发芽率、发芽势和幼苗中的酯酶、过氧化氢酶以及抗坏血酸的含量.实验结果显示:外源性水杨酸能够相对提高NaCl胁迫下水稻种子萌发后幼苗的过氧化物酶活性和抗坏血酸的含量,同时也能提高水稻种子的发芽率、发芽势,但对酯酶活性影响不大.研究表明水杨酸能提高水稻种子萌发后幼苗的抗盐性,并使水稻种子出苗整齐、一致.

Si,Fe and Mn Distributions in Rice (Oryza saliva L.) Rhizosphere of Red Earths and Paddy Soils

An experiment using rhizobox was conducted to study Si, Fe and Mn distributions in rice rhizosphcre of red earths and paddy soils. It was found that Si, Fe and Mn distributions in rhizosphere of the paddy soils were characterized by a depleted zone around root surface, beyond which the concentrations gradually rose. From lmm layer to 2mm layer the concentrations dropped and then rose again. Whereas Si and Fe in red earths showed no depleted zone but even accumulated zone around root surface. Mn showed an approximately even distribution in each layer and no depletion was found in root surface layers. This indicated that during rice (Oryza sativa L.)plantation, depletion and accumulation of Si, Fe and Mn in rhizosphere were important features of matured red earths by water culture. The distribution changes of Si, Fe and Mn in relation to soil-root interaction are also discussed.

以水稻雄性不育系为母本不经幼胚培养获得Oryza sativa×O.officinalis杂种的研究

利用亚洲栽培稻(Oryza sativa L.)的核质互作型和光敏感型雄性不育系为母本,药用野生稻(O.officinalis Wall)为父本进行杂交,首次在未经幼胚培养的条件下得到了杂种种子。杂种F_1生长优势强,分蘖力和发根力等超过双亲,并具有父本的植株散生、高位分蘖、小穗具芒、穗分枝散生、落粒性和感光性强等特性。其酯酶同工酶谱中含有双亲的全部酶带。花粉母细胞中染色体数为2n=24,在减数分裂中期Ⅰ。基本上全部为单价体。杂种自交不孕。本研究结果表明,利用雄性不育系进行异源种间的远缘杂交具有简化杂交过程以便大量配组、增加异源遗传物质导入机会和杂种可靠、便于鉴定等优点。本研究不但对探讨水稻远缘杂交的新途径有一定意义,而且为雄性不育系的利用展开了新的视野。

磁化NaCl胁迫溶液对水稻种子萌发的影响

研究磁化强度对NaCl胁迫下水稻种子萌发和幼苗生理的影响。方法:用不同强度的磁化NaCl胁迫溶液浸种并喷洒水稻种子及幼苗,测定种子的发芽指标和幼苗的生理指标。实验结果表明:经0.05T的磁化强度处理后,与对照相比,水稻种子萌发的发芽率、发芽势、发芽指数和幼苗中可溶性糖含量有明显提高,达到显著性差异水平;溶液经不同磁化处理后,过氧化物酶活性增强,表现为酶带增多,酶带加粗;对酯酶同工酶影响不太明显。结论:研究表明一定强度的磁化处理可以提高盐胁迫下水稻种子的萌发能力和幼苗的抗盐能力。

Analysis on Dynamic Heterosis for Allelopathy in Rice Under Different Environment Conditions

In this study, 5 parental rice varieties with different allelopathic potentials were employed in diallel cross [P(P+1)/2] to get a set of genetic materials including parental lines and two generations of F1s. The dynamic heterosis for allelopathy in rice under different environmental conditions, was analyzed by using additive-dominant developmental genetic model. The results indicated that heterosis in both F1 and F2 showed inhibitory effects on shoot and root length of receiver plant(Lactuca sativa L.). Heterosis over mid-parent based on population mean(HMP)in F2 was lower than that in differental environmental conditions, showing 1/2 HMP in F1 The heterosis in rice allelopathy was much higher under the field environmental conditions with lower temperature and weaker sunlight than that under favorable environment, implying that the allel-opthic potential could be increased by stress environment. This finding interpreted the genetic reason that plant could produce more allelochemicals under unfavorable environment.

Identification and Gene Mapping of Completely Dominant Earliness in Rice

The completely dominant earliness was identified in a genie male-sterile and early maturing indica line 6442S-7. F1 progenies from 6442S-7 crossed with thirteen various types of medium- or late-maturing varieties, shared the same heading date as 6442S-7. The segregation of heading date in the F2 and B1F1 populations showed that the earliness of 6442S-7 is mainly controlled by two dominant major genes. The local linkage map of one dominant earliness gene harbored in 6442S-7 was constructed with F2 population and four kinds of molecular marker techniques. The results showed that the gene was located between a RFLP marker C515 and a RAPD marker OPI 11.557 on the terminal region of short arm of rice chromosome 3, 10.9cM and 1.5cM from C515 and OPI11.557, respectively. The genetic distances from the target gene to two SSR markers, RM22 and RM231, and one AFLP marker, PT671, were 3.0, 6.7 and 12.4 cM, respectively. This gene, being identified and mapped first, is designated tentatively as Ef-cd(t). As a new genetic resource of completely dominant earliness, 6442S-7 has splendid future in rice improvement.

Studies on Feeding Animals with Straw of Grain-Straw-Dual-Use-Rice 201

The straw of Grain-Straw-Dual-Use-Rice (GSDUR) variety 201 of which the grain quality and yield were equivalent to that of common rice variety (the grain yield approximately 7.5 t ha-1), but straw protein content was 9.31% (common rice straw i. e. CK was approximately 4.0%), and other eight fodder indexes were better than CK to some extent, was employed to feed animals. 15N tracing result suggested that the protein in 201 straw could be effectively transformed into fish body protein and white mouse body protein. The digestibility of fodder, the 15N recovery rate of animal body and the absorption of fodder protein were 13. 8, 9. 6, 24.49% and 16. 5, 6.0, 47. 2% higher than those of common rice straw respectively when feeding grass carp and white mice with 201 rice straw, whereas the 15N recovery rates of animal manure were 3. 25, 6. 5% lower than those of common rice straw, respectively. The results of feeding animals with 201 straw were as follows: (1)The milk yield of cow was increased by 8.3 % as compared to that of common rice straw. 843. 8 kg milk could be produced with 7. 5 t ha-1 of dry 201 straw. (2)Fish daily weight gain, straw consumption of grass carp, fish weight gain per kg fresh rice straw were increased by 60.0, 16.8 and 37.0 % respectively when 201 fresh straw was used to feed grass carp compared to feeding CK, and fish yield could be increased by 297.5 kg with 25.0 t ha-1 of fresh 201 straw. (3)The goose daily weight gain and the ratio of fodder and meat were increased by 33. 9 and 26.8 % respectively when 201 rice straw was used as the main raw material of the compound fodder to feed white geese compared to feeding CK, and geese weight could be increased by 2 358.0 kg with one hectare of 201 straw. (4)Not only were the feeding results identical when high quality 201 rice straw powder substituting for wheat bran which made up of 5 % compound fodder to feed cross bred pigs compared to CK, but 0.11 kg fine fodder could be saved when 1 kg cross bred pig weight was increased.

水稻化感材料的抑草作用及其机制

水稻化感材料PI312777和化感1号在田间能显著地抑制杂草,而且其抑草作用与栽培方式相关,抛秧和移栽方式对杂草的抑制作用明显地优于直播。结果表明,PI312777和化感1号植株产生和释放的化感物质(多酚、黄酮和羟基肟酸)显著高于非化感品种华粳籼1号,而且在6叶期植株中的化感物质含量达最大值。这种不同水稻材料植株在不同生育期产生并释放化感物质量的差异是导致它们在田间抑草效应强弱的重要原因之一。进一步研究发现,PI312777植株由地上部分合成化感物质后经根部分泌到环境中,根组织并不产生化感物质,且稗草能诱导PI312777植株产生和释放更大量的化感物质。在水培条件下,PI312777根分泌的化感物质明显地抑制稗草的生长,但水培液中加入活性碳能使水稻对稗草的抑制作用明显减弱。研究显示,水稻化感材料的抑草效应虽与化感作用、栽培方式和环境等多因素相关,但化感因子起着重要的作用,而且水稻和伴生稗草之间可能存在着化学识别机制。

镉污染对水稻不同生育期抗氧化系统的影响

采用土培的方法,研究了不同Cd添加水平(0、5、10、20、30、60 mg.kg-1,以CK,T1,T2,T3,T4,T5表示)对水稻分蘖期、孕穗期和抽穗期叶绿素、可溶性蛋白质、丙二醛(MDA)、总巯基(-SH)、谷胱甘肽(GSH)、植物络合素(PCs)含量以及水稻叶片中超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT)活性的影响。结果表明,叶片中Cd的含量随生长时期的延长而增加;T1处理时,水稻3个时期中叶绿素a、叶绿素b、叶绿素a+b含量最高,表明低质量分数Cd有利于水稻的生长;而T4和T5处理显著降低了叶绿素含量(P<0.05)。Cd对不同生育时期抗氧化酶的影响不一,对分蘖期SOD、POD、CAT活性影响较明显,而对孕穗期和抽穗期SOD、POD、CAT活性以及可溶性蛋白质含量影响不显著(P>0.05)。高质量分数Cd提高了叶片中MDA含量,在T5处理时,MDA含量在分蘖期、孕穗期和抽穗期分别为对照的1.9倍、4.5倍和4.6倍。水稻不同生育时期总-SH、GSH、PCs含量随着Cd处理质量分数的增加而增加,表明Cd处理诱导了水稻PCs的解毒机制。

乙烯与水稻细胞质雄性不育的关系

从幼穗发育的Ⅳ到Ⅶ期,水稻细胞质雄性不育系(珍汕97A)幼穗和叶片的ACC含量和乙烯释放速率均高于其保持系(珍汕97B)。外施乙烯释放剂乙烯利使保持系花粉可育度明显下降;外施ACC合成酶抑制剂AVG引起两系幼穗ACC含量和乙烯释放速率下降,并使不育系花粉育性得以部分恢复;而在外施AVG的同时再施以乙烯利则AVG的恢复作用消失。以上结果说明乙烯的过度释放是水稻细胞质雄性不育产生的原因之一。

水稻对UV-B辐射响应的敏感性差异

综述了UV-B辐射对水稻(Oryza sativa L.)的影响和水稻对UV-B辐射的抗性机制。UV-B辐射对水稻生长、叶片形态、生物量、产量、光合系统、病害等产生一定的影响。水稻对UV-B辐射的敏感性因子主要有CPD光解酶、UV-B吸收物质、抗氧化酶等。UV-B辐射使水稻叶片中产生了ROS,导致Rubisco酶降解,光合色素含量变化,抑制了光合作用,最终影响水稻籽粒形成和产量。水稻对UV-B辐射响应存在着品种差异,CPD光解酶编码基因的自然突变会引起水稻UV-B敏感性的差异,CPD光解酶活性是水稻对UV-B敏感性的关键因素。通过建立响应指数公式,对水稻UV-B响应敏感性的品种差异进行评估,存在品种差异的原因主要是基因、生长、生理、生育期和环境背景的差异。最后对UV-B辐射对水稻的影响、水稻对UV-B响应的差异及机理有待深入研究的方向进行了展望。

在人工控制光温条件下早籼光敏核不育系的育性反应

在人工控制条件下研究了早籼光敏核不育系W6154S、安农S-1、5460S和87N123S的育性反应特性,结果表明温度是影响供试材料育性表达的主导因素之一,日平均温度29.8℃(最高33℃/最低28℃)导致不育或育性很低,25.8℃(29/24℃)时育性提高,21.8℃(25/20℃)使育性再次下降:在29.8℃与21.8℃时,光周期(150或12.0h/d)对育性的影响不明显;在25.8℃时,短日处理的育性显著高于长日处理的育性。作者还讨论了这些灿型光敏核不育系在长江中下游地区制、繁种时可能出现的问题。

水稻亚种间、品种间杂交揭示杂草稻的起源和进化

杂草稻是在稻田或可耕地周边生长的类似杂草并兼有野生稻和栽培稻特性的稻属植株或群体。迄今对杂草稻的发生和进化尚有很多的争论和假说,本研究通过水稻亚种间和品种间的杂交试验以及亲本与杂交后代籼粳分化分子标记的遗传分析,对杂草稻起源和进化途径进行了探讨并提出了相应的防控策略。研究结果显示:亚种间和品种间特定亲本杂交组合(7个籼/粳,4个籼/籼)的后代中均可分离出类似杂草稻的植株,其频率为籼/粳>籼/籼;籼粳交或籼籼交F2-F4代群体中产生类似杂草稻植株的频率随世代增加呈现递增趋势(F2最低为1.26%,F4最高为15.35%),这与双亲的遗传背景有密切关系,即籼、粳亚种的遗传背景差距越大,其杂交组合后代中产生杂草稻的机率越高;籼/粳交组合安山稻/9311F3代分离群体中类似杂草稻的植株以籼型为主(占52.8%);韩国粳稻品种安山稻在籼粳组合中不论作母本或父本,杂交后代都易产生类似杂草稻单株,这可能与其籼粳组分遗传异质性较高有关;粳/粳组合后代中未鉴定出类似杂草稻的植株,预示粳稻品种间杂交可能不易产生杂草稻。本研究为杂草稻的防控和利用研究提供参考依据。

水稻优势内生细菌鉴定、定位与重组研究

对水稻品种D优527体内筛选到的优势细菌SR-15、SR-25、SL-37进行浸染、扫描电镜和透射电镜观察．结果表明。菌株主要在水稻组织的细胞间隙、细胞质内和液泡内定位。SR-15菌株通过质粒PUC-18转化和ERIC-PCR再分离实验验证,结果显示重组菌株在植株体内稳定定位,具有稳定的内生特性。生理、生化指标结合形态特点研究确定该菌株属盐敏芽孢杆菌Bacillus halmapalus 。致病性和促生性试验表明,菌株对水稻植株无致病性,在水稻生长中后期有明显促生作用。将带有Cry1Ac基因的质粒转入菌株SR-15,并经southern分析证明,其表达产物具有致死水稻二化螟84．7％的效应。

密穗型水稻的研究现状及展望

水稻密穗型品种通过“扩库”使产量水平有了较大提高,其育成和推广在近20年来浙江省晚粳稻品种改良及增产中起了重要作用。分析了密穗型品种的形态学特征及其生理生态特性,从群体小气候环境、物质的生产和分配、产量结构、稻曲病的发生及稻米品质和灌浆特性等方面进行了讨论。在此基础上,对密穗型水稻的研究作了展望,认为应继续加大形态类型创新和育种基础材料的创新,开展不同类型品种源库关系的研究,以及不同类型品种品质差异及其形成机理的研究。

光抑制与水稻生产力

水稻中存在着光抑制现象,经1987—1989年三年观察及试验,进一步看到广东种植的水稻在下列三种自然光温条件下会发生明显的光氧化现象:1.早稻苗期:长期低温阴雨突然转晴;2.早稻中期:长期阴雨突然烈日当空;3.晚稻灌浆期:冷空气南下后,出现晴天。用LI—6200手提式光合作用测定仪对田间水稻光合作用日变化的测定表明,广东推广种植的桂朝2号及七桂早在晴天中午有明显的光抑制现象,尤以在氮肥不足情况下更为严重。且经中午强光照射后其光合能力明显受到损伤,下午光强减弱后不能恢复到正常水平。人工气候箱中模拟光抑制诱导条件的试验还证明:Lemont及其杂种稻Le/QI抗光抑制能力明显比桂朝及七桂早为高。另外优良的肥水条件也有利于减轻光抑制的危害。因此有可能通过育种及栽培途径避免光抑制,提高对强光的光能利用率,从而达到提高水稻生产力的目的。

早籼稻品种分蘖角度的遗传分析

早籼品种珍汕97(分蘖直立型)与二九南1号(分蘖松散型)之间分蘖角度的差异由3对数量基因所控制,直立型表现为部分显性。该性状的广义和狭义遗传率分别为61.60％和58.87％。基因等位性测定表明,直立型品种早二六14含有与珍汕97相同的等位基因,而松散型品种矮脚南特与二九南1号之间在2个位点上存在同效等位基因的分散分布,2品种各带有3个位点的增效等位基因。2个直立型品种的基因型可假定为t_(a5)t_(a5)t_(a6)t_(a6)t_(a7)t_(a7)t_(a8)t_(a8),而2个松散型品种的基因型可分别假定T_(a5)T_(a5)t_(a6)t_(a6)T_(a7)T_(a7)T_(a8)T_(a8)和t_(a5)t_(a5)T_(a6)T_(a6)T_(a7)T_(a7)T_(a8)T_(a8)。认为通过杂交和选择,可以从不同的直立型和松散型品种获得各种不同分蘖角度以及分蘖角度遗传结构不同的重组品系。将分散分布于不同品种中的同效基因累加起来可望获得重要农艺性状的理想超亲变异。

从水稻花粉管分离精细胞(简报)

精细胞的分离是植物生殖工程的一个重要组成部分，是目前被子植物有性生殖研究的一个活跃领域。随着精细胞分离技术的完善和分离出精细胞的植物类型的增加，目前对精细胞的分子生物学研究已有一些进展．主要是精细胞特异蛋白的分离和cDNA文库的构建以及一些精细胞特异基因的分离。精细胞的分离也是在被子植物中开展离体受精研究的前提之一。虽然与卵细胞相比，精细胞的分离相对容易些，但要分离出足够数量的精细胞用于分子生物学研究和分离出接近体内融合前的成熟精细胞用于受精机理研究，还需要探索。分离出体内接近成熟的精细胞可使上述实验减小精细胞的发育干扰．尽可能真实地反映出体内的受精机理。从水稻花粉粒中分离精细胞的研究已有报道并被用于分离在精细胞中优势表达基因的启动子。国外学者尝试用分离的水稻精、卵细胞开展离体受精实验。水稻是一种重要的农作物，对其开展雌、雄性细胞的离体操作具有重要的理论意义和应用价值。在前人从花粉粒分离水稻精细胞的实验基础上，我们尝试了从水稻离体和半离体花粉管分离精细胞。

籼型三系杂交水稻地上部干物质重的发育遗传研究

采用数量性状的加性-显性发育遗传模型分析了按NC Ⅱ交配设计的两套籼型三系杂交水稻地上部干物质重的发育遗传规律。结果表明,在不同发育阶段,地上部干物质重以显性效应为主,控制地上部干物质重的加性效应基因几乎不表达,而显性效应基因在两年中的表达呈连续性,且在生长中期活动强度最大,环境和基因型互作会影响地上部干物质重加性效应基因的表达,而对显性效应基因表达的影响不明显,随着发育进程的推进,地上部干物质重杂种优势趋于减弱。

抗稻瘟病体细胞突变体的抗性遗传分析

以ZA_(15)和ZB_(11)等2个致病小种对6个抗稻瘟病体细胞突变体进行了抗性遗传分析。结果表明,86-S1、88-86、88-42和88-40等4个突变体对ZA_15、ZB_(11)小种的抗性分别由1个显性基因控制,同时这2个抗性基因还存在紧密的连锁关系。88-127和88-145对ZA_15的抗病性受2个重复显性基因控制;而对ZB_(11)的抗性则分别受2个互补显性基因和1个显性基因控制。等位性测定表明,86-S1、88-42和8B-86等3个突变体具有的抗性基因是等位的,可能是Pi-(?)或与之等位的抗性基因。