化学杂交剂对灌浆期小麦源流库的影响

以大穗小麦品种SN05-3和多穗小麦SN02-3为试验材料,研究了化学杂交剂BAU-9403对灌浆期小麦库、源、流的影响.结果表明,BAU-9403诱导的小麦雄性不育率大于95%,异交结实率高于92.5%;BAU-9403能够显著降低旗叶叶绿素含量和提高其净光合速率;喷药处理的干物质日生产量,茎、叶、鞘的干物质转移量及其输出率和转换率均下降;喷药处理籽粒饱满度平均减少0.222,平均灌浆速率降低0.306g/1000 grains·d-1,灌浆持续期平均缩短6.03d.BAU-9403处理的SN05-3净光合速率增加幅度、叶绿素含量及茎中干物质转移量、输出率和转换率下降幅度均高于SN02-3,而叶中干物质转移量下降幅度和鞘中的干物质输出率却低于SN02-3;SN05-3的灌浆持续期缩短幅度明显大于SN02-3,而其灌浆速率下降的程度小于SN02-3.综合分析表明,BAU-9403能够影响灌浆期小麦的光合生理特性,破坏库、源之间的平衡关系,使干物质积累和转运不畅,导致粒重下降,且品种间的反应存在差异.     

不同产量水平旱地冬小麦品种干物质累积和转移的差异分析

旱地小麦高产栽培中品种起着重要作用,研究不同产量水平旱地冬小麦品种干物质累积和转移的差异,对黄土高原旱区作物高产稳产有重要意义。以9个旱地冬小麦品种为材料,通过田间试验研究了不同产量水平旱地冬小麦品种的生物量、花前花后干物质累积量、干物质转移量、转移率及转移干物质对籽粒的贡献率、叶面积、SPAD值以及光合速率的差异。结果表明,不同小麦品种的生物量、花前花后干物质累积量、干物质转移量、转移率及转移干物质对籽粒的贡献率均存在明显差异。与不施肥相比,高、中、低3个产量水平小麦品种在低养分投入时,成熟期生物量分别提高29%,22%和6%,高水平时分别提高46%,39%和23%,高产品种的生物量及其对养分投入的敏感程度明显高于低产品种。不同品种的花后干物质累积量随养分投入水平提高而增加,但花前营养器官中储存物质的转移量、转移率和对籽粒的贡献率却明显随之下降。功能叶(旗叶)在灌浆期高、中、低3个产量水平品种的SPAD值在低养分投入条件下分别为20.7、17.5和13.7;高养分投入时,分别为35、26.1和16.8。高产品种西农88的光合速率为6.0μmolCO.2m-.2s-1),中产和低产品种的平均光合速率分别为4.3μmolCO.2m-.2s-1和4.0μmolCO.2m-.2s-1,高产品种功能叶(旗叶)在灌浆期能保持较高的SPAD值和光合速率,因而花后能生产较多的干物质,但其花前干物质转移量、转移率及转移干物质对籽粒的贡献率均没有明显优势。可见,花后较高的叶绿素水平、光合速率和干物质累积是旱地小麦品种高产的重要原因。选择优良品种,采取合理的栽培措施,特别是通过养分调控保持花后具较高的干物质累积量是西北旱地进一步提高冬小麦产量的重要途径。     

限量灌溉对河套灌区间作小麦干物质转移与灌浆特征的影响

针对内蒙古河套灌区水资源短缺现状,为探究限量灌溉条件下间作春小麦的干物质转移与灌浆特征,掌握制约春小麦籽粒灌浆的因素,进而提高间作模式下春小麦的水分生产率,研究了限量灌溉(298、328、358和388 mm 4个水平)对间作模式(小麦/玉米间作、小麦/向日葵间作)下春小麦籽粒灌浆特征的影响。结果表明:间作向日葵模式下的小麦茎、叶干物质转移量是相同灌水处理下间作玉米模式下的小麦茎、叶干物质转移量的1.08~1.86倍与1.12~2.17倍,而颖轴干物质转移量则间作玉米模式是间作向日葵模式的1.00~1.19倍,且不同水分处理与种植模式下的小麦籽粒灌浆过程符合"S"型生长曲线,可用Logistic方程模拟;间作玉米模式下的小麦灌浆速率的峰值出现在花后25~30 d,较对照提前1.26~2.85 d,间作向日葵模式下的小麦灌浆速率的峰值出现在花后25~30 d,较对照提前1.80~2.44 d,各处理最大灌浆速率与平均灌浆速率均较对照提高,且减少了达到最大灌浆速率所需时间;小麦的活跃灌浆期则表现为灌水总量较少的处理(298~328 mm)有利于延长间作玉米模式下小麦的活跃灌浆期,而较高灌水量的处理(358~388 mm)则会延长间作向日葵种植模式下小麦的活跃灌浆期。     

温度对小麦籽粒形成过程中生理变化的影响

试验研究了温度对小麦籽粒形成过程中生理变化的影响,得到以下结果:1.小麦在开花到成熟处于日温相同(25℃)而夜温不同(20℃,10℃)的条件下,夜温低的处理籽粒灌浆期和成熟期比夜温高的处理延长10天。2.夜温低的处理绿色叶面积大、下部叶片衰亡较慢、叶片夜间呼吸强度低,有利于干物质的积累。因此茎鞘、叶、穗、籽粒和总干重都较高。开花到开花后17天植株干重的主要差异是茎鞘。开花17天以后到成熟,两个处理籽粒干重的差异逐渐增加。3.夜温低的处理,籽粒灌浆的物质来源较丰富,有利于晚开花的籽粒生长。由于灌浆的粒数较多,不仅小穗第一、二粒的粒重增加,第三粒的结实率和粒重也有所提高。4.夜温低的处理,茎、鞘和叶的含糖量比夜温高的处理大,以茎较为显著。籽粒生长前期淀粉含量低而醇溶性糖的含量高,接近成熟时两个处理的差异减小。5.在小麦籽粒灌浆盛期供给旗叶以 C~(14)O_2后;穗、穗下节和饲喂叶的局部温度改变(5—8℃,20—25℃)引起了同化产物运输分配情况发生变化。穗部降温对同化产物输入籽粒的抑制作用最大,饲喂叶次之。穗下节降温到5—8℃的影响不大。穗及饲喂叶降温有较多的放射性物质留存在饲喂叶中。6.不论是供给、输导或接受器官降温,受到低温影响的部分醇溶性物质的分布百分率皆增高;穗部降温的影响最大,饲喂叶次之,穗下节较小。穗部降温籽粒中的放射性约有65%在醇溶性部分,不降温的约有63%在稀酸水解部分;说明了5—8℃的低温阻碍籽粒中糖向淀粉等高分子物质的转化过程。7.本文对青海地区小麦干粒重较高的原因,夜温对小麦茎、鞘、叶和籽粒的生长,每穗粒重和粒数的关系等进行了分析和讨论;并指出改变温度或用其他方法增加粒重提高产量的可能。     

施氮对半湿润农田生态系统不同冬小麦品种灌浆期物质转移的影响

在年均降水量632 mm的黄土高原南部半湿润红油土上,以NR9405、9430、偃师9号、小偃6号、陕229、西农2208、矮丰3号和商188为供试材料,进行大田试验,研究在不施氮和施氮(90 kg.hm-2)条件下不同品种冬小麦灌浆特性及物质转移效率。结果表明,冬小麦干物质生产及物质转移效率共同受品种和氮肥的影响。开花期老叶、茎鞘和成熟期茎鞘、籽粒干重间存在显著差异。施氮对开花期、成熟期地上部各部位干重均有明显的促进作用。各部位干物质转移量、转移效率和转移量对籽粒的贡献率既与品种有关,也与施氮有关;氮肥的影响又因品种不同而异。干物质转移量、转移效率和转移干物质对籽粒的贡献率在8个供试品种中,最高的是NR9405,最低的是偃师9号,除NR9405和西农2208籽粒中50%以上干物质来自于开花前贮存光合产物的再转移外,其余6个品种籽粒中50%以上的干物质来自于开花后新合成的同化产物。干物质转移量对籽粒的贡献率以穗轴+颖壳部位最低,且多数处理为负值,以茎秆为最大,叶片居中。从总体看,干物质转移量、干物质转移率和干物质转移量对粒重的贡献率在不同品种之间的差异大于施氮处理间的差异,施氮后降低了干物质向籽粒中的转移。     

小麦花后水分亏缺和复水对同化物转运和籽粒灌浆的影响

为了阐明水分亏缺对小麦花后同化物转运和籽粒灌浆的影响及其生理机制的相关变化,以盆栽小麦旱作品种‘长旱58’为材料,自花后9 d起,设置正常供水(WW)、中度干旱胁迫后复水(MD)和重度干旱胁迫后复水 (SD)3个水分处理,比较干旱胁迫后复水处理对小麦籽粒产量、产量构成因素及水分利用效率、强弱势粒灌浆动态、旗叶光合性能、茎鞘非结构性碳水化合物(NSC)转运、籽粒形成关键酶活性变化等的影响。结果表明：(1)与WW相比,MD处理显著增加了小麦穗粒数和千粒重,进而提高籽粒产量、水分利用效率和小麦弱势粒的最大灌浆速率和平均灌浆速率,对强势粒则无显著影响,而SD处理则显著降低了穗粒数、千粒重、强弱势粒的最大灌浆速率和平均灌浆速率,但水分利用效率显著高于WW处理。(2)MD处理植株旗叶在小麦灌浆过程中维持了与WW基本相同的净光合速率,同时在小麦花后9~20 d时MD处理下气孔导度和蒸腾速率变化不明显,而在SD处理下气孔导度和蒸腾速率则急剧下降;另外,与WW相比,在整个灌浆期MD处理下旗叶叶绿素含量变化不显著,而SD处理下叶绿素含量呈大幅下降趋势。(3)MD处理提高了小麦弱势粒蔗糖合成酶和腺苷二磷酸葡萄糖焦磷酸化酶活性;同时使灌浆中后期有较高的果聚糖水解酶(FEH)活性和较低果聚糖含量,显著增强了茎鞘同化物质转运,提高茎鞘储藏物质对粒重的贡献率。研究发现,中度水分胁迫后复水处理小麦植株具有较好的叶片性能、花后较多的茎鞘同化物向籽粒转运以及较高的弱势粒库活性,从而提高旱作小麦弱势粒灌浆速率,增加穗粒数和粒重, 进而提高籽粒产量。     

氮素营养水平对冬小麦碳氮运转的影响

在大田试验条件下,研究了不同施氮水平对2种穗型冬小麦品种花后干物质和氮素积累与运转的影响及其与产量和品质的关系,以探讨氮素营养水平对冬小麦碳氮运转的影响.结果显示,适宜的施氮量（180 kg·hm^-2）能够极显著增加2种穗型冬小麦品种叶片、茎鞘等营养器官花前贮藏物质及花前贮藏氮素的再运转量和运转率以及总再运转量和运转率,也能够极显著增加成熟期籽粒氮素含量和花前贮藏氮素总运转量对籽粒氮素含量的贡献率.各施氮处理对2种穗型小麦品种花后氮素积累量对籽粒氮素含量贡献率的影响效应不明显.结果表明,适宜的施氮量有利于小麦籽粒和蛋白质产量的提高.     

不同品质类型小麦非叶光合器官光合荧光特性研究

以强筋(郑麦9023)、中筋(新麦13)和弱筋(豫麦50)型小麦品种为试材,测定了它们非叶光合器官的叶绿素含量、荧光动力学参数、净光合速率及对籽粒的贡献率.结果显示,不同品质类型小麦非叶光合器官叶绿素含量表现为旗叶鞘>穗下节间>芒>穗部颖片,各非叶光合器官开花18d后叶绿素含量均表现为弱筋小麦>中筋小麦>强筋小麦;弱筋小麦的非叶光合器官在灌浆前期具有较高的Fv/Fm、ΦPSⅡ值,在灌浆后期其Fv/Fm和ΦPSⅡ值下降幅度显著小于强筋小麦并有较高的净光合速率;非叶光合器官对籽粒的相对贡献率依次为穗部>旗叶>节鞘,且对弱筋小麦籽粒的贡献率高于中筋和强筋小麦,其中节鞘和穗对弱筋小麦粒重的相对贡献率分别为15.7%和35.4%.研究表明,弱筋小麦豫麦50的非叶光合器官能维持较较强的光合能力,生产更多的光合产物,花后形成的光合产物对其粒重的增加起重要作用.     

籼稻桂华占、八桂香花后营养器官干物质流转与籽粒灌浆关系

以桂华占和八桂香2个籼稻品种为材料,研究籼稻花后不同部位器官物质积累、运转与籽粒生长的动态特征及相互关系。结果表明:(1)叶、叶鞘、节间干物质流转存在一定差异,倒2叶鞘对籽粒的贡献超过倒3叶鞘和倒1叶鞘,倒3节间对籽粒的贡献超过倒2节间和倒1节间;(2)不同部位籽粒的灌浆速率和拐点粒重呈现UPG(上部籽粒)MPG(中部籽粒)BPG(下部籽粒)变化趋势,拐点时间和活跃灌浆时间及持续灌浆时间均呈现BPGMPGUPG变化规律,UPG启动早,灌浆速率大,BPG的灌浆速率小,灌浆时间滞后,籽粒粒重呈现UPGMPGBPG;(3)叶片、叶鞘及节间干物质运转速度和运转率都与籽粒起始灌浆势呈正相关,其中器官间与起始灌浆势的相关系数大小表现为节间叶鞘叶片,不同叶位间与起始灌浆势的相关系数大小表现为倒2叶倒3叶倒1叶,其中节间干物质运转对籽粒生长的作用大于叶鞘,叶片干物质运转与籽粒生长的相关性最小。倒1节鞘物质输出与BPG生长时间上同步,倒2节鞘与MPG生长同步,倒3节鞘与UPG生长同步。     

不同水分管理下优质稻花后植株碳氮流转与籽粒生长及品质的相关性

以桂华占、八桂香为材料,在干湿交替灌溉、亏缺灌溉、淹水灌溉3种水分条件下,研究优质稻花后植株碳氮流转与籽粒生长及品质的相关性。结果表明:不同水分管理下,桂华占和八桂香花后碳氮流转与籽粒的生长间存在密切相关。主要表现在:(1)茎鞘和叶片干物质转运对籽粒干物质积累的贡献率为16.86%～25.68%,花后茎叶干物质运转速度和运转率与籽粒起始灌浆势呈显著甚至极显著正相关;籽粒最大灌浆速率、活跃灌浆期、持续灌浆时间与叶片干物质运转速度和运转率呈极显著正相关,与茎鞘干物质运转速度和运转率呈极显著负相关;(2)茎鞘碳同化物转运对籽粒的产量和淀粉产量的贡献率则为干湿交替灌溉>亏缺灌溉>淹水灌溉;但叶片碳同化物转运对籽粒的产量和淀粉产量的贡献率则为淹水灌溉>亏缺灌溉>干湿交替灌溉;茎叶可溶性糖积累量的减少和籽粒直链淀粉含量和积累量增加是同步的,且茎叶可溶性糖积累量快速递减期(花后3～12d)与直链淀粉含量和积累量快速递增期(花后6～12d)同步;(3)茎鞘和叶片氮素转运对籽粒氮素积累的贡献率为44.05%～117.66%,叶片总氮转运对籽粒氮素积累的贡献率大于茎鞘,茎鞘和叶片氮同化物对籽粒氮素的贡献率以淹水灌溉处理的最大,亏缺灌溉处理的次之,干湿交替灌溉处理的最小。     

六种藓类植物茎的比较解剖学研究

通过对6种藓类植物,即褶叶青藓(Brachythecium salebrosum(Web.et Mohr.)B.S.G.)、湿地匐灯藓(Plagiomnium acutum(Lindb.)Kop.)、侧枝匐灯藓(Plagiomnium maximoviczii(Lindb.)Kop.)、大凤尾藓(Fissidensnobilis Griff.)、大羽藓(Thuidium cymbifolium(Doz.et Molk.)B.S.G.)和大灰藓(Hypnum plumaeforme Wils.)嫩茎和老茎的石蜡切片和显微观察发现,同一藓类植株的嫩茎和老茎,茎结构稳定,不同种藓类植物茎横切面具有不同特征.植物体茎横切面形状、表层细胞的层数、细胞大小和细胞壁厚薄、皮层细胞大小和形状、中轴的有无以及比例等特征可以作为藓类植物的分科分类依据之一.     

Photoregulation of seed germination of wild-type and of an aurea-mutant of tomato

Seed germination of an aurea mutant of tomato ( Lycopersicon esculentum Mill.) is promoted by continuous irradiation with red, far-red or long-wavelength far-red (758 nm) light as well as by cyclic irradiations (5 min red or 5 min far-red/25 min darkness). Far-red light applied immediately after each red does not change the germination behaviour. Seed germination of the isogenic wild-type, cv. UC-105, is promoted by continuous and cyclic red light while it is inhibited by continuous and cyclic far-red light and by continious 758 nm irradiation. Far-red irradiation reverses almost completely the promoting effect of red light. The promoting effect (in the aurea mutant) and the inhibitory effect (in the wild-type) of continuous far-red light do not show photon fluence rate dependency above 20 nmol m⁻² s⁻¹. It is concluded that phytochrome controls tomato seed germination throgh low energy responses in both the wild type and the au mutant. The promoting effect of continuous and cyclic far-red light in the au mutant can be attributed to a greater sensitivity to P_fr.     

Cause of Senescence of Nine Sorts of Flowers

The levels of endogenous phytohormones and respiratory rate in nine sorts of flowers such as Cymbidium faberi Rolfe, Nopalxochia ackermannii Kunth and others were investigated both at full bloom and senescence and meanwhile the effect of exogenous phytohormones on prolonging the blossoms and promoting ethylene production were tested. There is a high content of endogenous ethylene in all the long-lived flowere, about 3–16 folds higer than the short-lived ones. There is a high level of ABA at full blooming flowers of short-lived flowers, in which there is no or only some cytokinins in it, but the ratio of CTK (6BA+zeatin)/ABA is smaller(l.7). The endogenous ABA reached a much higher level at senescence in all nine sorts of flowers, so it is reasonable to consider that it is ABA which plays an important role of regulation in controlling flower's senescence. There is a much higher level of GA3 and zeatin in the long-lived flowers which is not demonstrated in the shortlived ones. The respiratory rate is one of the factors controtling the longevity of flowers, but it does not play a decided role. Application of 6BA and zeatin prolongs distinctly orchid’s longevity, however exogenous IAA through the promotive action on ethylene production, evidently extends the longevity of the flowers of the Nopalxochia ackermannii Kunth.     

真菌类遗传学分析的知识结构教学

本文以认知结构理论为指导,讨论了真菌类遗传分析与高等动植物遗传分析的内在联系,认为利用这种内在联系进行教学可收到好的效果并说明了作者的具体教学过程。 Abstract:In the paper, the relationship between genetic analysis of Fungi and genetic analysis of high animal and plant was discussed.A good results were obtained when we adopted this method in the teaching.     

龙胆科药用植物化学成分的研究现状

龙胆科植物在我国的分布范围很广,且多数为药用植物,其多数种属的药用植物,至今其化学成分尚未被系统研究。综述了目前龙胆科药用植物的化学成分的研究现状及一般提取方法,对近年来发现的环烯醚萜及裂环烯醚萜类化合物进行了总结,为本科药用植物的更深入研究提供了参考。     

Interconnection of parameters of regulation system of lipid peroxidation and of morphophysiological parameters of mouse liver

A complex analysis of seasonal fluctuations of the mean group parameters of the system of regulation of lipid peroxidation has been performed in liver of Balb/c mice. Association of lipid characteristics and morphophysiological parameters is studied in the Balb/c mouse liver. An inter-connection is revealed between the liver index and the amount of lysoforms of phospholipids, the scale and character of the interconnection differing essentially depending on proportion of phos-phatidylcholine in mouse liver phospholipids.     

The effects of glutamine of the maintenance of embryogenic cultures of Cryptomeria japonica

Summary Embryogenic tissues of sugi (Cryptomeria japonica) were induced on a modified Campbell and Durzan (CD) medium containing 1 μM 2,4-dichlorophenoxyacetic acid (2,4-D) and 600 mg l⁻¹ glutamine, and subcultured in the medium of the same composition for over 1 yr. This resulted in a mixed culture of embryogenic and non-embryogenic cells. When embryogenic cells were isolated and cultured independently, their capacity to form embryogenic aggregates was lost. Thus, the non-embryogenic cells present within a mixed culture system were essential to the formation of embryogenic aggregates. When embryogenic tissues were isolated and cultured independently on a high glutamine-containing (2400 mg l⁻¹) medium, dry weights and endogenous levels of glutamine increased, and the tissue could generate a large number of embryogenic aggregates. Amino acid analysis of embryogenic and non-embryogenic cells from the maintenance culture indicated a higher level of glutamine was present in the latter. The high endogenous level of glutamine in the non-embryogenic portion of mixed cell masses may be the supplier of glutamine for maintaining the embryogenic property of the tissues.     

Specificity of action of piperidylcholine derivatives as substrates of cholinesterases of various origin

The review deals with study of enzymologic properties of a novel highly specific acetylcholinesterase substrate, N-(β-acetoxyethyl) piperidinium iodomethylate (“piperidylcholine”), and its 30 derivatives that were tested as effectors of cholinesterases of mammals and various species of Pacific squids. It was proven for the first time that responsible for specificity of action was structure of cyclic ammonium grouping of the alcohol part of molecule of the ester substrate. Analysis of specificity is performed based on enzymatic hydrolysis parameters—activity of catalytic center of cholinesterases and bimolecular constant of the reaction rate that are determined at optimal and low substrate concentrations. Among the specially synthesized group of thioester compounds there is revealed one more highly specific acetylcholinesterase substrate—N-(β-acetoxyethyl) piperidinium.