盐生植物种子的休眠、休眠解除及萌发的特点

本文讨论了盐生植物种子的休眠、休眠解除及萌发的特点,主要内容有：(1) 盐生植物种子的休眠类型;(2) 打破盐生植物种子休眠的必要条件;(3) 盐生种子萌发与土壤盐度的关系。并讨论了盐度抑制盐生植物种子的机理。最后,作者提出了将来研究盐生植物种子萌发需要解决的几个重点问题以及研究盐生植物种子休眠和萌发问题的意义。     

Seed Dormancy and Germination in Cimicifuga nanchuanensis

Seed anatomy, dormancy breakage, the temperature effect to seed germination and seed life-span of Cimicifuga nanchuanensis Hsiao were studied and the endangerment of this plant in association to these biological characteristics was explored. The embryos were at the globular stage at the time of seed shedding in late November. Low temperature and humid conditions or treatment with exogenous GA3 stimulated the development of embryos and sped up the process of seed germination. The optimum temperature of germination was 20 ℃, but the seeds almost lost their viability after 9 months of storage. Nevertheless, in its natural habitation, the seeds could not acquire enough environmental humidity to accomplish their after-ripening during the dry and cold winter from late November to the following March; after then the temperature in the spring (averaged 10.1 ℃ in April and May) was much lower than 20 ℃ or so which is favorable for seed germination. Moreover, the testa could not provide adequate protection for the embryos and the short life-span of the seeds prevents their survival until the next germination. Therefore it seems reasonable to infer that the unfavorable environmental condition during the process of after-ripening until seed maturation is involved in the cause of endangerment of this plant species.     

盐生植物种子的休眠、休眠解除及萌发的特点

本文讨论了盐生植物种子的休眠、休眠解除及萌发的特点 ,主要内容有 :( 1 )盐生植物种子的休眠类型 ;( 2 )打破盐生植物种子休眠的必要条件 ;( 3)盐生种子萌发与土壤盐度的关系。并讨论了盐度抑制盐生植物种子的机理。最后 ,作者提出了将来研究盐生植物种子萌发需要解决的几个重点问题以及研究盐生植物种子休眠和萌发问题的意义     

The Role of the Oxygen Permeability of the Seed Coat in the Dormancy of Seed of Xanthium pennsylvanicum Wallr

A method for direct identification and quantitative measurementsof mixed or pure gases diffusing through seed coats was devisedto test the hypothesis that the dormancy of Xanthium pennsylvanicumseeds is caused by oxygen-impermeable seed coats. The diffusionof oxygen through seed coats of X. pennsylvanicum was shownto obey Fick's first law. Oxygen diffused through the lowerand upper seed coats at the same rate. Imbibed lower and upperseeds showed essentially equal oxygen uptake rates before radicleemergence. This uptake was lower than the rate at which oxygencan diffuse into the seed. Therefore upper seeds are not dormantbecause of seed coat restriction of oxygen diffusion. The relationshipsof oxygen with other factors involved in seed dormancy are discussed.     

Action of Respiratory Inhibitors on Seed Germination and Oxygen Uptake in Avena fatua L.

The effects of sodium azide, potassium cyanide (cytochrome oxidaseinhibitors), and salicylhydroxamic acid (SHAM; an alternativerespiration inhibitor) on germination and respiration of Avenafatua L. seeds were studied. Azide and cyanide released seeddormancy at similar concentrations and treatment durations.Cyanide, however, stimulated germination of seeds with littleafter-ripening, whereas azide had no effect under similar conditionsunless the seeds were after-ripened for several months; theduration of after-ripening required for seeds to respond toazide varied with seed batch. There was also a greater lag priorto germination in the case of azide, compared to cyanide treatedseeds. SHAM inhibited the stimulation of germination and respirationby azide, but not by cyanide. Furthermore, respiration induced by azide or cyanide could notbe inhibited by the subsequent application of SHAM. These findingssuggest that the respiration stimulated by azide and cyanideis not alternative (SHAM-sensitive) and, therefore, this respiratorypathway cannot be involved in the stimulation of germinationby cytochrome oxidase inhibitors. While embryos excised fromcontrol, azide or cyanide pretreated seeds had the capacityto perform alternative respiration, the actual contributionof this pathway was negligible. A large proportion of respirationof embryos excised from azide or cyanide pretreated seeds wasresidual, i.e. insensitive to both SHAM and cyanide. Alternative respiration, azide, cyanide, dormancy, salicylhydroxamic acid, wild oats     

拟南芥突变体种子休眠与萌发的研究进展

种子的休眠和萌发是一个复杂的过程,至今尚未能清楚阐明其调控机制。目前已从拟南芥突变体中鉴定了一些与种子萌发和休眠相关的基因,有助于阐明种子休眠和萌发的分子机制。本文综述了拟南芥突变体种子休眠与萌发方面的研究进展。赤霉素是促进种子萌发的主要因素之一,RGL、SPY、GCR、SLY和GAR等基因的表达参与赤霉素对种子萌发的调控。脱落酸与种子休眠有关,ABI1、ABI2、ABI3、ABI4、ABI5、FUS3、LEC、MARD和CIPK等基因参与了脱落酸的调控过程。对3类乙烯反应的突变体（ein、etr和ctr）以及油菜素内酯突变体（det和bri）的研究表明乙烯和油菜素内酯是通过拮抗脱落酸而促进种子萌发的。光对种子萌发的调节,是通过具有Ser／Thr蛋白激酶活性的光敏色素PhyA、PhyB、PhyC、PhyD和PhyE,以磷酸化／去磷酸化方式调节其它与萌发相关基因的表达。含氮化合物对种子萌发的促进,可能是以一种依赖一氧化氮的方式解除种子休眠。     

拟南芥突变体种子休眠与萌发的研究进展

种子的休眠和萌发是一个复杂的过程, 至今尚未能清楚阐明其调控机制。目前已从拟南芥突变体中鉴定了一些与种子萌发和休眠相关的基因, 有助于阐明种子休眠和萌发的分子机制。本文综述了拟南芥突变体种子休眠与萌发方面的研究进展。赤霉素是促进种子萌发的主要因素之一, RGL、SPY、GCR、SLY和GAR等基因的表达参与赤霉素对种子萌发的调控。脱落酸与种子休眠有关, ABI1、ABI2、ABI3、ABI4、ABI5、FUS3、LEC、MARD和CIPK等基因参与了脱落酸的调控过程。对3类乙烯反应的突变体 (ein、etr和ctr) 以及油菜素内酯突变体 (det和bri) 的研究表明乙烯和油菜素内酯是通过拮抗脱落酸而促进种子萌发的。光对种子萌发的调节, 是通过具有Ser/Thr蛋白激酶活性的光敏色素PhyA、PhyB、 PhyC、PhyD和PhyE, 以磷酸化/去磷酸化方式调节其它与萌发相关基因的表达。含氮化合物对种子萌发的促进, 可能是以一种依赖一氧化氮的方式解除种子休眠。     

苦槠传播体的萌发特性与种子休眠类型

种子的萌发特性是植物在长期进化过程中形成的一种适应环境变化的固有属性。对种子萌发特性的研究有助于我们理解物种的种群更新和种子育苗。本文旨在阐明我国重要资源植物苦槠（Castanopsis sclerophylla）的种子休眠类型和萌发特性。研究结果发现：①苦槠种子在其果实中占比非常高;②苦槠的果皮限制了种子对水分的吸收;③苦槠果皮阻碍了种子的萌发,除去果皮以后种子能够在较大温度范围内萌发;④除去果皮以后,苦槠种子在低温（15/5 ℃、20/10 ℃）下萌发困难,在25/15 ℃、30/20 ℃和35/25 ℃这3个温度梯度下均能迅速萌发。结果表明,苦槠的传播体（果实）具有物理休眠的特性。因此,壳斗科（Fagaceae）是具有物理休眠和脱水敏感性的一个新纪录科。结合壳斗科的系统发育位置,本研究支持物理休眠是一种较为进化的性状这一假说。     

白蜡树属树种种子休眠及其萌发的调控

介绍了白蜡树属（Fraxinus L．）树种种子的休眠及其萌发调控的研究进展。     

莎草科4种植物种子休眠与萌发特性的研究

以嵩草、黑穗苔草、藨草和苔草4种莎草科植物种子为材料,研究了硫酸、植物生长调节剂及低温层积处理对其休眠与萌发特性的影响,以揭示其休眠机制及其破除方法,为指导生产提供理论依据。结果表明:(1)4种参试植物种子均存在不同程度的生理休眠,其中嵩草为浅度生理休眠,黑穗苔草为中度生理休眠,藨草和苔草为深度生理休眠。(2)浓硫酸浸种可显著提高嵩草、黑穗苔草种子的萌发,随浸种时间增加,种子萌发率先增加后降低,最大值分别达86%、77%,但浓硫酸处理对藨草和苔草的种子萌发无显著促进作用。(3)赤霉素(GA3)、氟啶酮(FL,脱落酸抑制剂)和KNO3单独处理可显著提高嵩草种子萌发,但对其他3种植物种子无显著作用;而硫酸处理后再用赤霉素或氟啶酮处理,则显著促进黑穗苔草种子的萌发率。(4)低温层积对种子萌发的影响因种与层积时间而异,层积2个月可显著提高嵩草种子萌发,层积4个月可显著提高嵩草和藨草种子萌发;层积6个月可显著提高嵩草、黑穗苔草、藨草和苔草4种植物种子萌发,其最终萌发率分别为90%、73%、17%、7%。     

Dormancy Regulating Chemicals Alleviate Innate Seed Dormancy and Promote Germination of Desert Annuals

Journal of Plant Growth Regulation - Desert plants develop different types of seed dormancy that can only be broken once they are exposed to the proper environmental signals that enhance seedling...     

The Role of Hormones in Controlling the Mechanically Induced Dormancy of Suaeda spp.

Seeds of several taxa in the genus Suaeda with a mechanically resistant testa were stimulated to germinate with applications: of 1 × 10^?4M gibberellic acid (GAg). The barley endosperm bioassay indicated that the non-dormant taxa, S. macrocarpa, had high initial gibberellin-like activity while the dormant varieties, S. flexilis and S. vulgaris, had not. Soaking for 2 days increased the gibberellin-like activity of the dormant taxa. At 20 days hormonal activity was repressed, and few seeds germinated. The barley endosperm bioassay also revealed an inhibitor activity in the dormant varieties. The wheat coleoptile bioassay and UV irradiation of thin layer chromatograms indicated that an inhibitor occurred at the Rf of cochromatographed ABA and that it had similar inhibitory characteristics.     

Seed Dormancy in Acer: The Role of Testa-imposed and Embryo Dormancy in Acer velutinum

The embryo dormancy shown in freshly harvested samples of Acervelutinum seeds is weakly established and very short-lived.Loss of this embryo dormancy occurred during post-harvest fruitstorage at either 5 or 17 C. In contrast, the dormancy of intactfruits and seeds was overcome only during storage at the lowertemperature. Removal of the cotyledons from embryos of freshlyharvested fruits allowed more rapid germination of the embryonicaxes, indicating that the cotyledons exert an inhibitory effect,although the axes still retained a measure of innate dormancy.The inhibitory effect of the cotyledons became less marked withincreasing duration of fruit storage, this loss of inhibitoryeffect occurring at both storage temperatures. Applied ABA stronglysuppressed germinative capacity in intact embryos and isolatedembryonic axes from freshly harvested fruits, but when ABA wasapplied to embryos of fruits that had been stored for variousperiods at 5 or 17 C, the inhibitory effect was first weakenedand then lost with increased storage. Although dormancy in the seeds of A. velutinum may be describedas intermediate between testa-imposed dormancy and true dormancy,it is perhaps more properly included in the former category. Acer velutinum Boiss. var. vanvolxemii, abscisic acid, embryo dormancy, germination, seed storage, testa-imposed dormancy, tissue sensitivity     

濒危植物桃儿七种子休眠特性的研究

桃儿七种子在自然条件下具有休眠期长、萌发不良的生理特性,为了探讨和研究桃儿七种子的休眠特性,利用分离胚培养、生物鉴定法、GA₃浸种、以及综合利用GA₃和低温层积处理等方法。结果表明：种皮和胚乳的限制以及生理后熟是引起桃儿七种子休眠的主要原因,用400 mg·L^-1的GA₃溶液浸种24 h或低温层积后用GA₃处理均能在一定程度上解除休眠促进萌发,其中以低温层积90 d后用500 mg·L^-1的GA₃浸种36 h效果最好,发芽率和发芽势分别达到81.11%和50.00%。     

Role of Abscisic Acid in Seed Dormancy

Seed dormancy is an adaptive trait that improves survival of the next generation by optimizing the distribution of germination over time. The agricultural and forest industries rely on seeds that exhibit high rates of germination and vigorous, synchronous growth after germination; hence dormancy is sometimes considered an undesirable trait. The forest industry encounters problems with the pronounced dormancy of some conifer seeds, a feature that can lead to non-uniform germination and poor seedling vigor. In cereal crops, an optimum balance is most sought after; some dormancy at harvest is favored because it prevents germination of the physiologically mature grain in the head prior to harvest (that is, preharvest sprouting), a phenomenon that leads to considerable damage to grain quality and is especially prominent in cool moist environments. The sesquiterpene abscisic acid (ABA) regulates key events during seed formation, such as the deposition of storage reserves, prevention of precocious germination, acquisition of desiccation tolerance, and induction of primary dormancy. Its regulatory role is achieved in part by cross-talk with other hormones and their associated signaling networks, via mechanisms that are largely unknown. Quantitative genetics and functional genomics approaches will contribute to the elucidation of genes and proteins that control seed dormancy and germination, including components of the ABA signal transduction pathway. Dynamic changes in ABA biosynthesis and catabolism elicit hormone-signaling changes that affect downstream gene expression and thereby regulate critical checkpoints at the transitions from dormancy to germination and from germination to growth. Some of the recent developments in these areas are discussed.     

光信号与激素调控种子休眠和萌发研究进展

休眠是种子植物在长期进化过程中产生的适应性性状, 通过抑制种子在不适宜的环境中萌发进而保证植物能够在逆境中生存。此外, 休眠有助于种子的长距离运输和扩散, 因此休眠对种子延续和物种保存具有重要意义。种子由休眠向萌发的发育转变不仅关系到物种的繁衍, 而且对保证农业生产中作物的产量和品质也具有重要作用。种子的休眠和萌发受到内源激素和外源光信号的共同调控。其中, 外源光信号主要通过调控内源ABA和GA的生物合成及信号转导进而调控种子休眠和萌发。该文系统综述了外源光信号和内源激素调控种子休眠和萌发的作用通路以及两类信号通路之间的交互作用, 旨在为农业生产中利用光和激素调控种子休眠与萌发提供参考。