低温层积与外源GA3对肉苁蓉种子萌发及其内源GA和ABA含量的影响

研究低温层积对肉苁蓉种子胚率、内源赤霉素（GA）和脱落酸（ABA）含量以及外源赤霉素（GA3）对低温层积不同时间种子萌发率影响的结果表明：低温层积可以提高种子的胚率及其GA的含量,降低其ABA含量;层积120～150d的肉苁蓉种子经外源GA3处理后,其萌发率可以达到70%以上;层积120d是外源GA3促进种子萌发的临界点。     

初生休眠解除状态和干燥处理对水曲柳种子萌发的影响

为探究初生休眠解除状态和干燥处理对水曲柳种子萌发的影响，本文以初生休眠的成熟水曲柳种子为材料，研究经不同裸层积（暖温10周+低温8周、暖温12周+低温8周、暖温10周+低温10周、暖温12周+低温10周）和干燥处理（干燥、不干燥）的水曲柳种子在适宜温度和较高温条件下的萌发表现。结果表明，初生休眠解除状态不同的水曲柳种子在不同温度下的萌发表现具有相似的规律，种子的萌发会受到干燥处理的影响。不经干燥处理的种子解除休眠越充分，其萌发能力就越强，但层积处理后的种子若经过干燥处理，则解除休眠越充分（尤其是低温时间越长），种子萌发能力下降越多。水曲柳种子次生休眠（热休眠）的诱导受种子初生休眠解除状态的影响较小，但受干燥处理影响较大。干燥处理会降低水曲柳种子的萌发能力，尤其是较高温条件下的萌发能力，初生休眠解除越充分的种子萌发受干燥处理影响越大。生产中如需对解除休眠的种子干燥处理，选择暖温10周+低温8周的层积方法处理种子效果最好。     

假槟榔种子脱水耐性的发育变化

对假槟榔（Archontophoenix alexandrae）种子和胚发育过程中脱水耐性的变化、不同脱水速率对脱水耐性的影响及种子的萌发和贮藏特性进行了研究。种子含水量在花后55～70d逐步降低,随后不再变化,并保持在较高水平（37％）;花后90d的种子获得最大干重。花后60d后种子获得萌发能力,花后70d达到最大值。在交替光照下（14h光照,10h黑暗,12μnmol m^-2s^-1）,种子在15℃～40℃下均能萌发,其萌发的适宜温度范围为30℃～35℃;但光照对种子的萌发有较大的抑制作用。种子和胚在花后55～90d,脱水耐性逐渐增强;花后90d种子和胚的脱水耐性最强,此时种子和胚的半致死含水量分别为0．18g／g和0．3g／g。脱水至相同含水量,快速脱水的种子的存活率明显高于慢速脱水。无论是否进行脱水处理,-18℃下贮藏1个月后,种子均丧失萌发能力;在4℃,10℃和15℃下,适度脱水能延长种子的贮藏寿命。假槟榔种子不耐脱水,不适合在低温、低含水量条件下长期贮藏,属顽拗性种子。     

白木香种子脱水耐性的发育变化及贮藏特性

研究白木香种子发育进程中种子性状、萌发能力和脱水耐性的变化,以及不同光温条件对种子萌发的影响和种子的贮藏特性。结果表明：白木香种子在花后78d获得最大干重,进入生理成熟期,此时萌发率接近最大值;胚在花后57～85d,脱水耐性逐渐增强,并在花后85d获得最大脱水耐性。种子萌发的适宜温度范围为25℃-35℃,光照对种子萌发有一定的抑制作用。新鲜自木香种子（含水量27．45％）在4℃低温条件下贮藏1个月后萌发率仅为30％左右,而含水量7．38％的干燥种子在4℃低温条件下贮藏120d,萌发率仍有53．33％,因此,4℃低温和适度脱水有利于种子短期贮藏。白木香种子能忍耐一定程度的脱水,但干燥至含水量7．50％以下时种子会发生损伤,因此推测白木香种子是一种中间性种子。     

紫楠种子休眠原因和快速解除方法研究

通过了解紫楠(Phoebe sheareri)种子休眠原因,采取机械、酸碱腐蚀、层积处理(5 ℃~25 ℃)等措施研究解除种子休眠的最佳方法。结果表明,种皮透水性差是抑制紫楠种子萌发的主要原因,种子休眠类型为物理休眠。酸碱腐蚀处理未能有效促进种子的萌发,浓硫酸和氢氧化钠处理种子不同时间(1~25 min)后,种子发芽率提高了33%~55%,但种子出现严重的伤害现象,其腐烂率高达30%~97%。机械处理和层积处理均能有效打破种子的休眠,其中机械处理以去种皮处理效果最好,种子发芽率和发芽势分别提高了99.33%和76.00%,但操作耗时、费力。层积处理以25 ℃暖温层积45 d、25 ℃/15 ℃和5 ℃/ 25 ℃/5 ℃变温层积60 d效果较好,其发芽率达89%~93%,发芽势达79%~83%,且各层积处理间发芽率、发芽势没有差异;但与暖温层积相比,变温层积所需层积时间更长,种子腐烂率更高。25 ℃暖温层积45 d是破除紫楠种子休眠的最佳方法。     

刺木蓼和长枝木蓼种子休眠的解除及萌发条件

刺木蓼（Atraphaxis spinosa）和长枝木蓼（A.virgata）为蓼科木蓼属灌木,是乌鲁木齐周边植被组成的重要种。这两种木蓼种子成熟后不萌发,处于休眠状态,对其种子进行5℃（黑暗）和野外低温层积处理,结果表明：5℃层积处理能明显提高两种木蓼种子在15/6、20/10、25/15和30/20℃（昼12 h/夜12 h）的萌发率。野外层积处理显著提高了种子在15/6℃的萌发率。刺木蓼和长枝木蓼的种子均为非深度生理休眠,分别经8、6周的低温层积处理后种子休眠得以解除。刺木蓼种子的休眠程度比长枝木蓼深,休眠解除后,种子萌发所需的最低温度降低。这两种木蓼种子经过冬天的低温层积,可以在春天较低的生境温度下萌发。     

极度濒危植物大果木莲种子的休眠与萌发

大果木莲种子具吸水性,胚未完全发育。新鲜种子25℃下的萌发率仅2％,在30／20℃和20／10℃的条件下30d内分别有27％和36％种子萌发。在20／10℃下,1000mg·L^-1浓度的GA3可以有效打破种子休眠。冷层积120d的种胚生长不显著,大果木莲种子具有条件休眠特性,属于浅度简单型形态生理休眠。种子经冷层积60d的萌发率最高,而后下降,提示其可能有休眠循环现象。     

青阳参种子的萌发

青阳参（Cynanchum otophyllum）种子在11月成熟时有休眠习性。收获后将其种子种植在自然温室内,到第二年的春天种子才会萌发,且大多数种子在3月28至4月4日间萌发,这期间的日平均最高和最低温度分别为19．0℃和9．9℃。层积能有效地打破青阳参种子的休眠,休眠种子通过大约1周的层积便能萌发。种子在有光的条件下层积1周后转移到25／15℃的黑暗条件下萌发率可达到75．4％。青阳参种子不论在有光的条件下还是在黑暗环境中层积2～3周后转入30／20和25／15℃进行变温处理,其萌发率最低能达到66．4％,而转入20／10℃变温处理其萌发率最多只能达到20．1％,但若层积6周,即便在20／10℃变温处理的情况下其萌发率也可以达到65．3％以上。     

濒危植物西康玉兰种子休眠、萌发及贮藏特性

研究了西康玉兰(Magnolia wilsonii)种胚的形态大小,温度、层积、硝酸钾、浸种处理和GA_3对种子休眠及萌发的影响.通过将种子脱水至不同含水量和在两种温度(4℃和一20℃)下贮藏100 d后测其生活力,分析各处理对西康玉兰种子活力的影响.结果表明:西康玉兰种子胚尚未分化完全,需经过低温层积完成生理后熟;低温层积和GA3可打破种子休眠.种子最适萌发温度为25/20℃.由此推测,西康玉兰种子具有形态生理休眠特性.西康玉兰种子当含水量降至5.39%,存活率为53.50%.不同含水量的种子贮藏在-20℃条件下,100 d后种子全部死亡;但在4℃下含水量为10.31%的种子存活力高达76%.因此,西康玉兰种子极可能属于中间性种子,其适宜贮藏环境为4℃下的干藏或湿藏.     

鄂尔多斯高原固沙禾草沙鞭种子休眠和萌发与环境的关系

沙鞭是鄂尔多斯高原流动沙丘上分布的多年生禾草。新采收的种子能够在15～35℃的光照和暗中萌发。在25℃光照下,通过14d的培养,种子的萌发率能够达到80％。在25～35℃温度范围内,种子的萌发在光照下比暗中好。通过低温层积处理表明,沙鞭的种子处于非深度休眠状态。4星期的低温层积处理能够有效地加速和提高种子在20～30℃、光照和暗中萌发。对低温贮藏的需求可能是种子对其生境的适应。另外,划伤颖果的果皮和种皮,以及不同程度地部分移走胚乳也能够不同程度地加速和提高种子的萌发,但幼苗的干重以及根和苗的长度显著地受到了移走胚乳的影响。     

Endosperm and Embryo Development in Daucus carota L.

Maximum carrot seed dry weight and maximum endosperm volumewere reached about 35 d after anthesis, although at this timethe endosperm was still soft, the pericarp green and less than50% of the seeds were viable. Fully viable, ripe seeds werenot produced until 44 d later. Seventy per cent of the increasein endosperm volume was due to an increase in cell number, whichceased 35 d after anthesis. The increase in embryo volume wasslower and was due to an increase in both cell number and cellvolume which continued until 49 d after anthesis. At maturitythe embryo was the equivalent of between 2% and 3% of the endospermvolume. The relationship between embryo length and cell number per embryowas unaffected by seed crop plant density, seed crop harvestdate and position of the seed on the mother plant but it wasaffected by the year of seed production, possibly due to differencesin temperature during the period of seed growth. Key words: Endosperm, Embryo, Carrot, Development     

Expression of Isopentenyl Transferase Gene Controlled by Seed-Specific Lectin Promoter in Transgenic Tobacco Influences Seed Development

The bacterial isopentenyl transferase (ipt) gene involved in cytokinin biosynthesis was fused with a seed-specific lectin promoter from soybean and introduced into tobacco. Under the control of the lectin promoter, the expression of the ipt gene increased cytokinin levels and promoted cell division in the embryo in transgenic tobacco seeds. Compared with controls, the number of plerome cell layers and the cell number of cotyledons and pleromes were significantly increased from 16 DAF (days after flowering); the embryo diameter of transgenic tobacco was enlarged at 16, 19, and 21 DAF (16.1%, 12.7%, and 13.9% increase, respectively). Furthermore, the soluble protein content of the transgenic mature seeds was increased by 9.8–22.2% and the dry weight of transgenic tobacco seeds was increased by 8.8–21.8% compared with that of controls. The transgenic tobacco seedlings also grew quickly and a greater increase in fresh weight compared with controls was observed at 20 and 35 days after germination (average 14% and 8% increase above controls, respectively).     

Parsnip (Pastinaca sativa) seed production: effects of seed crop plant density, seed position on the mother plant, harvest date and method, and seed grading on embryo and seed size and seedling performance

Parsnip seeds from four years of seed production (1980–83) were used to examine the effects of position of the seed on the parent plant and several cultural factors on seed and embryo growth and seedling performance. Maximum seed dry weight was reached c. 50 days after flowering (DAF) but embryos continued to grow for a further 7–15 days. The coefficient of variation (C.V.) of seed weight fell from c. 35–40% at 40 DAF, to about 20–25% at maturity. The corresponding figures for C.V. of embryo length were 25–35% at the early harvest and 12–15% at maturity. The effects of seed position, plant density, harvest method, seed grading after harvest on seedling emergence and weight characters were small. Harvesting seeds c. 60 DAF gave, on average, 3.3 days earlier emergence, c. 3.6 days lower ‘spread’ of emergence time and c. 9% higher seedling emergence than harvesting 2 wk earlier. Late harvesting of the seed crop reduced the C.V. of seedling weight from 53 to 46%, on average, but there were variations in response from year to year. Seedling emergence and seedling weight characters were more closely related to embryo length than to seed weight characters.     

小芸木胚发育过程中脱水耐性的变化

对热带植物小芸木的种子和胚在整个发育阶段的形态学特征、含水量、萌发率和电导率进行了研究。结果显示:(1)小芸木种子在发育过程中形态学特征、电导率、萌发率和胚的脱水耐性有明显的变化;(2)在55~80 d种子鲜重和干重逐渐增加,随后又稍微降低,整个发育过程未经历明显的成熟脱水阶段;种子萌发率从55~85 d逐渐达到最大,随后又稍微降低;(3)胚的脱水耐性从55~90 d逐渐增加,于85~90 d达到最大,在95~103 d时又有所下降。表明小芸木胚的最大脱水耐性的获得时间与种子干物质积累达到最大的时间一致。     

Development of Desiccation Tolerance and Longevity in Seeds from Detached Capsules of Foxglove (Digitalis purpurea L)

Developing capsules of foxglove (Digitalis purpurea L.) weredetached at 4-d intervals between 12 and 28 d after flowering(DAF) and attached to canes within a natural foxglove standsuch that they were experiencing field conditions identicalto those experienced by normally developing, on-plant capsules.Seeds were subsequently harvested at 4-d intervals until 40total d after flowering (tDAF). Capsule detachment resultedin the cessation of dry matter accumulation; the mean dry weightof seeds from 12, 16, 20, 24, and 28 DAF-detached capsules was21, 32, 51, 60, and 79% respectively, of the mean dry weightof seeds during the post-abscission phase of normal, on-plantdevelopment. Nonetheless, seeds from detached capsules acquiredthe ability to germinate at harvest and tolerance to dryingunder seed conservation conditions (15% relative humidity and15 °C). The capability to withstand storage also arose followingcapsule detachment. Seed longevity increased the longer theperiod of detachment but, in the earlier-detached capsules (12,16, and 20 DAF) longevity subsequently declined. Only seedsfrom later detached capsules (24 and 28 DAF) acquired longevitieswhich were comparable with seeds from on-plant capsules, however,no seeds from detached capsules were as long lived as seedsfrom on-plant capsules harvested at 40 DAF. Digitalis purpurea L.; foxglove; capsule detachment; seed development; desiccation tolerance; longevity     

Effects of water availability on emerald ash borer larval performance and phloem phenolics of Manchurian and black ash

The invasive emerald ash borer (EAB) beetle is a significant threat to the survival of North American ash. In previous work, we identified putative biochemical and molecular markers of constitutive EAB resistance in Manchurian ash, an Asian species co‐evolved with EAB. Here, we employed high‐throughput high‐performance liquid chromatography with photodiode array detection and mass spectrometry (HPLC‐PDA‐MS) to characterize the induced response of soluble phloem phenolics to EAB attack in resistant Manchurian and susceptible black ash under conditions of either normal or low water availability, and the effects of water availability on larval performance. Total larval mass per tree was lower in Manchurian than in black ash. Low water increased larval numbers and mean larval mass overall, but more so in Manchurian ash. Low water did not affect levels of phenolics in either host species, but six phenolics decreased in response to EAB. In both ashes, pinoresinol A was induced by EAB, especially in Manchurian ash. Pinoresinol A and pinoresinol B were negatively correlated with each other in both species. The higher accumulation of pinoresinol A in Manchurian ash after attack may help explain the resistance of this species to EAB, but none of the responses measured here could explain increased larval performance in trees subjected to low water availability.     

Differential expression of wheat aspartic proteinases, WAP1 and WAP2, in germinating and maturing seeds

Two aspartic proteinase (AP) cDNA clones, WAP1 and WAP2, were obtained from wheat seeds. Proteins encoded by these clones shared 61% amino acid sequence identity. RNA blotting analysis showed that WAP1 and WAP2 were expressed in both germinating and maturing seeds. The level of WAP2 mRNA expression was clearly weaker than that of WAP1 in all tissues of seeds during germination and maturation. APs purified from germinating seeds were enzymatically active and digested the wheat storage protein, gluten. To elucidate the physiological functions of WAP1 and WAP2 in seeds, we investigated the localisation of WAP1 and WAP2 by in situ hybridisation. In germinating seeds investigated 24h after imbibition, both WAP1 and WAP2 were expressed in embryos, especially in radicles and shoots, scutellum, and the aleurone layer. In maturing seeds, WAP1 was expressed in the whole embryo, with slightly stronger expression in radicles and shoots. WAP1 was also expressed in the aleurone layer 3 weeks after flowering. Strong signals of WAP1 mRNA were detected in the whole embryo and aleurone layer 6 weeks after flowering. On the other hand, WAP2 was scarcely detected in seeds 3 weeks after flowering, and thereafter weak signals began to appear in the whole embryo. WAP1 and WAP2 were expressed widely in germinating and maturing seeds. Such diversity in site- and stage-specific expression of the two enzymes suggests their differential functions in wheat seeds.     

A Comparison of Leek (Allium porrum) and Onion (Allium cepa) Seed Development

Leek and onion seed dry weight increased exponentially for thefirst 31 days after flowering (DAF) but thereafter the increasein dry weight was slower. Before maximum seed dry weight wasreached at 45 DAF in onion and 59 to 66 DAF in leek, seed moisturecontent, seed oxygen uptake and conductivity of the seed steepwater fell from initially high levels. Although some seeds germinated31 DAF in both species, full germination in both was not reacheduntil 66–80 DAF. Tolerance of the seed to artificial dryingimmediately after harvesting occurred 45 DAF in onion and 74DAF in leek. Free nuclear division continued in the endospermuntil 17–22 DAF in onion and until 31–35 DAF inleek but it was not until 45 DAF in onion and 66 DAF in leekthat the embryo and endosperm filled the cavity formed by thepericarp. After formation of cell walls in the endosperm thepattern of change in cell number in both species was similar.The shrunken appearance of the seed coat in leek, which occurredearly in seed development, was associated with the period offree nuclear division in the endosperm and, in addition, thepericarp was thinner than in onion. There was no evidence thatthe shrunken seed coat early in development was associated withself as opposed to open-pollination. Allium porrum, Allium cepa, seed development, endosperm, embryo, cell number, germination, respiration, seed leachates     

Osmoregulation, growth and sucrose accumulation in germinated Trigonella foenum-graecum (fenugreek) seeds treated with polyethylene glycol

Germinated seeds of Trigonella foenum-graecum L. (fenugreek) were grown in water or in polyethylene glycol (PEG) solutions. After endosperm removal, the water relations, growth, dry weight, sucrose and reducing sugar content of the embryo were determined. Under water sstress conditions, water content and osmotic potential (π₀) at saturation, growth and dry weight were lower than in non-stressed controls. The reduction in dry weight indicated a lower uptake of solutes from the endosperm and the decrease in π₀ was not accompanied by an increase in the amount of the accumulated solutes. It is suggested that embryos of stressed fenugreek seeds control osmotic potential by reduction of water uptake and that this results in reduction of growth. Embryos isolated from germinated seeds ("naked" embryos) were grown in water or in PEG solutions, with or without galactose (as an external solute source substituting for the endosperm). The results indicate that a decrease in the external solute did not account for growth reduction under conditions of water stress, and that decreased solute transport to the embryo may be important. The sucrose contents of "naked" embryos and of embryos from whole seeds were higher after PEG treatment, while reducing sugar contents were lower compared to non-stressed controls. The increased sucrose accumulation may be due to decreased sucrose hydrolysis.