不同温度对独蒜兰开花和生长的影响

该研究采用人工温室于3种培养温度(20℃/15℃、15℃/10℃、10℃/5℃)条件下,分析独蒜兰生长开花进程以及假鳞茎中有机物质含量的动态变化。结果表明:(1)于20℃/15℃(模拟原生地开花期自然温度)处理下,独蒜兰进入初花期的时间比15℃/10℃、10℃/5℃处理下分别提前24d和53d,花期分别延长了4d和6d。(2)独蒜兰的花色以10℃/5℃处理较深,但该处理中有哑蕾出现。(3)老假鳞茎生长开花过程中,20℃/15℃处理的淀粉含量呈升高趋势,15℃/10℃和10℃/5℃处理先升高后降低;3种温度处理下,可溶性糖均在花期含量最高,且10℃/5℃处理下可溶性糖含量、可溶性蛋白含量均保持较高水平。研究认为,20℃/15℃和15℃/10℃培养温度均有利于独蒜兰的生长和开花;独蒜兰休眠的假鳞茎不需要经过低温诱导解除休眠,随着温度上升,相应的生长发育进程就会启动。     

温度、GA3和乙烯对中国水仙休眠的解除

自然条件下,4月至7月下旬期间,中国水仙鳞茎的呼吸速率逐渐下降,7月底至8月底开始上升之后又下降。30℃高温下的鳞茎发芽延缓,发芽率下降;15℃低温有利于打破休眠,7月下旬前的鳞茎,其休眠解除所需的低温处理时间长,GA3不能破除,还延缓其休眠时间,萌发率也下降;而7月下旬后的鳞茎,短时间低温或施用GA3均能破除其休眠,提高鳞茎的发芽率和发芽整齐度;乙烯在任何阶段都有助于水仙鳞茎休眠的解除。自然条件下7月下旬前水仙鳞茎可能是内生休眠,其休眠较难打破,需要长时间的低温或施用适当浓度的乙烯,7月下旬后可能是环境休眠,短时间的低温、GA3或乙烯都能破除其休眠。     

葡萄休眠解除过程中冬芽组织活性氧与抗氧化系统的变化特征

以酿酒葡萄‘赤霞珠’(红)和‘霞多丽’(白)为试材,通过考察其自然休眠过程和打破休眠(单氰胺处理)过程中冬芽组织活性氧及抗氧化系统的变化,探讨葡萄休眠机制。结果表明:(1)在陕西杨陵地区,早熟品种‘霞多丽’在12月20日左右进入深度休眠,第2年1月29日进入休眠解除阶段;晚熟品种‘赤霞珠’在1月9日左右达到深度休眠,2月18日左右进入休眠解除阶段;单氰胺处理可促进葡萄休眠的解除。(2)葡萄休眠过程中,活性氧O2.-和H2O2含量在休眠初期逐渐增加,深度休眠时含量最高,休眠解除过程中含量降低,从而促进休眠的解除;超氧化物歧化酶(SOD)活性在休眠中一直降低,休眠解除后活性上升;过氧化物酶(POD)活性在休眠前期较低,随后活性上升,休眠解除过程中活性又降低;过氧化氢酶(CAT)活性在休眠过程中持续上升,随后维持在较高水平;抗坏血酸-还原态的谷胱甘肽(ASA-GSH)循环在休眠前期较弱,休眠解除过程中逐渐增强。研究发现,葡萄进入休眠后,其冬芽抗氧化能力逐渐降低,至深度休眠时抗氧化能力降至最低,随着低温积累需冷量得到满足,活化了抗氧化系统进而抗氧化能力迅速提高,休眠被解除。     

细叶楠种子休眠与萌发对低温层积的生理响应

细叶楠(Phoebe hui Cheng ex Yang)是我国特有的珍贵树种,种子具有生理休眠特性。本文以细叶楠种子为实验材料,研究不同低温层积处理时间(0、20、40、60 d)对细叶楠种子发芽率、营养物质(淀粉、可溶性糖、可溶性蛋白)、过氧化物酶(POD)以及内源激素脱落酸(ABA)、赤霉素(GA₃)、生长素(IAA)、玉米素核苷(ZR)的影响,分析细叶楠种子萌发与其生理指标的相关性。结果显示：(1)低温层积可以有效打破细叶楠种子的休眠,且处理60 d效果最佳。(2)在低温层积过程,细叶楠种子萌发时间缩短,发芽率提高;种子内淀粉含量降低,可溶性糖和可溶性蛋白含量升高;POD活性上升;ABA含量下降,GA₃、IAA含量增加,而ZR含量先上升后下降。(3)细叶楠种子休眠的解除与萌发与其体内营养物质含量、POD活性以及内源激素含量的变化密切相关。     

葡萄枝条水分含量变化与抗寒性关系

以12个葡萄品种1年生枝条为试材,通过0、-15、-18、-21、-24、-27、-30、-133℃8个低温处理24h后,测定不同低温胁迫下葡萄枝条的,6-含水量、束缚水含量、自由水含量和束缚水与自由水的比值。结果表明：随着处理温度的降低,同一品种枝条的总含水量基本恒定,自由水含量呈先下降再升高的趋势,束缚水含量和束缚水与自由水的比值均呈现为先升高再下降的趋势;束缚水与自由水的比值随低温胁迫的变化呈Cubic方程,不同品种束缚水与自由水的比值达到最高点的温度不同,‘双红’、‘北冰红’、‘左优红’的拐点温度在-25℃以下,‘775’、‘巨峰’的拐点温度在-20℃左右,‘雷司令’、‘黑比诺’、‘霞多丽’的拐点温度在-18℃左右,‘赤霞珠’、‘梅鹿特’、‘白比诺’、‘红地球’拐点温度在-16～17℃。对葡萄休眠枝条进行低温处理后,通过测定束缚水与自由水含水量变化鉴定葡萄品种的抗寒性是可行的。     

低温胁迫对2个茶树品种叶片叶绿素荧光特性的影响

以茶树〔Camellia sinensis ( Linn.) O. Ktze.〕品种‘黄金芽’(‘Huangjinya’)和‘迎霜’(‘Yingshuang’)为实验材料,研究了4℃低温胁迫1、2、4和6d对茶树叶片叶绿素荧光特性的影响。结果表明：4℃低温胁迫条件下2个茶树品种叶片的PSⅡ最大光化学效率( Fv/Fm )、PSⅡ潜在活性( Fv/F0)和表观光合电子传递速率( ETR)均显著低于各自的对照(25℃),且总体上随胁迫时间延长逐渐下降;‘黄金芽’叶片的光化学淬灭系数(qP)随低温胁迫时间延长持续下降且低于其对照,而‘迎霜’叶片的qP较其对照的变幅较小,且2个品种的qP总体上与各自的对照无显著差异;随低温胁迫时间延长,2个品种叶片的非光化学淬灭系数( NPQ)均先升高后降低,并在胁迫2 d时达到最高,且总体上高于各自的对照;而2个品种叶片的光合功能相对限制值( LPFD )均随低温胁迫时间延长而增大,且大多高于各自的对照。与各自的对照相比,低温胁迫条件下‘迎霜’叶片的各项叶绿素荧光参数的变幅总体上低于‘黄金芽’。研究结果显示：低温胁迫可直接损伤茶树叶片的PSⅡ反应中心,致使过剩的激发能大量积累于PSⅡ反应中心,最终导致茶树光合作用能力减弱。根据叶绿素荧光参数的比较结果,可以初步判定品种‘迎霜’的耐寒性优于品种‘黄金芽’。     

淹水胁迫对不结球白菜渗透调节物质含量的影响

以不结球白菜‘新矮青’品种为材料,研究了不同时间(1、3、5、7d)和不同程度(根淹、半淹、全淹)淹水处理及解除淹水恢复生长后叶片内渗透调节物质含量的变化规律。结果表明:(1)在根淹和半淹胁迫处理下,不结球白菜叶片中可溶性糖、可溶性蛋白和游离脯氨酸含量随处理时间的延长呈先上升后下降的趋势;全淹胁迫下,这3种渗透调节物质的含量随处理时间的延长出现不同程度的下降。(2)解除淹水恢复生长7d后,各处理组的不结球白菜叶片中渗透调节物质的含量在短期(1d)淹水下基本恢复正常,在长期淹水条件下未完全恢复;全淹处理组恢复能力较弱,而根淹处理组恢复能力相对较强;可溶性糖的恢复幅度高于可溶性蛋白和游离脯氨酸。     

低温处理对牡丹春节催花及营养类物质变化的影响

连续观察、测定了牡丹春节催花进程中不同低温天数处理对温室外自然低温解除休眠及温室内培养过程中形态及某些生理生化变化的影响,结果显示：低温处理34d后的11月28日温室外牡丹花芽形态及可溶性糖、淀粉、可溶性蛋白、游离氨基酸含量变化显著,11月28日左右是低温处理期间牡丹花芽代谢变化剧烈的时期;处理41d后的12月5口及以后移入温室的植株能够正常开花。以上结果从形态与营养物质变化的角度说明了11月28日左右牡丹花芽开始逐步解除休眠,12月5日花芽已彻底解除休眠,不同低温对牡丹春节催花过程中花芽的发育有着质的作用。     

低温胁迫对不同西葫芦品种幼苗生长与生理特性的影响

在昼/夜温度为10℃/5℃的低温胁迫下,对‘特早’、‘早青’、‘冬宝’3个西葫芦(Cucurbit pepoL.)品种的幼苗生长和生理生化指标的变化规律进行研究。结果表明,随着低温处理时间的延长,幼苗单株叶面积、单株干重均有一定程度下降,叶绿素总含量也呈下降趋势;各品种的根系活力显著下降,电导伤害率均明显升高;丙二醛含量在处理9 d时有所下降但整体呈现缓慢上升的趋势,脯氨酸含量呈现逐渐上升的趋势,且处理6 d是脯氨酸和丙二醛两指标测定的理想时期;处理幼苗的POD活性呈"V"字形变化趋势,抗寒性强的品种酶活性也较高,CAT和SOD活性则呈现出先上升后下降的趋势,三者活性均显著高于相应对照,且以处理6 d时酶活性受影响最大。各测定指标间表现出一定的交叉适应和协调性。研究发现,西葫芦耐冷性强弱可根据幼苗电解质渗透率结合根系活力或干物质积累来综合评判,品种‘冬宝’对低温具较强耐受性。     

植物生长调节剂浸球对花芽分化期石蒜和换锦花鳞茎生化特性的影响

在栽植前采用0(CK)、60、120和180 mg·L-16-BA、GA3和乙烯利对石蒜〔Lycoris radiata(L’Hér.)Herb.〕和换锦花(L.sprengeri Comes ex Baker)鳞茎进行浸球处理,对花芽分化期内(4月至7月)石蒜和换锦花鳞茎中可溶性糖、可溶性蛋白质和核酸含量的变化进行了比较分析。结果表明:在花芽分化期内,随时间的推移,对照组石蒜和换锦花鳞茎中可溶性糖、可溶性蛋白质和核酸含量呈先增加后降低的趋势,并在6月25日(心皮分化期)或7月10日(雌蕊分化期)达到最高值。经60、120和180 mg·L-16-BA、GA3和乙烯利浸球处理后,石蒜和换锦花鳞茎中可溶性糖、可溶性蛋白质和核酸含量在花芽分化期内先逐渐增加,至6月25日或达到峰值后开始下降或继续升高;但与对照相比,随时间的推移,石蒜鳞茎中可溶性糖含量总体上有不同程度的增加,而换锦花鳞茎中可溶性糖含量或高或低无规律性的变化,但各处理组石蒜和换锦花鳞茎中可溶性糖含量均与对照间有差异;可溶性蛋白质含量在进入花原基形成期(5月10日)后始终维持在较高的水平;核酸含量在花芽分化期的前期维持在较低的水平,在雌蕊分化期迅速增加...     

Effect of low temperature on dormancy breaking and growth after planting in lily bulblets regenerated in vitro

Lilies regenerating on scale segments may develop dormancy in vitro depending on the culture conditions. The dormancy is broken by storage for several weeks at a low temperature (5 °C). The effect of the low temperature on sprouting, time of leaf emergence and further bulb growth was studied. Dormant and non-dormant bulblets were regenerated in vitro on bulb scale segments cultured at 20 °C or 15 °C, respectively. The low temperature not only affected the number of sprouted bulblets but also the time of emergence. The longer the cold storage, the faster and more uniform leaf emergence occurred. Both dormant and non-dormant bulblets grew faster after a low temperature treatment of six weeks. Thus, during dormancy breaking the tissue is prepared not only for sprouting but also for subsequent bulb growth. These processes are rather independent as low temperature stimulates growth in non-dormant bulblets whereas these bulblets sprout also without treatment at low temperature. Moreover, the hormone gibberellin induces rapid sprouting but has no influence on further bulb growth. Good growth in bulblets exposed to the low temperature coincided with production of an increased leaf weight. However, the relationship is not absolute as bulblets that were cold-treated for six weeks grew larger than bulblets cold-treated for four weeks but the formation of leaf biomass was similar. During storage at low temperature starch was hydrolyzed in the bulb scales and sugars accumulated. This indicates that during this period, preparation for later bulb growth involves mobilization of carbohydrate reserves which play a role in leaf growth and development of the photosynthetic apparatus. Starch hydrolysis proceeded in the outer scales after planting. Approximately six weeks later, the switch from source to sink took place in the bulblet, which became visible as a deposition of starch in the middle scales.     

Abscisic acid controls dormancy development and bulb formation in lily plantlets regenerated in vitro

Plantlets of lily regenerated in vitro from scale explants consist of scales and leaves from which the base of the petiole has swollen to a scale. Fluridone, an inhibitor of ABA-synthesis, applied during culture in vitro, inhibited the swelling of the petioles and promoted leaf formation. At high fluridone concentrations (10 or 33μ M ), swelling was completely blocked, and plantlets consisted of leaves only. Addition of ABA during the regeneration in vitro had the opposite effect and resulted in plantlets with scales only. When applied simultaneously with fluridone, ABA nullified the effect of fluridone. This demonstrates that bulb formation in lily is under the control of ABA. Lily plantlets regenerated in vitro on scale explants at 20 or 25°C were harvested after 11 weeks, and the leaves were removed from the bulblets. The bulblets were dormant and required a cold treatment to achieve rapid emergence after planting in soil. Fluridone added during the culture in vitro prevented the development of dormancy, and the bulblets did not require a cold treatment. The effect of fluridone was nullified by simultaneous addition of ABA. Bulblets harvested after 6 weeks of culture at 20°C had not yet developed dormancy. Bulblets regenerated at 15°C were only slightly dormant. In both types of bulblets, it is unlikely that the lack of dormancy was due to low ABA-levels since addition of ABA did not affect the dormancy status. These data indicate that the level of endogenous ABA and an unknown additional factor play major roles in the development of dormancy.     

Changes of abscisic acid and auxin as related to dormancy breaking ofAllium wakegi bulblets by vacuum infiltration and BA treatment

Dormant bulblets of the sterile green onion,Allium wakegi, broke dormancy and sprouted when infiltrated with water for 1 h at the reduced pressure of 25 kPa or when dipped in 20 ppm of benzylaminopurine (BA) for 1 h at normal (100 kPa) or reduced pressure. One day after the treatment, the abscisic acid (ABA) contents greatly decreased in bulblets treated with BA at both reduced and normal pressure as well as in bulblets treated with water at reduced pressure. The ABA content of bulblets dipped only in water at normal pressure remained relatively high throughout the study. Changes in 2-trans-abscisic acid (t-ABA) and IAA content of bulblets showed no correlation with breaking of dormancy. Dormancy breaking ofAllium wakegi bulblets appears to be related to a sharp decrease in ABA content in the bulblets as a result of water infiltration or BA treatment.     

ABA content and sensitivity during the development of dormancy in lily bulblets regenerated in vitro

We measured ABA content and sensitivity in bulblels of Lilium speciosum Thunb , regenerating from scale explants in vitro at temperatures (15, 20 or 25°C) that allowed the development of various levels of dormancy (very low, intermediate or high, respectively). The one-step purification and the accuracy of the immunoassay were confirmed by HPLC and by liquid chromatography/mass spectrometry. ABA content was not correlated with dormancy development. Sensitivity to ABA was determined as the difference in sprouting performance of excised bulblets on medium with and without ABA. In bulblets regenerating at 20 or 25°C. ABA sensitivity was high during the period of dormancy establishment and decreased thereafter. Dormant hulblets were almost completely insensitive to ABA. The changes in sensitivity to ABA were confirmed by measuring the level of ABA in bulblets at the time of sprouting. This level was, as expected, highest in bulhlels with low ABA-sensitivity. Briefly cold-treated bulblets, in which dormancy may he re-established by culture at 20°C, again became sensitive to ABA. ABA sensitivity decreased with increasing temperature bulblets that regenerated at I5°C and hardly developed any dormancy, were very sensitive to ABA. It was concluded that in addition to ABA sensitivity another, still unknown, factor played a key role in dormancy development.     

The development of dormancy in bulblets of Lilium speciosum generated in vitro. II. The effect of temperature

Upon harvest, lily ( Lilium speciosum Thunb. cv. Rubrum) bulblets generated in vitro under standard conditions (11 weeks at 20°C) were dormant and needed a cold treatment prior to planting. During culture in vitro at 20°C, the bulblets proceeded through three phases: (1) at first they were non–viable and non-dormant (up to 5 weeks), (2) then viable and non-dormant (5–9 weeks) and (3) finally viable and dormant (from 9 weeks onwards). At 15°C, the bulblets became viable but did not develop dormancy, even after protracted culture. The results suggest that the development of dormancy depends upon an accumulation of'heat units'occurring at temperatures higher than 15°0. At 25°C, the succession of the three phases occurred more rapidly than at 20°C and heat units were accumulated more rapidly. During the third period, the chilling requirement increased showing that heat units continued to be accumulated during this period.
Dormancy connotes an arrest of growth. In lily bulblets, however, the number of scales continued to increase after the induction of dormancy at 20 or 25°C. Many of the scales initiated before the onset of dormancy were formed by swelling of a petiole, whereas, after the onset of dormancy, all scales were formed directly from a primordium. We conclude that the development of dormancy corresponds to a switch in the development of the primordium. Thus, after the induction of dormancy the primordium lost the ability to become a leaf and always developed into a scale.     

In vitro bulblet production of Lachenalia

In vitro bulblet formation and subsequent transplanting of bulblets to soil were studied in order to develop a cost-effective method for the mass production of three Lachenalia varieties. Clumps of adventitious shoots regenerated from leaf explants were used. Bulblet formation was initiated after 2 weeks when shoots were subjected to low temperature (4–15 °C). The size (age) of the adventitious shoot affected the bulblet size, and shoots shorter than 4 mm did not form bulblets. Larger bulblets formed on medium containing 6% sucrose compared to 3% sucrose. Following bulblet initiation, illumination was not necessary for the completion of bulblet formation. Bulblets went into dormancy 3–4 months after they had been initiated or when the culture medium dried out, and they were released from dormancy when the natural night temperatures started to decrease in the late summer. The survival rate of the bulblets after transplanting was directly correlated to the size of the bulblets.The most important factors influencing in vitro bulblet formation of Lachenalia were sucrose concentration, temperature and length of explant shoots. Received: 12 June 1998 / Revision received: 8 September 1998 / Accepted: 23 September 1998     

Effect of Methyl Jasmonate on Morphology and Dormancy Development in Lily Bulblets Regenerated In Vitro

Scales of lily bulbs are swollen petioles. Lily scale fragments cultured in vitro regenerate bulblets consisting of scales that may or may not carry a leaf blade. The bulblets are dormant and require a cold treatment to sprout. We added the gaseous plant growth regulator methyl jasmonic acid (MeJA) in the headspace of the tissue-culture container and studied the effect on plantlet morphology (scale/leaf-blade formation) and dormancy development in three lilies, Lilium speciosum “Rubrum No. 10,” L. longiflorum “Snow Queen,” and the Asiatic hybrid “Connecticut King.” Methyl jasmonic acid strongly reduced leaf-blade formation in Lilium longiflorum and Connecticut King. This was a specific effect as scale formation was affected much less. The specific inhibition of leaf-blade formation was not observed in Lilium speciosum. In this lily, high concentrations of methyl jasmonic acid (MeJA) inhibited leaf-blade and scale formation to similar extents. Methyl jasmonic acid reduced dormancy development in all three lilies, with the largest effect observed in Connecticut King. In this Asiatic hybrid, almost all bulblets that had regenerated at 300 or 1000 μl l⁻¹ MeJA in the headspace, did not require a dormancy-breaking treatment to achieve sprouting after planting in soil. Previously, it has been found in lily that treatments that reduce leaf-blade formation promote dormancy development. The present findings with MeJA do not agree with this. In the three lilies, the various parameters that were studied—regeneration, scale weight, leaf-blade weight, and dormancy development—were very differently affected by MeJA.     

5℃低温对转SOD或POD基因烟草影响的研究

对盆栽9叶龄的3个烟草近等基因系进行5℃低温处理。测定处理2d、4d和6d以及处理6d后恢复生长2d和4d烟草叶片的生理生化指标,观察处理2d、4d和6d后恢复生长7d烟草的生长情况。结果表明随着低温处理时间的延长,细胞质膜透性、丙二醛含量、可溶性蛋白质和糖含量均升高;SOD活性则开始下降随后升高,但始终低于对照;低温造成株高、叶片数和生物量显著下降。     

低温条件下拔节期小麦叶片内源激素含量和抗氧化酶活性的变化

以扬麦16和徐麦30为试验材料,利用人工气候室模拟低温逆境,研究拔节期-3 ℃和-5 ℃低温胁迫对小麦植株受冻率、叶片内源激素含量和抗氧化酶活性的影响.结果表明： 随着处理温度的降低、胁迫时间的延长,小麦植株冻害等级与冻害指数增加,-5 ℃处理72 h两品种五级冻害率均为100%.低温处理结束当天,小麦叶片中内源激素脱落酸（ABA）、玉米素核苷（ZR）含量、抗氧化酶超氧化物歧化酶（SOD）、过氧化物酶（POD）、过氧化氢酶（CAT）活性随胁迫程度加重呈先升高后降低的趋势;处理结束后3 d,ABA、ZR含量及抗氧化酶活性较处理结束当天升高;至处理结束后6 d,与自然生长的对照处理接近.低温胁迫叶片中赤霉素（GA₃）含量下降,处理结束后3和6 d,扬麦16叶片中GA₃含量呈上升趋势,徐麦30则表现为先升高后下降.-5 ℃ 72 h重度胁迫处理叶片中ABA、ZR、GA₃含量和SOD、POD、CAT活性均较对照显著下降.相关分析表明,较高的ABA、ZR含量、SOD、POD、CAT活性以及较低的GA₃含量可减缓低温胁迫对小麦植株的伤害.     

Sodium-calcium interactions in two wheat species differing in salinity tolerance

White spruce [ Picea glauca (Moench) Voss.] seedlings were used to study the changes in cell wall composition and elasticity in mature needles before and after the resumption of growth following winter dormancy. Dormant seedlings showed high cell wall elasticity that decreased after the resumption of shoot growth. Cell wall hemicellulose content increased 3 days after planting and decreased after the buds flushed. Non-cellulosic glucose and arabinose were the sugars showing the most pronounced changes related to shoot growth. Arabinose was the most abundant sugar residue in the pectin and hemicellulose fractions and it decreased until day 10 after planting. At the same time, the levels of glucose in pectin and hemicellulose increased. The results provide evidence for cell wall carbohydrate turnover in dormant and active seedlings before and after bud flushing.