缺磷胁迫下不同长豇豆品种幼苗的解剖结构

研究了不同长豇豆[Vigna unquiculata W. ssp. sesquipedalis (L.) Verd]品种幼苗在缺磷胁迫下的形态结构变化.结果表明:缺磷胁迫下,耐缺磷品种‘芦花白'的叶片和海绵组织厚度增幅较大,栅栏组织厚度与海绵组织厚度的比值减小,气孔密度增幅较小;茎和茎导管直径增大,且比不耐缺磷的品种‘二芦白'大;根直径变小,根量增加,这使其在缺磷胁迫下能保持较强的养分和水分吸收、输导能力和光合能力.缺磷胁迫下,长豇豆叶表皮气孔密度增大,气孔蒸腾加强,促进了水分和磷从根部向上运转及磷的被动吸收.不耐缺磷品种‘二芦白'的气孔密度增加幅度较大,促进磷吸收运转的强度较大,为避免过多失水,栅栏组织厚度及栅栏组织与海绵组织厚度的比值增加较大,减弱了非气孔蒸腾的强度.     

营养液低氧胁迫对网纹甜瓜幼苗脯氨酸和多胺含量的影响

营养液中低氧胁迫下网纹甜瓜幼苗根系和叶片中脯氨酸、PAs含量均提高,Spd升幅最大,Put次之,spm最小;根中脯氨酸、PAs含量变化幅度显著高于叶片.表明营养液低氧胁迫可诱导植物组织中脯氨酸、PAs的快速合成.这可能是幼苗低氧耐性提高的原因.     

渗透胁迫和缺磷对小麦幼苗生长的影响

水培条件下缺磷小麦幼苗的叶片含水量和叶绿素含量显著降低,丙二醛含量增加,小麦幼苗生长受抑,地上部分生长受到的影响大于根系,上述指标的变化幅度还与缺磷程度呈正相关,且不耐低磷品种中国春大于耐低磷品种烟中144。在相同条件下,渗透胁迫和缺磷两者表现出胁迫加剧的现象。     

NO缓解玉米幼苗盐胁迫伤害的生理机制

以玉米幼苗为材料,通过NO的供体硝普纳(SNP)的合成抑制剂L-NAME和NaN3、清除剂cPTIO组合处理,分析外源NO和IAA对盐胁迫下玉米幼苗生长,以及NO对盐胁迫下玉米幼苗叶片和根尖IAA含量、IOD和POD活性的影响,以探讨NO与IAA在提高植物抗盐性中的关系.结果表明,盐胁迫下,SNP和IAA均能显著促进玉米幼苗株高、主根长和侧根数的增加;SNP能显著提高玉米幼苗叶片和根尖IAA含量,降低IOD和POD活性;L-NAME和NaN3及cPTIO均能有效减弱SNP诱导的IAA含量的增加.由此可见,在盐胁迫条件下,NO信号可能位于IAA信号的上游,它通过促进玉米幼苗內源IAA的积累缓解盐胁迫对其生长的抑制.     

甘蓝型油菜苗期生长阶段对NaCl胁迫的生理响应

以甘蓝型油菜自交系2205(强耐盐型)、487(中耐盐型)和1423(敏盐型)为材料,采用土培+水培方法于五叶期研究了0(无盐胁迫,CK)、60 mmol·L-1(低盐)、120 mmol·L-1(中低盐)、180 mmol·L-1(中盐)、240mmol·L-1(高盐)NaCl胁迫后的叶片MDA、可溶性糖、甜菜碱和叶绿素含量的变化特征,为油菜耐盐性评价提供理论依据。结果显示:(1)叶片MDA含量在低盐和中低盐胁迫下降低且显著低于CK,在中盐和高盐胁迫下显著升高,并以品系2205含量最低且升幅最小,品系1423最高且升幅最大。(2)叶片可溶性糖含量在低盐和中低盐胁迫下减少(但2205在中低盐胁迫下显著高于CK),在中盐和高盐胁迫下升高且显著高于CK,并以品系2205含量最高增幅最大且显著高于品系487和1423,品系1423含量最低且增幅最小。(3)叶片甜菜碱含量随NaCl浓度升高增加,品系2205和487在中低以上盐浓度胁迫下显著升高,品系1423仅在高盐胁迫下显著升高,并以品系2205含量最高且增幅最大,1423含量最低且增幅最小。(4)叶片叶绿素含量在低盐和中低盐胁迫下显著增加,且以2205叶片叶绿素含量最高且增幅最大,但在中盐和高盐胁迫下显著减少,并以品系1423含量最低且降幅最高。研究表明,120mmol·L-1以下NaCl胁迫对油菜苗期生长可能有促进作用,180mmol·L-1以上NaCl胁迫则有明显抑制作用,且NaCl浓度越高油菜受伤害越重;油菜苗期生长阶段,NaCl胁迫浓度在120~180mmol·L-1时各生理指标发生显著变化,可能是鉴定耐盐性强弱的适宜浓度;综合分析认为,品系2205具有强的耐盐性,品系1423耐盐性最差,这与之前萌芽期和幼苗期鉴定结果一致。     

桉树幼苗对难溶性磷的吸收及其根系对低磷胁迫的响应

以‘广林9号’桉树幼苗为试验材料,采用水培和土培试验方法研究了桉树幼苗对难溶性磷酸盐的吸收及其在低磷胁迫下的根构型和根系的生理反应,以揭示桉树高效吸收磷素的机制。结果显示:(1)桉树幼苗在含磷酸铝的缺磷培养液中吸收的磷达4.24mg/株,与供应水溶性磷和磷酸钙处理的相当。(2)土壤缺磷或仅在上土层(0~20cm)施磷肥处理均有利于桉树幼苗浅层根的分布,使根表面积及根数在上土层与下层(20~40cm)比值明显增高。(3)桉树幼苗根尖的H+-ATPase活性在缺磷处理15d后显著提高,其根尖周围的溴甲酚紫指示剂变黄,根基环境明显酸化;根尖分泌的酸性磷酸酶活性在低磷胁迫也显著提升,且随着处理时间(10、15、20d)的延长而进一步提高;铝和低磷胁迫能明显诱导桉树根系分泌草酸,其分泌量显著高于对照和缺磷处理。研究结果表明,桉树幼苗具有较强的难溶性磷吸收能力,而在缺磷及磷铝胁迫下根系的浅层化、根尖酸化及根分泌的酸性磷酸酶及草酸量增加可能是桉树幼苗适应酸性土壤铝毒和缺磷环境的重要机制。     

低温胁迫下喜旱莲子草幼苗膜脂过氧化及保护酶活性的变化

分别在2℃和8℃低温胁迫下,对入侵种喜旱莲子草幼苗抗氧化酶活性进行了研究。与常温28℃的结果相比较,MDA含量、细胞膜透性在8℃条件下变化不明显,2℃处理36h后均显著上升。2℃时SOD、CAT和POD活性在较短时间内(12h)显著升高,随后逐渐下降,CAT活性在48h后受到低温胁迫的严重抑制。8℃处理条件下3种保护酶活性在48h内均有显著升高,但升幅明显小于2℃处理的升幅。8℃低温处理不是抑制而是促进了3种保护酶活性的提高。复温结果显示,8℃低温胁迫的喜旱莲子草幼苗和对照无生长差异,2℃低温胁迫下幼苗表现出形态特征差异。     

盐胁迫环境下不同抗盐性小麦品种幼苗长势和内源激素的变化

采用两种浓度NaCl溶液,对不同抗盐性小麦品种德抗961(抗盐性强)和泰山9818(抗盐性弱)萌发期幼苗进行胁迫处理,观察其幼苗长势和内源激素含量变化.结果表明,盐胁迫抑制小麦幼苗生长,抗盐性弱的泰山9818受抑制较重.苗、根ABA含量随盐胁迫浓度增加而提高,泰山9818的增幅高于德抗961.苗、根IAA含量随盐胁迫浓度增加而降低,但德抗961的IAA含量高于泰山9818,说明盐胁迫下抗盐性强的品种具有较高IAA合成量.2品种GA3含量变化因盐胁迫浓度而异.在低盐胁迫下抗盐性强的品种苗中GA3含量提高以适应盐胁迫利于苗的生长,在高盐胁迫下2品种GA3含量降低.盐胁迫使苗中ZR含量增加,且德抗961的苗中ZR含量高于泰山9818,而根中ZR含量则前者低,说明盐胁迫下抗盐性强的品种可迅速将根部合成的ZR向苗中转移,促进苗的生长.2品种IAA/ABA、GA3/ABA比值随盐胁迫浓度增加和时间延长而下降,德抗961 IAA/ABA比值大于泰山9818.在盐胁迫下,抗盐性强的品种协调自身激素平衡的能力较强可能是其生长受抑制较小的重要原因.     

不同磷效率小麦品种的磷吸收特性

在丰磷、缺磷条件下,对不同磷效率小麦品种的磷吸收特性进行研究。缺磷条件下,不同磷效率品种成熟期的植株全磷量和生育中后期（挑旗-成熟期）植株磷累积量均以磷高效品种最高,中效品种次之,低效品种最低。不同磷效率品种拔节期、挑旗期和成熟期的磷利用效率差异较小。表明磷高效小麦品种在缺磷条件下子粒产量形成能力的提高。与生育中后期植株具有相对较强的磷素吸收能力有关。缺磷条件下,不同磷效率品种在生育中后期的根系TTC还原力和可溶蛋白含量也以高效品种最高,中效次之,低效最低。表明磷高效小麦品种植株生育中后期根系具有较强的生理功能,是其在缺磷务件下吸磷量增加、产量相对明显提高的重要生理基础。研究表明,不同磷效率小麦品种在磷胁迫条件下的根系酸性磷酸化酶（APase）活性存在显著差异,并在小麦磷吸收效率的调控中具有重要作用。     

外源IAA对NaHCO3胁迫下黄瓜幼苗光合特性和抗氧化系统的影响

以黄瓜‘津研四号’幼苗为试材, 采用Hoagland营养液栽培, 研究了不同浓度（0、0.01、0.1、1和10 μmol·L-1） IAA处理对50 mmol·L-1 NaHCO3胁迫下黄瓜幼苗光合特性及抗氧化系统的影响。结果表明, 碱胁迫对黄瓜幼苗的生长有抑制作用, 0.01-1 μmol·L-1外源IAA处理可显著增加黄瓜幼苗的生物量; 使叶中Na＋积累降低, K＋积累增加, 且IAA的缓解效果具有浓度效应。叶绿素a、叶绿素b和类胡萝卜素含量提高, 净光合速率（Pn）和气孔导度（Gs）增加, 以1 μmol·L-1 IAA处理的效果最好。添加1 μmol·L-1外源IAA显著提高了碱胁迫下黄瓜叶中超氧化物歧化酶（SOD）、过氧化物酶（POD）、抗坏血酸过氧化物酶（APX）、脱氢抗坏血酸还原酶（DHAR）和谷胱甘肽还原酶（GR）的活性及还原型抗坏血酸（AsA）和谷胱甘肽（GSH）的含量, 降低了碱胁迫诱导的活性氧积累和膜脂过氧化反应; 而10 μmol·L-1外源IAA处理则加剧碱胁迫对黄瓜幼苗的危害。     

长白落叶松插穗的内源激素水平及其与扦插生根的关系

长白落叶松 (Larixolgensis)扦插繁殖的试验结果表明 ,嫩枝扦插效果好于硬枝扦插 ,并且母树年龄是影响其扦插生根的重要因子。母树年龄为 2年生时 ,生根率达 95 %以上。本文在此试验的基础上 ,对嫩枝和硬枝插穗中内源植物激素水平进行了测定。结果发现嫩枝插穗中IAA、CTKs的含量要高于硬枝插穗中IAA、CTKs的含量 ,并且随母树年龄的增加而降低 ;相反 ,嫩枝插穗中ABA含量要低于硬枝插穗中ABA的含量 ,并且随着母树年龄的增加而增加。实验结果表明 :IAA、ABA的含量和扦插生根有密切关系。IAA促进生根 ,ABA抑制生根。IAA/ABA比值可以用来衡量长白落叶松的生根能力     

Effects of Indol-3yl Acetic Acid on the Citrate-Condensing Reaction by Preparations of Root and Shoot Tissue

Preparations of citrate condensing enzyme (citrate oxaloacetate-lyase(CoA-acetylating) E. C. 4. 1. 3. 7) from root and shoot tissueof 5-day-old bean seedlings (Phaseolus vulgaris L., var. Burpee'sStringless Greenpod) had different activities, expressed asreaction rate per unit of fresh tissue. Activity per mg proteinwas increased when protein concentrations of the preparationswere reduced by dilution. Addition of indol-3yl acetic acid(IAA) enhanced activity of both root and shoot preparations.The effect was optimal at a concentration of 1.25x10^-4 M andthe enzyme was inhibited at 1.25x10^-3 M. Enhanement was greaterin root than in shoot preparations and in mixtures of equalamounts of each prepartion activity was intermediate betweenthose of the separte enzymes in absence of IAA but in its presenceapproached that of the shoot preparation. Apparent citrate synthesis in vivi was increased in shoots by application of IAA but therewas no such effect in roots.     

叶片淋洗对盐胁迫下玉米生长和矿质营养的影响研究

研究了叶片淋洗对NaCl胁迫下两个不同耐盐性玉米品种生长和体内矿质营养含量的影响,结果表明：无盐胁迫时,两品种PH3．5淋洗处理的生物量明显下降,加盐（100mmol/L NaCl)时,各淋洗处理间无明显差异,PH7．0和3．5淋洗降低农大3138（耐盐中等品种）盐胁迫时茎叶钠含量,茎叶钾含量在不加盐时升高,加盐时降低,而高油115（盐敏感品种）两元素变化小,高油115pH3.5淋洗处理在不加盐时增加茎叶钙的含量,加盐时无影响,农大3138不加盐时淋洗对钙无影响,加盐时含量降低,根系3元素含量变化小,盐胁迫降低玉米生物量,提高茎叶和根系钠,钙含量,降低钾含量。     

水培条件下不同磷水平对毛竹实生苗生长发育的影响

以毛竹(Phyllostachys edulis)实生苗为材料,采用Hoagland营养液水培方法,研究不同磷浓度下毛竹生长、根系发育、激素含量等的差异。结果表明:磷浓度较低时,可以促进毛竹实生苗根系长度及根系总表面积的增长。随着磷浓度的增加,实生苗生物量干重及根冠比呈先上升后下降趋势,磷浓度为1 mmol L-1时达到最大。无磷处理时,根中的IAA、ZR、GA3和ABA等4种内源激素含量随着处理时间的延长均先升高再降低;其他浓度磷处理根中IAA、ZR和GA3(0.5 mmol L-1磷除外)含量随着处理时间的延长大致呈先降低后升高的趋势,而ABA(0.5 mmol L-1磷除外)含量随着处理时间的延长变化不明显。不同浓度磷处理,叶片中IAA、GA3和ABA含量总体上呈下降趋势,ZR含量总体上呈上升趋势。以上结果表明不同浓度的磷处理对毛竹内源激素含量的变化有显著的影响,而内源激素含量变化与毛竹实生苗根系变化密切相关。     

Levels of endogenous indole-3-acetic acid and indole-3-acetylaspartic acid during adventitious root formation in pea cuttings

Levels of endogenous indole-3-acetic acid (IAA) and indole-3-acetylaspartic acid (IAAsp) were monitored in various parts of leafy cuttings of pea ( Pisum sativum L. cv. Marma) during the course of adventitious root formation. IAA and IAAsp were identified by combined gas chromatography—mass spectrometry, and the quantitations were performed by means of high performance liquid chromatography with spectrofluorometric detection. IAA levels in the root forming tissue of the stem base, the upper part of the stem base (where no roots were formed), and the shoot apex remained constant during the period studied and were similar to levels occurring in the intact seedling. A reduction of the IAA level in the root regenerating zone, achieved by removing the shoot apex, resulted in almost complete inhibition of root formation. The IAAsp level in the shoot apex also remained constant, whereas in the stem base it increased 6-fold during the first 3 days. These results show that root initiation may occur without increased IAA levels in the root regenerating zone. It is concluded that the steady-state concentration is maintained by basipetal IAA transport from the shoot apex and by conjugation of excessive IAA with aspartic acid, thereby preventing accumulation of IAA in the tissue.     

Isoenzyme Patterns of Root and Shoot in the Early Growth of Wheat

Isoenzyme patterns of peroxidase, catalase, glucose-6-phosephate, glutamate and isocitrate dehydrogenases, esterase, amylase and IAA oxidase in the embryos, endosperms, roots and shoots of wheat seedlings (Triticum aestivum L. var. Nung-da 139) were determined by horizontal starch gel electrophoresis and polyacrylamide gel disc electrophoresis respectively. The number of isoenzymes of peroxidasc and amylase was increased with the concomitant increase of days during germination. The isoenzyme bands of esterase, glutamate, glucose-6-phosphate and isocitrate dehydrogenases in the embryos were more in the begining of germination. The activities of pero- xidase, IAA oxidase and glutamate dehydrogenase in roots were higher than those in shoots. On the contrary, the activities of catalase and glucose-6-phosphate dehydrogenase in shoots were higher than those in roots. However the activity of esterasc was slight higher in shoots. There was no difference in the activity of isocitrate dehydrogenase between roots and shoots. The morphological difference of shoot and root is evidently related to isoenzyme patterns. This investigation indicates that different metabolic characters are existed in shoot and root during differentiation.     

Enhancement of Naphthaleneacetic Acid-Induced Rhizogenesis in T(L)-DNA-Transformed Brassica napus without Significant Modification of Auxin Levels and Auxin Sensitivity

Determination of the abscisic acid and indoleacetic acid (IAA) contents of floral stem segments of nontransformed and pRi A₄ T_L-DNA-transformed rape (Brassica napus L. var oleifera, cv Brutor) using a high performance liquid chromatography-enzyme-linked immunosorbent assay procedure and mass spectrometry controls showed that IAA levels were not modified. The regeneration abilities of the in vitro cultured explants were compared on media supplemented with several plant growth regulator combinations. No regeneration occurred on hormone-free media, and shoot production was similar in both genotypes when supplemented with benzyladenine. In the presence of naphthaleneacetic acid (NAA), transformed explants were characterized by faster root regeneration and reduced shoot organogenesis. The optimum for root formation was the same in nontransformed and transformed plants, but the sensitivity threshold was slightly lower in the latter. The NAA inductive period was shorter (14 versus 22 h) with transformed tissue. Root neoformation occurred about 72 h earlier on transformed explants. Our results suggest mainly that there is an acceleration of the auxinic signal transduction and/or that the events preliminary to the formation of roots occur faster in the transformed tissues than in the normal ones.     

NO and IAA Key Regulators in the Shoot Growth Promoting Action of Humic Acid in Cucumis sativus L.

Previous studies have reported that a purified sedimentary humic acid (PHA) was able to increase the concentration of nitric oxide (NO), indole-acetic acid (IAA) and ethylene in cucumber roots. Here, we investigated if these effects are functionally related to the ability of PHA to improve shoot growth. The effect of specific inhibitors of NO, IAA and ethylene functionality and signaling on PHA-induced shoot growth was studied. Likewise, the effect of these inhibitors on the synthesis and activity of the phytoregulators concerned by PHA action in cucumber roots was also explored. The results show that shoot growth promoted by PHA is due to an increase of IAA concentration in the root through both a NO-dependent and a NO-independent pathway. In addition, the increased ethylene production in the root is regulated by an IAA-dependent pathway. Finally, results also showed that the increase of ABA concentration in the root is regulated through both IAA- and ethylene-dependent pathways. In summary, the shoot growth promoting action of PHA involves a complex hormonal network. On one hand, the PHA action is functionally linked to increments in NO and IAA concentration in roots. And on the other hand, PHA action also increases ethylene and ABA root concentration mediated by NO-IAA dependent pathways.     

Effect of Deseeding on the Indole-3-acetic Acid Content of Shoots and Roots of Zea mays Seedlings

We wished to determine the effect of endosperm removal on the amounts of free and esterified indole-3-acetic acid (IAA) in young Zea mays seedlings. The increases of IAA derived from endosperm and from biosynthesis, but without correction for catabolic losses, were 0.9 picomole of free IAA per shoot per hour, and 1.1 picomoles per shoot per hour of ester IAA. After deseeding, free IAA in the shoot declines by 40% following kernel removal and total (free + ester) IAA declines at a rate of about 1 picomole per shoot per hour. A slight, but insignificant increase of ester IAA occurs following endosperm removal. In the primary roots, the decreases of free IAA and total (free + ester) IAA are accelerated by seed removal. Thus, the endosperm appears to be a major source of IAA for the shoot and root.     

The effect of zeatin and iso-pentenyladenine on IAA transport from the shoot to the root of Pinus pinea seedlings

The tips of the tap roots of Pinus pinea seedlings were dipped in zeatin or iso-pentenyladenine solutions. Immediately after cytokinin application to the root tip or after a 24 h lag phase, [2-¹⁴C]IAA was applied to the shoot apex. Treating with zeatin resulted in an increase in [2-¹⁴C]IAA transport from the shoot to the root. Iso-pentenyladenine also caused a slight increase in transport of radioactivity to the root but this was less pronounced compared to the results obtained with zeatin. With zeatin treatment increasing amounts of radioactivity accumulated in the lateral root emerging zone of the tap root (Section III). This was in sharp contrast to the treatment with iso-pentenyladenine where little radioactivity accumulated in this section of the root. Recovery of radioactivity 48 h after applying [2-¹⁴C]IAA showed that 33% of the recovered radioactivity co-chromatographed with authentic IAA. The implications of the effect of different cytokinins on the distribution of radioactivity along the tap root of Pinus pinea following [2-¹⁴C]IAA application to the shoot are discussed.Abbreviations Z zeatin - iP iso-pentenyladenine - TCL thin-layer chromatography