几种化学药剂对悬铃木碳氮比值和花芽分化的影响

四种化学药剂处理的悬铃木,其冬季糖和氮含量均高于对照,春季则相反;并对新梢伸长有促进,对粗度有抑制效应;其中经ＧＡ３和乙硫氨酸处理的Ｃ／Ｎ比值增大,新梢成花量增加;乙烯利和２硫尿嘧啶处理的Ｃ／Ｎ比值减小,新梢成花量显著减少。从而为选用减灭悬铃木球果药剂提供理论依据     

遮光对蚕豆花荚形成和脱落的影响

本文旨在研究蚕豆开花前后不同时期光照强度对花荚形成和脱落的影响。产量补偿能力以及花荚形成和脱落的生理生态原因。蚕豆花前遮光,开花总数和结荚数降低,但花荚脱落率下降,粒重增加。花期和花后遮光,对开花总数没有明显影响,但花荚脱落严重,减产最多。任何时期遮光均使比叶重、遮光后期叶绿素含量、光合生产量、生殖器官干物质分配率,可溶性糖和含N量下降,但成熟期可溶性糖和含N量,营养元素吸收量不受影响。遮光导致花荚形 成和产量减少的主要原因是C／N比值下降,而不是改变营养元素的丰度所致。     

去除顶端优势对菊芋器官C、N、P化学计量特征的影响

以不同时期顶端优势去除处理的菊芋为研究对象,通过测定根、茎、叶、花和块茎等器官C、N、P含量,计算C∶N、C∶P和N∶P比值,探讨顶端优势去除对菊芋各器官C、N、P化学计量特征的影响规律。结果表明:各器官之间C含量高低顺序没有因去顶而改变,氮和磷含量高低顺序因去顶而表现出不同的大小关系;顶端优势去除提高了茎秆、块茎和分枝的C含量,除最后一次顶端优势去除提高了叶片C含量,其它顶端优势去除时间均降低了叶片含量;顶端优势去除降低了根系、茎秆和块茎N含量,提高了分枝和花的含N量;顶端优势去除提高了叶片和块茎的含P量;C∶N范围为24.15—153.75、C∶P范围为118.87—2265.72、N∶P范围为2.46—24.05,N∶P平均值为10.67,说明菊芋生长主要受N元素的限制。     

萘乙酸与多效唑对茉莉成花及新梢内源激素含量的影响

在茉莉开花前期分别使用不同浓度NAA与PP333均匀喷施于植株茎、叶片等生长部位,对其新梢与花蕾生长及其4种内源激素--生长素(IAA)、赤霉素(GA)、脱落酸(ABA)、玉米素核苷(ZR)的含量变化进行分析.结果表明:(1)NAA处理使茉莉新梢徒长,成花比对照推迟2～4 d;PP333处理的茉莉新梢矮化,而成花比对照提早2～4 d.(2)NAA处理后,茉莉新梢中IAA与ABA含量处理初期较高,后快速下降,后期稳定在较高水平;GA含量稍低于对照,ZR含量降低并稍低于对照.PP333处理后,茉莉新梢中IAA与ABA含量初期较高,而后缓慢下降;GA含量与对照一样快速上升;ZR含量在初期含量较高,后缓慢下降,但较对照稳定在较高水平.(3)PP333处理的茉莉植株新梢中ABA/IAA、GA/IAA、ZR/IAA比值在处理后迅速上升,特别是GA/IAA、ZR/IAA比值明显高于对照,而相应NAA处理的3个比值与对照无明显差异.可见,经NAA与PP333处理能明显调节茉莉新梢及花蕾生长进程,保持较高水平的内源激素GA、ZR、GA/IAA、ZR/IAA比值在茉莉新梢及花蕾生长过程中起关键作用.     

多效唑对琯溪蜜柚枝梢生长和越冬期叶片糖、水分状态的影响

本试验探讨了不同浓度多效唑(PP333)对琯溪蜜抽枝梢生长和越冬期叶片淀粉、可溶性糖含量、束缚水/自由水比值的影响.结果表明,多效唑处理能提高越冬期叶片可溶性糖含量,增大束缚水/自由水比值,降低淀粉含量;多效唑处理使新梢长度、节间长度明显受抑制,新梢粗度增加,且随着使用浓度的增大作用增强.     

GA对茶树某些生理过程的影响

赤霉素(GA)不仅明显促进茶树体内贮藏的冬季~(14)C—同化物向新梢和根部分配,加速碳代谢,而且也明显提高春肥~(15)N的利用率和~(15)N向新梢中的分配;GA处理提高了根系中谷氨酸脱氢酶(GDH)活性,降低芽稍中吲哚乙酸氧化酶(IAAO)及过氧化物酶活性。本文对GA在茶叶生产上的正确应用提出了新的观点。     

氮素富集对青藏高原东缘窄叶鲜卑花灌丛根系分泌物碳输入的影响

为探究高寒灌丛生态系统根系分泌物碳(C)输入通量对大气氮(N)沉降的响应规律,该文以青藏高原东缘窄叶鲜卑花(Sibiraea angustata)灌丛为研究对象,采用根系分泌物野外原位收集法,分析了不同施N水平(对照N0=0 g·m~(–2)·a~(–1);低N处理N5=5 g·m~(–2)·a~(–1);高N处理N10=10 g·m~(–2)·a~(–1))对根系分泌物C输入速率与通量季节动态变化规律的影响。结果表明:(1)窄叶鲜卑花灌丛单位根生物量、单位根长、单位根表面积根系分泌物C输入速率均表现出明显的季节性动态变化,具体表现为8月6月10月,并呈现出与5 cm土壤温度相一致的变化趋势。(2)施N降低了窄叶鲜卑花灌丛单位根生物量、单位根长和单位根表面积根系分泌物C输入速率,但仅N10处理与对照(N0处理)间存在显著差异(p0.05)。(3)N5和N10处理下,窄叶鲜卑花灌丛细根生物量与N0处理相比分别降低了23.36%和33.84%。(4)由于施N导致根系分泌物C输入速率与细根生物量二者均显著降低,使得施N对窄叶鲜卑花灌丛根系分泌物C输入通量(g·m~(–2)·a~(–1))有显著的抑制作用,并随着施N浓度的增加抑制作用增大。推测其可能的原因是N素富集在一定程度上缓和了植物根系对养分的微生物驱动需求,从而降低了植物根系分泌物C输入通量,即N素富集条件下植物采取了低N收益-低C投入的生理策略。该研究结果对于进一步认知不同环境变化下高寒灌丛生态系统根系分泌物C输入及其介导的土壤生物C-养分循环过程具有重要的理论意义。     

武汉东湖优势浮游动物元素含量分析

利用武汉东湖不同季节各种浮游动物优势种的高峰期,选取了枝角类中的透明搔和透明薄皮溢,桡足类中的特异荡镖水蚤,轮虫中的矩形龟甲轮虫、前节晶囊轮虫、矩形臂尾轮虫、萼花臂尾轮虫,原生动物中的篮口虫及草履虫进行碳(C)、氮(N)、磷(P)含量分析,分别测出了上述各个种的C／N和C／P比值。就C、N、P的平均百分数看,原生动物所占的C、N、P的百分数最高,相反,其C／N与C／P比率则是最低的。透明薄皮溞所占的C％接近原生动物,特异荡镖水蚤和透明溢的C％相差不远。透明薄皮溢与特异荡镖水蚤的N％极为接近,而轮虫的N％和P％则仅低于原生动物。按实测数据计算的结果,东湖优势浮游动物的个体重(干)是其C含量的2．07—2．46倍。列举了各个种的个体碳、氮和磷量,并对一些较大个体给定了个体重与个体碳关系的回归方程式。     

低温条件下外源生理活性物质对棉铃发育的影响

和4月20日（正常播期）、6月15日（晚播）两个播期条件下．对棉花1～4果枝1、2果节棉铃及其对位果枝叶于花后15d和30d涂抹外源生理活性物质：6％蔗糖和0．6％符氨酰胺混合溶液（C＋N）、2％蔗糖和0．2％谷氨酰胺混合溶液（1／3C＋1／3N）及12%蔗精和1．2％谷氨酰胺混合溶液（2C＋2N）．各浓度处理的C／N比值相同。统计正常播期铃龄50d和纤维加厚发育期（铃龄25～50d）日均温分别为28．5℃、28．1℃．晚播铃龄50d和纤维加厚发育期日均温分刖为22．9℃、21．4℃（超过了相应的临界温度21℃和18℃）。试验结果表明．晚播条件下,花后15dC＋N处理以及花后30d 2C＋2N处理促进了氮和可溶性糖的运转．均使铃重增加最大,分别达0．40g和0．58g。3种浓度外源生理活性物质均增加了纤维素的累积量．且于花后30d促进了螺旋角（φ）和取向分布角（ψ）的优化．提高了纤维比强度．其中以2C＋2N处理提高纤维比强度幅度最大．达1．45cN／tex。花后15d以1／3C＋1／3N处理对提高纤维比强度最有利．达2．10cN／tex。     

黄土高原典型土壤有机氮矿化过程

以黄土高原从北向南不同地区典型土壤类为对象,采用Bremner淹水培养法,研究黄土高原典型土壤有机氮的矿化过程。结果表明,淹水培养期间矿化出的部分NH4^＋-N会被粘土矿物固定,固定量因土壤不同而异,因此在测定有机氮矿化量时,只有考虑这一部分氮素,才可获得可靠结果。不同土壤有机氮量矿化明显不同,表现为土垫旱耕人为土〉黄土正常新成土〉简育干润均腐土〉干润砂质新成土,从南到北氮素矿化量呈减小趋势。添加C／N低（C／N比为21．7）的紫花苜蓿（Medicago stativa）茎叶有利于促进土壤有机氮矿化,而添加C／N高（C／N比为43．3）的长芒草（Stipa bungeana）会促进矿质氮的生物固定;不同类型植被土壤间在培养20、40d和60d时的矿化量差异显著（P值分别为0．0177、0．0109和0．0073）,均表现为均为林地土壤〉裸地土壤〉草地土壤〉农田土壤;从平均看,加（NH4）2SO4后有机氮矿化量有一定减少。在不同培养阶段,不同土类间氮素矿化率不同,在20d和40d时存在显著差异（P分别为0．0092和0．0381）,60d时差异不显著,不同土类氮素矿化率的大小顺序为于润砂质新成土〉黄土正常新成土〉土垫旱耕人为土〉简育干润均腐土,这一结果说明在淹水条件下,黄土高原土壤从南到北易矿化氮所占全氮比例呈增加趋势。     

“Lateral Control”: Phytohormone Relations in the Conifer Treetop and the Short- and Long-Term Effects of Bud Excision in Abies nordmanniana

In a conifer tree, such as Nordmann fir, Abies nordmanniana Spach, the leader bud and its immediate surroundings play a decisive role in crown architecture. As subapical branch buds are segregated from the leader meristem, resource allocation between ortho- and plagiotropic growth is determined. The relationship between treetop buds in young trees was studied in the natural state and after surgical removal in early July of either the leader bud (decapitation) or the subapical whorl branch buds (destipitation). The two bud types showed consistent cytokinin profile differences but similar seasonal dynamics in cytokinins and auxin (IAA). After bud excision, ZRP increased dramatically in the subapical stem within 1 h, followed by ZR within 1 week. Supernormal levels of ZR were maintained through autumn and persisted in spring in the destipitated trees, but had returned to normal in the decapitated trees. The treetop buds remaining after bud excision experienced an immediate decrease in most cytokinins, followed, however, by a large surplus later in the season. The following spring this high level persisted in the leader bud of destipitated trees, but not in whorl buds of decapitated trees. Conspicuous growth pattern changes followed from destipitation, but few from decapitation. Growth reactions suggest that resource allocation to main branch buds inhibits leader growth in normal trees, a kind of “lateral control.” Auxin and ABA content in buds and stems was largely unaffected by treatments. Data suggest that subapical leader tissues beneath the apical bud group are a primary source of cytokinin regulation.     

AgNO3诱导的苦瓜纯雌系完全花分化与幼叶和花蕾中内源激素的关系

本文用酶联免疫检测（ELIsA）技术研究三叶-心期喷施AgNO3诱导苦瓜纯雌系完全花分化过程中花蕾与幼叶中内源激素含量变化。结果显示：喷施AgNO,后幼叶中IAA、GA,、ZR和ABA含量与喷水的相比,都是先下降后增加。AgNO3处理的花蕾中这4种激素含量在72h内没有一致变化规律,但变化幅度大于幼叶的,表明生殖器官的内源激素对苦瓜性别分化影响比营养器官的大。AgNO3处理后24-48h内,花蕾中这4种激素的含量明显低于喷水的,而其余时间则高于喷水的。此外,AgNO3处理的花蕾中ABA／IAA、ZR／I从和GA3／IAA比值也在2448h发生剧烈的变化,48h之后这些激素比值与喷水的相差不大。这些结果说明了AgNO3处理后24-48h是苦瓜纯雌系性别分化的关键时期,IAA可能是诱导纯雌系苦瓜雄性分化的关键激素。     

Relationships among shoot sinks for resources exported from nodal roots regulate branch development of distal non-rooted portions of Trifolium repens L

Two manipulative experiments tested hypotheses pertaining to the correlative control exerted by nodal roots on branch development of the distal non-rooted portion of Trifolium repens growing clonally under near-optimal conditions. The two experiments, differing in their pattern of excision to manipulate the number of branches formed at the first 9-10 phytomers distal to the youngest nodal root, each found that after 20 phytomers of growth the total number of lateral branches formed on the primary stolon remained between five and seven regardless of where the branches formed along the stolon. Additional treatments established that nodal roots influenced branch development via relationships among shoot sinks for the root-supplied resources rather than through variation in the supply of such resources induced by fluctuations in photosynthate supply to roots from branches. Regression analysis of data pooled from treatments of both experiments confirmed that shoot-sink relationships for root- supplied resources controlled the branching processes on the non-rooted portion of plants. A disbudding treatment, which removed all the apical and axillary buds present on basal branches, but left other branch tissues intact, increased branch development of the apical region in the same way as did complete excision of the basal lateral branches. The apical buds and the elongation processes occurring immediately proximal to the buds were thus identified as strong sinks for the root-supplied resources. Such results suggest that branch development on the non-rooted shoot portion distal to the youngest nodal root is regulated by competition among sinks for root-derived resources, of limited availability, necessary for the processes of elongation of axillary buds and the primary stolon apical bud.     

Influence of water deficits on the abscisic Acid and indole-3-acetic Acid contents of cotton flower buds and flowers

A field experiment was conducted during the summer of 1988 to test the hypothesis that water deficit affects the abscisic acid (ABA) and indole acetic acid (IAA) concentrations in cotton (Gossypium hirsutum L.) flower buds in ways that predispose young fruits (bolls) that subsequently develop from them to increased abscission rates. Water deficit had little effect on the ABA content of flower buds but increased the ABA content of flowers as much as 66%. Water deficit decreased the concentrations of free and conjugated IAA in flower buds during the first irrigation cycle but increased them during the second cycle. Flowers contained much less IAA than buds. Water deficit slightly increased the conjugated IAA content of flowers but had no effect on the concentration of free IAA in flowers. Because water deficit slightly increased the ABA content but did not decrease the IAA content of flowers, any carry-over effect of water deficit on young boll shedding might have been caused by changes in ABA but not from changes in IAA.     

Studies on the Transmission of Floral Effects of Photoperiod and Gibberellin from One Branch to the Other inImpatiens balsamina

In two branched plants ofImpatiens balsamina with intact apex and leaves floral buds are induced only in the branch which is either exposed to 8-h (inductive) photoperiods or receives GA₃ treatment if maintained under 24-h (non-inductive) photoperiods. GA₃ induces floral buds on the treated branch even if the leaves on that branch are removed, showing that while leaves are essential for photoperception, these are not neoessary for GA₃ to cause induction. The effect of the inductive photoperiods or GA₃ treatments to a branch is not transmitted to the other branch which is treated with water and is maintained under non-inductive photoperiods even when the latter is defoliated but is transmitted if the apioal or both the apical and axillary buds on the branch receiving inductive photoperiods or GA₃ treatment are excised. It, therefore, appears that the existence of strong sinks in the form of axillary and apical buds on the treated branch prevents the transmission of photoperiodic as well as GA₃ effects to the other branch in this plant.     

南方红豆杉试管微芽诱导培养及其紫杉醇类化合物的积累

以南方红豆杉幼茎段和茎尖为外植体,以wPM为基本培养基,单一添加不同浓度的KT、TIBA、ZT和6-BA进行芽诱导培养。结果表明：各自添加0．4mg·L-1KT、3．0mg·-1TIBA、0．1mg·L-1 ZT和0．01mg·L-1 6-BA时的芽诱导率最高。培养50d的试管微芽中紫杉醇和10一去乙酰基巴卡亭III（10．DABIII）的积累量比天然南方红豆杉嫩枝高2倍以上,试管微芽中10一DABIII比紫杉醇高,且二者均随芽诱导率的增加而增加,当芽诱导率达最高时亦达到最高。TIBA所诱导芽短而粗壮。     

Changes in the activities of catalase, peroxidase, and polyphenol oxidase in apple buds during bud break induced by thidiazuron

The breaking of dormancy in apple buds (Malus domestica Borkh cv. York Imperial) by thidiazuron (N-phenyl-N-1,2,3,-thidiazol-5-ylurea) was investigated in relation to catalase, peroxidase, and polyphenol oxidase activities and their isoenzyme patterns. The activity and number of isoenzymic components of catalase increased progressively during bud break, then decreased after buds started to grow. Peroxidase activity was highest during dormancy and declined during bud swell, increased at bud break, and decreased after bud expansion. Several isoperoxidases were observed in gel electrophoresis. Similar patterns were found at different growth stages of apple buds except for one peroxidase isoenzyme, P3, which disappeared 12 days after thidiazuron treatment. There was an inverse relationship between the activities of polyphenol oxidase and peroxidase during the development of apple buds. Apple buds have a very similar polyphenol oxidase isoenzyme pattern throughout bud development. However, the appearance and disappearance of minor isoenzymes were also observed. Phloridzin, rutin, p-coumaric, epicatechin, naringin, chlorogenic acid, and catechol were found in apple buds. Among them, phloridzin, rutin, and p-coumaric were the dominant phenolic compounds. Dormant buds contained a high amount of phenolic substances which decreased after bud break (4 days after thidiazuron treatment) then increased until the start of bud expansion. Phenolic compounds are found to be potent modifiers of catalase, peroxidase, and polyphenol oxidase activity, as both inhibitors and stimulators in apple buds.     

Changes in the activities of catalase,peroxidase, and polyphenol oxidase in apple buds during bud break induced by thidiazuron

The breaking of dormancy in apple buds (Malus domestica Borkh cv. York Imperial) by thidiazuron (N-phenyl-N′-1,2,3,-thidiazol-5-ylurea) was investigated in relation to catalase, peroxidase, and polyphenol oxidase activities and their isoenzyme patterns. The activity and number of isoenzymic components of catalase increased progressively during bud break, then decreased after buds started to grow. Peroxidase activity was highest during dormancy and declined during bud swell, increased at bud break, and decreased after bud expansion. Several isoperoxidases were observed in gel electrophoresis. Similar patterns were found at different growth stages of apple buds except for one peroxidase isoenzyme, P3, which disappeared 12 days after thidiazuron treatment. There was an inverse relationship between the activities of polyphenol oxidase and peroxidase during the development of apple buds. Apple buds have a very similar polyphenol oxidase isoenzyme pattern throughout bud development. However, the appearance and disappearance of minor isoenzymes were also observed. Phloridzin, rutin, p-coumaric, epicatechin, naringin, chlorogenic acid, and catechol were found in apple buds. Among them, phloridzin, rutin, and p-coumaric were the dominant phenolic compounds. Dormant buds contained a high amount of phenolic substances which decreased after bud break (4 days after thidiazuron treatment) then increased until the start of bud expansion. Phenolic compounds are found to be potent modifiers of catalase, peroxidase, and polyphenol oxidase activity, as both inhibitors and stimulators in apple buds.