通泉草属3种植物柱头触敏性与花部特征之间的关系

选取3种具有不同传粉环境及花部结构差异明显的通泉草属(Mazus)植物,即毛果通泉草(M.spicatus Vaniot)、长蔓通泉草(M.longipes Bonati)和弹刀子菜(M.stachydifolius(Turcz.)Maxim.),观测其柱头触敏性行为,测量有关花部性状,对它们之间的相关性进行比较分析。结果显示,在相同强度的刺激下,毛果通泉草的柱头最为迟钝(闭合时间最长),弹刀子菜最为敏感,而长蔓通泉草介于两者之间。此外,柱头触敏性最强的弹刀子菜比柱头触敏性相对较弱的长蔓通泉草和毛果通泉草具有更深的花色、更大的单花展示、更长的药柱距以及更大的花粉胚珠比。研究结果表明通泉草属植物柱头触敏性的进化与花部特征密切相关,它们共同影响传粉过程中对传粉者的吸引、花粉落置、传递效率以及植物交配系统的构成式样。     

美国凌霄柱头行为——一种促进传粉的机制(英文)

引起美国凌霄(campsis radicans(L.)Seem.ex Bureau.)柱头开合行为的原因迄今未知。在本研究中,机械刺激、自花授粉、异花授粉以及不同授粉数量的授粉分别给予美国凌霄的柱头,以期找到影响其柱头行为的原因。研究结果表明,单纯的机械刺激可以使柱头闭合,但不能使之永久闭合;只有柱头表面落置了足够量的花粉(>350)时柱头才会最终闭合。美国凌霄的柱头行为对自花或者异花花粉没有差异,两种花粉授于柱头后花粉管都能成功地萌发并生长。研究结果说明:美国凌霄的柱头行为不是一种异交机制,而是一种促进传粉进而增强繁殖成功的机制。     

美国凌霄柱头行为--一种促进传粉的机制

引起美国(Campsis radicans(L.)Seem.ex Bureau.)柱头开合行为的原因迄今未知.在本研究中,机械刺激、自花授粉、异花授粉以及不同授粉数量分别给予美国凌霄的柱头,以期找到影响其柱头行为的原因.研究结果表明,单纯的机械剌激可以使柱头闭合,但不能使之水永久闭合;只有柱头表明落置了足够量的花粉(>350)时柱头才会最终闭合.美国凌霄的柱头对换自花或者花粉没有差异,两种花粉授于柱头后花粉管都能成功萌发并生长.研究结果表明:美国凌霄的柱头行为不是一种异交机制,而是一种促进传粉进而增强繁殖成功的机制.     

达乌里秦艽的传粉生物学研究

对达乌里秦艽3个自然居群和1个人工栽培居群进行了两年的传粉生态学研究.研究发现:(1)达乌里秦艽套袋花均不结实,说明雌雄异熟和雌雄异位这两种花部机制成功阻止了主动自交,且不存在无融合生殖现象.(2)隔离传粉昆虫导致花寿命明显延长,授粉会导致花冠提前闭合,说明达乌里秦艽的花寿命具有可塑性,可通过延长花寿命确保成功繁殖.(3)在一个自然居群中证明存在花粉限制,且该居群的花寿命显著长于另外两个没有花粉限制的自然居群.(4)在整个雌性持续期柱头都具有一定的可授性,且在第2天可授性最高,随后逐渐降低;开花后期柱头可授性降低,使植物维持花开放资源投入的产出将有可能降低.研究表明,达乌里秦艽在严重缺乏传粉者的情况下,延长花寿命仅能部分弥补传粉者的不足,该物种在部分居群中仍有可能存在花粉限制.     

茨藻目植物柱头特征与传粉系统的演化

茨藻目包含有风媒、水表水媒和水下传粉的多种传粉方式。在前人工作的基础上,补充了4科9 种植物的柱头特征和传粉机制的观察。该目花粉和柱头特征可分为两类,传粉系统表现出两种不同的柱头捕获花粉的机制。花粉为球形的种与其宽大的柱头相配;而那些花粉演化为丝状或花粉在水中具先期萌发能力的种,其花粉易被其丝状的柱头所捕获。此外,还推测了导致这个类群传粉系统分化的可能原因。     

青藏高原东缘同域分布的2种橐吾属杂草的合子前生殖隔离

生殖隔离是阻止种间杂交、保持物种完整性和独立性的关键,对生物多样性的产生和维持有重要意义.不同物种间的生殖隔离形成阶段、方式和强度不完全相同,因而对物种间隔离机制的研究有助于揭示物种形成和维持机制.对青藏高原东缘同域分布的2种橐吾属杂草黄帚橐吾和箭叶橐吾的花期物候观察、访花昆虫观察及花粉-柱头亲和性进行研究,分析了2种橐吾多种合子前生殖隔离机制的特点及其在生殖隔离中的作用.结果表明: 黄帚橐吾种群花期比箭叶橐吾早20 d左右,虽然盛花期存在差异,但是2种群花期存在10 d左右的重叠期,并且在重叠期内2种橐吾花粉和柱头均具有活性.2种橐吾共享传粉昆虫,为泛化传粉模式,并且传粉者对2种植物的访花行为相似,存在2种植物间交叉访问.尽管2种橐吾花期不存在完全的时间隔离,也不存在完全的传粉者隔离,但2种橐吾柱头对异源花粉的亲和性差,表现为柱头对异源花粉有明显的排斥反应,异源花粉管在柱头上的生长过程明显受阻.这种花粉-柱头排异形式很有可能是2种橐吾属植物重要的合子前隔离机制,从而避免了种间的自然杂交,更好地维持了自然种群的多样性和遗传结构的稳定性.     

紫荣莉的花部综合特征与繁育系统

采用定株观察,运用花粉-胚珠比、联苯胺-过氧化氢法、杂交指数和套袋实验等方法,对紫茉莉（Mirabilis jalapa L．）的开花状态及繁育系统进行了研究。结果表明：种群花期一般为6—10月,单花花期一般为2—3d;单花花期依其形态和散粉时间可分为散粉前期、散粉初期、散粉盛期、花闭合期、凋谢期5个时期;在花闭合时期,晴天有66．80％的花的柱头在闭合花冠内,阴天时有81．65％的花的柱头在闭合花冠内,雨天柱头在闭合花冠内的花可达99．22％;按照杂交指数,其繁育系统属于自交亲和,有时需要传粉者;P／O值约为269,判断繁育系统类型属于兼性自交;开花6h左右,柱头的可授性最强,此时花粉活力、置落在柱头上的花粉数及其在柱头上的萌发率都达到最高。套袋实验显示,紫茉莉自然条件下没有无融合现象,繁育系统为自交、异交亲和,以自交为主,但有时也需要传粉者;在长期的环境选择压力下,紫荣莉选择将更多的柱头留在闭合花冠内,是其对不利环境条件的一种适应进化策略。     

紫茉莉的花部综合特征与繁育系统

采用定株观察,运用花粉-胚珠比、联苯胺-过氧化氢法、杂交指数和套袋实验等方法,对紫茉莉(Mirabilis jalapa L.)的开花状态及繁育系统进行了研究.结果表明:种群花期一般为6-10月,单花花期一般为2～3 d;单花花期依其形态和散粉时间可分为散粉前期、散粉初期、散粉盛期、花闭合期、凋谢期5个时期;在花闭合时期,晴天有66.80%的花的柱头在闭合花冠内,阴天时有81.65%的花的柱头在闭合花冠内,雨天柱头在闭合花冠内的花可达99.22%;按照杂交指数,其繁育系统属于自交亲和,有时需要传粉者;P/O值约为269,判断繁育系统类型属于兼性自交;开花6 h左右,柱头的可授性最强,此时花粉活力、置落在柱头上的花粉数及其在柱头上的萌发率都达到最高.套袋实验显示,紫茉莉自然条件下没有无融合现象,繁育系统为自交、异交亲和,以自交为主,但有时也需要传粉者;在长期的环境选择压力下,紫茉莉选择将更多的柱头留在闭合花冠内,是其对不利环境条件的一种适应进化策略.     

异型花柱植物喀什补血草的传粉者功能群与花粉转移效率

异型花柱是受遗传控制的花柱多态现象, 被达尔文认为是植物通过在传粉者体表不同部位滞落花粉以促进型间花粉准确传递的一种适应。该现象虽已受到广泛关注, 但在一些花型变异较大且不稳定的传粉系统中, 不同传粉者对各花型繁殖所产生的影响仍知之甚少。该研究以分布于新疆天山南坡的一个有同长花柱共存的异型花柱植物喀什补血草(Limonium kaschgaricum)种群为研究对象, 对其花型构成及频率、传粉者及花粉转移效率等进行了调查分析。结果表明: 1)种群中除了存在雌/雄蕊长度交互对应的长(L)/短(S)花柱型花外, 还有雌/雄蕊同长的花(H型), 且各花型花的花冠口直径、花冠筒长及花粉量等参数间无差异, 但花粉纹饰和柱头乳突细胞形态具二型性。其中, H型花的花粉和柱头形态与L型花(或S型花)的一致。2)花型内和自花授粉均不亲和; 型间授粉时, 花粉和柱头形态不同的花型间亲和, 反之不亲和。3)种群内存在长/短吻两类传粉昆虫。在以短吻传粉者为主的盛花初、中期, L和H型花柱头上的异型花粉数均显著高于S型花的, 且L和S型花高位性器官间的异型花粉传递效率高于低位性器官间的; 而在以长吻传粉者为主的盛花后期, L和S型花的柱头间异型花粉数无显著差异, 且高/低位性器官间具有相同的异型花粉转移效率; 与传粉者出现时期相对应的、在花期不同阶段开放花的结实率也明显不同。4)长/短吻昆虫具明显不同的传粉功能, 短吻昆虫只能对L和H型花进行有效传粉, 且访花频率和型间花粉转移效率较低, 为低效传粉者; 而长吻昆虫对各花型均能有效传粉, 具高的访花频率和型间花粉转移效率, 为高效传粉者。因为长吻昆虫的阶段性出现所形成的不稳定传粉系统, 使低效的短吻昆虫可能会成为种群中花型变异的驱动力, 并使S型花受到更大的选择压力。H型花克服了柱头缩入的弊端, 可能会成为不稳定传粉系统下的一个替代花型而持续存在。     

香港木兰开花生物学研究

对香港木兰的花果期物候、花朵结构、单花期、开花特性及花粉在离体培养和人工授粉条件下的萌发现象进行观察和研究。结果表明,该种的开花习性限制蜂类昆虫在其柱头可授期内进入花内传粉,为专一的甲虫传粉植物;花粉萌发时间长、开花不集中、花期适逢雨季都影响到昆虫的传粉活动和有效受精。     

两种姜科花柱卷曲性植物柱头的位置与其可授性的关系

花柱卷曲性是一种见于姜科山姜属(Alpinia)和砂仁属(Amomum)植物中的独特的性二态现象, 具有这一性系统的植物, 其居群包括上举型和下垂型两种表型, 所有个体的雌雄性别功能在时间和空间上分离。本研究通过操控授粉和花粉管生长两项实验, 探讨花柱卷曲性植物个体两性功能的隔离方式及其适应意义。云南草蔻(Alpinia blepharocalyx)操控授粉实验表明, 自花花粉对其异交率影响不显著(P > 0.05), 但可能由于自花花粉沉降导致胚珠贴现进而引起近交衰退, 操控条件下每果结籽数显著减少(P < 0.01)。云南草蔻和红豆蔻(Alpinia galanga)花粉管生长实验都显示无论对两种表型进行怎样的授粉处理, 花粉粒萌发和花粉管生长的速率仅在柱头处于可授位置时表现出最大值, 与自交和异交授粉方式无关; 上举型植株上午花粉囊虽未裂但其内花粉已成熟。研究结果表明即使不考虑花柱运动, 山姜属植物也具有异型雌雄异熟的特性。这一结果证实了花柱卷曲运动机制是通过互补式雌雄异位和异型雌雄异熟相结合形成的花部二态性, 异型雌雄异熟促进了异交, 而花柱运动的功能可能在于避免雌雄干扰。     

Asynchronous development of stigmatic receptivity in the pear (Pyrus communis; Rosaceae) flower

While stigma anatomy is well documented for a good number of species, little information is available on the acquisition and cessation of stigmatic receptivity. The aim of this work is to characterize the development of stigma receptivity, from anthesis to stigma degeneration, in the pentacarpellar pear (Pyrus communis) flower. Stigma development and stigmatic receptivity were monitored over two consecutive years, as the capacity of the stigmas to offer support for pollen germination and pollen tube growth. In an experiment where hand pollinations were delayed for specified times after anthesis, three different stigmatic developmental stages could be observed: (1) immature stigmas, which allow pollen adhesion but not hydration; (2) receptive stigmas, which allow proper pollen hydration and germination; and (3) degenerated stigmas, in which pollen hydrates and germinates properly, but pollen tube growth is impaired soon after germination. This developmental characterization showed that stigmas in different developmental stages coexist within a flower and that the acquisition and cessation of stigmatic receptivity by each carpel occur in a sequential manner. In this way, while the duration of stigmatic receptivity for each carpel is rather short, the flower has an expanded receptive period. This asynchronous period of receptivity for the different stigmas of a single flower is discussed as a strategy that could serve to maximize pollination resources under unreliable pollination conditions.     

雌雄异位和花部行为适应意义的研究进展

雌雄异位和花部行为影响植物的传粉和交配格局。二者的适应意义一直是植物生殖生态学和进化生物学研究的热点之一。该文概述了近年来雌雄异位和花部行为适应意义的研究进展,包括对雌雄异位适应意义的最早期、最传统的认识——避免自交和当前的主流观点——避免雌雄干扰;花内性别干扰的形式及其例证;花部行为在避免雌雄功能干扰、避免自交、实现延迟自交、应对不良环境等方面的适应意义。讨论了使雌雄异位程度减小的锦葵科一些植物中的单体雄蕊柱头运动可能涉及到的适应意义。针对目前在雌雄异位和花部行为适应意义研究上存在的不足,结合国际上研究二者适应意义的发展趋势正在从前期以描述性的研究为主转变到应用现代分子生物学手段(尤其是分子标记,如SSR、SNP、AFLP等)和传统方法相结合,以及随着田间实验和控制条件能力的发展正由经典的野外调查、观察为主过渡到包括花操纵在内的人工试验和野外试验相结合,提出了今后研究中应注意的问题。有必要借用多学科的手段,以可作为研究雌雄异位和花部行为的有着研究基础的植物为材料,设计和操纵不同的对比试验,系统而深入地探讨雌雄异位和花部行为的适应意义。     

Stigma-surface Esterase Activity and Stigma Receptivity in Some Taxa Characterized by Wet Stigmas

Stigma-surface esterase activity and stigma receptivity througha sequence of developmental stages of the pistil have been studiedin four taxa characterized by having wet stigmas — Petuniahybrida, Nicotiana tabacum, Crinum defixum and Amaryllis vittata.The style is solid in the first two and hollow in the lattertwo taxa. In all the taxa, stigma—surface esterase couldbe detected in a thin surface layer (pellicle) from a very earlystage of pistil development, irrespective of the presence orabsence of the exudate. However, the taxa showed variation instigma receptivity. In Petunia and Nicotiana, stigmas from pistilsof all the stages supported pollen germination and tube growth.In Amaryllis and Crinum, stigmas of only the mature pistils,when the exudate is present on the stigma, supported normalpollen germination and tube growth. It is inferred that in taxacharacterized by a wet stigma and solid style, the factors requiredfor pollen germination are present from an early stage of pistildevelopment and the exudate per se is not involved in pollengermination. In taxa characterized by a wet stigma and hollowstyle, however, the pellicle does not carry the factors requiredfor pollen germination and tube growth; they appear to be presentin the exudate. Petunia hybrida Vilm, Nicotiana tabacum L., Crinum defixum, Ker-Gawl, Amaryllis vittata Ait., tobacco, pollination, pollen germination, stigmatic exudate, stigma receptivity, stigma-surface esterase, esterase activity     

Breakdown of self-incompatibility during pistil development in Lycopersicon peruvianum by modified bud pollination

Summary Stylar self-incompatibility barriers in L. peruvianum can be avoided if pollen germination and growth through immature pistils is promoted under specific environmental conditions approximately 2–3 days before the initiation of anthesis. Since immature stigmas lack sufficient exudate for pollen germination, the sandwiching of a thin layer of pollen germination medium between the stigma and a mineral oil layer containing pollen allows precocious pollen germination and some compatible pollen tube growth through the style. This procedure is rapid, inexpensive, applicable in the field, and makes efficient use of pollen. Consistent though low seed yields have been obtained. A high proportion of aborted seed, seedling lethals, and aberrant seedling phenotypes in selfed progeny indicate the presence of strong post-zygotic barriers to such selfing. No evidence for a reduction in the strength of the SI response with increasing pistil age was observed.     

Arabinogalactan-protein secretion is associated with the acquisition of stigmatic receptivity in the apple flower

Background and Aims

Stigmatic receptivity plays a clear role in pollination dynamics; however, little is known about the factors that confer to a stigma the competence to be receptive for the germination of pollen grains. In this work, a developmental approach is used to evaluate the acquisition of stigmatic receptivity and its relationship with a possible change in arabinogalactan-proteins (AGPs).

Methods

Flowers of the domestic apple, Malus × domestica, were assessed for their capacity to support pollen germination at different developmental stages. Stigmas from these same stages were characterized morphologically and different AGP epitopes detected by immunocytochemistry.

Key Results

Acquisition of stigmatic receptivity and the secretion of classical AGPs from stigmatic cells occurred concurrently and following the same spatial distribution. While in unpollinated stigmas AGPs appeared unaltered, in cross-pollinated stigmas AGPs epitopes vanished as pollen tubes passed by.

Conclusions

The concurrent secretion of AGPs with the acquisition of stigmatic receptivity, together with the differential response in unpollinated and cross-pollinated pistils point out a role of AGPs in supporting pollen tube germination and strongly suggest that secretion of AGPs is associated with the acquisition of stigma receptivity.Key words: AGPs, arabinogalactan proteins, apple, Malus × domestica, pollen, pollen tube, stigma, stigmatic receptivity, flower receptivity     

On factors influencing fruit-set and sterility in arecanut (Areca Catechu Linn.)

Summary (1) Histological studies on the stigmas of female flowers of areca indicate the possibility of the stigmatic surfaces being impacted upon by air spora. The presence of spores or hyphae together with pollen grains has been shown in stigmatic surface.(2) Air spora of arecanut plantation chiefly consist ofAspergillus, Penicillium, Actinomycetes, Mucor, Alternaria, Cladosporium andBacteria.(3) The types of fungi, bacteria and actinomycetes adhering to the stigma are isolated.(4) The metabolites of the fungi, bacteria and actinomycetes isolated from the stigmas of arecanut flowers inhibit,in vitro, considerably the germination of pollen grains and rate of growth of pollen tubes. In certain instances there is no germination of the pollen grains in the metabolites of fungi, bacteria and actinomycetes. In view of the results the significance of the air spora in affecting the normal course of pollination and fertilization is discussed.     

Pollen tube growth in association with a dry-type stigmatic transmitting tissue and extragynoecial compitum in the basal angiosperm Kadsura longipedunculata (Schisandraceae)

Spatial features of pollen tube growth and the composition of the extracellular matrix (ECM) of transmitting tissue in carpels of Kadsura longipedunculata, a member of the basal angiosperm taxon Schisandraceae, were characterized to identify features of transmitting tissue that might have been important for pollen-carpel interactions during the early history of angiosperms. In addition to growing extracellularly along epidermal cells that make up stigmatic crests of individual carpels, pollen tubes grow on abaxial carpel epidermal cells between unfused carpels along an extragynoecial compitum to subsequently enter an adjacent carpel, a feature important for enhancing seed set in apocarpous species. Histo- and immunochemical data indicated that transmitting tissue ECM is not freely flowing as previously hypothesized. Rather, the ECM is similar to that of a dry-type stigma whereby a cuticular boundary with associated esterase activity confines a matrix containing methyl-esterified homogalacturonans. The Schisandraceae joins an increasing number of basal angiosperm taxa that have a transmitting tissue ECM similar to a dry-type stigma, thereby challenging traditional views that the ancestral pollen tube pathway was similar to a wet-type stigma covered with a freely flowing exudate. Dry-type stigmas are posited to provide tighter control over pollen capture, retention, and germination than wet-type stigmas.     

Structural analysis of stigma development in relation with pollen–stigma interaction in sunflower

Structural analysis of stigma development in sunflower highlights the secretory role of papillae due to its semi-dry nature. Production of lipid-rich secretions is initiated at the staminate stage of the flowers in stigma development and increases at the receptive stage, coinciding with an extensive development of elaioplasts and endoplasmic reticulum network in the basal region of the papillae. Transfer cells, earlier identified only in the wet type of stigma, are also present in the transmitting tissue of the sunflower stigma. Attainment of physiological maturity by the stigmatic tissue, accompanying development from bud to pistillate stage, appears to affect the initial steps of pollen–stigma interaction. The nature of self-incompatibility in Helianthus has also been investigated in relation with pollen adhesion, hydration and germination. Pollen adhesion to the stigma is a rapid process in sunflower and stigma papillae exhibit greater affinity for pollen during cross pollination as compared to self-pollination. Components of the pollen coat and the pellicle on the surface of stigmatic papillae are critical for the initial phase of pollen–stigma interaction (adhesion and hydration). The lipidic components of pollen coat and the proteinaceous and lipidic components from the surface of the papillae coalesce during adhesion, leading to the movement of water from stigma to the pollen, thereby causing pollen hydration and its subsequent germination. Pollen germination (both in self-and cross-pollen) on the stigma surface and the growth of the pollen tube characterize the flexibility of self-incompatibility in sunflower. Compatible pollen grains germinate and the pollen tube penetrates the stigma surface to enter the nutrient-rich transmitting tissue. The pollen tube from incompatible pollen germination, however, fails to penetrate the stigmatic tissue and it grows parallel to the papillae. Present findings provide new insights into structural and functional relationships during stigma development and pollen–stigma interaction.