木荷主要传粉昆虫的传粉行为

木荷(Schima superba)是我国珍贵的优质阔叶用材和高效生物防火树种,属于异花授粉植物,其种子生产必须依靠传粉昆虫。为了明确木荷主要传粉昆虫的组成及优势传粉昆虫的传粉效率,2015—2016年对浙江省兰溪市木荷种子园主要传粉昆虫的访花行为、携粉部位及数量、访花频率、花粉移出和柱头花粉沉降数目等进行了观测。结果表明,中华蜜蜂(Apis cerana)、白星花金龟(Protaetia brevitarsis)和棉花弧丽金龟(Popillia mutans)是木荷的主要传粉昆虫,中华蜜蜂和棉花弧丽金龟的访花高峰均发生在10:00—11:00,白星花金龟无明显的访花高峰。3种传粉昆虫体表均携带花粉,白星花金龟的携粉量显著高于棉花弧丽金龟(P0.001)和中华蜜蜂(P0.001),棉花弧丽金龟的携粉量显著高于中华蜜蜂(P0.001)。体表不同部位携粉量不同,胸部腹板和腹部腹板的携粉量高于其他部位,3种传粉昆虫的主要传粉部位均为胸腹部。中华蜜蜂每次访花的花粉移出数、柱头花粉沉降数及传粉效率均低于白星花金龟和棉花弧丽金龟,但不显著,而中华蜜蜂在访花频率上占有明显优势,分别为白星花金龟的29倍和棉花弧丽金龟的8.3倍;单花停留时间也显著低于白星花金龟和棉花弧丽金龟。综合各项特征表明,中华蜜蜂是木荷最有效的传粉者。     

广西特有属——异裂菊属开花生物学及繁育系统特征

以异裂菊属5个种的实生苗为试验材料,通过田间观察,采用TTC法、联苯胺-过氧化氢法、杂交指数、花粉-胚珠比等方法,对异裂菊属的开花物候、花部特征、繁育系统及访花昆虫行为进行了研究。结果表明:(1)绢叶异裂菊的花期最早,为6~7月份;小花异裂菊和柳州异裂菊花期为6~8月份;凹脉异裂菊和异裂菊的花期为8~12月份,整个花期持续约5个多月,单花花期约为3d,单个花序花期约为5d。(2)异裂菊属的花粉在开花后1~18h具有活力,柱头的可授性持续约48h;杂交指数OCI为4,花粉/胚珠比(P/O)为1 450~2 250,繁育系统属于异交、部分自交亲和,需要传粉者。(3)传粉昆虫主要是食蚜蝇科灰带管食蚜蝇和胡蜂科黑尾胡蜂,昆虫访花高峰期在上午10:00~12:00,每次可连续访问多朵花,每朵花访问时间约为2~10s。     

谁是腊梅的主要传粉者:昆虫行为与传粉作用

访花昆虫不同的访花与飞行行为导致其访花频率小同,进而对植物传粉产生不同的影响.意大利蜜蜂(Apis mellifera ligustica)、苍蝇和食蚜蝇是腊梅(Chimonanthus praecox)最常见的访花类群(或种类),但是它们的访花行为却有很大不同.意大利蜜蜂主要以快速飞行为主,偶见爬行,苍蝇访花时主要以快速飞行、爬行和跳跃为主,而食蚜蝇以长时间单花访问和悬空飞行以及间歇性休息为主.根据访花类群(或种类)在一朵花上的访花时间和花间飞行时间进行推算,每只意大利蜜蜂、苍蝇和食蚜蝇每分钟分别可以访问4.57、2.65和0.53朵花.结合每种(类)昆虫的访花数量推算出意大利蜜蜂、苍蝇和食蚜蝇每分钟分别可以访问498.19、1,089.74和99.78朵花.传粉效力(相同条件下单位时间内相同数目访花者能够授粉的花朵数)实验结果证明苍蝇和意大利蜜蜂分别是93％、100％(n=30),而食蚜蝇只有13％(n=30).苍蝇和意大利蜜蜂可携带大量花粉且具有很高的传粉效力,因此,访花速度的快慢是二者访花能力强弱的主要限制因素.由此,我们认为苍蝇可能是腊梅最主要的传粉者,意大利蜜蜂次之(数量偏少),食蚜蝇再次(访花与飞行行为的影响以及访花效力较低是限制其访花能力的主要因素).     

新疆荒漠植物耳叶补血草的爆发式开花式样与传粉模式

荒漠环境中干热、大风、浮尘、温度骤变等突发性天气状况,对植物的有性生殖具不利影响.耳叶补血草(Limonium otolepis)是新疆盐生荒漠的主要建群种,对其适应荒漠恶劣环境的生殖策略仍缺乏研究.为了探讨荒漠植物适应环境的开花式样和传粉模式,作者通过野外定点观测和室内电镜扫描等方法对耳叶补血草的开花进程、花部特征、传粉媒介、结实特性等进行了研究.耳叶补血草的花期在6月上旬至7月中旬,花期较长且具明显不同步的单株开花状态.在一天中,单花表现出极为集中的开花、散粉过程:一般早上8:00开始开放,9:00达开放高峰期,11:00以后基本不再有单花开放;开放后的单花持续6-8 h后闭合.每单花平均有花粉752粒,花粉表面有网状纹饰,有花蜜.传粉者主要为蜜蜂科和食蚜蝇科昆虫,访花高峰期在9:00-14:00.人工授粉实验表明耳叶补血草以异交为主,自动自花授粉率低.自然状态下结实率为36％,在花序中基部第一位上单花的结实率(45.7％)明显高于第二位上单花(3.3％).耳叶补血草爆发式开花、在短时间内快速完成传粉过程,可能是躲避荒漠环境突发性天气条件的一种策略;而居群分散的开花时间及较长的花期在应对不稳定生境,分摊生殖风险方面具重要意义.     

珍稀濒危植物瑶山苣苔开花生物学及繁育系统研究

对仅分布于广西金秀老山自然保护区的国家Ⅰ级保护植物瑶山苣苔进行了开花生物学和繁育系统研究.结果显示:(1)瑶山苣苔花期从8月底至11月初,开花无固定时间.单花开放过程可分为萌动、露白、盛开、凋落4个阶段,且花朵具明显的增大再生长现象.(2)单花、花序、单株水平上的开花物候都表现出开花不同步性,单花花期约5~14 d,单花序花期约11~20 d,单株花期约8~20 d.花粉活力在散粉后6 d内相对较高,但花粉在野外通常于散粉3 d内被昆虫啃食完.(3)柱头在花药散粉时明显高于花药,便于接受异花花粉,柱头在散粉后第4天具可授性,可持续5~6 d.(4)瑶山苣苔杂交指数(OCI)为5,花粉-胚珠比(P/O)为379.64±145.61,繁育系统为兼性异交,自交亲和,传粉过程需要传粉媒介.研究表明,不稳定的传粉环境可能是该物种至濒的主要生殖生物学原因,自发自交"是其在开花期间对不稳定传粉环境的一种适应.     

中国特有种——沙芥繁育系统和传粉生物学研究

运用定位观察、杂交指数、花粉-胚珠比、套袋试验和重力玻片法等方法,对沙芥自然居群和人工栽培种群的开花日动态、繁育系统和传粉习性进行了研究.结果显示:沙芥在自然居群和人工栽培种群开花日高峰分别在19:00和15:00～18:00.沙芥繁育系统为异花授粉植物.沙芥传粉媒介中风的飘移能力非常微弱;沙芥自然居群的访花昆虫有19种,分属于6个目;人工栽培种群的访花昆虫有11种,分属于6个目.意大利蜜蜂、熊蜂、黑带食蚜蝇和拟蜂食蚜蝇是两个居群共有的主要传粉昆虫,在自然居群熊蜂每天的访花频率呈双峰曲线,其中访花最高峰与开花日高峰基本重叠.     

雄全异株植物瘿椒树(省沽油科)的传粉生物学

从开花动态、传粉昆虫、花的形态结构、繁育系统、花粉活力和柱头可授性等方面研究了我国特有珍稀植物瘿椒树(Tapiscia sinensis Oliv.)的传粉生物学特性。瘿椒树是典型的雄全异株植物,两性花中含有功能性花粉,且自交亲和,但雄花花粉活力和萌发力是两性花的10倍以上。雄株和两性植株具有相同开花物候期,花期均为5月下旬至6月上旬,单花期为4-5天,雄花和两性花的5枚花药开裂的不同步性明显延长了散粉时间。两性花雌蕊先熟,柱头可授性较长。具有适应风媒和虫媒传粉的花部特征。传粉昆虫主要为蜜蜂科(Apidae)和食蚜蝇科(Syrphidae)昆虫,访花高峰期为8:30-10:30。维持瘿椒树雄全异株的可能机制是:雄株总体上增加了异交花粉的数量和质量;两性花的雄蕊为该物种提供了繁殖保障,同时为传粉者提供了报酬。     

雄全异株植物瘿椒树（省沽油科）的传粉生物学

从开花动态、传粉昆虫、花的形态结构、繁育系统、花粉活力和柱头可授性等方面研究了我国特有珍稀植物瘿椒树（Tapiscia sinensis Oliv.）的传粉生物学特性。瘿椒树是典型的雄全异株植物,两性花中含有功能性花粉,且自交亲和,但雄花花粉活力和萌发力是两性花的10倍以上。雄株和两性植株具有相同开花物候期,花期均为5月下旬至6月上旬,单花期为4-5天,雄花和两性花的5枚花药开裂的不同步性明显延长了散粉时间。两性花雌蕊先熟,柱头可授性较长。具有适应风媒和虫媒传粉的花部特征。传粉昆虫主要为蜜蜂科（Apidae）和食蚜蝇科（Syrphidae）昆虫,访花高峰期为8：30-10：30。维持瘿椒树雄全异株的可能机制是：雄株总体上增加了异交花粉的数量和质量;两性花的雄蕊为该物种提供了繁殖保障,同时为传粉者提供了报酬。     

苹果传粉昆虫种类及其访花习性的研究

为了解苹果花期的传粉昆虫,更好地利用昆虫为苹果授粉,本文对山西运城临猗、临汾隰县苹果的传粉昆虫进行调查,结果表明:调查区苹果传粉昆虫共计23种,隶属于4目、14科,主要传粉昆虫依次为膜翅目的蜜蜂科、条蜂科、切叶蜂科、地蜂科和双翅目的食蚜蝇科。其中,意大利蜜蜂和毛附黑条蜂为主要传粉昆虫。日活动规律观察表明,蜜蜂属于双峰型,条蜂属于单峰型;条蜂出巢温度(温度为16.4℃)低于蜜蜂的出巢温度(18.8℃),11∶00-12∶00和15∶00-16∶00为蜜蜂访花高峰,条蜂访花高峰在10∶00-11∶00。     

青阳参花部特征及其传粉适应性

对青阳参花（Cynanchum otophyllum）部综合特征、访花昆虫种类、访花行为及传粉过程进行了研究,结果表明,青阳参花结构复杂,两个子房基部离生、花柱联合与雄蕊形成合蕊柱,柱头表面被邻近花药的侧翼紧密包围形成5个柱头腔。青阳参的花粉形成独特的花粉块,一次传粉过程可以转运大量的花粉。东方蜜蜂（Apis cerana）是青阳参的主要传粉昆虫,其传粉包括两个过程：（1）当蜜蜂的口器或足插入着粉腺的槽口后借助蜜蜂的力量将花粉块从花上拔起;（2）当蜜蜂再次访花时将携带的花粉块插入其中一个柱头腔。花粉块里面的花粉粒住柱头腔中萌发出花粉管,然后沿着花柱道向下生长最后进入子房。在整个花期仡粉保持有相对较高的生活力,而其柱头可授性则在7天后逐渐降低。     

Pollination characteristics of the ephemeroid plant Eremurus anisopterus

This study was conducted to examine the pol-lination characteristics of Eremurus anisopterus,an ephe-meroid plant in the Gurbantunggut Desert in Xinjiang,China.An integrative approach combining field studies with lab analysis was adopted.Pollen traps were used to measure air-borne pollen loads and artificial isolation experiments were applied to test the potentiality of cross-pollination or apomixes.Results show that the duration of the flowering of Eremurus anisopterus varied from late April to mid-May.Anthesis of a single flower often lasted for 1 d.However,if the daily maximum air temperature was under 20℃,the anthesis of a single flower could be prolonged up to 2 d.The pollen disper-sion period of the single flower could last for 4 to 5 h,from 10:30 to 15:00 local time,with the duration of pollen dispersion for a single anther lasting approximately 40 rain.The heterotypical maturation of the stigma could significantly prolong the pollen dispersion period of the single flower suggesting an adaptation to the habitat of E.anisopterus in the desert where the pollinators were not reliable.The timing of the blossoms of the ephemeroid plant show close correlations with the wind velocity and the habit and characteristics of the pollinators in the desert.Plant pollens may be spread to over 70 m by wind with approximately 60% of the pollens falling within 20 m away from the plant.Insects,especially bees,hover flies,flesh flies,mason bees and Halictus sp.were very import-ant pollinators.Bees and hover flies usually landed on the yellowish green spot on the tepal and then entered the flower along the purple vein on the pink tepals.The yel-lowish green spot might be a mimetic structure of nectar that could attract insects to visit.This was also an adapta-tion of the plant to the sandy desert environment.A higher visiting frequency was reached between 10:30 and 13:30.The pollen-ovule ratio (P/O) of E.anisopterus (6164) suggested that the species was from cross-pollina-tion according to Cruden's criterion.However,the arti-ficial isolation experiment shows that E.anisopterus is self-compatible which might act as a compensation mech-anism for the inadequate opportunities for breeding in the desert environment.Since there was no seed set in the bagged emasculated flowers,apomixes did not occur.In conclusion,E.anisopterus might adapt to the unreliable pollinator habits by self-pollination and by lengthening the pollen dispersion period of a single flower.     

Pollination characteristics of the ephemeroid plant Eremurus anisopterus

This study was conducted to examine the pollination characteristics of Eremurus anisopterus, an ephemeroid plant in the Gurbantunggut Desert in Xinjiang, China. An integrative approach combining field studies with lab analysis was adopted. Pollen traps were used to measure air-borne pollen loads and artificial isolation experiments were applied to test the potentiality of cross-pollination or apomixes. Results show that the duration of the flowering of Eremurus anisopterus varied from late April to mid-May. Anthesis of a single flower often lasted for 1 d. However, if the daily maximum air temperature was under 20°C, the anthesis of a single flower could be prolonged up to 2 d. The pollen dispersion period of the single flower could last for 4 to 5 h, from 10:30 to 15:00 local time, with the duration of pollen dispersion for a single anther lasting approximately 40 min. The heterotypical maturation of the stigma could significantly prolong the pollen dispersion period of the single flower suggesting an adaptation to the habitat of E. anisopterus in the desert where the pollinators were not reliable. The timing of the blossoms of the ephemeroid plant show close correlations with the wind velocity and the habit and characteristics of the pollinators in the desert. Plant pollens may be spread to over 70 m by wind with approximately 60% of the pollens falling within 20 m away from the plant. Insects, especially bees, hover flies, flesh flies, mason bees and Halictus sp. were very important pollinators. Bees and hover flies usually landed on the yellowish green spot on the tepal and then entered the flower along the purple vein on the pink tepals. The yellowish green spot might be a mimetic structure of nectar that could attract insects to visit. This was also an adaptation of the plant to the sandy desert environment. A higher visiting frequency was reached between 10:30 and 13:30. The pollen-ovule ratio (P/O) of E. anisopterus (6164) suggested that the species was from cross-pollination according to Cruden’s criterion. However, the artificial isolation experiment shows that E. anisopterus is self-compatible which might act as a compensation mechanism for the inadequate opportunities for breeding in the desert environment. Since there was no seed set in the bagged emasculated flowers, apomixes did not occur. In conclusion, E. anisopterus might adapt to the unreliable pollinator habits by self-pollination and by lengthening the pollen dispersion period of a single flower. __________ Translated from Journal of Plant Ecology (formerly Acta Phytoecologica Sinica), 2006, 30(6): 1012–1017 [译自: 植物生态学报]     

益智传粉生物学的研究

 益智（Alpinia oxyphylla）的花期从2月底至4月下旬;单株花期（花序）约为16～26 d,通常为23～26 d;单花花期一般为1 d。正常情况下,益智和其它山姜属植物一样,具有花柱卷曲性促进异花授粉的机制,表现出两种类型：花柱上举型和花柱下垂型,其花柱卷曲运动的节律与其它已报道的山姜属植物基本一致。但观察发现,当遭遇低温天气时(日最高气温<18℃),单花花期延长为2 d,无论是上举型个体还是下垂型个体,均只表现出一种花型——下垂型：上午开花时花柱弯向上,柱头位于已开裂散发出花粉的花药上方,直到第二天上午6∶30～11∶00间,花柱才陆续地慢慢向下运动,柱头下降至与花药等高或位于花药下方。益智的主要传粉昆虫是蜜蜂（Apidae sp.）、木蜂（Xylocopa sp.）,绝大多数的访花者的访花目的是吸蜜。益智的花蜜分泌量（8.37～15.79 μl）和花蜜含糖量（30.12%～32.83%）较高,花蜜是益智作为传粉者访花的最主要的报酬。实验结果还表明,益智花部中唇瓣对昆虫访花有显著的招引作用;益智的花蜜对蜜蜂的访花频率有显著的影响,对木蜂有一定的招引作用,但并不显著。而花粉（花药）则对昆虫的访花频率影响不大。人工授粉实验结果表明益智存在自交亲和性,无论是上举型或下垂型个体自交和异交均有较高的结实率;人工自交和异交的结实率在上举型植株中存在较大的差异,而在下垂型个体中则差异不明显;去雄套袋、去柱头套袋和完全套袋不授粉等处理均不结实,表明益智不存在无融合生殖现象和自动自花授粉现象。益智的繁育系统是异花授粉交配系统。     

Geographic patterns and pollination ecotypes in Claytonia virginica

Geographical variation in pollinators visiting a plant can produce plant populations adapted to local pollinator environments. We documented two markedly different pollinator climates for the spring ephemeral wildflower Claytonia virginica: in more northern populations, the pollen‐specialist bee Andrena erigeniae dominated, but in more southern populations, A. erigeniae visited rarely and the bee‐fly Bombylius major dominated. Plants in the northern populations experienced faster pollen depletion than plants in southern populations. We also measured divergent pollen‐related plant traits; plants in northern populations produced relatively more pollen per flower and anther dehiscence was more staggered than plants in southern populations. These plant traits might function to increase pollen dispersal via the different pollen vectors.     

Pollen limitation and inbreeding depression in an 'old rare' bumblebee-pollinated grassland herb

Habitat fragmentation and reduction of population size have been found to negatively affect plant reproduction in 'new rare' species that were formerly common. This has been attributed primarily to effects of increased inbreeding but also to pollen limitation. In contrast, little is known about the reproduction of 'old rare' species that are naturally restricted to small and isolated habitats and thus may have developed strategies to cope with long-term isolation and small population size. Here we study the effects of pollen source and quantity on reproduction of the 'old rare' bumblebee-pollinated herb, Astragalus exscapus. In two populations of this species, we tested for pollen autodeposition, inbreeding depression and outbreeding depression. Caged plants were left unpollinated or were pollinated with pollen from the same plant, from the same population or from a distant population (50 km). Additionally, we tested for pollen limitation by pollen supplementation in four populations of different size and density. In the absence of pollinators, plants did not produce seed whereas self-pollinated plants did. This indicates a self-compatible breeding system dependent on insect pollination. Both self-pollination and, in one of the two populations, cross-pollination with pollen from plants from the distant population resulted in a lower number of seeds per flower than cross-pollination with pollen from plants from the resident population, indicating inbreeding and outbreeding depression. Pollen addition enhanced fruit set and number of seeds per flower in three of the four populations, indicating pollen limitation. The degree of pollen limitation was lowest in the smallest but densest population. Our results suggest that, similar to 'new rare' plant species, also 'old rare' species may be at risk of inbreeding depression and pollen limitation.     

Evaluating pollen flow indicators for an insect-pollinated plant species

For insect-pollinated plant species, reproductive success and genetic exchange via the transfer of pollen between flowers depends (i.a.) on the efficiency, abundance and behaviour of floral visitors. These in turn are expected to respond to plant population size and flower density. High floral densities for example usually attract large numbers of pollinators that visit more flowers per plant or patch, which increases pollen deposition at short distances. Thus, population characteristics might serve as indicators for pollen dispersal patterns and help to identify suitable habitat size and quality for conservation measures. To test this hypothesis, we observed floral visitors of a generalist, entomophilous species, Comarum palustre, and compared their abundance and visitation rates in populations of different sizes and flower densities. At the same time, we mimicked pollen flow using fluorescent dye. In the large and dense populations, pollinator abundance and visitation rates were high and dye was dispersed to the edges of the populations (up to 200 m). In the medium-sized population with high flower density, insect abundance and visitation rates were unexpectedly low and dye dispersal declined very quickly. On the contrary, in the smallest population with scattered flowers, especially bumble bee abundance was similar to the large populations and dye dispersal mirrored this high bumble bee activity. Thus, our results indicate that in smaller habitat fragments, the mere size of a population might be insufficient to suggest pollen flow for a plant species. Instead, the abundance of its major pollinators should be considered.     

类短命植物阿尔泰独尾草的解剖学研究

通过常规石蜡切片法,对类短命植物阿尔泰独尾草的根、茎、叶、花等器官进行了解剖结构的研究。结果表明：阿尔泰独尾草的根系有明显的二型性,即有储藏根和吸收根的结构与功能分化,是其对生长发育快速、年休眠期长的类短命植物生活习性高度适应的结果;其营养器官表现出明显的旱生植物特征;储藏根与吸收根木质部的二型性及其内皮层的带状凯氏带增厚结构则说明独尾草属植物可能具有较为特殊的系统演化地位。     

新疆独尾草属植物的核型分析

对新疆独尾草属（Eremurus）植物的核型进行了研究。核型公式如下：阿尔泰独尾草[E.altaicus（Pall.）Stev.]2n=2x=14=4m＋8sm＋2st;异翅独尾草[E.anisopterus（Kar.et Kit）Regel]2n=4x=28=4m＋4sm＋20st;粗柄独尾草[E.inderiensis （M.Bieb）Regel]2n=2x=14=10sm＋4st,首次发现古尔班通古特沙漠南缘所产的异翅独尾草2n=4x=28,与前人报道其为二倍体2n=2x=14的结果不一致。     

POLLINATOR EFFECTIVENESS AND SEED SET IN POPULATIONS OF AGALINIS STRICTIFOLIA (SCROPHULARIACEAE)

Examining variation in pollinator effectiveness and seed production resulting from single pollinator visits can provide a deeper understanding of how pollinators may influence reproduction in plant populations. When comparing populations, differences in the number of seeds produced from single pollinator visits to flowers may not always be attributable to differences in pollen deposition, but rather to differences in plant fecundity or resource availability. Pollinator effectiveness and seed production were studied for two populations over a 4-year period and were measured using single bee visit manipulations of flowers. No significant difference in pollinator effectiveness (pollen deposited on stigmas) was observed between the two populations. However, a significant difference between the two populations was observed in the number of seeds produced per flower. The Wellhouse population produced approximately three times as many seeds/flower from a single pollinator visit as did the Firefly Meadow population. Within each population, pollinators (Bombus pennsylvanicus and Apis mellifera) did not differ in the number of pollen grains deposited on stigmas or seeds produced per flower from single visit experiments. Differences in plant density, pollen viability, and ovules per flower also could not account for a significant amount of the variation. A resource augmentation experiment (water and fertilizer application) resulted in a decrease in seeds per flower per bee visit for the water treatment at the Wellhouse population only. For both populations, pollen deposition, pollen viability, and ovules per flower were unaffected by the resource augmentation. Alternative possibilities for the observed differences in seeds per flower per bee visit are discussed.     

Selfing rates in natural populations of Echium vulgare: a combined empirical and model approach

1. We quantified geitonogamous selfing in Echium vulgare , a self-compatible, bumble-bee pollinated plant. A maximum estimate of selfing was determined using a paternity analysis with RAPDs. In the first experiment, bumble-bees visited a sequence of virgin flowers. The percentage selfing increased rapidly from 12% in the first flower visited, up to 50% in the 15th flower visited in the sequence. In the second experiment, when bees visited plants in a natural population, the average selfing of plants increased with the number of open flowers from 0% to maximally 33%.
2. The results obtained in both experiments are consistently lower than predicted by our model on pollen dynamics ( Rademaker, de Jong & Klinkhamer 1997 ). We modified the model on pollen dynamics to link it more to the field situation with observations on flower stage, flower opening and bumble-bee preference, so that the bumble-bees encounter a variable number of pollen grains per flower. We also adjusted the parameters. If less pollen adheres to the bee (25% instead of 50%) after removal from the anthers, or if bees arrive at a plant with more pollen grains (6000 instead of 4448), the predictions of the model in regard to selfing could be improved but were still high compared with the observed selfing rates measured with RAPDs.
3. We suggest that the model is consistent with pollen dynamics in the field. However, post-pollination processes like selective abortion could play a role in E. vulgare .