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1.
濒危植物矮沙冬青开花物候研究   总被引:5,自引:2,他引:3  
对矮沙冬青(Ammopiptanthus nanus Cheng f.)的形态学特征、开花物候及花空间分布进行了研究,结果表明:在单花、花序、单株、居群水平上的开花物候都表现出很强的开花不同步性,在单花、单花序水平主要表现在单花寿命4~9 d不等,平均(6.74±1.23)d,以7 d出现的频率最高;单花序开花持续时间范围在4~13 d,平均(8.33±2.63)d,以10 d出现的频率最高;单株及居群水平上表现更为明显.矮沙冬青的花具有虫媒传粉的特征,花主要分布在花枝的上部,下部花所占比例很小,有很多花枝花全部为上部花.相关性分析表明上部花和总花数相关性极显著(r=0.990,P<0.01),而中部花、下部花和总花数的相关性不显著,甚至呈负相关.单株不同方位开花数量差异不显著(F=0.0579,P>0.05).  相似文献   

2.
准噶尔无叶豆的开花物候与生殖特征   总被引:10,自引:1,他引:9       下载免费PDF全文
 为了研究沙漠稀有植物准噶尔无叶豆(Eremosparton songoricum)的开花物候特征及其对生殖成功的影响, 2005和2006年连续两年对其自然种群的开花物候和开花过程中的花部表型变化进行了观察, 并运用相对开花振幅、开花强度和开花同步性等开花物候指数研究了开花物候特征。结果表明: 准噶尔无叶豆在5月下旬至6月中下旬开花, 其种群、个体、花序和单花的花期分别历时26~29 d、8~10 d、5~7 d和2~3 d。单花开花进程依其形态和散粉特征可分为散粉前期、散粉初期、散粉盛期和凋谢期4个时期。其个体水平的开花物候进程(开花振幅曲线)呈渐进式单峰曲线, 具有很高的开花同步指数, 表现出一种集中开花的模式。开花物候指数与座果数之间的相关分析结果表明, 始花日期与花期持续时间存在负相关关系, 而与开花数和座果数存在正相关关系; 花期持续时间与开花数和座果数存在显著正相关关系。准噶尔无叶豆个体开花物候在很大程度上是由其遗传因子决定的, 而开花物候在年度间的变异, 可能是由于荒漠气候的差异(主要是水分和温度的差异)所引起的。作为沙漠窄域分布特有种, 准噶尔无叶豆在环境和人为干扰的双重选择压力下, 为了吸引更多的传粉者访问而达到生殖成功, 形成了大量集中开花的模式。  相似文献   

3.
大花百子莲的开花物候与生殖特性   总被引:1,自引:0,他引:1  
连续2年对引种植物大花百子莲在中国上海市人工种群的开花物候、结实情况进行观测记录,从不同水平分析了大花百子莲的开花物候对其生殖的影响。结果显示:(1)大花百子莲在引种地的开花时间为6月初至7月末;种群花期历时40 d左右,单株花期在14~31 d波动,单花寿命主要为2~3 d;2年的开花振幅平均在6朵·株-1·d-1左右,花朵开放百分率值在3.69%~4.87%左右,平均开花式样为11~17朵。(2)大花百子莲种群内2007年比2008年的各项开花物候指标均提前6~9 d;种群开花进程为渐进式的双峰曲线;种群花期重叠时间较长,2年的平均开花同步指数分别为0.663、0.695;植株个体相对开花强度主要分布频度为50%~70%。(3)开花物候指数与座果率的相关分析表明,始花时间与开花数目、座果数、花期长度呈显著负相关关系,开花数目与座果数、花期长度以及花期长度与座果数均呈显著正相关关系,同一花序内单花所发育成果实的数量与单花开放时间呈极显著负相关关系。研究表明,大花百子莲始花时间早的植株比始花时间晚的植株花期更长,开花数目多的植株比开花数目少的植株花期更长,花期长的植株比花期短的植株座果率更高;而且在同一花序上,越早开放的单花其结实的可能性越大。作为引种植物,大花百子莲开花物候年度间具有相似性,说明其在引种地可以适应环境压力,形成稳定的开花时间与开花模式;较长的花期重叠和大量的开花数目可以吸引较多的传粉者访问,为其生殖成功奠定了良好基础。  相似文献   

4.
对科尔沁沙地的乌丹蒿和差不嘎蒿的开花物候进行了调查研究,从头状花序、花序枝、个体以及群体水平比较两种植物的开花物候特性。结果表明:(1)乌丹蒿的群体始花期为6月18日,较差不嘎蒿的早9 d,持续时间为19 d,差不嘎蒿开放持续16 d,两种植物群体花期重叠约10 d。在个体水平上,乌丹蒿始花日期比差不嘎蒿早7 d,单株花期长2 d;(2)乌丹蒿二级花序枝上头状花序数比差不嘎蒿的少,开放持续时间更长。两种植物开花频率均为单峰型,二级花序枝开放持续时间频率均以8 d为最高,其次为9 d,头状花序水平上两者开放持续时间频率较高的均为5 d、4 d、6 d,5 d频率最大;(3)差不嘎蒿二级花序枝上近基部的头状花序先开放,自基部向上的第2和第3个位置最先开放的频率相对为高,分别为12.7%和11.9%。而乌丹蒿则是顶端的头状花序先开放,最先开放的频率高达56.3%;(4)两种植物的开花振幅曲线均呈单峰曲线,其中乌丹蒿开花后第9 d开花量达到高峰,差不嘎蒿开花后第6 d开花量达到高峰。两种植物开花物候的相似性反映出它们的亲缘关系及对共同环境的适应性,不同点尤其是最先开放顺序的差异性,表明了两者长期进化的遗传差异。  相似文献   

5.
为了研究多枝柽柳的两季开花物候特征与生殖特性,对分布于古尔班通古特沙漠南缘莫索湾荒漠区的多枝柽柳自然种群各水平的开花物候指数、开花过程中的花部特征变化和结实特性进行了观察和统计。结果表明:(1)多枝柽柳春花期为5月下旬至6月上旬,表现为"集中开花模式",夏花期为6月中旬至9月上旬,表现为"持续开花模式"。(2)多枝柽柳春、夏花期的群体、个体、花序和单花水平的花期持续时间分别为14d、10d、3d、1d和85d、77d、2d、1d。(3)花序水平上夏花期始花日期、开花持续时间、开花数和座果数两两之间均存在显著相关关系。(4)两季花期间单花水平的开花进程与形态结构没有明显差异。(5)春花期的结实率显著高于夏花期,但两季花期结籽率差异不显著。(6)春花期昆虫访花次数显著高于夏花期。(7)两季花期的花粉活力没有明显差异,春花期的柱头可授性持续时间比夏花期长。研究认为,古尔班通古特沙漠南缘莫索湾荒漠区的生境条件恶劣,多枝柽柳特殊的春、夏两季开花结实特性在一定程度上提高了其生殖成功的可能性,是对特殊生境的适应性表现。  相似文献   

6.
研究巫山淫羊藿(Epimedium wushanense)3个种群的开花物候进程和生殖特征,分析了不同种群中的花部特征、开花物候指数和结实率差异,以及开花物候指数对巫山淫羊藿生殖成功的影响。结果表明:巫山淫羊藿花期为3月初到4月中下旬,种群开花一般历时22~27d;单株花期(花序)约12~17d;单花花期一般为3~4d。3个种群的个体水平的开花振幅曲线呈单峰型曲线,均具有较高的开花同步指数,表现出一种集中开花式样。相关分析表明:坐果数与开花高峰期、终花期、花期持续时间和花蕾数均呈极显著正相关,但坐果数与始花期无相关关系。开花物候变异系数分析表明:3个种群中花期持续时间、单花持续时间、终花期、开花高峰期和坐果数差异极显著;总花数、开花振幅和结实率差异显著;开花同步指数和始花期无显著差异性。3个种群中除同步性指数外,其余指数的变异系数均有差异,此外,巫山淫羊藿中结实率受到距的长短的影响。表明巫山淫羊藿的开花物候和生殖特征受到微环境的影响,同时生殖特征还受到花部特征距的影响。  相似文献   

7.
为了研究角茴香的开花物候特征及其对生殖成功的影响,于2015年对其自然种群各水平的开花物候指数、开花过程中的花部特征变化和结实特性进行了观察和统计。结果表明:(1)角茴香种群花期为4月下旬至5月下旬,种群水平的花期持续时间为36 d。(2)单花具有独特的花瓣结构,其内层花瓣由白色的侧裂片和黄色的兜状中裂片构成,中裂片是角茴香植物花粉二次呈现的关键功能器官;开花进程依其外层花瓣开裂大小可分为4个阶段,即外层花瓣顶端未张口、外层花瓣顶端张口5~7 mm、外层花瓣顶端张口12~14 mm和外层花瓣顶端张口3~5 mm。(3)花序水平的开花振幅曲线呈渐进式单峰曲线,开花同步指数为0.748,个体水平表现出较高的相对开花强度,其分布频度的偏斜率为0.45,主要频度范围分别集中在20%~30%和50%~70%之间。(4)花序水平的始花日期与花期持续时间存在显著负相关关系,开花数与座果数存在显著正相关关系。(5)自然状态下,角茴香结实率和结籽率分别是82.7%±0.1%和93.6%±0.8%。角茴香开花强度分布频度上出现的高、低强度的分异趋势是吸引传粉者、促进结实的有效生殖对策。  相似文献   

8.
中国特有植物血水草开花物候与生殖特性   总被引:2,自引:0,他引:2  
于2008年3-5月对分布在井冈山的血水草(Eomecon chionantha Hance )5个自然种群的开花物候进行了观察,运用开花振幅、相对开花强度和开花同步性等指数研究了其开花物候特征及其对该种生殖成功的影响.结果表明:血水草开花时间为3月下旬-5月上旬,种群花期历时24 ~46 d,个体平均开花持续时间为11~21 d,单花花期一般为3~5d;井冈山血水草种群的开花物候进程呈单峰曲线模式具有一个开花高峰期,表现出一种“集中开花模式”;与大多数亚热带植物一样,血水草具有较低的相对开花强度,分布频率集中在10% ~30%.开花物候指数与生殖间的相关分析结果表明:始花时间与花期持续时间呈显著负相关,而与开花数和坐果率呈显著正相关;花期持续时间与开花数和坐果率呈显著正相关;同步性指数与始花时间、开花数、花期持续时间呈负相关.血水草“集中开花模式”是其在长期的进化过程中适应周围气候条件及生境的一种生殖保障.  相似文献   

9.
蒙古沙冬青是西北地区珍稀濒危树种,探究区系组成和群落特征对于维持西北干旱荒漠区脆弱生态系统具有重要意义。该研究调查了26个蒙古沙冬青群落样地,采用TWINSPAN进行群落分类,同时利用典范对应分析(CCA)分析沙冬青群落物种组成与生态因子的关系,为珍稀濒危植物蒙古沙冬青的保护提供基础数据。结果表明:(1)蒙古沙冬青群落物种组成以豆科、禾本科、菊科和藜科植物为主,隶属于28科63属90种,区系组成以地中海、北温带分布及世界分布为主。(2)TWINSPAN等级分类可将26个蒙古沙冬青样地划分为9个群落类型,即蒙古沙冬青+蓍状亚菊群落、蒙古沙冬青+红砂群落、蒙古沙冬青+新巴黄耆群落、蒙古沙冬青+无芒隐子草群落、蒙古沙冬青+霸王群落、蒙古沙冬青+驼绒藜群落、蒙古沙冬青+白刺群落、蒙古沙冬青+沙鞭群落和蒙古沙冬青+毛刺锦鸡儿群落。(3)CCA排序分析显示,年均降雨量(F=2.8,P=0.002)、生长季降雨量(F=2.6,P=0.002)、速效氮(F=2.1,P=0.006)、太阳辐射量(F=2.1,P=0.008)、蒸汽压(F=1.9,P=0.006)、土壤有机质(F=1.7,P=0.04)、纬度(F=1.7,P=0.006)是影响蒙古沙冬青群落组成的主要生态因子。  相似文献   

10.
孙颖  崔兰明  李梦雨  王蕾  王欢  何淼 《广西植物》2018,38(5):608-616
该文对绵枣儿的开花物候与传粉特性进行了研究,分析了绵枣儿的开花进程、开花物候指数、开花物候指数对其生殖成功的影响,重点探讨了绵枣儿对传粉昆虫的种类及其活动规律。结果表明:(1)绵枣儿始花日期为7月中下旬,单株持续时间15 d左右,种群持续时间30~35 d。呈现出"M"型开花物候曲线,其两年的开花同步指数分别为0.862、0.885,表明开花的年际间差异较小。并且分析出植株的相对开花强度分布在30%~60%之间。(2)相关分析表明:绵枣儿的开花数目与坐果数和持续时间呈现出极显著正相关(P0.01),绵枣儿的持续时间与坐果数之间呈现出显著相关(P0.05),而其始花日期与开花数目、坐果数和持续时间并没有显现出相关性,即绵枣儿植株开花的数目越多,其坐果率越高,持续时间也就越长。(3)绵枣儿的访花昆虫总共有14种,可分属为5目10科。其中传粉昆虫有5科10种。该研究结果表明各传粉昆虫在单花停留的时间和其访花频率上呈现出显著的差异,在日访花频率上也差异明显。  相似文献   

11.
Opportunities for selfing through geitonogamy are possible if more than one flower within the same clone, inflorescence, or floral unit is open at the same time. In a total of 200 inflorescences in two natural populations of Iris versicolor, flowers were observed and classified daily on the basis of anther dehiscence and stigma receptivity. Analysis of the flowering phenology demonstrated that (1) protandry limits opportunities for autogamy, (2) flowers mature sequentially within a floral unit (defined as a cluster of flowers borne on a single branch within an inflorescence), preventing the opportunity for geitonogamous fertilization between flowers of the same floral unit, and (3) 77% of all flowers had no opportunity to be pollinated by another flower within the same inflorescence. Both the number and the proportion of flowers with opportunities for geitonogamy increased with the number of flowers open in each population, and opportunities for geitonogamy also increased with the number of floral units within inflorescences. These morphological and phenological controls suggest that when selfing occurs in this species, it is most likely to occur between flowers on different inflorescences within the same clone. Since the organization of whole inflorescences in space is determined primarily by rhizome placement, clonal architecture may play an important role in mating system regulation in this species.  相似文献   

12.
The structural, flowering, and fruit-setting patterns of inflorescences of mature Hamlin and Valencia orange and Marsh grapefruit trees were studied for three years. Several development patterns were found, some of which were relatively consistent for the different varieties or years of study. The sequence of anthesis on an inflorescence was: apical flower first, then basal flower, then the subapical flower. Terminals on which the earlier flowers appeared tended to have more inflorescences than those on which flowers appeared later. Inflorescences on which earlier flowers appeared also produced more flowers than those which began flowering later. Inflorescences that began flowering later were more likely to have leaves or have a greater number of leaves than earlier inflorescences. More than half of the inflorescences carried no leaves, and most of these had one flower. No evidence of a relationship between number of flowers and length of the inflorescence was found. Fruit set occurred primarily during the latter part of the flowering period. Many fruit were set on inflorescences without leaves, but on the basis of percent of flowers setting fruit, inflorescences with leaves were more productive. The greatest fruit set occurred in the subapical position on the inflorescence. With growth changes these fruit often appeared to be developing in the apical position. These patterns generally differed little from year to year. Variations may have been due to the differences in the number of flowers produced by the trees. Results were also similar between Hamlin and Valencia oranges. Patterns on Marsh grapefruit resembled those for the oranges but were frequently less consistent.  相似文献   

13.
Sexual dimorphism and male biased sex ratios have been predicted for dioecious plants experiencing the limited conditions for growth and reproduction found in many alpine environments. To test these predictions, the reproductive ecology of two congeneric, co-occurring, dioecious, clonal, species was examined in the subalpine and alpine zones of Kosciuszko National Park, southeastern Australia. Specifically, plant size (vegetative cover of plants in quadrats), floral display (number of flowers per inflorescence, number of inflorescences per quadrat) and sex ratios (proportion of females in quadrats with flowers) were examined in ten populations of Astelia psychrocharis (Asteliaceae) and nine populations of Astelia alpina var. novae-hollandiae (Asteliaceae). Sexual dimorphism did occur, with males having more flowers per inflorescence (106% more flowers for A.alpina males and 12% more for A.psychrocharis males compared to females) and more inflorescences per quadrat than females (78% more inflorescences for A.alpina males and 46% more inflorescences for A.psychrocharis males compared to females). Plant size did not differ between male and female quadrats of either species, nor were there male biased sex ratios. However, plant size was related to flowering status in A.psychrocharis with the 65 quadrats that did not flower having lower vegetative cover than the 175 flowering quadrats indicating that there may be a minimum size/ cover required prior to flowering in this species. For A.alpina, all but two of the 185 quadrats randomly sampled flowered. There was no effect of altitude on plant size and very little effect of altitude on floral display for either species, apart from a slight increase in the number of inflorescences per quadrat with increasing altitude for A.psychrocharis, and slight decrease in number of flowers per inflorescence with increasing altitude for A.alpina females.  相似文献   

14.
The evolution of floral display is thought to be constrained by trade‐offs between the size and number of flowers and inflorescences. We grew in the glasshouse 60 maternal families from each of two Brazilian populations of the annual herb, Eichhornia paniculata. We measured flower size, daily flower number, and total flower number per inflorescence, and two indices of module size, leaf area and age at flowering. We also assessed the size and number of inflorescences produced over 6 weeks. All floral traits exhibited significant heritable variation, some of which was due to genetic variation in module size. Genetic (maternal family) correlations between daily and total flower number did not differ from 1.0, indicating that display size (daily flower number) cannot evolve independently from total flower number per inflorescence. Genetic correlations between flower size and daily flower number ranged from negative to positive (r=–0.78 to +0.84), depending on population and inflorescence. Positive correlations occurred when variation in investment per inflorescence was high so that some families produced both larger and more flowers. These correlations became zero when we controlled for variation in module size. Families that flowered later produced fewer, larger inflorescences (r=–0.33, –0.85). These data support theoretical predictions regarding the combined effects of variation in resource acquisition and allocation on traits involved in trade‐offs, and they emphasize the hierarchical organization of floral displays. Our results imply that patterns of resource allocation among inflorescences influence evolutionary changes in flower size and number per inflorescence.  相似文献   

15.
Framed inflorescences are unique arrangements in which a cluster of small fertile flowers is surrounded by several larger, decorative sterile flowers. Viburnum (Adoxaceae) species vary in their inflorescence arrangements; some species exhibit framed inflorescences, whereas others do not. We hypothesize that the decorative flowers increase the pollinator-attracting functions of the inflorescences; as proved by previous studies, they additionally function as landing-sites for pollinators. To test our hypotheses, field manipulation experiments were carried out for nine Viburnum species, three with inherently framed inflorescences and six without them: sterile flowers were removed and mounted on species with and without framed inflorescences, respectively. Results show that inflorescences with decorative flowers had higher visit rates than inflorescences without them, and that insect flower visitors did not show landing preference for either flower type. These results suggest that decorative flowers appeared only in a subset of Viburnum species to increase their pollination chances by, mainly, enhancing the attractiveness of the inflorescence. It is likely that species without framed inflorescences use other attraction-enhancing mechanisms, such as a high flowering synchrony within a single cluster of fertile flowers, a trait found in most studied species without decorative flowers.  相似文献   

16.
Structure of inflorescence and its variation were organographically and ontogenetically studied inLespedeza cuneata (Dum.-Cours.) G. Don. An axillary inflorescence of the species forms a compound inflorescence which is composed of three or four component inflorescences. Each component inflorescence bears four (rarely six), three, two, or one flowers. Based on the arrangement of inflorescence phyllomes, the component inflorescence with four flowers is interpreted as a pseudoraceme bearing two shortened lateral shoots (partial inflorescences) each of which has two flowers. The component inflorescence with one flower appears to be terminated by the flower and to compose the cyme. Organographic observations revealed that the terminally located flower is not truly terminal, but axillary in origin. Ontogenetic observations showed that the apices of component inflorescence and partial inflorescence exist in early developmental stages in spite of variation in the form of component inflorescence. The terminally located flower in the cyme-like inflorescence was thus demonstrated to be laterally borne on the partial inflorescence axis. The component inflorescence composing the cyme-like one inL. cuneata is a reduced form in the number of partial inflorescences and of flowers from the pseudoraceme. The cyme-like inflorescence inL. cuneata resembles the inflorescence ofKummerowia.  相似文献   

17.
Large floral displays favour pollinator attraction and the import and export of pollen. However, large floral displays also have negative effects, such as increased geitonogamy, pollen discounting and nectar/pollen robber attraction. The size of the floral display can be measured at different scales (e.g. the flower, inflorescence or entire plant) and variations in one of these scales may affect the behaviour of flower visitors in different ways. Moreover, the fragmentation of natural forests may affect flower visitation rates and flower visitor behaviour. In the present study, video recordings of the inflorescences of a tree species (Tabebuia aurea) from the tropical savannah of central Brazil were used to examine the effect of floral display size at the inflorescence and tree scales on the visitation rate of pollinators and nectar robbers to the inflorescence, the number of flowers approached per visit, the number of visits per flower of potential pollinators and nectar robbers, and the interaction of these variables with the degree of landscape disturbance. Nectar production was quantified with respect to flower age. Although large bees are responsible for most of the pollination, a great diversity of flower insects visit the inflorescences of T. aurea. Other bee and hummingbird species are highly active nectar robbers. Increases in inflorescence size increase the visitation rate of pollinators to inflorescences, whereas increases in the number of inflorescences on the tree decrease visitation rates to inflorescences and flowers. This effect has been strongly correlated with urban environments in which trees with the largest floral displays are observed. Pollinating bees (and nectar robbers) visit few flowers per inflorescence and concentrate visits to a fraction of available flowers, generating an overdispersed distribution of the number of visits per inflorescence and per flower. This behaviour reflects preferential visits to young flowers (including flower buds) with a greater nectar supply.  相似文献   

18.
BACKGROUND AND AIMS: This study explores the previously largely ignored morphological variation that occurs among flowers within a single inflorescence. METHODS: Variation in four metric parameters (labellum length and width, spur length and width) that together strongly influence pollination frequency is documented within the simple racemose inflorescences of eight individuals that represent a primary hybrid and six species of European orchids. KEY RESULTS: Regression of each parameter against the location of each flower on the inflorescence, and calculation of correlation coefficients for each pair of parameters within each inflorescence, demonstrate significant decoupling of labellum and spur development, despite the fact that they are different portions of the same floral organ. Spur length and diameter are constant across inflorescences of Dactylorhiza other than the vestigial-spurred D. viridis, whereas in other genera spur length declines in parallel with labellum dimensions. These differences are likely to reflect selection pressures or developmental constraints. Strong negative deviations from the regression line for one or more parameters are evident in occasional flowers, occurring most frequently in the lowermost and uppermost one or two flowers, and so reflecting transitions in meristematic behaviour. Thus, population-level morphometric studies are best conducted on flowers taken from approximately the mid-point of the inflorescence. Moreover, in the two relatively large inflorescences where lower flowers were removed for measurement before the upper flowers had opened, labellum size increased significantly in the flowers immediately above the excisions, suggesting that excision liberated resources that were diverted into the opening buds. Repeat measurement of all flowers from one selected inflorescence demonstrated typical measurement errors of only +/- 30-80 micro m, irrespective of the size of the structure studied. If flowers are not mounted and measured immediately following excision, modest negative deviations of 30-50 micro m result from post-mounting shrinkage; this occurs less rapidly in the spur than in the thinner labellum, which should therefore be measured first. Variation in all four parameters among all the flowers of a single inflorescence is between 42 % and 107 % of that observed between a similar number of flowers sampled from a consistent location on different (but conspecific and coexisting) inflorescences. CONCLUSIONS: This result demonstrates the strong influence of epigenesis on flower morphology and further emphasizes the importance of (a) sampling from a consistent location within the inflorescences under comparison, (b) interpreting morphometric ordinations hierarchically, building from individuals to infraspecific taxa and species via populations, and (c) considering in any microevolutionary study the potentially profound effects of the cline in flower size within each inflorescence.  相似文献   

19.
In many plants, including orchids, differential fruit set along the inflorescence has been attributed to pollinator behaviour. For instance, the pollinator, moving up the inflorescence, becomes satiated with the resources and leaves before visiting the upper flowers. Consequently, the pollinators do not visit flowers as frequently higher up the inflorescence. Alternatively, flower size may vary along the inflorescence, making pollination ineffective as flowers decrease in size. I tested for the presence of differential pollination along the inflorescence in a pollinator-limited tropical epiphyte, Lepanthes rupestris Stimson, and determined the likely cause of the observed pattern. As this species has inflorescences with sequential flowering, pollinator behaviour, moving up the inflorescence as in synchronous multiflowering inflorescences, can be discounted as an explanation for differential fruit set. Fruit set is shown to be more frequent at the base of the inflorescence, but male reproductive success through pollinarium removal is basically independent of flower position. Moreover, cross-pollination by hand at variable flower positions along the inflorescence results in equal fruit set, suggesting that resources are not limiting and cannot explain the cause of differential fruit production along the inflorescence in natural populations. Furthermore, flower size is shown to diminish along the inflorescence, suggesting that the pollinator(s) may be ineffective at depositing the pollinarium in the smaller higher flowers. Consequently, pollinator behaviour and its interaction with flower size, and not resource limitation, is likely to be the main cause of differential fruit set along the inflorescence in L. rupestris .  © 2006 The Linnean Society of London, Botanical Journal of the Linnean Society , 2006, 151 , 405–410.  相似文献   

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