Inheritance of flower color in pickerelweed (Pontederia cordata L.)

Pickerelweed (Pontederia cordata L.) is a diploid (2n = 2x = 16), erect, emergent, herbaceous aquatic perennial. The showy inflorescences of pickerelweed make this species a prime candidate for inclusion in water gardens and aquascapes. The objective of this experiment was to determine the number of loci, number of alleles, and gene action controlling flower color (blue vs. white) in pickerelweed. Two blue-flowered and one white-flowered parental lines were used in this experiment to create S(1) and F(1) populations. F(2) populations were produced through self-pollination of F(1) plants. Evaluation of S(1), F(1), and F(2) generations revealed that flower color in these populations was controlled by 2 alleles at one locus with blue flower color completely dominant to white. We propose that this locus be named white flower with alleles W and w.     

Genetic control of white flower color in scarlet rosemallow (Hibiscus coccineus Walter)

Scarlet rosemallow (Hibiscus coccineus Walter) is a diploid, perennial, erect, and woody shrub. The species is a desirable inclusion in home landscapes because it is a native plant with attractive flowers and unusual foliage. The objective of these experiments was to determine the number of loci, number of alleles, and gene action controlling flower color (red vs. white) in scarlet rosemallow. Three white-flowered and 1 red-flowered parental lines were used to create S(1) and F(1) populations, which were self-pollinated or backcrossed to generate S(2), F(2), and BC(1) populations. Evaluation of these generations showed that flower color in these populations was controlled by a single diallelic locus with red flower color completely dominant to white. I propose that this locus be named "white flower" with alleles W and w.     

Genetic and linkage analysis of purple-blue flower in soybean

Flower color of soybean is primarily controlled by genes W1, W3, W4, Wm, and Wp. In addition, the soybean gene symbol W2, w2 produces purple-blue flower in combination with W1. This study was conducted to determine the genetic control of purple-blue flower of cultivar (cv). Nezumisaya. F(1) plants derived from a cross between Nezumisaya and purple flower cv. Harosoy had purple flowers. Segregation of the F(2) plants fitted a ratio of 3 purple:1 purple-blue. F(3) lines derived from F(2) plants with purple-blue flowers were fixed for purple-blue flowers, whereas those from F(2) plants with purple flowers fitted a ratio of 1 fixed for purple flower:2 segregating for flower color. These results indicated that the flower color of Nezumisaya is controlled by a single gene whose recessive allele is responsible for purple-blue flower. Complementation analysis revealed that flower color of Nezumisaya is controlled by W2. Linkage mapping revealed that W2 is located in molecular linkage group B2. Sap obtained from banner petals of cvs. with purple flower had a pH value of 5.73-5.77, whereas that of cvs. with purple-blue flower had a value of 6.07-6.10. Our results suggested that W2 is responsible for vacuolar acidification of flower petals.     

Inheritance of flower color in chickpea

Flower color is a useful morphological marker in chickpea (Cicer arietinum L.). Inheritance of this trait was studied using two white-flowered chickpea genotypes, P 9623 and RS 11, and one blue-flowered genotype, T 39-1. The genetic constitutions of the white flower colors of P 9623 and RS 11 were different, for in an earlier study their F1 produced pink flowers. The two F1s of the crosses P 9623 x T 39-1 and RS 11 x T 39-1 also produced pink flowers. Each of the two F2 populations segregated in 9 pink:3 blue:4 white-flowered plants. These results can be explained by a three-gene model. These three independently segregating genes are probably the same as C, B, and P reported in the literature earlier. Allelic tests could not be undertaken, as the genetic stocks used in the earlier studies are not available. The genetic constitutions of the three parents and their F1s are proposed. These accessions should be useful for conducting allelic tests for determining flower color loci in chickpea and for comparative studies with field pea. The seeds of these genetic stocks are maintained at the Genetic Resources and Enhancement Program at ICRISAT and are available for research purposes on request.     

Population Dynamics of Frankliniella occidentalis on Different Rose Cultivars and Flowering Stages

Seasonal occurrence and damaged aspects of Frankliniella occidentalis (Pergande) on various rose cultivars were investigated from three greenhouses (one experimental greenhouse and two commercial greenhouses) during 1999 to 2000. In the experimental greenhouse, first detection of F. occidentalis on yellow sticky trap was observed in early April, gradually increased till early May and greatest densities occurred during June each year. In commercial rose greenhouses where insecticides were applied >2.2 times per month for the control of F. occidentalis, relatively low levels of F. occidentalis populations were captured on the traps. The population levels were 40% of the level of F. occidentalis populations collected from the experimental greenhouse. In preference of rose cultivar and color, yellow-colored cultivars were the most preferred by F. occidentalis and second was white flower. However, there was no preference difference within same colored cultivars. First inhabitation of F. occidentalis adults was observed at stage F2 (sepal uncovered the bud partly and corolla protruding from the calyx) of rose flowers. The number of adults was increased as the stage was developed from the stage F2 to F4 (flower began to senesce), but the proportions of adults were decreased as the stages were developed.     

紫茉莉开花过程中花色和花色素的变化规律

紫茉莉是我国广泛分布的庭院花卉之一,具有丰富的花色。但不同花色紫茉莉在开花过程中的花色变化规律及其呈色机制还不清楚。以紫红色、黄色和白色紫茉莉为研究对象,分别通过色差仪测定法和紫外-可见分光光度法测定了不同开花时期不同花色紫茉莉花色表型及各类色素含量,探讨了其花色和色素变化规律,揭示其呈色机制。结果表明,从花蕾期到盛开期,紫红色紫茉莉花冠由淡绿色转变为紫红色,明度L^*值和色相b^*值减小,而色相a^*值、色度C^*值和色度角h值增大,叶绿素含量逐渐下降,类胡萝卜素、花色素苷和总黄酮含量逐渐升高;黄色紫茉莉花冠由淡绿色转变为黄色,盛开期具有最高的色度C^*值、色相a^*值和b^*值,整个开花过程具有较稳定的叶绿素和总黄酮含量,同时具有较高的类胡萝卜素含量;白色紫茉莉花冠由淡绿色转变为白色,过渡期具有最高的明度L^*值、色度C^*值、色相a^*值和b^*值,整个开花过程花色素苷和总黄酮含量较低,但随着开花进程逐渐升高,而类胡萝卜素含量稳定,过渡期总叶绿素含量显著低于其他2个时期。可见,不同花色紫茉莉开花过程中花色变化规律存在差异,而其差异性与其相应的色素成分变化密切相关。     

Butterfly species diversity and their floral preferences in the Rupa Wetland of Nepal

Floral attributes often influence the foraging choices of nectar‐feeding butterflies, given the close association between plants and these butterfly pollinators. The diversity of butterflies is known to a large extent in Nepal, but little information is available on the feeding habits of butterflies. This study was conducted along the periphery of Rupa Wetland from January to December 2019 to assess butterfly species diversity and to identify the factors influencing their foraging choices. In total, we recorded 1535 individuals of 138 species representing all six families. For our examination of butterfly–nectar plant interactions, we recorded a total of 298 individuals belonging to 31 species of butterfly visiting a total of 28 nectar plant species. Overall, total butterfly visitation was found to be significantly influenced by plant category (herbaceous preferred over woody), floral color (yellow white and purple preferred over pink), and corolla type (tubular preferred over nontubular). Moreover, there was a significant positive correlation between the proboscis length of butterflies and the corolla tube length of flowers. Examining each butterfly family separately revealed that, for four of the families (Lycaenidae, Nymphalidae, Papilionidae, and Pieridae), none of the tested factors (flower color, plant category, and corolla type) were shown to significantly influence butterfly abundance at flowers. However, Hesperidae abundance was found to be significantly influenced by both flower color (with more butterflies observed at yellow flowers than purple) and flower type (with more butterflies observed at tubular flowers than nontubular flowers). Our results reveal that Rupa Lake is a suitable habitat for butterflies, providing valuable floral resources. Hence, further detailed studies encompassing all seasons, a greater variety of plants, and other influential factors in different ecological regions are fundamental for creating favorable environments to sustain important butterfly pollinators and help create balanced wetland ecosystems.     

菊花花部特征及花冠精油组分与访花昆虫的相关性

 菊花(Dendranthema morifolium)是异花授粉植物, 具有自交不亲和特性。其自然授粉的主要媒介为蜂类和蝶类。我们对19个菊花品种的花色、花朵繁密度、花冠直径、管状花花盘直径、株高以及花冠精油组分与访花蜂数和访花蝶数的相关性进行了研究。结果表明, 黄花色系较吸引西方蜜蜂(Apis mellifera)访花; 菊花的花朵繁密度、花冠直径、管状花花盘直径均与访花蜂数有显著相关性, 而株高与访花蜂数无相关性。大红蛱蝶(Vanessa indica)青睐红色花, 其访花蝶数与花朵繁密度、管状花花盘直径均有显著相关性, 而花冠直径和株高与访花蝶数无相关性。经气相色谱-质谱(GC-MS)分析得知, 不同菊花品种花冠精油的组分不同, 其主要成分均为单萜和倍半萜类及其含氧衍生物; 并且不同品种含有某些特定的花冠精油组分, 其中樟脑萜(r = –0.909, p<0.05)和6,10,14-三甲基-2-十五酮(r=0.882, p<0.05)与访花蜂数呈一定的相关性, α萜品醇(r=0.979, p<0.01)、顺柠檬烯氧化物(r=0.979, p<0.01)、金合欢烯氧化物(r=0.979, p<0.01)、p-mentha-6,8-dien-2-ol,cis- (r=0.973, p<0.01)、p-menth-1-en-8-ol (r=0.962, p<0.01)和4-萜品烯醇(r=0.957, p<0.05)与访花蝶数呈一定相关性。     

梅花‘南京红须’、‘南京红’花色的呈现特征(英文)

梅花‘南京红须’、‘南京红’的花色主要存在着花发育阶段导致的时间变化,反映其花色受花发育控制。二者的花色都在蕾期最浓艳,在初花期略淡,在盛花期又稍浓,在末花期最淡,尽管花瓣在花开放时便开始衰老;在整个花发育时期,同一朵花不同层次花瓣的颜色浓淡均为:外层花瓣>中层花瓣>内层花瓣,即花瓣在花冠中的具体排列位置决定着该片花瓣的特定颜色深浅;但不同层次花瓣颜色的变化趋势不完全一致。同时,两个品种外层花瓣的总黄酮含量变化与外层花瓣的色度变化成正相关。而花朵在树冠的着生部位导致的花色差异极不显著,表明‘南京红须’、‘南京红’的花色的空间变化极微。本文可为梅花红色花色的机理探索和花色色素生物合成关键酶基因cDNA克隆中的花朵选择提供参考。     

楸树不同单株花性状变异分析

楸树是我国中部地区重要的珍贵阔叶用材和著名的园林观赏树种,已有2 600多年的栽培历史。研究其花性状多样性与变异性旨在揭示花表型性状在楸树种内存在的巨大变异,为新花色育种和优良观花新品种的选育及新品种的鉴定和保护提供理论依据。以1985~1990年收集的优良单株和杂种F1共27株为材料,测定了花性状中的2个质量性状和7个数量性状,并采用方差分析、聚类分析等方法进行统计分析。①27株的开花物候期差异可达5 d,花大小、花序长短和单株花量均有较大差异,并且由于叶柄长度和花枝长度的差异导致不同单株表现出显花和隐花特征。②楸树为二强雄蕊,分为雄性可育和败育,调查的27株中有12株为雄性可育,且花粉量差异较大。③花冠檐部5裂,上唇3瓣,下唇2瓣,上唇瓣长度大于下唇瓣。27株的花枝长度、花序长度、单花枝花数、花上唇瓣长度、花下唇瓣长度和花冠直径均存在极显著差异,单株间的变幅分别为10.7~16.4 cm、5.6~9.6cm、2~13朵、3.8~5.2 cm、3.0~4.3 cm、3.9~5.4 cm,表型变异系数分别为12.8%、12.5%、36.7%、7.5%、9.1%和9.2%。④16株间花色L^*值(亮度值)、a^*值(红绿值)、b^*值(黄蓝值)、C^*值(彩度)和h值(色相)均存在极显著差异,a^*值、b^*值以及彩度C^*值的表型变异系数分别为35.1%、52.5%和29.8%;以L^*、a^*和b^*值度量花色,通过聚类分析将16株聚为3类,红色系、粉红色系和白色系。楸树27株的花枝长度、花序长度、花大小差异极显著,16株的花色也具有明显的差别,依据L^*、a^*和b^*值进行聚类分析,当欧氏距离为15时可将16株聚为3类:红色系、粉红色系和白色系。     

The genetic architecture of interspecific variation in mimulus

The genetic architecture of various floral and morphological differences between Mimulus cupriphilus and Mimulus guttatus is investigated. M. cupriphilus is believed to have speciated from M. guttatus in the recent past. The two parent species, the F(1) and F(2), and two backcrosses were grown and scored for 23 different characters. The analysis of means revealed significant epistasis for a number of the floral characters, particularly those involving the length of parts. Dominance was generally toward M. guttatus, except for the characters related to flowering time. Analysis of the genetic correlations between characters revealed that there were at least four different polygenic genetic systems, governing flowering time, size of flower, number of spots on the corolla, and general size. An analysis of minimum gene number suggested that there were at least 3-7 genes controlling floral size, and a different three controlling floral spot number. Two other characters, corolla lobe shape and stem color, were produced by independent major gene differences. Annuality was also shown to be heritable. The two species appear to utilize the same gene for copper tolerance. The results are discussed in the light of current theories of speciation.     

The flower and blossom morphology of Asteraceae correlates with composition of their pollinators

The correlation between flower morphology and share of different insect groups visiting them was studied for 15 Asteraceae species. We measured length and width of corolla tube of 100 flowers of each plant species and determined proportions of main groups of anthophilous insects during all blooming period. According to corolla length species under study ranged more or less uniformly from 2.16 mm (Tripleurospermum inodorum) up to 21.06 mm (Cirsium heterophyllum). The correlation between share of long-tongued bees (mainly bumblebees) among all visitors of inflorescens and corolla length was positive (r = 0.737, P < 0.01) while for short-tongued flies (Syrphidae, Muscidae, Calliphoridae) it was negative (r = -0.869, P < 0.01). It is interesting, that the point of crossing of regression lines (12 mm) approximately coincides with change in inflorescences coloration. Plants with corolla length less than 10 mm have yellow or white inflorescences that are visited primarily by flies, while the plants with longer corolla have violet or dark blue inflorescences, by bumblebees. The dependence of proportion of short-tongued solitary bees (Andrenidae, Halictidae) on a corolla length was non-linear. It increased with increase in corolla length in an interval of 2.16-6.26 mm (r = 0.930, P < 0.1), but decreased for longer corollas (r = -0.680, P < 0.05). The correlation between corolla length and proportions of beetles and butterflies were insignificant.     

枇杷属植物4个种的花序性状多样性研究

在相同的种植和管理条件下,对普通枇杷、栎叶枇杷、大瑶山枇杷和南亚枇杷等4个种210份种质资源的8个花序性状多样性进行鉴定,旨在为进一步的分类鉴定、利用研究提供参考依据。结果表明:(1)枇杷属种质资源的花序支轴姿态、花序支轴密度、花序支轴数、花序形状、花序长度、花序宽度、花瓣颜色、花冠直径Shannon-Weaver多样性指数1.352～2.951,存在丰富的多样性。(2)不同来源地的种质资源花序性状多样性水平差异较大,多样性指数最高的为云南(2.108),其次是贵州(1.962)、四川(1.953)、福建(1.900),美国的最低(1.137)。(3)云南、贵州的枇杷种质资源花序长度、宽度显著或极显著地大于其他地区;野生资源的花序长度、花序宽度和花冠直径均极显著地大于地方品种、选育品种。     

Visual and Olfactory Responses of Seven Butterfly Species During Foraging

Foraging responses of seven butterfly species were determined for flower models that differed in color, size, and depth of artificial corolla. We measured frequency of visits to flowers of various colors (red, orange, yellow, purple, and white) with or without the application of honey water to flower models. We found that the relative strength of butterfly response to visual versus olfactory cues differed among butterfly species. We suggest that the seven butterfly species tested exhibit four different patterns in how visual and olfactory cues were combined as determinants of foraging importance: (1) vision was given priority over olfaction (in Cethosia cyane and Danaus chrysippus); (2) olfaction was given priority over vision (Cethosia biblis, Idea leuconoe, and Tirumala limniace); (3) olfaction and vision were equally important (Catopsilia pomona); and (4) only olfaction was used (e.g., Danaus genutia, which was not sensitive to the five colors tested but very sensitive to the smell of honey in our experiments). In tests with flower models of different sizes, the visitation frequency of C. cyane, I. leuconoe, and D. chrysippus increased with increasing corolla diameter, provided flowers were sprayed with honey water. C. cyane and D. chrysippus showed this trend because of their strong dependence on visual cues. In contrast, I. leuconoe with its large body size preferred larger flowers, it could be that butterflies need more nectar to support its large body size. Catopsilia pomona tended to visit large and middle-sized flowers because it used both vision and odor to detect food, large or middle-sized flowers could have more vision and odor stimulation than small flowers for foraging butterfly. The other three butterfly species did not show that trend because of lack of dependence on visual cues. There was no correlation between visitation frequency and corolla depth within particular butterfly species. In conclusion, the foraging strategies of butterflies are not only mainly determined by the weights given to visual and olfactory cues, but also affected by body size.     

Flower color modifications of Torenia hybrida by cosuppression of anthocyanin biosynthesis genes

White and blue/white varieties of Torenia hybrida were successfully obtained from the blue variety cv. Summerwave (SWB) by cosuppressing expression of two of the genes involved in anthocyanin biosynthesis; chalcone synthase (CHS) and dihydroflavonol 4-reductase (DFR). Such molecular breeding is the only precise and efficient way to create flower color variation in SWB due to its male and female sterility. Flower color and the degree of suppression varied between transgenic lines, and anthocyanin biosynthesis was more consistently suppressed in the dorsal petal lobes, ventral petal lobes and corolla tube than lateral petal lobes. A pink variety was obtained by cosuppressing the flavonoid 3,5-hydroxylase (F35H) gene. Yellow torenia was obtained from T-33, an in-house cultivar that contained both carotenoids and anthocyanins, by cosuppression of CHS or DFR genes.     

The role of floral structure and biotic factors in determining the occurrence of florivorous thrips in a dystilous shrub

Elucidating the factors determining the occurrence of florivorous organisms is an essential step for comprehending arthropod–plant interactions, especially when considering florivores that use flowers/inflorescences as microhabitats. In this study, we characterize the interaction between florivorous thrips (Thysanoptera) and Palicourea rigida (Rubiaceae), a distylous hummingbird-pollinated shrub. We investigated the relative role of different factors in determining thrips occurrence in the flower and inflorescence microhabitats. Furthermore, we experimentally examined the protective role of corolla influencing thrips exploration of floral buds. Frankliniella musaeperda (Thripidae) was the only species recorded on P. rigida, feeding on floral tissue, pollen and nectar. Thrips occurrence was not related to distyly, but rather to floral stage. Open flowers presented the highest abundance of thrips, followed by senescent flowers and then buds. The experimental opening of buds translated in increased thrips occurrence, indicating that F. musaeperda manage to explore the microhabitat offered by the floral chamber, as long as there is an opening in the corolla. In inflorescences, thrips abundance was negatively related to the number of ants visiting extrafloral nectaries. We found that the marked difference between floral morphs of distylous plants is not necessarily reflected in the abundance of florivores. Thrips seek for floral cavities, preferentially those with fresh tissue, which may confer nutrient-rich food and protection. Buds also provide this; however, the enclosed petals are an effective barrier against F. musaeperda entrance. At inflorescence scale, presence of mutualistic ants in high numbers can drive away these flower-feeding insects. Despite the abundance of thrips in the flowers, there was no evidence of any functional relationship, either of pollination for flowers or of breeding for insects. We demonstrate here that in the flower/inflorescence microhabitat, structural and biotic factors play a key role in the exploitation and occupation by insect florivores.     

Flower color modulations of Torenia hybrida by downregulation of chalcone synthase genes with RNA interference

Suppression of biosynthetic genes involved in flower color formation is an important approach for obtaining target flower colors. Here we report that flower color of the garden plant Torenia hybrida was successfully modulated by RNA interference (RNAi) against a gene of chalcone synthase (CHS), a key enzyme for anthocyanin and flavonoid biosynthesis. By using each of the coding region and the 3'-untranslated region of the CHS mRNA as an RNAi target, exhaustive and gene-specific gene silencing were successfully induced, and the original blue flower color was modulated to white and pale colors, respectively. Our results indicate that RNAi is quite useful for modulations of flower colors of commercially important garden plants.     

贠建全:广东荷包岛维管束植物名录

以分布于秦岭的金花忍冬（Lonicera chrysantha Turcz.）、忍冬（L.japonica Thunb.）、葱皮忍冬（L.ferdinandii Franch.）和金银忍冬（L.maackii（Rupr.）Maxim.）为对象,通过定位观察、人工授粉实验、人为设置实验斑块的方法对忍冬属4种植物的开花生物学特性、繁育系统、花色变化现象、传粉过程进行了研究。结果表明,4种植物的单花花期、花部特征存在差异。人工授粉实验显示,4种植物均存在一定的花粉限制,自交不亲和。除葱皮忍冬外,其余3种植物随着花色由白变黄,花粉和花蜜报酬减少、雌雄生殖能力逐渐降低;葱皮忍冬花变色后花蜜量变化不显著,且仍保留较强的雌性生殖能力。变色花的保留被认为是植物的一种生殖策略,通过增大植物的花展示来扩大自身的吸引力,以吸引更多远距传粉者访花。人为控制白、黄花不同数量比的实验结果表明,大多数传粉者偏向访问白花（变色前的花）,且白花提供的报酬量和黄花（变色后的花）数量显著影响传粉者的访花频率,即当花蜜量减少或黄花数量增多时,传粉者访花频率随之降低。因此,我们认为忍冬属4种植物的花色变化可能除了增大植物对远距传粉者的吸引力外,对近距传粉者的访花行为也可能具有一定的影响。当传粉者接近植株时,变色后的花可能暗示其花蜜（花粉）报酬已经发生变化,并驱使昆虫离开并飞向同株或异株植物新开放的报酬丰富的白花,这既有利于提高传粉者的觅食效率,又能降低植物同株异花授粉的几率,对忍冬属植物及传粉者都具有重要意义,是植物长期与授粉昆虫相互适应的反映。     

Primulina minor sp. nov. (Gesneriaceae) from a limestone cave in Hunan,China

Primulina minor from the Daoxian county, Hunan province in China is described. This new species is similar to Primulina jingxiensis (Yan Liu, W. B. Xu & H. S. Gao) W. B. Xu & K. F. Chung and P. longzhouensis (B. Pan & W. H. Wu) W. B. Xu & K. F. Chung, but differs by its number of leaves (4–6), broadly ovate, orbicular‐ovate or orbicular leaf blade, 2–4 cymes, short peduncle (1.8–2.0 cm long), white (or white with light purple tinge) corolla, small corolla (8–10 mm long), 3 staminoides of which the lateral ones are short (0.75–0.90 mm long) and adnate to 1.6–1.7 mm above the corolla base.