Genetic architecture of yield and components of yield in mustard (Brassica juncea (L.) Czern & Coss.)

Summary The relative ability of cross- and self-pollen to achieve fertilisation in Brassica was studied by making double pollinations using cross-pollen carrying a dominant seedling marker gene. With simultaneous self- and crosspollination 12–40% self-seed was set, but when cross-pollen was applied to the stigma four hours before self-pollen, only 2–4% self-seed was obtained. In two plants to which cross-pollen was applied at various time intervals after self-pollen there was a tendency for the percentage of self-seed to increase as the time interval increased. In a third plant this trend was not apparent, probably because of a greater degree of self-incompatibility. The competitive advantage of the first pollen to arrive on the stigma is discussed in relation to the strength of the self-incompatibility and the sib problem in F₁ hybrid brassicas.     

Pollination and Breeding System of Vellozia squamata (Liliales: Velloziaceae): A Species of the Brazilian Cerrados

The pollination biology and breeding system of Vellozia squamata (Velloziaceae), a species of cerrado vegetation in Central Brazil, were studied. V. squamata is unusual in being pollinated by a few, generalist bee species despite having very large flowers, and having a distinctive pulsed flowering phenology. The species is self-incompatible but with a late-acting, post-fertilization rejection mechanism.     

Composition of Orchid Scents Attracting Euglossine Bees

Fragrance composition of flowers from 101 plant species, especially orchids, were analyzed. Several compounds, including allo-aromadendrene, β-bourbonene, α-copaene, α-cubebene, 1,2-dimethoxybenzene, 1,3,5-trimethoxybenzene, epoxygeranyl acetate, 7,11-epoxymegastigma-5(6)-en-9-one, two γ-lactones, germacradienol, germacrene D, humulene, methoxy-phenyl-ethyl acetate, myrcene epoxide, sabinene, styrene, and undecatriene were detected for the first time in orchids. Fragrance composition of flowers pollinated by male euglossine bee species (perfume flowers) of four plant families are compared and contrasted with those of orchid species with other pollination systems. Melittophilous, but highly specialized orchids, produce fragrances rich in different sesquiterpenes and other rare compounds. In the species that are exclusively pollinated by fragrance-collecting male euglossine bees, the fragrances are primary attractants that serve both as an attractant and as a reward. The unusually intensely smelling flowers mostly produce esters and monoterpenes. The fragrances of euglossophilous flowers of the three plant families investigated are composed of nearly the same sets of chemical compounds, suggesting convergent evolution. Typically, euglossophilous plant species produce large amounts of few fragrant substances while melittophilous species often produce rare compounds in small amounts.     

Reproductive ecology of dioecious Siparuna (Monimiaceae) in Ecuador–a case of gall midge pollination

The reproductive ecology of the dioecious genus Siparuna , belonging to the primitive family Monimiaceae, was investigated in Ecuador. Thirteen species were studied, and species growing at high altitudes (above 500 m) were compared with species growing at lower altitudes. The genus has specialized flowers pollinated by Cecidomyiidae (Asynapta sp. and other genera) that lay eggs chiefly in male flowers since these are more easily accessible than female flowers due to their morphology. Several traits ensure that pollen transfer is accomplished: 1. long flowering of individuals and single flowers; 2. specific floral morphology (unisexuality, landing platform, restricted pore) allowing the flowers to be visited by Cecidomyiidae seeking egg-laying sites, and 3. a low number of ovules that have to be pollinated in each flower. The low number of ovules per flower results in a high pollen-ovule (P/O) ratio even though pollen production in male flowers is only moderate.
High altitude species had larger flowers, higher pollen-ovule ratios, fewer ovules per female flower, and longer periods of anthesis. Gender differences were seen in the longer functionality of female flowers; the larger numbers of male flowers produced; and the average diameter at breast height (DBH) biased for one of the two sexes depending on the species investigated, with no clear trend in the size distributions of individuals of both sexes. Sex ratios departed significantly from unity both to male and female bias but usually were in favour of males. There were no general differences in the ratio of functional male to female flowers at the time of observation nor in the sizes of male and female flowers. The evolution of unisexual flowers in Siparuna can be explained as a result of the differential predation by larvae: unimportant in male flowers, destructive if occurring in female flowers.     

Pollination Ecology and Endemic Trends in Pedicularis bracteosa var. atrosanguinea Pennell & Thompson (Scrophulariaceae) in North America

Abstract Pedicularis bracteosa var. atrosanguinea occurs locally in association with P. racemosa or P. groenlandica in the Olympic Mountains in Washington. Other plant species, e.g., Polygonum bistortoides, Lupinus argenteus var. parviflorus and Valeriana sitchensis compete for space and bumblebee pollinators within the study area. Pollinator sharing, resulting from such competition, may increase the frequency of unvisited flowers of P. bracteosa var. atrosanguinea. P. bracteosa var. atrosanguinea , with blood purple nectariferous flowers, is presumed to lack intense reflections of blue spectral components from its corollas in attracting bumblebees compared to those of P. racemosa and P. groenlandica . Six species of bumblebees ( Bombus ) and cuckoo bees ( Psithyrus ) pollinate P. bracteosa var. atrosanguinea . Of these, Bombus mixtus and B. occidentalis occur in higher frequencies and are the major pollinators of P. bracteosa var. atrosanguinea . Queen and larger worker bumblebees pollinate nototribically as they probe for nectar, while smaller worker bumblebees pollinate sternotribically while scraping pollen from anthers deeply hidden in the dome-shaped galea. Corbicular pollen loads of bumblebees collected in the study area contain Pedicularis pollen alone/in combination of Polygonum, Valeriana, Lupinus, Erigeron and Bidens , or exclusively of Polygonum or Valeriana. P. bracteosa var. atrosanguinea does not suffer seriously from deficient pollination but seedlings resulting from pollinated flowers may be subjected to natural selection pressure exerted by colonial plant species for space. P. bracteosa var. atrosanguinea does not propagate asexually but resumes aerial growth seasonally from the self-same underground root stocks. If seedlings are under continuous selection pressure for lack of space, P. bracteosa var. atrosanguinea is presumed to regenerate primarily by perennial root stocks. This behavior may favor endemism in P. bracteosa var. atrosanguinea .     

Pollen placement and reproductive isolation between two brazilianPolygala species (Polygalaceae)

Polygala vauthieri andP. monticola var.brizoides have secondary pollen presentation from a basket-like structure on the style apex. This basket is loaded after the first visit by a bee. Pollen reception, therefore, can precede the issue of pollen. A sticky stigma secretion glues the pollen from the basket under the head of the bee visitor in an exactly predetermined spot on the left side only. This position mostly forms a kind of safe spot, where the bee can not remove the pollen. The exact position on the bee's head is determined by the species specific distance between style tip and nectary in the visited flower. In this way the two sympatric species deposit the pollen 2 mm apart on the visitor and so can avoid hybridization pollination, while being visited by the same group of bees.     

Errata

In south-eastern Arizona, heterostylous (often trimorphic) populations of Oxalis alpina (Rose) Knuth are visited most commonly by females of the solitary bee Heterosarus bakeri Cockerell. Bees collect pollen from flowers and are presumed to be the major pollinators of O. alpina in this region. Analysis of pollen loads from the corbiculae of H. bakeri suggests that individual bees may specialize temporally on different floral forms. However, the apparent preferential collection of pollen probably results from spatial segregation of morphs and the localized foraging behaviour of bees rather than preference on the part of individual bees for particular stylar forms. As a group, bees appear to visit floral morphs of O. alpina indiscriminately, even though individual bees may have a preponderance of pollen from one morph type. Despite spatial segregation leading to pollinator flights between members of the same incompatibility group, capsule and seed production in populations of O. alpina is high for all forms. Loss of the mid form in some populations cannot be attributed to pollinator preferences for individual style morphs.     

Pollination ofOpunta basilaris andO. littoralis

The flowers ofOpuntia basilaris andO. littoralis in southern California are visited commonly by beetles(Carpophilus, Trichochrous) and bees (especially anthophorids, megachilids, and halictids), but are pollinated mainly by the bees. This agrees with observations presented in the previous papers in this series for other cactus species in Arizona and Texas. The available evidence indicates that the large, diurnal, cup-shaped flowers in cacti of the American Southwest are primarily bee-pollinated. Our earlier view that theseOpuntia flowers are also pollinated to a significant extent bynitidulid andmelyrid beetles must be modified now in the light of further evidence. Some pollination probably is carried out by small beetles, but it probably represents only a small proportion of the total pollination.Pollination of North American Cacti, III.—See alsoGrant & Grant (1979) andGrant & al. (1979).