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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Neglected pollinator syndromes in seasonally inundated Renosterveld

Goldberg, Karen January 1996 (has links)
A range of fairly common plants were investigated in Darling in the Western Cape, to determine their pollinator syndromes, and to evaluate the relative importance of monkey beetles (Scarabaeidae: Rutelinae: Hopliini) and relatively short-tongued horseflies (Tabanidae) in their pollination. Detailed observations showed that all the plants investigated are visited by more than one insect species. Visitation rates and pollen loads of all insects found on the plants were used to assess their pollination efficiency. For all plants investigated, only a subset of the visitor-suite was found to contribute to the plant's reproductive success. Geissorhiza radians (Thunb.) Goldblatt and Wachendorfia paniculata L. seem to have specialized pollinator systems, both relying on tabanids for their pollination, while Heliophila coronipifolia, L. Monsonia speciosa, L.f. Ornothogalum thyrsoides, Jacq. Romulea hirsuta (Klatt) Baker and Ursinia anthemoides (L.) Poir. appear to have more generalized pollinator syndromes. Monkey beetles were the predominant and generally the most efficient pollinators for all these species. It is therefore concluded that these two insect groups are important pollinators of the plants investigated and probably play a part in the pollination of several other plants in the community. An evaluation of the larval requirements of pollinators revealed that although some species show clear patterns in terms of what types of soil conditions they prefer, successful emergence of insect species is generally not limited by a shortage of suitable habitats. Environmental variability may therefore play the largest role in determining the emergence and abundance of pollinators. This has implications for plants reliant on insects for their pollination, especially for species with specialized pollinator syndromes. Fluctuations in the environment may be a partial explanation for the prevalence of the generalized pollination syndromes observed.
2

Atributos e visitantes florais e polinização em um área de floresta ombrófila densa submontana do litoral norte de São Paulo / Floral traits, visitors and pollination in an area of submontane ombrophilous dense forest in the northem coast of São Paulo

Tavares, Andréa da Costa Marques, 1980- 20 August 2018 (has links)
Orientador: Carlos Alfredo Joly / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-20T21:03:27Z (GMT). No. of bitstreams: 1 Tavares_AndreadaCostaMarques_M.pdf: 1534689 bytes, checksum: 145f2e42ac5f923e0cd3fe2b46bbc9b9 (MD5) Previous issue date: 2011 / Resumo: Estudos de comunidades em biologia floral e polinização são muito importantes para o entendimento da estrutura e do funcionamento dos ecossistemas. A Floresta Atlântica da Serra do Mar possui diferentes fisionomias que refletem as diferentes comunidades ocorrentes ao longo do gradiente de altitude. Esse estudo foi realizado em Floresta Ombrófila Densa Submontana, em Ubatuba - SP e é parte integrante do Projeto Temático Biota Gradiente Funcional - FAPESP. O objetivo geral desse trabalho foi investigar a Floresta Ombrófila Densa Submontana da Mata Atlântica quanto aos atributos florais e polinização. Foram estudadas as especies angiospermas encontradas em floração durante um ano, registrando seus atributos e visitantes florais, a forma de vida e estrato, então as síndromes de polinização foram inferidas. Foram registradas 95 espécies ao todo, de 39 famílias. Fabaceae e Rubiaceae apresentaram maior numero de espécies em flor (oito espécies cada), mas a maioria das famílias apresentou poucas espécies. Os atributos florais predominantes foram: tubo e inconspícuo como tipos morfológicos; tamanho pequeno; as cores mais frequentes foram branco e amarelo; como recurso, néctar seguido de pólen. Em 26 espécies observou-se visitação de animais de vários tipos, principalmente abelhas, beija-flores e borboletas e em alguns casos a polinização pode ser confirmada. A síndrome de polinização mais frequente na comunidade foi melitofilia, seguido de ornitofilia e sistemas mistos foram observados em 21,1% das espécies. A forma de vida mais frequente foi arbórea, seguido de liana e epífita; o estrato onde se observou maior número de espécies florindo foi o dossel. As distribuições dos recursos florais e das síndromes de polinização por formas de vida, estrato e temporal foram analisadas. A maior frequencia de plantas florindo foi observada durante a estação mais quente e chuvosa, de out/2009 a jan/2010. As principais diferenças espaciais e temporais ocorreram entre as síndromes de melitofilia e ornitofilia. Essa fitofisionomia apresentou algumas peculiaridades em relação a outras fisionomias e a outros ecossistemas, sendo, portanto, de grande importância a conservação das interações ecológicas dessa formação vegetal para a manutenção da grande biodiversidade da Floresta Atlântica / Abstract: Studies on floral biology and pollination at community level are very important to understand the ecosystems structure and functioning. Atlantic Forest at Serra do Mar has different physiognomies that reflect different communities along altitudinal gradient. This study was done in Submontane Ombrophilous Dense Forest, at Ubatuba - SP and integrates the Thematic Project Biota Gradiente Funcional - FAPESP. The general purpose of this study was to investigate the Submontane Ombrophilous Dense Forest of Atlantic Forest about floral traits and pollination. The angiosperms species found flowering during one year was studied, registering its floral traits, floral visitors, life forms and strata, so the pollination syndromes were deduced. 95 species was registered of 39 families. Fabaceae e Rubiaceae had the highest number of species in bloom (eight species each), but most families had few species. Predominant floral traits were: tube and inconspicuous as morphological types; small size; most common colors were white and yellow; as resource, nectar followed by pollen. In 26 species, several types of animals were observed visiting flowers, mainly bees, hummingbirds and butterflies, and in some cases the pollination was confirmed. The most frequent pollination syndrome in the community was melittophily, followed by ornithophily and mixed systems were observed in 21.1% of the species. The most frequent life form was tree, after liana and epiphyte; the strata where was observed major number of species was canopy. Distributions of floral resources and pollination syndromes in life forms, strata and temporal was analyzed. The higher frequency of plants flowering was observed during the hot and wet season, from oct/2009 to jan/2010. The main special and temporal differences occurred between melittophily and ornithophily syndromes. This fitophysiognomy showed some particularities in relation to other physiognomies and other ecosystems, and therefore are very important the conservation of ecological interactions of this vegetation type to maintain the great biodiversity of the Atlantic Forest / Mestrado / Biologia Vegetal / Mestre em Biologia Vegetal
3

Bees Provide Pollination Service to Campsis Radicans (Bignoniaceae), a Primarily Ornithophilous Trumpet Flowering Vine

Van Nest, Byron N., Edge, Andrea A., Feathers, Michael V., Worley, Anne C., Moore, Darrell 01 February 2021 (has links)
Pollination syndromes refer to stereotyped floral characteristics (flower colour, shape, etc.) that are associated with a functional group of pollinators (bee, bird, etc.). The trumpet creeper Campsis radicans, endemic to the southeast and mid-west United States, has been assigned to the hummingbird-pollination syndrome, due mainly to its red, trumpet-shaped flowers. Previous studies demonstrated that the ruby-throated hummingbird Archilochus colubris is C. radicans' primary pollinator, but anecdotal data suggest various bee species may provide pollination service when hummingbirds are absent. This study characterised C. radicans nectar volume and concentration by time of day. Nectar volume was suitable for hummingbirds, but concentration was higher than typical hummingbird-pollinated plants (∼20% w/w); at ∼30% w/w, it approached the concentration expected in bee-pollinated plants (∼50% w/w). We also found substantial amounts of nectar at night. Two C. radicans populations received virtually no hummingbird visits, but the number of bees were markedly higher than in the populations previously described. Interestingly, there were no night-time visitors despite the large quantity of nocturnal nectar. Based on previously published pollen delivery per visit by various species, this study estimated that cumulative deposition by bees routinely reached pollen deposition thresholds for setting fruit in C. radicans. They are, unequivocally, the predominant pollinators in these populations, thus providing pollination service in the absence of hummingbirds. These results highlight C. radicans as a food source for native bees and add to the understanding of how floral phenotypes can facilitate pollination by disparate functional groups.
4

Characteristics of Nectar Production and Standing Crop in <em>Campsis radicans</em> (Bignoniaceae).

Edge, Andrea Alexis 08 May 2010 (has links) (PDF)
We examined several aspects of nectar production in Campsis radicans to better understand how standing crop is affected and how production affects pollinator visitation. In all experiments, nectar and concentration of flowers were measured and total sugar was calculated. Flowers do not produce additional nectar unless nectar is removed, and it is not resorbed. Volume of standing crop and total sugar fluctuates throughout the day, whereas concentration remains constant. Age and time of day significantly affect regeneration of nectar and sugar. The number of removals did not significantly affect the amount of nectar or sugar regenerated; however, concentration declined significantly after the initial removal. We have established several factors affecting nectar production, although clearly there are other aspects influencing the production of nectar in C. radicans. Focus should be placed on determining the physiological aspects of secretion as well as studying the role that environmental factors have on physiological aspects.
5

Évolution des syndromes de pollinisation et des niches bioclimatiques au sein des genres antillais gesneria et rhytidophyllum (gesneriaceae)

Alexandre, Hermine 04 1900 (has links)
Contexte : Gesneria et Rhytidophyllum (Gesneriaceae) sont deux genres de plantes Antillais aillant subi une forte diversification et qui présentent une forte variabilité de modes de pollinisation associés à des traits floraux particuliers. Les spécialistes des colibris ont des fleurs tubulaires rouges, alors que les spécialistes des chauves-souris et les généralistes présentent des fleurs campanulées de couleur pâle. La capacité d’être pollinisé par des chauves-souris (en excluant les colibris ou en devenant généraliste) a évolué plusieurs fois indépendamment au sein du groupe. Ces caractéristiques font de ces plantes un bon modèle pour étudier les relations entre l’évolution des modes de pollinisation et la diversification spécifique et écologique. Pour ceci, nous avons étudié les bases génétiques des changements de mode de pollinisation et les liens entre ces modes de pollinisations et la diversification des niches bioclimatiques. Méthodes : Nous avons réalisé une étude de QTLs pour caractériser les régions génomiques associées à la transition de syndrome de pollinisation entre une espèce à stratégie de pollinisation mixte (Rhytidophyllum auriculatum) et une espèce spécialiste des colibris (Rhytidophyllum rupincola). Nous avons parallèlement analysé les relations entre les changements de modes de pollinisation (dimension biotique de la niche écologique) et l’évolution des niches bioclimatiques chez ces plantes. Enfin, d’un point de vue théorique, nous avons testé l’effet de la fréquence et de l’amplitude des changements environnementaux sur les patrons d’évolution des niches écologiques. Résultats : L’étude des QTLs a montré que la couleur et le volume de nectar sont basés chacun sur un QTL majeur, alors que la forme de la corolle a une base génétique plus complexe. Par ailleurs ces différents QTLs ne sont pas liés physiquement dans le génome. L’analyse des niches bioclimatiques a montré que ces Gesneriaceae antillaises sont caractérisées par un conservatisme phylogénétique de niche bioclimatique (PNC) et que l’évolution de ces niches est indépendante des stratégies de pollinisation. Les plantes semblent aussi être relativement généralistes du point de vue de leur niche abiotique. Finalement, nous avons testé l’hypothèse selon laquelle l’adaptation à un environnement temporellement hétérogène pourrait expliquer à la fois le caractère généraliste des plantes et leur patron de PNC. Cette hypothèse s’est trouvée partiellement vérifiée. Conclusion : Si l’indépendance génétique des traits floraux a pu faciliter l’émergence des syndromes de pollinisation en réduisant les contraintes génétiques, il semble que la répartition largement chevauchante des colibris et des chauves-souris ne représente pas une opportunité écologique suffisante pour expliquer les évolutions répétées vers la pollinisation par les chauves-souris. En revanche, les perturbations environnementales causant régulièrement des déclins dans les populations de pollinisateurs pourraient expliquer l’avantage des plantes qui ont une stratégie de pollinisation mixte. / Background: Gesneria and Rhytidophyllum (Gesneriaceae) are two genera endemic to the Antilles that underwent an important diversification and that present a great vari- ability in pollination modes with regard to specific floral traits. Hummingbird specialists harbour red tubular flowers while bat specialists and generalists have campanulate (i.e., bell shaped) flowers with pale colours. Bat pollination (excluding or not hummingbirds) evolved multiple times independently in this group. These plants are thus a good model to study the relationship between the evolution of pollination mode and ecological and species diversification. To understand these relationships, we studied the genetic basis of pollination mode transition and the link between pollination mode and bioclimatic niches diversification. Methods: We performed a QTL analysis to detect genomic regions underlying the floral traits involved in the pollination syndrome transition between Rhytidophyllum auriculatum (a generalist species) and Rhytidophyllum rupincola (a hummingbird specialist). Also, we analysed the consequence of pollination mode transitions (which represent the biotic part of ecological niches) on bioclimatic niches evolution in Gesneria and Rhytidophyllum. Then, we tested whether environmental changes can result in patterns of phylogenetic bioclimatic niche conservatism through time. Results: The QTLs analysis showed that corolla colour and nectar volume are both based on one major QTL, while corolla shape is determined by a more complex genetic architecture involving several unlinked QTLs. These Antillean Gesneriaceae were found to have a pattern of phylogenetic (bioclimatic) niche conservatism (PNC) and their niche evolution was found to be independent from pollination strategies. Overall, the plants were found to have relatively widespread bioclimatic niches. Finally, we partially confirmed the hypothesis that adapting to temporally variable environment might cause both species generalization and PNC pattern. Conclusion: Genetic independence of floral traits might have facilitated pollination syn- dromes evolution by reducing genetic constraints. However, the overlapping distribution of hummingbirds and bats do not represent an ecological opportunity that could explain re- peated evolutions toward bat pollination. However, environmental perturbations causing regular pollinator populations collapses could explain the advantage for plants to favour generalist strategies.
6

Plant-bee interactions and pollen flux in restored areas of Atlantic Forest / Interações planta-abelha e o fluxo de pólen em áreas restauradas de Mata Atlântica

Pfeiffer, Paula Maria Montoya 14 December 2018 (has links)
The conservation and restoration of pollinators is essential for sustaining viable plant populations in fragmented landscapes because they promote genetic diversity among isolated individuals. As it is expected that populations in remnant and restored forests perpetuate with the passing of the years, restoration programs on highly fragmented agricultural landscapes should be planned with consideration for achieving this purpose. In this work, we evaluated plant-pollinator interactions in restored tropical forests, aiming to establish first, the pollination requirements of plant species in these communities, and secondly, if the pollinator requirements are being fulfilled and the interactions between plants and pollinators are being recovered throughout restoration practices. This work comprises two chapters: On the first one (\"Are the assemblages of tree pollination modes being recovered by tropical forest restoration?\") we did an extensive literature review about the pollination biology of tree species in primary forests, restoration plantings and naturally regenerated forests, to compare and identify patterns on the functional diversity and the assemblages of plant pollination modes. On the second chapter (\"Functional responses and effects from bee communities in restored tropical forests\") we sampled bees (i.e. the most important pollinators) and identified the pollen grains attached to their bodies in primary forests, restoration plantings, disturbed herbaceous areas and sugar cane fields; afterwards we analyzed and compared the functional diversity of bee communities and their floral resources, and the structure of plant-bee interactions, as well as in response to habitat isolation. We found that different restoration practices leaded to changes on patterns of abundance and species proportions of several plant pollination modes, which were stronger in locations under active restoration activities than in naturally regenerated forests. Specifically in the case of bees, we found that the demand for their function as pollinators in restoration plantings was even higher than that in primary forests, since many bee pollinated tree species were being widely and preferably used due to their great colonizing ability, or because of the many other ecosystem functions and services that they provide. We observed that bee communities were getting benefited by such over-representation of bee floral resources, since many species visited more frequently the tree species in restoration plantings than any other habitat. In spite of such preference, the bee abundance and functional diversity of bee communities was not fully recovered in restoration areas, maybe because of other habitat requirements that still remained undersupplied (e.g. nesting resources). Although the functional diversity on bee communities was high in general, only a small part, which was also the most vulnerable (i.e. larger bees that nest above-ground, have different levels of sociality and are polylectics), was the principal in charge of the pollination of the most important plant species in primary and restored forests (i.e. native woody plants, from initial successional stages and with different pollination modes). Throughout this work we analyzed and discussed the implications of these results for the recovery of plant-pollinator interactions and on future decisions in restoration and conservation planning / A conservação e restauração dos polinizadores são essenciais para a manutenção das populações vegetais nas paisagens fragmentadas, pois eles proporcionam diversidade genética entre os indivíduos espacialmente isolados. Dado que se espera que as populações nas florestas remanescentes e restauradas se perpetuem com o passar dos anos, os programas de restauração devem ser planejados também considerando alcançar este objetivo. Neste trabalho avaliamos as interações planta-polinizador em florestas tropicais em restauração, objetivando estabelecer primeiro, os requerimentos de polinização nestas comunidades e segundo, se os requerimentos de habitat dos polinizadores estão sendo satisfeitos e as interações entre plantas e polinizadores estão se recuperando através das práticas de restauração. O trabalho compreende dois capítulos: No primeiro (\"Os sistemas de polinização de espécies arbóreas estão se recuperando por meio da restauração de florestas tropicais?\") realizamos uma revisão exaustiva na literatura sobre a biologia da polinização das espécies de árvores em florestas primárias, plantios de restauração e florestas naturalmente regeneradas, para depois comparar e identificar os padrões na diversidade funcional e nas assembléias de modos de polinização. No segundo capítulo (\"Respostas e efeitos funcionais das comunidades de abelhas em florestas tropicais restauradas\") coletamos abelhas (i.e. os principais polinizadores) e identificamos os grãos de pólen aderidos no seu corpo, em florestas primárias, plantios de restauração, áreas herbáceas degradadas e cultivos de cana-de-açúcar; depois analisamos e comparamos a diversidade funcional das comunidades de abelhas e seus recursos florais, a estrutura das redes de interação e também em resposta ao isolamento do habitat. Encontramos que diferentes práticas de restauração geraram maiores mudanças nas proporções de vários modos de polinização, em lugares submetidos a atividades de restauração ativa do que nas florestas regeneradas naturalmente. Especificamente no caso das abelhas, encontramos que a demanda pela sua função como polinizadores nos plantios de restauração era ainda maior do que nas florestas primárias, pois muitas espécies de árvores polinizadas por abelhas estavam sendo preferivelmente plantadas graças a sua maior habilidade como colonizadoras, ou devido à outras funções e serviços ecossistêmicos que elas provem. Observamos que as abelhas estavam se beneficiando dessa super-representação de recursos florais, dado que várias espécies visitaram mais freqüentemente as árvores presentes nos plantios de restauração do que em outras áreas. Apesar dessa preferência, a abundância de indivíduos e a diversidade funcional nas comunidades de abelhas ainda não estavam totalmente recuperadas nas áreas em restauração, provavelmente porque alguns dos seus requerimentos de habitat estão ainda pouco fornecidos (e.g. recursos de nidificação). Mesmo que a diversidade funcional nas comunidades de abelhas tenha sido alta de maneira geral, somente uma pequena parte dela, que também foi a mais vulnerável (i.e. abelhas de maior porte que nidificam por cima do solo, tem diferentes níveis de sociabilidade e são polilécticas), foi a principal encarregada do transporte de pólen das plantas mais importantes das florestas primárias e restauradas (i.e. plantas lenhosas, nativas, de successão inicial e com diferentes modos de polinização). Ao longo deste trabalho analisamos e discutimos as implicações destes resultados para a recuperação das interações planta-polinizador e nas futuras decisões no planejamento da restauração e conservação ecológica
7

Moth pollination, low seed set, and vestigialization of attractive floral traits in Abronia umbellata (Nyctaginaceae)

Doubleday, LAURA 05 September 2012 (has links)
Flowering plants display remarkable phenotypic diversity, especially in reproductive structures, much of which is thought to be associated with pollination by animals. Pollination syndromes are collections of floral traits (e.g. flower colour, shape, odour) that are associated with a plant attracting particular functional groups of animal pollinators. We explored the extent to which traits associated with the moth pollination syndrome translated into pollination by moths in the Pacific coast dune endemic Abronia umbellata and found mixed results: in one year of study, there was no difference in seed set by day- vs. night-pollinated inflorescences, but in another year of study, night-pollinated inflorescences set significantly more seed than those pollinated during the day. We integrate this work with tests of pollen and resource limitation of seed production and with seed set surveys of natural populations to address proximate and ultimate causes of low seed set, finding low rates of pollinator visitation, high pollen limitation of seed production in all populations studied, and no evidence of endogenous resource limitation of seed production. We propose that “excess” flowers may be functionally male, serving to increase outcross siring success. The transition from self-incompatibility and obligate outcrossing to self-compatibility and predominant selfing is the most common evolutionary transition among the flowering plants and traits associated with outcrossing may become reduced across such shifts, potentially through the action of natural selection, especially if pollinators are also herbivores, or if the signals that pollinators use to locate flowers are also used by herbivores. We examined the reduction of attractive visual and olfactory floral traits in A. umbellata across a shift from outcrossing to selfing and found a reduction of all floral traits considered. We found that floral volatile emissions were reduced more strongly than flower size or floral display (number of flowers per inflorescence), but there was no evidence of an ecological cost associated with conspicuousness: we did not find reduced leaf herbivory among selfers relative to outcrossers. / Thesis (Master, Biology) -- Queen's University, 2012-08-30 19:46:23.663

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