Efeitos do estresse biótico na expressão de terpenos em plantas: Varronia curassavica Jacq. and Pistacia palaestina Boiss / Biotic stress effects on terpenoids expression on plants: Varronia curassavica Jacq. and Pistacia palaestina Boiss

Hoppen, Carolina

15 March 2018

Conselho Nacional do Desenvolvimento Científico e Tecnológico (CNPq) / Os terpenos constituem a classe de produtos naturais com maior diversidade química e estrutural, estando associados ao metabolismo das plantas e às interações destas com outros organismos. Estes compostos, as enzimas que os sintetizam e as plantas que os produzem são amplamente estudados em diferentes aspectos. Para melhor compreensão da expressão de terpenos em plantas sob estresse biótico, as espécies Varronia curassavica e Pistacia palaestina foram estudadas neste trabalho. Folhas de V. curassavica contém óleo essencial rico em sesquiterpenos com propriedades anti-inflamatórias, especialmente α-humuleno and β-cariofileno. O objetivo deste estudo foi avaliar as respostas do seu metabolismo em função da aplicação de dois eliciadores naturais no conteúdo de sesquiterpenos de V. curassavica. Para isso, as plantas receberam a aplicação de acibenzolar-S-metil (500 mg L-1), 1,6 β-D-glucano obtido a partir de Lasiodiplodia theobromae (50 mg L-1) e água destilada como controle, sendo realizada as avaliações de trocas gasosas, atividade das enzimas fenilalanina amônia-liase, superóxido dismutase, peroxidase e catalase, bem como a análise química do óleo essencial. Acibenzolar-S-metílico reduziu significativamente a taxa líquida de assimilação de carbono e a concentração intercelular de CO2, enquanto que 1,6 β-D-glucano reduziu significativamente apenas a concentração intercelular de CO2. O maior rendimento de óleo essencial (0.819%) foi obtido em plantas eliciadas por 1,6 β-D-glucano. As proporções relativas e a quantidade de α-humuleno e β-cariofileno não diferiram entre os tratamentos, porém os eliciadores aumentaram significativamente a atividade da enzima guaiacol peroxidase. Os terpenos estão presentes nas folhas e galhas de Pistacia palaestina. Apesar do mecanismo de desenvolvimento das galhas ainda não ter sido completamente elucidado, sabe-se que espécies de afídeos como Baizongia pistaciae L. manipulam anatomicamente, fisiologicamente e quimicamente as plantas hospedeiras em seu benefício. Por este motivo, o isolamento e a caracterização funcional dos genes que codificam terpeno sintases em galhas induzidas por B. pistaciae, bem como sua expressão relativa por RT-qPCR em folhas e galhas de P. palaestina foram os objetivos deste trabalho. A expressão heteróloga foi realizada em E. coli pLYS-BL21, sendo as reações enzimáticas feitas com proteínas purificadas e usando geranil difosfato (GPP) ou farnesil difosfato (FPP) para testar a atividade das enzimas como mono- e sesquiterpeno sintases, respectivamente. Para o experimento de RT-qPCR, foi selecionado um gene referência entre actina, ciclofilina, fosfoglicerato quinase, RNA polimerase II, α-tubulina e ubiquitina. Em seguida, realizaram-se reações com as terpeno sintases para avaliar as diferenças nos níveis de expressão em folhas não colonizadas e galhas. Foram isoladas e caracterizadas duas monoterpeno sintases (PpTPS281 e PpTPS809) e uma sesquiterpeno sintase (PpTPS232) em P. palaestina. PpTPS281 produziu exclusivamente D-limoneno a partir de GPP, enquanto PpTPS809 produziu vários monoterpenos a partir de GPP e PpTPS232 catalisou a formação de diferentes sesquiterpenos a partir de FPP. Os resultados da RT-qPCR mostraram que o gene actina é o mais apropriado para ser usado na comparação de expressão de genes de folhas não colonizadas e galhas induzidas por B. pistaciae. Os níveis de expressão dos três genes foram significativamente aumentados em galhas (de 2,21- a 96.5-vezes), quando comparados com folhas. / Terpenes are a large and diverse class of natural products, being associated with plant metabolism and interactions with other organisms. Nowadays compounds and enzymes of the terpenes pathway in plants are widely studied in different aspects. Varronia curassavica and Pistacia palaestina were the selected species to study the biotic stress effects on terpenoids expressions. Leaves of V. curassavica are the commercial source α-humulene and β-caryophyllene, sesquiterpenes with anti-inflammatory properties. The objective of this study was to evaluate the effect of two natural elicitors on the sesquiterpene content of V. curassavica. Thus, field grown plants received the application of acibenzolar-S-methyl (500 mg L-1), 1,6 -D-glucan obtained from Lasiodiplodia theobromae (50 mg L-1) and distilled water as a control. Gas exchange rate, terpene enzymes such as phenylalanine ammonia-lyase, superoxide dismutase, guaiacol peroxidase and catalase activity and essential oil content in leaves were measured. Acibenzolar-S-methyl reduced significantly the net carbon assimilation rate and the intercellular CO2 concentration, while1,6 -D-glucan reduced significantly only the intercellular CO2 concentration. The highest essential oil yield (0.819%) was obtained in plants elicited with 1,6 -D-glucan. The content of α-humulene and β-caryophyllene did not differ among treatments however the elicitors provided a significant increase in guaiacol peroxidase activity. Terpenes are present in Pistacia palaestina in leaves and in horn-shaped galls. The mechanism of gall development remains unknown, however it is clear Baizongia pistaciae L., an aphid species, manipulates their hosts anatomy, physiology, and chemistry for their own benefit. To isolate and functional characterize terpene synthase genes from galls induced by B. pistaciae as well as their gene relative expression by RT-qPCR in leaves and galls of P. palestina were the aims of this study. The heterologous expression was performed in E. coli pLYS-BL21 cells, being enzymatic assay reactions made with the purified proteins using geranyl diphosphate (GPP) or farnesyl diphosphate (FPP) to test for possible mono- and sesquiterpene synthase activity, respectively. For relative real-time PCR, it was selected an appropriate reference gene between actin, cyclophilin, phosphoglycerate kinase, RNA polymerase II, α-tubulin and ubiquitin. After selection, it was performed reactions with terpene synthases genes to evaluate differences in expression levels in P. palaestina non-colonized leaves and galls. Two monoterpene synthases (PpTPS281 and PpTPS809) and one sesquiterpene synthase (PpTPS232) were isolated and characterized in P. palaestina. PpTPS281 produced exclusively D-limonene from GPP, while PpTPS809 produced several monoterpenes from GPP and PpTPS232 catalyzed the formation of different sesquiterpenes from FPP. Real-time PCR results showed that actin is the most proper gene to be used for genes expression studies between non-colonized P. palaestina leaves and galls induced by B. pistaciae. The levels of expression of the genes were significantly upregulated in galls (from 2,21- to 96.5-fold) when compared to leaves.

CNPQ::CIENCIAS AGRARIAS::AGRONOMIA

Plantas - Metabolismo

Proteínas - Metabolismo

Essências e óleos essenciais

Relação inseto-planta

Plants - Metabolism

Proteins - Metabolism

Essences and essential oils

Insect-plant relationships

Fitotecnia

A fragmentação florestal e a interação entre formigas e diásporos carnosos na floresta Atlântica / Forest fragmentation and the interaction between ants and fleshy diaspores in the Atlantic forest

Bieber, Ana Gabriela Delgado, 1981-

02 October 2012

Orientador: Paulo Sérgio Moreira Carvalho de Oliveira / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-20T12:16:35Z (GMT). No. of bitstreams: 1 Bieber_AnaGabrielaDelgado_D.pdf: 4767578 bytes, checksum: a5be946bbed3be1392fd289658057b21 (MD5) Previous issue date: 2012 / Resumo: Em florestas tropicais, formigas de folhiço são freqüentemente vistas em interação com diásporos vegetais (frutos e sementes). Em alguns casos, esta interação oportunista resulta em um mutualismo. Enquanto formigas se beneficiam ao alimentar-se de partes carnosas nutritivas (i.e., polpa, arilo), elas podem beneficiar a semente, por exemplo, ao aumentar sua chance de germinação ou ao dispersá-la para micro-sítios ricos em nutrientes. Portanto, para algumas espécies de plantas, a perda de interações formiga-diásporo pode implicar numa redução do recrutamento de novos indivíduos. Nesta tese, estudamos os padrões de interação entre formigas e diásporos em dois tipos contrastantes de florestas, representativos do que resta da Floresta Atlântica no Estado de São Paulo: florestas contínuas (CFs) e fragmentos de floresta com vegetação secundária (FFs) (quatro áreas cada). Durante este estudo, quatro abordagens complementares foram adotadas. Primeiramente, registramos as interações entre formigas e diásporos em cada uma das oito áreas durante um ano. As principais famílias de plantas assim como os principais gêneros de formigas registrados correspondem a grupos importantes já listados em estudos prévios realizados neste bioma. Apesar da abundância similar de diásporos considerados atrativos entre os dois tipos de floresta, houve um maior número de interações na floresta contínua. Esta diferença é provavelmente devida à comunidade vegetal depauperada dos fragmentos, composta por espécies menos atrativas para as formigas. Com base no mesmo conjunto de dados, comparamos se a topologia das redes de interação formiga-fruto diferiu entre os dois tipos de floresta. Três das sete métricas calculadas foram afetadas pelo tipo de floresta. A diminuição do número de espécies de plantas nos fragmentos florestais parece ser um fator-chave para justificar os resultados obtidos. Na terceira abordagem, oferecemos um diásporo sintético rico em lipídios em estações de remoção para comparar a visitação e o comportamento das formigas entre os dois tipos florestais. Em geral, um maior número de espécies de formigas foi atraído às estações das CFs. A freqüência de grandes poneríneas (em especial, Pachycondyla striata) em interação com diásporos sintéticos foi mais elevada em CFs, estando relacionada com uma maior remoção de diásporos nestas áreas. Por fim, avaliamos experimentalmente se a manipulação prévia por aves (uma condição mais comum em florestas contínuas) afeta a atratividade de diásporos caídos em relação a formigas. Para este procedimento, utilizamos o arbusto Psychotria suterella (Rubiaceae), comum no subosque de nossa área de estudo e cujos diásporos são dispersos por aves. Frutos que já tiveram contato com vertebrados apresentaram uma maior chance de interagir com formigas. Este resultado sugere que espécies vegetais em florestas fragmentadas, comumente sujeitas à perda de seus dispersores primários, ainda são afetadas pela diminuição da atratividade de frutos intactos para formigas (dispersores secundários), a despeito da abundância destes insetos no chão da floresta. De forma geral, os resultados desta tese indicam que a fragmentação da Floresta Atlântica afeta negativamente as interações formiga-diásporo. Portanto, é possível que em fragmentos florestais haja uma diminuição dos potenciais benefícios a sementes e plântulas derivados da interação com formigas, podendo repercutir negativamente no recrutamento das plantas / Abstract: In tropical rainforests, ground-dwelling ants opportunistically interact with fleshy diaspores and, in some cases, this interaction can be classified as mutualistic. While ants gain from eating the nutritious fleshy parts, they may benefit the seed in two ways: (1) greater germination success; and (2) directed dispersal to nutrient-rich microsites where seedlings grow better. Thus, for some plant species, the loss of ant-diaspore interactions may negatively affect plant recruitment. Here, we explore ant-diaspore interaction patterns in two divergent forest types, representing what has remained from the Brazilian Atlantic Forest of São Paulo State: continuous old-growth forests (CFs) and secondary forest fragments (FFs) (four sites each). During this study, four complementary approaches were adopted. First, we surveyed ant-diaspore interactions in all forest sites during one year. Main plant families and ant genera registered during our survey correspond to previous studies performed in this biome. In spite of the similar abundance of ant-attractive diaspores on the forest ground, there were striking differences on ant-diaspore interactions between continuous and fragmented forests. Differences are most certainly attributed to the species-poor plant community, composed by less attractive species, found in the fragments. Based on the same dataset, we investigated whether the topology of ant-diaspore interaction networks differed between our two studied forest types. Three out of seven network-level metrics calculated diverged between fragments and continuous forests. The decrease in the number of interacting plant species observed in the fragmented forests appears to be a key-factor for explaining the observed results. Third, we offered a lipid-rich synthetic diaspore in experimental removal stations to compare ant attendance and behavior between forest types. Again, the experiment evidenced differences between the opposing forest types. In general, a higher number of ant species was recorded in CFs. The frequency of large ponerines (mainly Pachycondyla striata) was higher in CFs, corresponding to the higher frequency of diaspore removal and the higher removal distances observed in these sites. Finally, we experimentally evaluated if previous handling by birds (a condition more frequent in continuous forests) would affect ant attendance to fallen fruits. For this approach, we used as a model the bird-dispersed species Psychotria suterella (Rubiaceae), a common treelet in the understory of our forest sites. As expected, "feces-embedded" and "mandibulated" P. suterella fruits had increased frequencies of ant attendance than "intact" fruits. This result suggests that plant species in fragmented forests, together with the pervasive loss of their primary seed dispersers, may also be affected by the decreased attractiveness of unhandled fruits to ants (secondary dispersers), in spite of the abundance of these insects on the forest floor. Altogether, our results indicate that Atlantic Forest fragmentation negatively affects ant-diaspore interactions with respect to most of the studied parameters. Therefore, we expect that fragments will present a decrease on ant-derived potential benefits to seeds and seedlings / Doutorado / Ecologia / Doutor em Ecologia

Sementes - Dispersão

Formiga - Ecologia

Relação inseto-planta

Diásporo não-mirmecocórico

Redes de interações

Seeds dispersal

Ants - Ecology

Insect-plant relationships

Non-myrmecochorous diaspore

Interaction networks

Écologie chimique de l'interaction colza - méligèthe : vers de nouvelles stratégies de contrôle des insectes ravageurs ? / Chemical ecology of the oilseed rape - pollen beetle interaction : towards new control strategies for insect pests ?

Hervé, Maxime

15 October 2014

Les plantes possèdent de multiples systèmes de défense contre les insectes phytophages. Dans un contexte agronomique, manipuler ces défenses au moyen de la sélection pourrait contribuer à réduire les dommages causés par les insectes ravageurs en augmentant la résistance naturelle des plantes. Cette stratégie se heurte cependant à des contraintes très fortes lorsqu'il s'agit de l'appliquer aux insectes. Après avoir détaillé ces contraintes, nous proposons une démarche alternative aux méthodes classiques. Celle-ci vise à identifier des traits-clés de la plante qui modulent son interaction avec le ravageur. Si de tels traits sont identifiés et validés expérimentalement, ils permettront ensuite de conduire la sélection sans nécessiter d'insecte. Nous avons testé cette démarche dans un système composé du colza (Brassica napus) et du méligèthe Meligethes aeneus, un ravageur majeur de cette culture. Le méligèthe est un coléoptère pollinivore dont les adultes sont généralistes mais ne pondent que sur certaines brassicacées. Les dégâts agronomiques sont causés par ces adultes qui, avant que la floraison ne démarre, détruisent les boutons floraux pour atteindre le pollen qu'ils contiennent. Quatre étapes cruciales de l'interaction ont été étudiées : l'attraction à distance, l'alimentation des adultes, la production et la ponte des œufs, et le développement larvaire. Six génotypes de colza ont été comparés dans une série d'expérimentations au laboratoire. La mise en relation des résultats de préférence/performance de l'insecte avec des profilages métaboliques larges de tissus floraux a permis d'identifier des traits-clés candidats. Les conclusions principales de ce travail sont (i) que la composition biochimique du périanthe est déterminante dans la stimulation de l'alimentation des adultes, et que cette stimulation pourrait être largement sous l'influence d'un petit nombre de composés dont le saccharose ; (ii) que cette stimulation détermine de façon majeure, par un effet domino, la production d'œufs en contraignant l'ovogenèse ; (iii) que la qualité nutritionnelle du pollen impacte à la fois les larves et les adultes, et que cette qualité pourrait être déterminée en bonne partie par la concentration en amidon et en certains glucosinolates (des métabolites secondaires typiques de quelques familles végétales dont les brassicacées). La combinaison des différents résultats obtenus permet également de proposer des hypothèses plus générales, parmi lesquelles le fait que le contexte agronomique dans lequel l'interaction a lieu ait largement influencé, voire perturbé, l'interaction qui liait le méligèthe et les brassicacées sauvages avant que les cultures de colza ne se généralisent. Cette thèse a montré qu'une nouvelle voie était peut-être envisageable pour contribuer à protéger les cultures de façon durable contre les insectes ravageurs, en particulier pour les systèmes agronomiques où les dégâts sont causés à un stade temporairement sensible de la culture. / Plants display multiple defense systems against phytophagous insects. Manipulating these defenses by means of selection could contribute to decrease damages caused by insect pests, by increasing natural resistance of crops. This strategy faces great constraints when applied to insects. We first detail these constraints and then propose an alternative approach to classical methods. It consists in identifying key plant traits that determine the intensity of the interaction between the plant and the pest. If such traits are identified, selection could be conducted on the basis if these sole traits, without needing any insect. We tested this approach in a system composed of oilseed rape (Brassica napus) and the pollen beetle (Meligethes aeneus), a major pest of this culture. This coleopteran generalist pollen feeder lays eggs only on certain brassicaceous plants. Agronomical damage arise before plant flowering and are caused by adults, which destroy flower buds to get the pollen they contain. Four crucial steps of the interaction were studied: attraction, adult feeding, egg production and oviposition, and larval development. Six oilseed rape genotypes were compared in a series of experiments conducted in the laboratory. By linking insect preference/performance to large metabolic profiling of bud tissues, we identified candidate key traits. Main conclusions of this work are (i) that biochemical composition of the perianth, especially a few compounds among which sucrose, is determinant for feeding intensity; (ii) that feeding stimulation has an important impact on egg production by constraining oogenesis; (iii) that pollen nutritional quality, probably mostly determined by starch and some glucosinolates, interacts with both pollen beetle larvae and adults. Combination of several results also allows drawing more general hypotheses about the oilseed rape - pollen beetle interaction. One of these is that the agronomical context in which the interaction takes place may have largely influenced, or even disturbed, the interaction that linked this insect and wild brassicaceous plants before oilseed rape cultivation. This thesis showed that a new way might be possible to protect cultures against insect pests. It could be both efficient and sustainable, especially in systems where agronomical damage is caused at a temporary vulnerable plant stage.

Relations insecte-Plante

Résistance aux insectes

Plantes -- Protection

Plantes -- Amélioration génétique

Colza

Méligèthe

Insect-Plant relationships

Plants -- Insect resistance

Plants

Protection of

Crop improvement

Rape (Plant)

Pollen beetle

The Impeccable Timing of the Apple Maggot Fly, <i>Rhagoletis pomonella</i> (Dipetera: Tephritidae), and its Implications for Ecological Speciation

Mattsson, Monte Arthur

24 November 2015

Speciation is the process by which life diversifies into discrete forms, and understanding its underlying mechanisms remains a primary focus for biologists. Increasingly, empirical studies are helping explain the role of ecology in generating biodiversity. Adaptive radiations are often propelled by selective fitness tradeoffs experienced by individuals that invade new habitats, resulting in reproductive isolation from ancestral conspecifics and potentially cladogenesis. Host specialist insects are among the most speciose organisms known and serve as highly useful models for studying adaptive radiations. We are just beginning to understand the pace and degree with which these insects diversify. The apple maggot, Rhagoletis pomonella, is a well-studied insect whose eastern and southern populations are models for ecological speciation. Recently (40–65 ya), the fly has invaded the Pacific Northwestern United States through human-transported apples infested with larvae. There, populations of R. pomonella have rapidly colonized two novel hawthorn hosts whose fruiting times bracket apple’s (early-season native Crataegus douglasii and introduced C. monogyna, which fruits late in the season). The recent introduction might initiate host shifts, providing opportunities to examine the pace and mechanistic means with which host races (an evolutionary stage preceding speciation) become established. Here, I demonstrate that host-associated populations at a site in southwest Washington are partially allochronically isolated from one another, and life cycles temporally match with natal host fruit ripening times in sympatry. If spatially widespread, these temporal barriers could result in reproductive isolation and possibly cladogenesis. Implications of these findings reach beyond academic import, as R. pomonella is expanding not only its host range, but its geographic range is encroaching upon central Washington, the site of a multi-billion dollar per year apple-growing industry.

Insect-plant relationships

Biology

Ecology and Evolutionary Biology

Synergistic impact of invasive alien plants and the alien Argentine ant on local ant assemblages in the Western Cape

Schoeman, Colin Stefan

03 1900

Thesis (MSc)--Stellenbosch University, 2008. / ENGLISH ABSTRACT: Alien trees, Pinus spp. and Eucalyptus spp., affect ants negatively in the Cape Floristic Region (CFR), a global biodiversity hotspot in South Africa. They reduce ant abundance and species richness, thus also changing ant assemblage structure. This is alarming, because almost 1300 species of plant species in the CFR are dispersed by certain indigenous ants, and thus there is concern for an indirect effect on indigenous plant assemblages. One of the most impacting ant species on seed dispersal is the invasive Argentine ant (Linepithema humile (Mayr)), which discards seeds outside its nest, where they do not germinate. Ten sites, on Vergelegen Wine Estate, were selected to explore these effects of alien plants. These varied from invaded to non-invaded sites. Each site consisted of six sampling points, which in turn consisted of four pitfall traps left out for seven days, during December 2005, February 2006, May 2006 and September 2006. Forty species of ant were sampled, and various analyses used to illustrate the comparative effects of plant invasion. All analytical methods showed that invasive alien plants had a significant impact on the abundance and richness of the ant species assemblage, by creating a dense canopy cover that changed the abiotic environment of the epigaeic ants’ habitat. Furthermore, increased alien tree invasion correlated significantly with Argentine ant abundances. The Argentine ant displaced Pheidole capensis and Camponotus spp., while it decreased the abundances of commonly-occurring indigenous ants, such as Lepisiota capensis and Plagiolepis spp. Displacement by the Argentine ant may be a result of indirect competition for food resources. The effects of invasive aliens are synergistic in that there is a cascade effects from initial plant invasions to subsequent animal invasion. / AFRIKAANSE OPSOMMING: Indringer bome, Pinus en Eucalyptus, affekteer miere op negatiewe wyse in die Kaap Florsitiese Streek (KFR), ‘n area in Suid Afrika van belang t.o.v. globale biodiversiteit. Hierdie uitheemse indringer bome verminder hulle hoeveelheid en spesies rykheid. Die bogenoemde is kommerwekkend omdat meer as 1300 plant spesies in the KFR versprei word deur miere. Die verandering in hoeveelheid en versameling van inheemse miere kan dus ernstige implikasies hê op die saad verspreiding van inheemse plant spesies. Een van die mees verwoestende effekte op saad verspreiding is veroorsaak deur die indringer Argentynse mier (Linepithema humile (Mayr)), wat sade neer werp buite hulle neste, waar hulle nie suksesvol kan ontkiem nie. Tien monsterings-tereine was geselekteer om die bogenoemde effekte te ondersoek op Vergelegen Landgoed. Hierdie het afgewissel van indringer tot skoon tereine. Elke terrein is op ses versamelings-plekke gemonster, met vier pitvalle, wat oopgelê het vir sewe dae gedurende Desember 2005, Februarie 2006, Mei 2006 en September 2006. 40 spesies van miere was gemonster. Indringer plante het ‚n betekenisvolle impak gehad het op die hoeveelheid en rykheid van die mier gemeenskappe, deur die skepping van ‚n dig baldakyn wat die abiotiese omgewing van die miere se habitat verander het. Die vermeerdering van indringer plante veroorsaak die vermeerdering van Argentyne miere. Kanonieke Mede-Respons Analise illustreer dat die Argentynse mier Pheidole capensis en Camponotus spp. verplaas het, terwyl dit ander inheemse mier getalle verminder het, soos Lepisiota capensis en Plagiolepis spp. Die verplasing deur die Argentynse mier mag die resultaat wees van indirekte wedywering vir hulpbronne. Die effekte van indringer species is dus sinergisties deur dat ‚n kaskade effek ontstaan vanaf plant tot dier indringer spesies.

Theses -- Entomology

Dissertations -- Entomology

Influence of spatial and temporal factors on plants, pollinators and plant-pollinator interactions in montane meadows of the western Cascades Range

Pfeiffer, Vera W.

01 June 2012

Montane meadows comprise less than 5% of the landscape of the western Cascades of Oregon, but they provide habitat for diverse species of plants and pollinators. Little is known about plant-pollinator network structure at these sites. This study quantified plant-pollinator interactions over the summer of 2011, based on six observations of 10 permanent subplots in 15 meadows, stratified by size and isolation. The study examined (1) relationships between richness and abundance of flowers, pollinators, and interactions; (2) distribution of abundance and richness of flowers, pollinators, and interactions with regards to surrounding meadow habitat; (3) change in flower and pollinator abundance over the season; (4) factors associated with the presence of various guilds of pollinators; and (5) the structure of plant-pollinator networks. The study showed that (1) richness of pollinators increased 2x faster than richness of flowers with increased abundance; (2) density of flowers and interactions was positively correlated with meadow size and diversity of pollinators and interactions were both correlated with surrounding habitat at two spatial scales; (3) peak flower abundance coincided with or preceded peaks in pollinator populations; (4) abundance of three guilds of bees exhibited different patterns of association to surrounding habitat and meadow soil moisture corresponding to various dispersal potential and phenology of guild species; and (5) the number of network pairings for plants and pollinators increased with increasing species richness of potential interaction partners and all networks were found to be significantly nested. Results of this study indicate that plant-pollinator networks are complex assemblages of species, in which spatial and temporal patterns of habitat affect species composition and network structure. In particular, flower and pollinator abundance and richness are depressed in small and isolated meadows. Significant nestedness emerged as a pattern of network level organization across the study meadows. / Graduation date: 2013

Montane meadows

western Cascades

Pollination networks

plant-pollinator interactions

phenology

bees

habitat fragmentation

H. J. Andrews LTER Forest

Meadow plants -- Cascade Range

Pollinators -- Cascade Range

Pollinators -- Habitat -- Cascade Range

Pollinators -- Ecology -- Cascade Range

Species diversity -- Cascade Range

Composition and phenology of insect pests of Capsicum (Solanaceae) cultivated in the Makana District, Eastern Cape Province, South Africa

Hepburn, Colleen

January 2008

Capsicum baccatum var. pendulum was first grown in the Makana District in 2005. Extremely little was known about best practices for cultivation or the insects and diseases associated with the crop in this area. The study was conducted during the second year of production, November 2005 and November 2006, in an attempt to identify the composition and phenology of insects occurring on C. baccatum. In the more rural parts of the Eastern Cape, and more particularly in Grahamstown, there are very few industries. With the advent of this new agricultural venture, a processing factory has been opened in Grahamstown creating more than 600 seasonal jobs in the factory and 1000 seasonal jobs on farms for local people. This business enterprise has not only brought about the creation of jobs, but also training and skills development and empowerment, generating much-needed income in this area. An extensive literature review yielded limited information on insect pests associated with Capsicum. Data from a pilot sampling trial undertaken were statistically analyzed to establish the number of plants to be scouted per site and the most effective scouting techniques to use. Based on the data available and insects collected during the pilot sampling trial, a surveillance programme was designed. Five different types of monitoring traps were placed in each of the eight study sites. Collection of trap catches and scouting of fifteen individual plants per site was undertaken on a weekly basis over the 52-week study period. The most commonly occurring potential insect pests were African Bollworm Helicoverpa armigera (Hübner), False Codling Moth Thaumatotibia leucotreta (= Cryptophlebia leucotreta) (Meyrick), Mediterranean Fruit Fly Ceratitis capitata (Wiedemann) and several species of thrips. Population densities of these pests and their phenology on Capsicum were determined. Statistical analyses established the efficacy of the monitoring traps for each pest, tested for differences among and between study sites, calculated an estimate of the number of pods damaged and a measure of plant damage.The results show that the majority of damage caused to the Capsicum baccatum cropping system was due to Mediterranean Fruit Fly populations. It was established that, although African Bollworm and False Codling Moth were present during the study period, their numbers were negligible and only nominal damage was caused by these pests. Damage caused by thrips species was apparent but not quantifiable. Intervention strategies using an Integrated Pest Management approach, are discussed.