Custos e beneficios da visita de formigas aos nectarios extraflorais de Crotalaria pallida (Fabaceae) / Costs and benefits of ant attendance to the extrafloral nectaries of Crotalaria pallida (Fabaceae)

Pereira, Marcela Fernandes

22 February 2008

Orientador: Jose Roberto Trigo / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-10T21:43:04Z (GMT). No. of bitstreams: 1 Pereira_MarcelaFernandes_M.pdf: 1168577 bytes, checksum: 50668e658835e5ddf79a806596992a18 (MD5) Previous issue date: 2008 / Resumo: Formigas podem exercer um efeito positivo ou negativo na aptidão das plantas com as quais inferagem, dependendo de suas relações com herbívoros, polinizadores e dispersores de sementes. Uma notável característica das interações entre formigas e plantas é a alta freqüência com a qual essas interações são mutualísticas. O suposto beneficio dessas interações é que a aptidão da planta pode ser aumentada indiretamente, já que uma redução na taxa de herbivoria significa uma maior produção de sementes, ou diretamente, através de redução da predação de sementes. Mas será que as plantas realmente se beneficiam da presença dos insetos que atraem?Apesar de alguns estudos terem encontrado beneficios para a planta, há aqueles que indicam o oposto, como os casos em que polinizadores e dispersores de sémentes evitam flores e frutosdevido à presença de formigas. O legado evolutivo das interações entre plantas, herbívoros e formigas é o aparecimento de novas estruturas em plantas. Crotalaria pallida é uma planta muito visitada por formigas devido à presença de nectários extraflorais (NEFs), glândulas produtoras de açúcar sem relação direta com polinização. Superficialmente, pode parecer que as conseqüências para a planta das suas relações com seus herbívoros sejam necessariamente contrárias às conseqüências para o herbívoro. Por outro lado, uma observação mais.cautélosa revela que alguns mecanismos que produzem efeitos negativos no herbívoro não levam automaticamente a um beneficio da planta. Sendo assim, este estudo visa avaliar a relação custo-beneficio da visitação por formigas em C. pallida através de sua aptidão na presença e ausência de formigas, assim como de observações de campo de interações destas plantas com vespas. As taxas de ganho de biomassa e de herbivoria, assim como a produção de flores, vagens e sementes, bem como o peso das sementes não diferiram estatisticamente entre indivíduos de C. pallida com e sem formigas. Por outro lado, o ataque às vagens foi significativamente menor nos indivíduos de C. allida em que as formigas foram excluídas, e a sobrevivência destas plantas foi maior, em comparação com as plantas que foram visitadas normalmente por formigas. Um experimento de campo indicou que a predação de larvas não parece ser influenciada pela presença de vespas, mas apenas por formigas. Por outro lado, durante observações de campo todas as vespas que visitaram racemos de C. pallida foram influenciadas pela Presença de formigas, sendo que algumas reduziram seu tempo de visitação e outras deixaram o racemo após o encontro com formigas. Assim, os resultados obtidos através dos experimentos e observações de campo sugerem que as formigas não afetam a aptidão de C. pallida, pelo menos não nas condições encontradas na área de estudo deste trabalho / Abstract: Ants may have a positive or negative effect on the fitness of the plants with which they interact, depending on its relationship with herbivores, pollinators and seed dispersers. A remarkable characteristic of the interactions between ants and plants is the high frequency with which they are mutualistic. The supposed benefit of these interactions is that the plant fitness may be enhanced indirectly, since herbivory reduction means larger seed production, or direct1y, by reduction on seed predation. But do plants really benefit from the presence of the insects they attract? Despite some studies have found benefits to the plant, there are some that indicate the opposite, like those cases in which pollinators and seed dispersers avoid flowers and fruits due to ant attendance. The evolutive legacy of the interactions between plants, herbivores and ants is the appearance of new plant structures. Crotalaria pallida is a plant highly attended by ants because of its extrafloral nectaries (EFNs), su gar-producing glands with no pollination relationship, located on the base of each flower or pod. Superficially, it may seem that the consequences of the plant relationship with its herbivores are necessar~ly opposed to the consequences to the herbivore. On the other hand, a cautious observation reveals that some mechanisms ;that produce negative effects on the herbivore not automatically lead to a benefit for the plant. Therefor, this work aim to evaluate the magnitude of the costs and benefits of ant attendance to the EFN s of C. pallida on the protection against phytophagous insects, by estimating its fitness in the presence and absence of ants, as well as using field observations of the interactions of these plants with wasps. The rates of biomass gain and herbivory, likewise the flower, pod and seed production, and also seed weight didn't differ significantly between ant-attended and non ant-attended C. pallida plants. As opposed to this, the pod attack was significant1y lower in C. pallida plants not attended by ants, and the survival of these plants was higher, in comparison to the ant-attended plants. A field experiment indicated that larvae predation don't seem to be in:t1uenced by the presence of wasps, but only by ant attendance. On the other hand, during field observations all the wasps visiting C. pallida pods were affected by ant attendance, and some of them reduced its visitation time while others left the pod after meeting an ant. 80, the results we got with the experiments and field observations suggest that the ants don't affect C. pallida fitness, at least not under the conditions found in the area where this work took place / Mestrado / Mestre em Ecologia

Crotalaria pallida

Aptidão

Nectarios extraflorais

Formigas

Relação inseto-planta

Ability

Extrafloral nectaries

Ants

Insect-plant relationships

The ecology of Cactoblastis cactorum (Berg) (Lepidoptera : phycitidae) in relation to its effectiveness as a biological control agent of prickly pear and jointed cactus in South Africa

Robertson, Hamish Gibson

January 1985

The successful biological control of the shrub-like prickly pear Opuntia stricta Haworth in Australia by cactoblastis cactorum (Berg) was not repeated when C. cactorum, derived from the Australian population, was released in South Africa in the 1930's against the tree prickly pear Opuntia ficus-indica (L.) Miller. Resistance of the woody portions of o. ficus-indica to attack by C. cactorum was regarded as the main reason for the poor performance of C. cactorum in South Africa. C. cactorum also oviposits and feeds on Opuntia aurantiaca Lindley, which is currently South Africa's most important weed and which is also considered to be partly resistant to attack by C. cactorum. This study had three main objectives: (i) to compare the ecology and effectiveness of C. cactorum as a biological control agent on O. ficusindica and O. aurantiaca; (ii) to reassess why C. cactorum has not been as effective a biological control agent in South Africa as it has been in Australia; and (iii) to evaluate whether inundative release or the importation of new biotypes of C. cactorum from South America (where it is indigenous) might be feasible methods of improving its effectiveness as a biological control agent of O. aurantiaca in South Africa. All field work was undertaken at a site near Grahamstown in South Africa. The ecology and effectiveness of C. cactorum on O. ficus-indica and O. aurantiaca was assessed in terms of its oviposition behaviour, survival and feeding on these host plants. The proportion of C. cactorum eggs laid on O. ficus-indica and O. aurantiaca was similar and was influenced by the size, conspicuousness and condition of the host plant as well as by the proximity of the host plant to moth emergence sites. Factors affecting oviposition site selection on the plant are also considered. Life tables, compiled for a summer and a winter generation, showed that the survival of C. cactorum was greater on O. ficus-indica than on O. aurantiaca, mainly because higher egg predation by ants occurred on the latter host plant species. During the period of study, the population size of C. cactorum was reduced by a number of mortality factors, of which egg predation and the effects of low temperatures on fecundity were the most important. Although there was evidence of a partial, positive response by predatory ants to C. cactorum egg densities on plants, the extent of egg predation was also affected by other factors, particularly seasonal effects. C. cactorum destroyed a greater percentage of cladodes on O. ficu-indica than on O. aurantiaca, but even on O. ficus-indica it was unable to contain the growth of plants within the study area. C. cactorum larvae rarely killed the woody rooted cladodes of O. ficus-indica and O. aurantiaca and consequently whole plants were not often destroyed. The detrimental effects of host plant resistance, natural enemies and climate on the effectiveness of C. cactorum as a biological control agent all appear to be greater in South Africa than in most of the regions occupied by C. cactorum in Australia. A field experiment conducted at the study site showed that inundative release methods for improving the effectiveness of C. cactorum on O. aurantiaca are not feasible. The importation of biotypes of C. cactorum from South America that might be better suited for destroying O. aurantiaca infestations in South Africa, is also not a viable option. Results of a survey of a 218 ha area that is regarded as being heavily infested with O. aurantiaca, illustrate how this cactus species has been overrated as a weed problem. It is argued that the present strategy for O. aurantiaca control in South Africa is not based on sound economic or ecological criteria.

Insect-plant relationships

Lepidoptera -- South Africa

Cactus -- South Africa

Complex interactions involving the Cape fig, Ficus sur Forsskål, and its associated insects

Zachariades, Costas

January 1995

The inadequacy of arbitrarily classifying interactions between species as antagonistic, neutral or mutualistic has become clear in recent years. Both direct and indirect interactions between species can vary between mutualism and antagonism, depending on the intrinsic and extrinsic contexts of the interaction. This study investigated the characteristics of an ant-plant-homopteran interaction in southern Africa. The polyphagous homopteran Hilda patruelis (Tettigometridae) feeds primarily on the trunk-borne fruiting branches and figs of the Cape fig tree, Ficus sur, and produces honeydew which attracts tending ants. Ten of the sixteen ant species/species groups present on F. sur tended H. patruelis, with Pheidole megacephala the most frequent attendant. Ants attracted to F. sur by H. patruelis honeydew or other liquid food sources also preyed on insects on the tree, including adults of the small agaonid fig wasps whose larvae feed on the ovules in the developing figs. One fig wasp species (Ceratosolen capensis) is also the tree's only pollinator. No benefits to H. patruelis from being tended by ants were detected, either in terms of reduced parasitism, or predation by a lycaenid caterpillar. A P. megacephala colony foraging on a F. sur tree was found to receive a high proportion of its likely energy requirements from the tree, mainly in the form of H. patruelis honeydew, during periods when it was bearing fruit. It is probable that the H. patruelis-P. megacephala interaction constitutes a direct mutualism at times, but that benefits to the homopteran are intermittent or weak. Both H. patruelis and ants benefitted from F. sur, directly or indirectly, through the provision of food (and for some ants, nesting sites). The removal of phloem sap by H. patruelis did not detectably reduce the trees' reproductive output, either in terms of pollinator or viable seed production. The indirect effects of ant and H. patruelis presence on the F. sur trees were on average positive, as ants preyed disproportionately heavily on fig wasp species parasitic on or competing with the pollinator, thus increasing pollinator production. Effects of ant presence on seed production were not investigated, but have been demonstrated as beneficial elsewhere. However, there is great varatlon both in the composition of the wasp fauna arriving to oviposit at different crops, and in ant densities per fig, on several temporal and spatial scales. This results in high variability in the effects of ants on the pollinator and, through it, the tree, from positive to zero and potentially even negative. Despite this conditionality of beneficial outcomes for the tree, the mean effect of ants on the F. sur population studied was to increase pollinator production by up to nearly 20%. This study is among the few to have demonstrated an overall benefit to a plant of having homopteran-tending ants present on it.

Insect-plant relationships

Mutualism (Biology)

Fig -- South Africa

Fig wasp -- South Africa

Ants

Homoptera

Investigations into insect-induced plant responses of water hyacinth (Eichhornia crassipes (Mart.) Solms-Laub.) (Pontederiaceae)

May, Bronwen

January 2015

The water hyacinth (Eichhornia crassipes (Mart.) Solms-Laub (Pontederiaceae)) biological control programme makes use of tight plant-insect interactions to control the weed, by reestablishing the interactions between the plant and its natural enemies. Since the beginning of the water hyacinth biological control initiative, the impact of biological control agent herbivory on water hyacinth’s population growth and fitness have been well documented; however, very few investigations have been conducted to determine whether herbivory elicits insect-induced responses by water hyacinth. Studies were conducted to determine the presence and function of water hyacinth insectinduced responses, using the plant activator, BION®, in attempt to determine the plant hormone-mediated pathways regulating the final expressions of insect-induced defences in response to herbivory by the phloem-feeder, Eccritotarsus catarinensis (Carvalho) (Hemiptera: Miridae) and the leaf chewer, Neochetina bruchi Hustache (Coleoptera: Curculionidae). BION® (Syngenta, acibensolar-S-methyl (benzothiadiazole)) is a dissolvable, granular formulation that contains a chemical analogue of the plant hormone, salicylic acid (SA), which typically regulates defences against pathogens. The application of BION® results in the induction of the SA-mediated defence pathways in plants (activation of defences against pathogens), and consequently the inhibition of the jasmonic acid (JA)- mediated defence pathways (de-activation of defences against insect herbivores). To test for induced defence responses in water hyacinth, plants treated with BION® and then subjected to herbivory, were compared to un-treated plants that were also subjected to herbivory, BION®-only treated plants and control plants. The application of BION® did not confer resistance against the two insect herbivores, as herbivory, reductions in chlorophyll content and plant growth (leaf production and second petiole lengths) significantly increased in comparison to non-BION® treated plants. Furthermore, palatability indices significantly increased (>1.00) in BION® treated plants, reflecting increased weevil preferences for SAinduced water hyacinth plants. This concluded that SA-mediated defences are not effective against insect herbivory in water hyacinth plants, but are in fact palatable to insect herbivores, which reflects ecological and physiological costs of SA-mediated defences (pathogen defences) in water hyacinth. Biochemical analyses of leaves exhibited increases in nitrogen content in BION® treated plants. These elevated levels of nitrogenous compounds account for the increases in mirid and weevil preferences for BION® treated plants. The increases in nitrogenous compounds are probably structural proteins (e.g. peroxidises), because leaves treated with BION® increased in toughness, but only when exposed to herbivory. Regardless, insect herbivory was elevated on these leaves, probably because the nitrogenous compounds were nutritionally viable for the insects.

Water hyacinth

Water hyacinth -- Biological control

Water hyacinth -- Defenses

Aquatic weeds

Insect-plant relationships

Miridae

Curculionidae

Synchrony with host leaf emergence as a component of population dynamics in lepidopteran folivores

Hunter, Alison F. (Alison Fiona)

January 1991

No description available.

Gypsy moth -- Food.

Gypsy moth -- Host plants.

Insect-plant relationships.

Hardwoods -- Diseases and pests.

Plants and arthropods associated with orthopteroids in abandoned fields of Southern Quebec

Pelletier, Georges

January 1986

No description available.

Insects -- Host plants.

Arthropoda -- Québec (Province).

Orthoptera -- Québec (Province).

Effects of forest disturbance on shredder production in headwater streams

Stout, Benjamin Mortimer

13 October 2005

Effects of forest disturbance on leaf shredding aquatic insects were investigated by comparing leaf biomass and shredder production in disturbed versus reference forest streams. Benthic samples were collected monthly in 3 streams in a mature hardwood reference forest and 3 streams in an 11-year-old clearcut. Reference forest streams had significantly greater total leaf biomass and significantly more slow-processing leaf material than disturbed forest streams. Disturbed forest streams had significantly greater fast-processing leaf biomass than did reference streams. The leaf shredding insects Tipula abdominalis, Pycnopsyche sp., and Tallaperla maria comprised over 90% of the shredder biomass in all streams. Total shredder production was Significantly greater (p<0.05) in disturbed versus reference streams. Production of Pycnopsyche and T. maria was significantly greater (p <0.10) in disturbed versus reference streams, but T. abdominalis production was not significantly different (po =0.28). Greater T. maria production was attributed mostly to better survivorship in disturbed versus reference streams. Greater total shredder production in disturbed streams was attributed mostly to greater production by Pycnopsyche, which was due mostly to better survivorship and growth of early instar larvae in disturbed streams. T. maria and T. abdominalis were studied under laboratory conditions to determine whether feeding on various types of leaf material would affect growth. Shredder growth rates were affected more by length of instream conditioning of leaves than leaf species or leaf exposure site. Each shredder species had different patterns of growth and survivorship relative to leaf species and conditioning. There was no difference in shredder growth patterns between early versus late successional leaf species. Pycnopsyche growth was not studied, but Pycnopsyche may be more capable than the other shredders of exploiting fast-processing, early successional leaf species. Pycnopsyche production was greatest in streams having the greatest quantities of early successional leaf biomass. Pycnopsyche biomass correlated significantly with fast-processing leaf biomass typical of the early successional forest, whereas other shredders did not. Shredder production was significantly greater in disturbed versus reference forest streams, even though total leaf biomass was significantly greater in reference streams. Providing that forest clearcutting is accomplished with minimal physical disturbance to streams, shredder populations may exhibit greater production in streams 11-years after forest clearcutting than in reference forest streams. / Ph. D.

LD5655.V856 1990.S769

Forest ecology

Forest insects

Insect-plant relationships -- Research

Insect herbivores associated with Senecio pterophorus and Senecio inaequidens at Butterworth, South Africa

Muwanga-Zake, Johnnie Wycliffe Frank

January 1995

This study lists and compares insect herbivores of Senecio inaequidens and of Senecio pterophorus around Butterworth by 18 Tables and 38 Figures. The two plant species are widely distributed around Southern Africa. Samples were taken during a month of each of the four main seasons of the year, which in Butterworth did not show much difference in temperature. The two plant species shared generalist insect herbivores most of which were also on other surrounding plant species. The population of most of the herbivores was affected by the seasons while the two plant species were not seasonal, thus the correlation between insect herbivores and the two plant species was not significant. The heavier, and apparently chemically protected species, Senecio pterophorus, accommodated borers and supported a wider variety of but fewer individual insects. Senecio pterophorus could be having more defences but had more serious herbivores. There were no serious insect herbivores that could control the abundance of the two plant species around Butterworth. Anatomical differences between S. pterophorus and S. inaequidens could be highlighted by the kind and number of insect herbivores found upon them. Similarities were more difficult to identify through studying their insect herbivores. The biology of one serious weed, Lixus sp., on Senecio pterophorus was studied in more detail. The life cycle of the weevil was found to be synchronised with that of the host. This weevil shared the stems with other species of weevils with no indication of competition.

Lixus -- biology

Insect-plant relationships

Effects of nectar robbing by Xylocopa californica on Chilopsis linearis (Bignoniaceae)

Pfister, Rachel Walker, 1940-

January 1989

The interaction between Xylocopa californica and Chilopsis linearis was used to test the hypothesis that nectar robbing is costly to plants. No evidence for these costs, either in terms of decreased pollination or increased energy demands, was found. In fact, the mean number of seeds per fruit and the mean individual weight of seeds per fruit was higher from fruits that developed from robbed flowers than from fruits that developed from unrobbed flowers, indicating that the presence of Xylocopa californica enhanced pollination. Chilopsis linearis pollen was isolated from the tips of the abdomens of robbing Xylocopa californica and it was determined that these bees could be transferring pollen from flower to flower as they position themselves to rob. This association was found to be one of mutual benefit rather than one of exploitation.

Fertilization of plants by insects.

Carpenter bees.

Olfactory recognition and behavioural avoidance of angiosperm non-host volatiles by conifer bark beetles /

Zhang, Qing-He.

January 2001

Thesis (doctoral)--Swedish University of Agricultural Sciences, 2001. / Includes bibliographical references.