RESUMO
Abstract Aphids can harbor several secondary symbionts that alter important aphid-related ecological traits, such as defense against natural enemies, heat tolerance and host plant utilization. One of these secondary symbionts, Spiroplasma, is well known in Drosophila as a sex modulator and by interacting with the host immune system. However, little is known on the effects of Spiroplasma on aphids, such as its influence on the host immune defense against fungi and on host plant utilization. Aphid infections by Spiroplasma are known to be low and few aphid species were reported to be infected with this secondary symbiont, however aphids belonging to the genus Aphis in neotropical regions show high infection rates by Spiroplasma. Thus, we investigated the association of Spiroplasma with the tropical aphid Aphis citricidus through comparative biology experiments on two host plants with different nutritional value to the aphid. We demonstrate Spiroplasma induced no significant fitness costs to A. citricidus on either host plant as no changes in the fitness traits we assessed were observed. Spiroplasma infection only induced sutle changes on host longevity and fecundity. Therefore, we concluded Spiroplasma established a neutral interaction with A. citricidus under the selection pressure we tested, and argue on stress conditions that could better demonstrate the role of Spiroplasma in A. citricidus bioecology and associated costs involved.
Resumo Pulgões podem abrigar vários simbiontes secundários que alteram características ecológicas importantes, como defesa contra inimigos naturais, tolerância ao calor e utilização da planta hospedeira. Um desses simbiontes secundários, Spiroplasma, é estudado em Drosophila por alterar a razão sexual e interagir com o sistema imunológico do hospedeiro. No entanto, pouco se sabe sobre os efeitos do Spiroplasma em pulgões, como sua influência na defesa contra fungos entomopatogénicos ou na utilização da planta hospedeira, por exemplo. Spiroplasma foi identificado em poucas espécies de pulgão e geralmente em baixa densidade, contudo pulgões pertencentes ao gênero Aphis em regiões neotropicais apresentam altas taxas de infecção por Spiroplasma. Assim, investigamos a associação entre Spiroplasma e o pulgão neotropical Aphis citricidus por meio de biologia comparativa em duas plantas hospedeiras com diferentes valores nutricionais para o pulgão. Spiroplasma não causou custo adaptativo significativo para A. citricidus em ambas planta hospedeira. A infecção por Spiroplasma induziu apenas pequenas mudanças na longevidade e fecundidade do hospedeiro. Portanto, concluímos que Spiroplasma estabeleceu uma interação neutra com A. citricidus sob ausência de pressão de seleção. Entretanto, discutimos sobre condições de estresse que possam demonstrar o papel de Spiroplasma na bioecologia de A. citricidus e os possíveis custos envolvidos.
Assuntos
Animais , Afídeos , Spiroplasma , Plantas , Simbiose , FungosRESUMO
Abstract Aphids can harbor several secondary symbionts that alter important aphid-related ecological traits, such as defense against natural enemies, heat tolerance and host plant utilization. One of these secondary symbionts, Spiroplasma, is well known in Drosophila as a sex modulator and by interacting with the host immune system. However, little is known on the effects of Spiroplasma on aphids, such as its influence on the host immune defense against fungi and on host plant utilization. Aphid infections by Spiroplasma are known to be low and few aphid species were reported to be infected with this secondary symbiont, however aphids belonging to the genus Aphis in neotropical regions show high infection rates by Spiroplasma. Thus, we investigated the association of Spiroplasma with the tropical aphid Aphis citricidus through comparative biology experiments on two host plants with different nutritional value to the aphid. We demonstrate Spiroplasma induced no significant fitness costs to A. citricidus on either host plant as no changes in the fitness traits we assessed were observed. Spiroplasma infection only induced sutle changes on host longevity and fecundity. Therefore, we concluded Spiroplasma established a neutral interaction with A. citricidus under the selection pressure we tested, and argue on stress conditions that could better demonstrate the role of Spiroplasma in A. citricidus bioecology and associated costs involved.
Resumo Pulgões podem abrigar vários simbiontes secundários que alteram características ecológicas importantes, como defesa contra inimigos naturais, tolerância ao calor e utilização da planta hospedeira. Um desses simbiontes secundários, Spiroplasma, é estudado em Drosophila por alterar a razão sexual e interagir com o sistema imunológico do hospedeiro. No entanto, pouco se sabe sobre os efeitos do Spiroplasma em pulgões, como sua influência na defesa contra fungos entomopatogénicos ou na utilização da planta hospedeira, por exemplo. Spiroplasma foi identificado em poucas espécies de pulgão e geralmente em baixa densidade, contudo pulgões pertencentes ao gênero Aphis em regiões neotropicais apresentam altas taxas de infecção por Spiroplasma. Assim, investigamos a associação entre Spiroplasma e o pulgão neotropical Aphis citricidus por meio de biologia comparativa em duas plantas hospedeiras com diferentes valores nutricionais para o pulgão. Spiroplasma não causou custo adaptativo significativo para A. citricidus em ambas planta hospedeira. A infecção por Spiroplasma induziu apenas pequenas mudanças na longevidade e fecundidade do hospedeiro. Portanto, concluímos que Spiroplasma estabeleceu uma interação neutra com A. citricidus sob ausência de pressão de seleção. Entretanto, discutimos sobre condições de estresse que possam demonstrar o papel de Spiroplasma na bioecologia de A. citricidus e os possíveis custos envolvidos.
RESUMO
Insect vector-symbiotic relationships are widely reported in literature with several microorganisms reported to play a key role in growth, development, survival and evolutionary success of insect disease vectors. Symbiotic bacteria are prevalent in insects like mosquitoes, sand flies, tsetse flies that are known efficient vectors of tropical diseases. Several studies have been undertaken to determine the mechanisms of the insect host-symbiotic relationships with the aim of developing new strategies to control human vector borne diseases. Some bacterial symbionts have evolved together with the respective insect hosts such that the hosts cannot survive without them. This is the basis of an intervention strategy known as symbiotic control. It is a recent multi-pronged approach that targets symbiotic microorganisms to control insect disease vectors and possibly interfere with their vectorial capacity. The strategy is promising and has recently generated a lot of research interest. Three such approaches have been reported and are: the interference and destabilization of microbial symbionts essential for insect vector survival; changing the genetic make-up of symbionts so that they generate and express anti-parasite agents within the insect host; and the introduction of other microorganisms that may eventually negatively affect the longevity and vector competence of the offspring in future populations. The availability of new molecular techniques has made the understanding of symbiotic relationships more clear. With sustained and increasing research interest and recent findings in insect-symbiotic associations, there is high possibility that soon we will have many insect-vector control programs utilizing this information and techniques. In this review we highlight the evolution of blood feeding behavior in insect disease vectors, new findings and developments on microbial symbiosis in mosquitoes, sand flies, triatomine bugs and tsetse flies that are feasible and therefore form basis for formulating symbiotic control strategies for major human insect borne parasitic protozoan diseases: malaria, leishmaniasis and trypanosomiasis.
RESUMO
OBJECTIVE: To identify symbiotic Armillaria species with Polyporus umbellatus. METHODS: Armillaria was cultured on PDA paltes. To determine whether the strains were pure culture, the internal intergenic spacer (IGS) region were sequenced. Furthermore, the NCBI BLAST program was used to search similar sequences in the GenBanksequence database for the IGS sequence of the species on homology, and a phylogenetic tree was constructed based on neighbor-joining method. RESULTS: All isolates were similar in colony morphology and grew well in PDA medium with well-developed rhizomorphs. The isolated 22 strains were pure culture of the fungus. Phylogenetic analysis based on IGS sequence indicated that the symbiotic Armillaria species with Polyporus umbellatus belonged to A. cepistipes, A. gallica, A. ostoyae, and A. mellea. CONCLUSION: In the present study, phylogenetic analysis based on molecular method was carried out for the symbiotic Armillaria species with P. umbellatus for the first time. The results suggest that Armillaria species have no specificity with P. umbellatus, which is different from the previous reports. Further research will be done on the growth of P. umbellatus affected by different kinds of Armillaria species.
RESUMO
Molecular analyses of symbiotic relationships are challenging our biological definitions of individuality and supplanting them with a new notion of normal part–whole relationships. This new notion is that of a ‘holobiont’, a consortium of organisms that becomes a functionally integrated ‘whole’. This holobiont includes the zoological organism (the ‘animal’) as well as its persistent microbial symbionts. This new individuality is seen on anatomical and physiological levels, where a diversity of symbionts form a new ‘organ system’ within the zoological organism and become integrated into its metabolism and development. Moreover, as in normal development, there are reciprocal interactions between the ‘host’ organism and its symbionts that alter gene expression in both sets of cells. The immune system, instead of being seen as functioning solely to keep microbes out of the body, is also found to develop, in part, in dialogue with symbionts. Moreover, the immune system is actively involved in the colonization of the zoological organism, functioning as a mechanism for integrating microbes into the animal-cell community. Symbionts have also been found to constitute a second mode of genetic inheritance, providing selectable genetic variation for natural selection. We develop, grow and evolve as multi-genomic consortia/teams/ecosystems.
RESUMO
Invertebrates associated with the reef-building coral Pocillopora damicornis at Playa Blanca, Bahía Culebra, Costa Rica. The coral reefs are one of the most diverse ecosystems in the planet, not only because their reef-building species but also because of the species that live above, on, inside and below them. Corals of the genus Pocillopora are recognized globally by harboring an important fauna of invertebrates among their branches, many of those considered obligate symbionts. The present investigation describes the fauna of invertebrates associated with the reef-building coral P. damicornis in Bahía Culebra, Costa Rica, their densities, frequencies, richness and diversities from 2003 to 2004. Five coral colonies were collected every 3-4 months at Playa Blanca within Bahía Culebra. A total of 448 individuals in 35 species were found: Harpiliopsis depressa, Trapezia ferruginea, Alpheus lottini, Fennera chacei, and Petrolisthes haigae, and the bivalve Lithophaga aristata, the predominant species. November was the month with the highest richness, diversity and taxonomic distinctiveness, while August had the lowest values. In general terms, the rainy season showed greater richness of species than the dry season. The species collected and their densities and abundances were similar to other sites along the Eastern Tropical Pacific. Bahía Culebra has been losing coral cover, which could have consequences on the diversity and abundances of associated corals organisms. These consequences include loss in the fertility of those organisms, a reduction in its function as cleaners and protection from coral predators, putting in risk their diversity, affecting the stocks of predatory fish that depends on them. Carrying out permanent monitoring of the associated cryptofauna of the coral Pocillopora is crucial to quantify losses or recoveries in the composition of associated invertebrates, and therefore in the functions that they perform in this ecosystem.
Los arrecifes coralinos son uno de los ecosistemas más diversos en el planeta, tanto por los organismos constructores como por aquellos que viven encima, sobre, dentro y debajo de ellos. Los corales del genero Pocillopora son reconocidos mundialmente por albergar una importante fauna de invertebrados entre sus ramas, los cuales son considerados como simbiontes obligatorios en una gran cantidad de casos. La presente investigación describe la fauna de invertebrados asociados al coral Pocillopora damicornis en Bahía Culebra, Costa Rica, describiendo sus densidades, frecuencias, riquezas y diversidades a través del tiempo. Para esto se colectaron 5 colonias cada 3-4 meses en Playa Blanca, Bahía Culebra. En total se encontraron 448 individuos en 35 especies, siendo Harpiliopsis depressa, Lithophaga aristata, Trapezia ferruginea, Alpheus lottini, Fennera chacei, y Petrolisthes haigae las especies predominantes. Noviembre fue el mes en el que se encontraron los mayores valores en los índices de riqueza, diversidad y diferenciación taxonómica, mientras que agosto fue el que presento los valores más bajos de todos. En términos generales, la época lluviosa mostro mayor riqueza de especies que la época seca. Así mismo, las especies colectados y los valores obtenidos son muy similares a otras zonas del Pacifico Oriental Tropical. Culebra ha venido sufriendo una perdida en la cobertura coralina, que podría tener consecuencias en la diversidad y abundancia de organismos asociados a corales. Estas consecuencias incluyen perdida en la fecundidad de estos organismos, una reducción en su función como limpiadores y protectores de depredadores del coral, poniendo en riesgo su diversidad, lo que puede afectar los stocks de peces depredadores que depende de ellos. Realizar monitoreos permanentes de la criptofauna asociada al coral Pocillopora va a ser determinante para cuantificar perdidas o recuperaciones en la composición de invertebrados asociados, y por ende en las funciones que estos desempeñan en este ecosistema.