Your search keyword '"Rico-Gray V"' showing total 77 results

1. The Effect of Wasps and Ants on the Reproductive Success of the Extrafloral Nectaried Plant Turnera ulmifolia (Turneraceae)

Author

Cuautle, M. and Rico-Gray, V.

Published

2003

2. Floristic Affinities between the Yucatán Peninsula and Some Karstic Areas of Cuba

Author

Chiappy-Jhones, C., Rico-Gray, V., Gama, L., and Giddings, L.

Published

2001

3. Interaction between Ants, Extrafloral Nectaries and Insect Herbivores in Neotropical Coastal Sand Dunes: Herbivore Deterrence by Visiting Ants Increases Fruit Set in Opuntia stricta (Cactaceae)

Author

Oliveira, P. S., Rico-Gray, V., Diaz-Castelazo, C., and Castillo-Guevara, C.

Published

1999

4. Bataceae de la Península de Yucatán, México

Author

Rico-Gray, V, BioStor, and Index of American Botanical Literature

Published

1990

5. Secretory activity of extrafloral nectaries shaping multitrophic ant-plant-herbivore interactions in an arid environment

Author

Dáttilo, W., Aguirre, A., Flores-Flores, R.V., Fagundes, R., Lange, D., García-Chávez, J., Del-Claro, K., and Rico-Gray, V.

Published

2015

6. Context-dependent crypsis: a prey’s perspective of a color polymorphic predator

Author

Rodríguez-Morales, D., Rico-Gray, V., García-Franco, J. G., Ajuria-Ibarra, H., Hernández-Salazar, L. T., Robledo-Ospina, L. E., and Rao, D.

Published

2018

7. Loss and gains in ant–plant interactions mediated by extrafloral nectar: fidelity, cheats, and lies

Author

Del-Claro, K., Rico-Gray, V., Torezan-Silingardi, H. M., Alves-Silva, E., Fagundes, R., Lange, D., Dáttilo, W., Vilela, A. A., Aguirre, A., and Rodriguez-Morales, D.

Published

2016

8. Ant–Plant Interactions: Their Seasonal Variation and Effects on Plant Fitness

Author

Rico-Gray, V., Oliveira, P. S., Parra-Tabla, V., Cuautle, M., Díaz-Castelazo, C., Caldwell, M. M., editor, Heldmaier, G., editor, Jackson, R. B., editor, Lange, O. L., editor, Mooney, H. A., editor, Schulze, E. -D., editor, Sommer, U., editor, Martínez, M. Luisa, editor, and Psuty, Norbert P., editor

Published

2004

9. In-Vitro Germination and Clonal Propagation of Endemic Tillandsia califanii Rauh (Bromeliaceae) from Mexico

Author

Garcia-Suarez, M.D., Rico-Gray, V., Molina-Aceves, N., and Serrano, H.

Published

2006

10. Ant–Plant Interactions: Their Seasonal Variation and Effects on Plant Fitness

Author

Rico-Gray, V., primary, Oliveira, P. S., additional, Parra-Tabla, V., additional, Cuautle, M., additional, and Díaz-Castelazo, C., additional

Published

2008

11. Effect of Different Ant Species on Reproductive Fitness of Schomburgkia tibicinis (Orchidaceae)

Author

Rico-Gray, V. and Thien, L. B.

Published

1989

12. Uses of tropical deciduous forest species by the Yucatecan Maya

Author

Rico-Gray, V., Chemás, A., and Mandujano, S.

Published

1991

13. Apiculture and management of associated vegetation by the maya of Tixcacaltuyub, Yucatán, México

Author

Chemas, A. and Rico-Gray, V.

Published

1991

14. COMPOSICIÓN Y ESTRUCTURA DE LA VEGETACIÓN SECUNDARIA EN BETHANIA, CAMPECHE, MÉXICO. COMPOSITION AND STRUCTURE OF SECONDARY VEGETATION IN BETHANIA, CAMPECHE, MEXICO

Author

Zamora-Crescencio, P., primary, Rico-Gray, V., additional, Ramírez-Medina, L.N.G., additional, Barrientos-Medina, R.C., additional, Plasencia Vázquez, A.H., additional, Villegas, P., additional, Domínguez-Carrasco, M. del R., additional, and Gutiérrez-Báez, C., additional

Published

2018

15. Yucatecan Mayas knowledge of pollination and breeding systems

Author

Rico-Gray, V, Garcia-Franco, J G, Chemas, A, and BioStor

Published

1988

16. Differences among ant species in plant protection are related to production of extrafloral nectar and degree of leaf herbivory

Author

Fundação de Amparo à Pesquisa do Estado de São Paulo Minas Gerais, Conselho Nacional de Desenvolvimento Científico e Tecnológico (Brasil), Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (Brasil), Fagundes, R., Dáttilo, Wesley, Ribeiro, S. P., Rico-Gray, V., Jordano, Pedro, Del-Claro, K., Fundação de Amparo à Pesquisa do Estado de São Paulo Minas Gerais, Conselho Nacional de Desenvolvimento Científico e Tecnológico (Brasil), Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (Brasil), Fagundes, R., Dáttilo, Wesley, Ribeiro, S. P., Rico-Gray, V., Jordano, Pedro, and Del-Claro, K.

Abstract

Many studies assume that all ant species collecting extrafloral nectar defend plants against herbivores, although ant–plant interactions are facultative, generalized and have variable outcomes. With over 280 h of observations in an area of Rupestrian Grasslands (Ouro Preto, Brazil), we described the network of interactions between 2313 ants of 23 species and 200 plants of 10 species. Ants from all species were further submitted to an identical task of finding and removing a standardized herbivore surrogate (termites) to quantify the relative protection effectiveness of different ant species. We then correlated ant protection to the volume and concentration of sugar in the nectar as conditional factors and the herbivory damage as interaction outcome. We found that 11 of the 23 species of ants attacked and removed 933 of 2000 termites. All plant species interacted with effective ant protectors, although the identity of the best protector varied among plants. The degree of ant protection was positively associated with sugar concentration of nectar, which further explained the variation in leaf damage among plant species. Our study provides evidence that ant protection varies among ant species and is enhanced by the plant investment in nectar reward, resulting in less herbivory for the partner plant. We also showed that the most protecting ant species are those that are most connected and thus spread the benefit throughout the network.

Published

2017

17. Differences among ant species in plant protection are related to production of extrafloral nectar and degree of leaf herbivory

Author

Fagundes, R, primary, Dáttilo, W, additional, Ribeiro, S P, additional, Rico-Gray, V, additional, Jordano, P, additional, and Del-Claro, K, additional

Published

2017

18. Estructura y composición florística de la selva mediana subperennifolia en Bethania, Campeche, México

Author

Zamora-Crescencio, P., additional, Rico-Gray, V., additional, Barrientos-Medina, R.C., additional, Puc-Garrido, E.C., additional, Villegas, P., additional, Domínguez-Carrasco, M.R., additional, and Gutiérrez-Báez, C., additional

Published

2017

19. Importance of interaction frequency in analysis of ant-plant networks in tropical environments

Author

Wesley, D., Sánchez-Galván I, Lange D, Del-Claro K, and Rico-Gray V

Abstract

Several studies have shown that qualitative (binary) ant-plant networks are highly nested in tropical environments, in which specialist species (with fewer interactions) are connected with generalists (with the most interactions) in cohesive subgroups. Interactions occur in both qualitative and quantitative networks, however, how their frequency may structure the nestedness in ecological networks involving these organisms is, we believe, unknown. Based on this perspective, we used nestedness analysis to address the effect of interaction frequency on antplant networks (n = 14 networks). Unlike binary networks, quantitative networks are often significantly non-nested. In addition, species with a higher interaction frequency have a higher number of links, indicating that these species are possibly more abundant and/or competitive. Moreover, different biological parameters can change the nature of ant-plant interactions, as a plant can be a good resource for one ant and a ‘bad’ resource for another. Thus, this suggests a new perspective for the study of interaction networks in the tropics, since species with lower interaction frequency are not necessarily subsets of species with higher frequency, and consequently generate the non-nested pattern in quantitative networks.

Published

2014

20. Mutualistic networks

Author

Bascompte, J., Aizen, M., Fontaine, C., Fortuna, M. A., Jordano, P., Lewinsohn, T. M., Memmott, J., Olesen, Jens Mogens, Petanidou, T., Rico-Gray, V., and Thompson, J. N.

Published

2010

21. Importance of interaction frequency in analysis of ant-plant networks in tropical environments

Author

Wesley D., Sánchez-Galván I, Lange D, Del-Claro K, Rico-Gray V, Wesley D., Sánchez-Galván I, Lange D, Del-Claro K, and Rico-Gray V

Published

2014

22. Ant assemblages in isolated trees are more sensitive to species loss and replacement than their woodland counterparts

Author

Majer, Jonathan, Gove, Aaron, Rico-Gray, V., Majer, Jonathan, Gove, Aaron, and Rico-Gray, V.

Abstract

Isolated trees possess an arthropod assemblage different to that found in woodland trees. While isolated trees become an increasingly dominant part of many landscapes, with ‘off reserve’ habitat conservation potential, we know little about the drivers of their assemblage structure. While sampling bimonthly for 12 months in the seasonally dry tropics of Mexico, we characterized the ant species most likely to occupy isolated trees in comparison to small woody patches (‘matorral’; 0.13–0.74 ha), and examined the influence of environmental variables on the respective ant assemblages at both canopy and ground level. Isolated trees possessed a predictable ant assemblage: when compared to the woodland patches, isolated trees were characterised by a lack of specialised arboreal species and an increase in generalised terrestrial species reaching the canopy. Arboreal woodland ant species were as affected by tree isolation as the terrestrial woodland ant fauna.

Published

2009

23. Methods for conservation outside of formal reserve systems: The case of ants in the seasonally dry tropics of Veracruz, Mexico

Author

Majer, Jonathan, Gove, Aaron, Rico-Gray, V., Majer, Jonathan, Gove, Aaron, and Rico-Gray, V.

Abstract

Like most ecosystems of the world, tropical dry forests of the central coast of the Gulf of Mexico are inadequately preserved. Given that reserve expansion is unlikely, it is imperative that the conservation capacity of the matrix surrounding reserves is enhanced. Here, we examine the habitat value of isolated pasture trees and patches of secondary regrowth in terms of their terrestrial and arboreal ant assemblages in both a wet and dry season. These simplified wooded systems increase species densities within the agricultural matrix and provide habitat for some forest ant species. Estimated species richness of arboreal ants was particularly low on isolated trees, highlighting an important limitation. This was not the case for terrestrial ants, which were particularly species rich under isolated trees. We also found that the inter-site variations in species densities and similarity to the forest ant assemblage for terrestrial and arboreal strata were not correlated, suggesting that responses to restoration may not be as uniform as often thought.

Published

2005

24. Ant-Plant Interactions: Their Seasonal Variation and Effects on Plant Fitness.

Author

Caldwell, M. M., Heldmaier, G., Jackson, R. B., Lange, O. L., Mooney, H. A., Schulze, E. -D., Sommer, U., Martínez, M. Luisa, Psuty, Norbert P., Rico-Gray, V., Oliveira, P. S., Parra-Tabla, V., Cuautle, M., and Díaz-Castelazo, C.

Abstract

This chapter discusses the importance of nectar to ants, the effect of ants on plant fitness (either mediated by nectaries or Homoptera), plus seasonal variation and diversity of interactions in the tropical coastal regions of the Yucatan Peninsula and Veracruz, Mexico.Tropical coastal dunes are rich environments for ant-plant interactions, yet diversity of interactions, seasonality and the effect of ants on plant fitness have rarely been studied. [ABSTRACT FROM AUTHOR]

Published

2008

25. The importance of floral and circum-floral nectar to ants inhabiting dry tropical lowlands.

Author

RICO-GRAY, V.

Published

1989

26. Influence of microclimate at different canopy heights on the germination of Ficus (Urostigma) seeds dispersed by Mexican howler monkeys (Alouatta palliata mexicana)

Author

Juan Carlos Serio-Silva and Rico-Gray, V.

Subjects

Alouatta palliata mexicana, Disturbed Habitat, Germination, Ficus, Preserved Habitat

Abstract

A variety of microclimatic factors influence the success of seed germination in the strangler figs Ficus perforata and F. lundelli consumed by howler monkeys (Alouatta palliata mexicana) in southern Veracruz, Mexico. Seed germination was compared at two canopy heights in two different study sites: disturbed (Playa Escondida; 40ha) and preserved (Carolino Anaya Reserve, Coatzacoalcos; 600ha). Germination varied depending on canopy height where the seeds were placed, and the quality (degree of conservation) of the habitat (preserved or disturbed). There was an evident between-habitat variation in humidity, light intensity, and temperature in the host trees for hemiepiphytic Ficus, which may affect the percent of germination response. The results show higher germination at the highest canopy location for seeds of both species. Germination was significantly higher in the preserved site for seeds from feaces vs. seeds from fruits source. The latter is probably the effect on seed germination of the higher relative humidity and low light and temperature levels in the preserved site. Diversos factores microclimáticos influyen en el éxito de la germinación de semillas de Ficus estranguladores (F. perforata y F. lundelli) consumidas por monos aulladores (Alouatta palliata mexicana) en el sureste de Veracruz, México. La germinación de semillas de estas especies fue comparada entre dos estratos arbóreos en dos diferentes sitios de estudio: perturbado (Playa Escondida; 40ha) y conservado (Reserva Carolino Anaya, Coat-zacoalcos; 600ha). Los resultados muestran que la germinación varió con el estrato arbóreo donde fueron depositadas las semillas y con la calidad (grado de conservación) del hábitat (conservado o perturbado). Bajo estas diferentes condiciones de hábitat, fueron evidentes las variaciones en humedad, intensidad de luz y temperatura de los árboles hospederos para los Ficus hemiepífitos, que podrían estar afectando el porcentaje de germinación. Se registró mayor germinación de ambas especies en los estratos superiores. La germinación fue significativamente mayor en el sitio conservado para las semillas que provenían de las heces contra aquellas no dispersadas de esta manera. Esto último es, probablemente, resultante de una mayor humedad relativa y bajos niveles de luz y temperatura que influyen positivamente en la germinación en el sitio conservado. Diversos fatores microclimáticos influem no êxito da germinação de sementes de Ficus estranguladores (F. perforata y F. lundelli) consumidas por macacos uivadores (Alouatta palliata mexicana) no sudeste de Veracruz, México. A germinação de sementes destas espécies foi comparada entre dois extratos arbóreos nos dois diferentes lugares de estudo: perturbado (Playa Escondida; 40ha) e conservado (Reserva Carolino Anaya, Coatzacoalcos; 600ha). Os resultados mostram que a germinação variou com o extrato arbóreo onde foram depositadas as sementes e com a qualidade (grau de conservação) do habitat (conservado ou perturbado). Sob estas diferentes condições de habitat, foram evidentes as variações em umidade, intensidade de luz e temperatura das árvores hospedeiras para os Ficus hemiepífitos, que poderiam estar afetando a percentagem de germinação. Registrou-se maior germinação de ambas espécies nos extratos superiores. A germinação foi significativamente maior no lugar conservado para as sementes que provinham das fezes em vez daquelas não dispersadas desta maneira. Este último é, provavelmente, resultante de uma maior umidade relativa e baixos níveis de luz e temperatura que influem positivamente na germinação no lugar conservado.

27. Nutritional composition of the diet of Alouatta palliata mexicana females in different reproductive states

Author

Juan Carlos Serio-Silva, Hernández-Salazar, L. T., and Rico-Gray, V.

28. Is cycasin in Eumaeus minyas (Lepidoptera: Lycaenidae) a predator deterrent?

Author

CITLALLI CASTILLO GUEVARA and Rico-Gray, V.

Subjects

Aposematic Butterfly, Lycaenidae, Predation, Deterrent Effect of Cycasin, Cycads

Abstract

Sequestration of defense compounds from host plants may require particular physiological adaptations by larvae to ingest, accumulate, and store them. Defense compounds are used particularly against predators, where chemical defense reduces the risk of predation. Cycasin is a secondary metabolite present in cycads (Cycadales), which are host to butterflies of the genus Eumaeus (Lycaenidae). Cycasin is sequestered by the aposematic butterfly E. minyas from its host plant Zamia loddigesii (Zamiaceae) and used as a chemical defense. The presence of cycasin in all stadia of E. minyas was assessed in laboratory and field experiments. Through palatability experiments in the laboratory, it was established that pure cycasin deterred a potential predator (Solenopsis geminata, Formicidae) of E. minyas, and that cycasin in egg, larva and adult extracts deterred this predator. To assess the efficiency of this chemical defense for eggs and larvae in natural conditions, a predator exclusion experiment was carried out. Using survival analysis it is shown that the number of surviving eggs and larvae were significantly higher in the exclusions. This suggests that the protective function of cycasin in natural conditions is not totally effective against natural predators. This is the first study that tests experimentally the protective function of cycasin in natural conditions. We suggest that cycasin in the aposematic butterfly E. minyas has a defensive function against predators; however, its populations may be regulated by the negative effect of its predators, which apparently circumvent the chemical defensive barrier, and by cannibalism. El secuestro de compuestos de defensa de las plantas hospederas puede requerir adaptaciones fisiológicas particulares para que las larvas los ingieran, acumulen y almacenen. Los compuestos de defensa son usados para varios propósitos, particularmente contra depredadores, donde la defensa química reduce el riesgo de depredación. La cicasina es un metabolito secundario presente en las cícadas (Cycadales), que son hospederas de mariposas del género Eumaeus (Lycaenidae). La cicasina es secuestrada por la mariposa aposemática E. minyas de su planta hospedera Zamia loddigesii (Zamiaceae) y es usada como defensa química. En experimentos de campo y laboratorio se evaluó la presencia de cicasina en todos los estadios de E. minyas. Mediante experimentos de palatabilidad en el laboratorio, se estableció que la cicasina pura repele a Solenopsis geminata (Hymenoptera: Formicidae), un depredador potencial de E. minyas y, al utilizar extractos de huevos, larvas y adultos de esta mariposa se obtiene el mismo efecto de manera experimental. Para evaluar la eficiencia de esta defensa química en huevos y larvas en condiciones naturales, se realizó un experimento de exclusión de depredadores. Usando un análisis de sobrevivencia se demostró que el número de huevos y larvas sobrevivientes fue significativamente más alto en las exclusiones, sugiriendo que la función protectiva de la cicasina en condiciones naturales no es totalmente efectiva contra los depredadores naturales. Este es el primer estudio que incluye manipulación experimental de la función protectiva de la cicasina en condiciones naturales. Sugerimos que la cicasina en la mariposa aposemática E. minyas tiene una función defensiva contra los depredadores; sin embargo, sus poblaciones pueden estar reguladas por el efecto negativo de sus depredadores, los cuales aparentemente saltan la barrera química defensiva y por el canibalismo. O sequestro de compostos na defesa das plantas hospedeiras, pode exigir adaptaçoes fisiológicas particulares para que as larvas os comam, acumulem e armazenem. Os compostos de defesa são usados para vários propósitos, particularmente contra depredadores, onde a defesa química reduz o risco de depredação. A cicasina é um composto metabólico secundário presente nas cícadas (Cycadales), as quais são hospedeiras de mariposas do género Eumaeus (Lycaenidae). A cicasina é sequestrada pela mariposa aposemática Eumaeus minyas de sua planta hospedeira Zamia loddigesii (Zamiaceae) e é utilizada como defesa química. Utilizando-se experimento de campo e laboratório, avaliou-se a presença de cicasina em todos os estágios de E. minyas. Mediante experimentos de palatabilidade em laboratório, estabeleceu-se que a cicasina pura repele a Solenopsis geminata (Hymenoptera: Formicidae), que é um depredador potencial de E. minyas e, ao utilizar extratos de ovos, larvas e indivíduos adultos desta mariposa, se obtém o mesmo efeito. Para avaliar a eficiência desta defesa química em ovos e larvas realizou-se um experimento de exclusão de depredadores em condições naturais. Usando-se uma análise de sobrevivência, demonstrou-se que o número de ovos e larvas sobreviventes foi significativamente mais alto nas excluções, sugerindo que a função de proteção da cicasina em codições naturais nao é totalmente efetiva contra os depredadores. Este é o primeiro estudo realizado que inclui manipulação experimental da função protetora da cicasina em condição natural. Sugerimos que a cicasina presente na mariposa aposemática E. minyas, tem uma função de defesa contra os depredadores, mas as suas populaçoes podem estar reguladas pelo efeito negativo de seus depredadores, os quais, aparentemente saltam a barreira química defensiva, e pelo canibalismo.

29. Vegetation and soil seed bank of successional stages in tropical lowland deciduous forest

Author

Rico-Gray, V. and Garcia-Franco, J. G.

Subjects

SOILS, FORESTS & forestry, PLANTS

Published

1992

30. Short-Term Temporal Patterns in Herbivore Beetle Assemblages in Polyculture Neotropical Forest Plantations.

Author

Quinto J, Díaz-Castelazo C, Rico-Gray V, Martínez-Falcón AP, Abdala-Roberts L, and Parra-Tabla V

Subjects

Animals, Biodiversity, Ecosystem, Forests, Herbivory, Trees, Coleoptera

Abstract

Although insect herbivorous communities in tropical forests are known to exhibit strong seasonality, few studies have systematically assessed temporal patterns of variation in community structure and plant-herbivore interactions in early successional arboreal communities. We assessed seasonal and interannual variation of the diversity and composition of herbivorous beetles and the tree-herbivore network in a recently established polyculture forest plantation, during the dry and the rainy seasons of 2012 and of 2013. Species richness was similar between years, while the ecological diversity was higher in 2012. Comparing seasons, no differences were found in 2012, whereas in 2013, the species richness and ecological diversity were higher during the dry season. The species composition differed radically across years and seasons. Moreover, a quantitative nested pattern was consistently found across both temporal scales, more influenced by species densities. We found temporal changes in the species strength, whereas connectance and interaction evenness remained stable. Rapid temporal changes in the structural complexity of recently established polyculture plantations and the availability and quality of the trophic resources they offer may act as drivers of beetle diversity patterns, promoting rapid variation in herbivore composition and some interacting attributes. Nonetheless, network structure, connectance, and interaction evenness remained similar, suggesting that reorganizations in the distribution of species may determine the maintenance of the patterns of interaction. Further work assessing long-term temporal dynamics of herbivore beetle assemblages are needed to more robustly relate diversity and interaction patterns to biotic and abiotic factors and their implications in management programs., (© 2021. Sociedade Entomológica do Brasil.)

Published

2022

31. Relative contribution of ecological and biological attributes in the fine-grain structure of ant-plant networks.

Author

Díaz-Castelazo C, Martínez-Adriano CA, Dáttilo W, and Rico-Gray V

Abstract

Background: Ecological communities of interacting species analyzed as complex networks have shown that species dependence on their counterparts is more complex than expected at random. As for other potentially mutualistic interactions, ant-plant networks mediated by extrafloral nectar show a nested (asymmetric) structure with a core of generalist species dominating the interaction pattern. Proposed factors structuring ecological networks include encounter probability (e.g., species abundances and habitat heterogeneity), behavior, phylogeny, and body size. While the importance of underlying factors that influence the structure of ant-plant networks have been separately explored, the simultaneous contribution of several biological and ecological attributes inherent to the species, guild or habitat level has not been addressed., Methods: For a tropical seasonal site we recorded (in 48 censuses) the frequency of pairwise ant-plant interactions mediated by extrafloral nectaries (EFN) on different habitats and studied the resultant network structure. We addressed for the first time the role of mechanistic versus neutral determinants at the 'fine-grain' structure (pairwise interactions) of ant-plant networks. We explore the simultaneous contribution of several attributes of plant and ant species (i.e., EFN abundance and distribution, ant head length, behavioral dominance and invasive status), and habitat attributes (i.e., vegetation structure) in prevailing interactions as well as in overall network topology (community)., Results: Our studied network was highly-nested and non-modular, with core species having high species strengths (higher strength values for ants than plants) and low specialization. Plants had higher dependences on ants than vice versa. We found that habitat heterogeneity in vegetation structure (open vs. shaded habitats) was the main factor explaining network and fine-grain structure, with no evidence of neutral (abundance) effects., Discussion: Core ant species are relevant to most plants species at the network showing adaptations to nectar consumption and deterrent behavior. Thus larger ants interact with more plant species which, together with higher dependence of plants on ants, suggests potential biotic defense at a community scale. In our study site, heterogeneity in the ant-plant interactions among habitats is so prevalent that it emerges at community-level structural properties. High frequency of morphologically diverse and temporarily-active EFNs in all habitats suggests the relevance and seasonality of plant biotic defense provided by ants. The robust survey of ecological interactions and their biological/ecological correlates that we addressed provides insight of the interplay between adaptive-value traits and neutral effects in ecological networks., Competing Interests: The authors declare there are no competing interests., (©2020 Díaz-Castelazo et al.)

Published

2020

32. Correction to 'Unravelling Darwin's entangled bank: architecture and robustness of mutualistic networks with multiple interaction types'.

Author

Dáttilo W, Lara-Rodríguez N, Jordano P, Guimarães PR Jr, Thompson JN, Marquis RJ, Medeiros LP, Ortiz-Pulido R, Marcos-García MA, and Rico-Gray V

Published

2017

33. Unravelling Darwin's entangled bank: architecture and robustness of mutualistic networks with multiple interaction types.

Author

Dáttilo W, Lara-Rodríguez N, Jordano P, Guimarães PR Jr, Thompson JN, Marquis RJ, Medeiros LP, Ortiz-Pulido R, Marcos-García MA, and Rico-Gray V

Subjects

Animals, Models, Biological, Biological Evolution, Ecosystem, Extinction, Biological, Symbiosis

Abstract

Trying to unravel Darwin's entangled bank further, we describe the architecture of a network involving multiple forms of mutualism (pollination by animals, seed dispersal by birds and plant protection by ants) and evaluate whether this multi-network shows evidence of a structure that promotes robustness. We found that species differed strongly in their contributions to the organization of the multi-interaction network, and that only a few species contributed to the structuring of these patterns. Moreover, we observed that the multi-interaction networks did not enhance community robustness compared with each of the three independent mutualistic networks when analysed across a range of simulated scenarios of species extinction. By simulating the removal of highly interacting species, we observed that, overall, these species enhance network nestedness and robustness, but decrease modularity. We discuss how the organization of interlinked mutualistic networks may be essential for the maintenance of ecological communities, and therefore the long-term ecological and evolutionary dynamics of interactive, species-rich communities. We suggest that conserving these keystone mutualists and their interactions is crucial to the persistence of species-rich mutualistic assemblages, mainly because they support other species and shape the network organization., (© 2016 The Author(s).)

Published

2016

34. Influence of plant resistance traits in selectiveness and species strength in a tropical plant-herbivore network.

Author

López-Carretero A, Boege K, Díaz-Castelazo C, Domínguez Z, and Rico-Gray V

Subjects

Antibiosis, Biological Evolution, Food Chain, Forests, Mexico, Population Density, Seasons, Ecosystem, Herbivory, Plant Leaves physiology

Abstract

Premise of the Study: Plant-herbivore networks are highly specialized in their interactions, yet they are highly variable with regard to the relative importance of specific host species for herbivores. How host species traits determine specialization and species strength in this antagonistic network is still an unanswered question that we addressed in this study., Methods: We assessed plant cover and antiherbivore resistance traits to assess the extent to which they accounted for the variation in specialization and strength of interactions among species in a plant-herbivore network. We studied a tropical antagonistic network including a diverse herbivore-host plant assemblages in different habitat types and climatic seasons, including host plants with different life histories., Key Results: Particular combinations of leaf toughness, trichome density, and phenolic compounds influenced herbivore specialization and host species strength, but with a significant spatiotemporal variation among plant life histories. Conversely, plant-herbivore network parameters were not influenced by plant cover., Conclusions: Our study highlights the importance of species-specific resistance traits of plants to understand the ecological and evolutionary consequences of plant-herbivore interaction networks. The novelty of our research lies in the use of a trait-based approach to understand the variation observed in diverse plant-herbivore networks., (© 2016 Botanical Society of America.)

Published

2016

35. Trait-mediated indirect interactions of ant shape on the attack of caterpillars and fruits.

Author

Dáttilo W, Aguirre A, De la Torre PL, Kaminski LA, García-Chávez J, and Rico-Gray V

Subjects

Animals, Insecta, Plants, Symbiosis, Fruit

Abstract

Mainly owing to their high diversity and abundance, ants are formidable as predators and defenders of foliage. Consequently, ants can exclude both invertebrate and vertebrate activity on plants via direct and indirect interactions as already shown in many previous studies. Here we present empirical evidence that objects resembling ant shape on dummy caterpillars were able to repel visually oriented predators. Moreover, we also show that rubber ants on dummy fruits can repel potential fruit dispersers. Our results have direct implications on the ecological and evolutionary dynamics of interactions in ant-based systems, as ant presence could affect the fitness of its partners. In short, our study highlights the importance of visual cues in interspecific interactions and opens a new way to study the effects of ant presence to test ecological and evolutionary hypotheses., (© 2016 The Author(s).)

Published

2016

36. Association patterns in saproxylic insect networks in three Iberian Mediterranean woodlands and their resistance to microhabitat loss.

Author

Quinto J, Marcos-García Mde L, Díaz-Castelazo C, Rico-Gray V, Galante E, and Micó E

Subjects

Animals, Spain, Biodiversity, Ecosystem, Forests, Insecta classification

Abstract

The assessment of the relationship between species diversity, species interactions and environmental characteristics is indispensable for understanding network architecture and ecological distribution in complex networks. Saproxylic insect communities inhabiting tree hollow microhabitats within Mediterranean woodlands are highly dependent on woodland configuration and on microhabitat supply they harbor, so can be studied under the network analysis perspective. We assessed the differences in interacting patterns according to woodland site, and analysed the importance of functional species in modelling network architecture. We then evaluated their implications for saproxylic assemblages' persistence, through simulations of three possible scenarios of loss of tree hollow microhabitat. Tree hollow-saproxylic insect networks per woodland site presented a significant nested pattern. Those woodlands with higher complexity of tree individuals and tree hollow microhabitats also housed higher species/interactions diversity and complexity of saproxylic networks, and exhibited a higher degree of nestedness, suggesting that a higher woodland complexity positively influences saproxylic diversity and interaction complexity, thus determining higher degree of nestedness. Moreover, the number of insects acting as key interconnectors (nodes falling into the core region, using core/periphery tests) was similar among woodland sites, but the species identity varied on each. Such differences in insect core composition among woodland sites suggest the functional role they depict at woodland scale. Tree hollows acting as core corresponded with large tree hollows near the ground and simultaneously housing various breeding microsites, whereas core insects were species mediating relevant ecological interactions within saproxylic communities, e.g. predation, competitive or facilitation interactions. Differences in network patterns and tree hollow characteristics among woodland sites clearly defined different sensitivity to microhabitat loss, and higher saproxylic diversity and woodland complexity showed positive relation with robustness. These results highlight that woodland complexity goes hand in hand with biotic and ecological complexity of saproxylic networks, and together exhibited positive effects on network robustness.

Published

2015

37. Evaluating the spatio-temporal factors that structure network parameters of plant-herbivore interactions.

Author

López-Carretero A, Díaz-Castelazo C, Boege K, and Rico-Gray V

Subjects

Analysis of Variance, Animals, Lepidoptera physiology, Seasons, Species Specificity, Time Factors, Ecosystem, Herbivory physiology, Host-Parasite Interactions physiology, Plants parasitology

Abstract

Despite the dynamic nature of ecological interactions, most studies on species networks offer static representations of their structure, constraining our understanding of the ecological mechanisms involved in their spatio-temporal stability. This is the first study to evaluate plant-herbivore interaction networks on a small spatio-temporal scale. Specifically, we simultaneously assessed the effect of host plant availability, habitat complexity and seasonality on the structure of plant-herbivore networks in a coastal tropical ecosystem. Our results revealed that changes in the host plant community resulting from seasonality and habitat structure are reflected not only in the herbivore community, but also in the emergent properties (network parameters) of the plant-herbivore interaction network such as connectance, selectiveness and modularity. Habitat conditions and periods that are most stressful favored the presence of less selective and susceptible herbivore species, resulting in increased connectance within networks. In contrast, the high degree of selectivennes (i.e. interaction specialization) and modularity of the networks under less stressful conditions was promoted by the diversification in resource use by herbivores. By analyzing networks at a small spatio-temporal scale we identified the ecological factors structuring this network such as habitat complexity and seasonality. Our research offers new evidence on the role of abiotic and biotic factors in the variation of the properties of species interaction networks.

Published

2014

38. Highly nested diets in intrapopulation monkey-resource food webs.

Author

Dáttilo W, Serio-Silva JC, Chapman CA, and Rico-Gray V

Subjects

Animals, Mexico, Models, Biological, Seasons, Alouatta physiology, Diet, Feeding Behavior, Food Chain

Abstract

Recently several studies have focused on the structure of ecological networks to provide insights into ecological and coevolutionary dynamics of interacting species. However, rarely have the tools of ecological networks been used to understand how feeding relationships vary among individuals of the same population. Here we use 7 years of data and network analyzed to examine the intrapopulation diet variation in a group of howler monkeys (Alouatta palliata). We show that individual monkey-resource food webs are nested, but not modular and the stability of these patterns is independent of time of day or season. Our findings indicated that individuals do not forage randomly when compared to null models and that the diets of more selective monkeys represent subsets of the diets of other individuals. Moreover, there are no subgroups that eat a particular set of available plant species more frequently than other sets, suggesting that the spatial strategy of group foraging plays an important role in the feeding ecology of each group given that individuals of the same group tend to share similar resources while the group remains at a feeding site. Since the diets of more selective individuals are a subset of other monkeys, we suggest that more selective monkeys are able to outcompete others for preferred foods. Additionally, we did not observe differences in nutritional content or spatial abundance of more frequently eaten plant species when compared with less frequently eaten species, but in most cases, the more frequently eaten plant species were Ficus (Moraceae). This reinforces the important role that Ficus trees play in howler monkey feeding ecology, likely due to its year-round availability., (© 2014 Wiley Periodicals, Inc.)

Published

2014

39. Individual-based ant-plant networks: diurnal-nocturnal structure and species-area relationship.

Author

Dáttilo W, Fagundes R, Gurka CA, Silva MS, Vieira MC, Izzo TJ, Díaz-Castelazo C, Del-Claro K, and Rico-Gray V

Subjects

Animals, Brazil, Ecology, Grassland, Ants physiology, Plants metabolism, Symbiosis physiology

Abstract

Despite the importance and increasing knowledge of ecological networks, sampling effort and intrapopulation variation has been widely overlooked. Using continuous daily sampling of ants visiting three plant species in the Brazilian Neotropical savanna, we evaluated for the first time the topological structure over 24 h and species-area relationships (based on the number of extrafloral nectaries available) in individual-based ant-plant networks. We observed that diurnal and nocturnal ant-plant networks exhibited the same pattern of interactions: a nested and non-modular pattern and an average level of network specialization. Despite the high similarity in the ants' composition between the two collection periods, ant species found in the central core of highly interacting species totally changed between diurnal and nocturnal sampling for all plant species. In other words, this "night-turnover" suggests that the ecological dynamics of these ant-plant interactions can be temporally partitioned (day and night) at a small spatial scale. Thus, it is possible that in some cases processes shaping mutualistic networks formed by protective ants and plants may be underestimated by diurnal sampling alone. Moreover, we did not observe any effect of the number of extrafloral nectaries on ant richness and their foraging on such plants in any of the studied ant-plant networks. We hypothesize that competitively superior ants could monopolize individual plants and allow the coexistence of only a few other ant species, however, other alternative hypotheses are also discussed. Thus, sampling period and species-area relationship produces basic information that increases our confidence in how individual-based ant-plant networks are structured, and the need to consider nocturnal records in ant-plant network sampling design so as to decrease inappropriate inferences.

Published

2014

40. Seasonal dynamics of the flower head infestation of Smallanthus maculatus by two nonfrugivorous tephritids.

Author

Dzul-Cauich JF, Hernández-Ortiz V, Parra-Tabla V, and Rico-Gray V

Subjects

Animals, Inflorescence physiology, Larva growth & development, Larva parasitology, Larva physiology, Mexico, Pupa growth & development, Pupa parasitology, Pupa physiology, Seasons, Species Specificity, Tephritidae growth & development, Asteraceae physiology, Tephritidae parasitology, Tephritidae physiology, Wasps physiology

Abstract

Seasonal dynamics of the capitula infested by Dictyotrypeta sp. and Rhynencina spilogaster (Steyskal) (Diptera: Tephritidae) was evaluated throughout the flowering cycle of their host plant the sunflower, Smallanthus maculatus (Cavanilles) Robinson (Asterales: Asteraceae). In central Veracruz, Mexico, along 16 consecutive weeks, a total of 1,017 mature capitula were collected, recording the presence and abundance of immature stages (larvae and pupae) and their related parasitoids. Both fly species were present throughout the entire season, with overall infestation of 51.5% of the capitula examined. However, Dictyotrypeta sp. infested 11.3%, representing about one-fifth of them, and R. spilogaster was most abundant infesting four times as many capitula (42.9%), whereas both species were found together in only 2.6% of the capitula examined. Based on the temporal occurrence of larvae and pupae into flower heads as well as their associated parasitoids and times of emergence, Dictyotrypeta sp. had two yearly generations, and it seems that the second generation could enter a seasonal diapause; in contrast, R. spilogaster was a univoltine species that entered diapause that lasted until the next year., (© The Author 2014. Published by Oxford University Press on behalf of the Entomological Society of America.)

Published

2014

41. Long-term temporal variation in the organization of an ant-plant network.

Author

Díaz-Castelazo C, Sánchez-Galván IR, Guimarães PR Jr, Raimundo RL, and Rico-Gray V

Subjects

Animals, Mexico, Plant Nectar metabolism, Time Factors, Ants, Ecosystem, Magnoliopsida physiology, Symbiosis

Abstract

Background and Aims: Functional groups of species interact and coevolve in space and time, forming complex networks of interacting species. A long-term study of temporal variation of an ant-plant network is presented with the aims of: (1) depicting its structural changes over a 20-year period; (2) detailing temporal variation in network topology, as revealed by nestedness and modularity analysis and other parameters (i.e. connectance, niche overlap); and (3) identifying long-term turnover in taxonomic structure (i.e. switches in ant resource use or plant visitor assemblages according to taxa)., Methods: Fieldwork was carried out at La Mancha, Mexico, and ant-plant interactions were observed between 1989 and 1991, between 1998 and 2000, and between May 2010 and 2011. Occurrences of ants on extrafloral nectaries (EFNs) were recorded. The resulting ant-plant networks were constructed from qualitative presence-absence data determined by a species-species matrix defined by the frequency of occurrence of each pairwise ant-plant interaction., Key Results: Network variation across time was stable and a persistent nested structure may have contributed to the maintenance of resilient and species-rich communities. Modularity was lower than expected, especially in the most recent networks, indicating that the community exhibited high overlap among interacting species (e.g. few species were hubs in the more recent network, being partly responsible for the nested pattern). Structurally, the connections created among modules by super-generalists gave cohesion to subsets of species that otherwise would remain unconnected. This may have allowed an increasing cascade-effect of evolutionary events among modules. Mutualistic ant-plant interactions were structured 20 years ago mainly by the subdominant nectarivorous ant species Camponotus planatus and Crematogaster brevispinosa, which monopolized the best extrafloral nectar resources and out-competed other species with broader feeding habits. Through time, these ants, which are still present, lost their position as network hubs and diminished in their importance in structuring the network; simultaneously, plants gained in importance., Conclusions: The long-term network analysis reveals a decrease in attended plant species richness, a notable increase in plant species participation from 1990 to 2010 (sustained by less plant taxonomic similarity in the older 1990 network), an increase in the number of ant species and a diminishing dominance of super-generalist ants. The structure of the community has remained highly nested and connected with low modularity, suggesting overall a more participative, homogeneous, cohesive interaction network. Although previous studies have suggested that interactions between ants and EFN-bearing plants are susceptible to seasonality, abiotic factors and perturbation, this cohesive structure appears to be the key for biodiversity and community maintenance.

Published

2013

42. Nectar secretion on fern fronds associated with lower levels of herbivore damage: field experiments with a widespread epiphyte of Mexican cloud forest remnants.

Author

Koptur S, Palacios-Rios M, Díaz-Castelazo C, Mackay WP, and Rico-Gray V

Subjects

Animals, Insecta, Larva, Mexico, Symbiosis, Herbivory, Plant Nectar metabolism, Polypodium physiology

Abstract

Background and Aims: The oldest group of plants in which nectar secretions have been observed are the Polypodiopsida (ferns sensu lato). Nectaries have been reported in a dozen extant genera. The function of these nectaries has been investigated in several fern species, and in some circumstances has been demonstrated to have an antiherbivore role, attracting and maintaining biotic defence (ants and/or other predatory arthropods). This study documents foliar nectaries in Pleopeltis crassinervata, a widespread Central American epiphyte growing on a variety of trees in cloud forest areas of Veracruz, Mexico. This is a new record for this genus and species., Methods: As previous experimental work on epiphytic species of Polypodium has demonstrated a protective role of ants for developing fronds, we conducted similar experiments (using nylon nail polish to cover nectaries rather than excluding ants with bands of sticky resin as in earlier work). The fronds of Pl. crassinervata developed over 6 weeks, at which time damage was assessed. The experiment was simultaneously conducted on a sympatric species lacking nectaries, Polypodium furfuraceum. Herbivore placement experiments were conducted with large and small caterpillars on both of these ferns., Key Results: Fronds with nectaries covered suffered greater damage from herbivores over the course of their development, compared with fronds that had uncovered nectaries functioning normally. The parallel experiment on Po. furfuraceum showed no difference between manipulated and control fronds. Six species of ants (Brachymyrmex minutus, Crematogaster formosa, Paratrechina longicornis, Solenopsis geminata, S. picea and Wasmannia auropunctata) were observed visiting nectaries of Pl. crassinervata; most were effective in removing herbivore larvae placed on the fronds., Conclusions: The long evolutionary history of ferns may explain why some previous studies of fern nectaries have shown little or no benefit to ferns from nectary visitors, as any coevolved herbivores are those resistant to ant defence. The results suggest that ants protect Pl. crassinervata fronds against herbivory. The presence of nectaries, and the relationship with ants, may contribute to this fern's widespread occurrence and persistence in the face of disturbance, though many other factors also play a role. Ant defence may be more likely to benefit a widespread species of disturbed habitats that encounters a wide range of non-adapted herbivores.

Published

2013

43. Host use and resource sharing by fruit/seed-infesting insects on Schoepfia schreberi (Olacaceae).

Author

López-Ortega M, Pérez-Rodríguez P, Rojas JC, Soto Hernández RM, López-Mata L, and Rico-Gray V

Subjects

Animals, Competitive Behavior, Female, Fruit growth & development, Mexico, Oviposition, Seeds growth & development, Food Chain, Moths physiology, Olacaceae physiology, Tephritidae growth & development

Abstract

The interactions between the fruit fly Anastrepha spatulata Stone (Diptera: Tephritidae) and two species of moths, the gelechiid Coleotechnites sp. and an unidentified tortricid species, were examined on their effects on seed production in terms of their exploitation within fruits of Schoepfia schreberi J.F. Gmel (Santalales: Olacaceae). The study was carried out in three experimental sites during 3 yr. Under conditions of abundant fruit, A. spatulata was the dominant exploiter at the population level, as shown by its ability to infest the largest number of fruits of the three herbivores and substantially displace its moth competitors. In a separate experiment, when resource-partitioning species were excluded, A. spatulata infested twice as many fruits as the two moth species (44.3%). Field observations examined the ability of A. spatulata to locate suitable fruits. We found that, the variation in fruit characters influenced fruit suitability in relation to its size (4.1261 ± 0.0272 mm [mean ± SE]) and weight (0.0618 ± 0.0005 mg [mean ± SE]). Uninfested fruits produce viable seed but the interaction of all species (exploiting for the fruits) led to limited seed formation.

Published

2013

44. Breaking down complex Saproxylic communities: understanding sub-networks structure and implications to network robustness.

Author

Quinto J, Marcos-García MÁ, Díaz-Castelazo C, Rico-Gray V, Brustel H, Galante E, and Micó E

Subjects

Animals, Extinction, Biological, Food Chain, Spain, Species Specificity, Ecosystem, Insecta physiology, Wood parasitology

Abstract

Saproxylic insect communities inhabiting tree hollow microhabitats correspond with large food webs which simultaneously are constituted by multiple types of plant-animal and animal-animal interactions, according to the use of trophic resources (wood- and insect-dependent sub-networks), or to trophic habits or interaction types (xylophagous, saprophagous, xylomycetophagous, predators and commensals). We quantitatively assessed which properties of specialised networks were present in a complex networks involving different interacting types such as saproxylic community, and how they can be organised in trophic food webs. The architecture, interacting patterns and food web composition were evaluated along sub-networks, analysing their implications to network robustness from random and directed extinction simulations. A structure of large and cohesive modules with weakly connected nodes was observed throughout saproxylic sub-networks, composing the main food webs constituting this community. Insect-dependent sub-networks were more modular than wood-dependent sub-networks. Wood-dependent sub-networks presented higher species degree, connectance, links, linkage density, interaction strength, and were less specialised and more aggregated than insect-dependent sub-networks. These attributes defined high network robustness in wood-dependent sub-networks. Finally, our results emphasise the relevance of modularity, differences among interacting types and interrelations among them in modelling the structure of saproxylic communities and in determining their stability.

Published

2012

45. Changes of a mutualistic network over time: reanalysis over a 10-year period.

Author

Díaz-Castelazo C, Guimarāes PR Jr, Jordano P, Thompson JN, Marquis RJ, and Rico-Gray V

Subjects

Adaptation, Physiological, Animals, Population Dynamics, Time Factors, Ants classification, Ants physiology, Ecosystem, Plants metabolism

Abstract

We analyzed the structure of a multispecific network of interacting ants and plants bearing extrafloral nectaries recorded in 1990 and again in 2000 in La Mancha, Veracruz, Mexico. We assessed the replicability of the number of interactions found among species and also whether there had been changes in the network structure associated with appearance of new ant and plant species during that 10-year period. Our results show that the nested topology of the network was similar between sampling dates, group dissimilarity increased, mean number of interactions for ant species increased, the frequency distribution of standardized degrees reached higher values for plant species, more ant species and fewer plant species constituted the core of the more recent network, and the presence of new ant and plant species increased while their contribution to nestedness remained the same. Generalist species (i.e., those with the most links or interactions) appeared to maintain the stability of the network because the new species incorporated into the communities were linked to this core of generalists. Camponotus planatus was the most extreme generalist ant species (the one with the most links) in both networks, followed by four other ant species; but other species changed either their position along the continuum of generalists relative to specialists or their presence or absence within the network. Even though new species moved into the area during the decade between the surveys, the overall network structure remained unmodified.

Published

2010

46. Noninvasive collection of fresh hairs from free-ranging howler monkeys for DNA extraction.

Author

Améndola-Pimenta M, García-Feria L, Serio-Silva JC, and Rico-Gray V

Subjects

Animals, DNA genetics, Female, Male, Alouatta genetics, DNA isolation & purification, Hair chemistry, Polymerase Chain Reaction methods, Specimen Handling methods

Abstract

The use of noninvasive collected samples as source of DNA in studies of wild primate populations has increased in recent years. Fresh-plucked hairs represent an important source of DNA, with relatively high quality and concentration. In this study, we describe a low-cost noninvasive technique for collecting fresh-plucked hairs used to obtain DNA samples from free-ranging black howler monkey populations (Alouatta pigra). We designed and manufactured darts made of wooden dowels, with the anterior part smeared with glue, which were projected with blowpipes to trap howler monkey hairs. All of the materials to make the darts are inexpensive and are available locally. We collected 89 samples from 76 individuals residing in 15 troops, and the total number of hairs obtained was 754. We found no differences in the number of hairs collected among sex-age classes or among localities but the percentage of darts recovered with sample varied among localities. Preliminary results indicate that over 96% of samples yielded DNA suitable for polymerase chain reaction-based microsatellite marker analysis. The technique proved successful for collecting fresh-plucked hairs of free-ranging black howler monkeys without any trauma to the animals and can be easily adapted to obtain samples from other wild primate and mammal species.

Published

2009

47. Predicted and verified distributions of Ateles geoffroyi and Alouatta palliata in Oaxaca, Mexico.

Author

Ortiz-Martínez T, Rico-Gray V, and Martínez-Meyer E

Subjects

Animals, Data Collection, Demography, Geography, Mexico, Models, Biological, Predictive Value of Tests, Records, Alouatta, Atelinae

Abstract

Primate conservation requires a better knowledge of the distributions and statuses of populations in both large areas of habitat and in areas for which we currently have no information. We focused on spider monkeys (Ateles geoffroyi) and howler monkeys (Alouatta palliata) in the state of Oaxaca, Mexico. This Mexican state has protected large tracts of forest, and has historical records for both primates, although very little is known about them. To update our knowledge of the distributions of these primates and identify potential areas in which they are present, we modeled their geographic distributions by characterizing their ecological niches using the genetic algorithm for rule-set production (GARP), performed interviews and carried out field surveys. The predicted distributions, surveys and interviews indicate that the distributions of these primates are restricted to northeastern Oaxaca. The results suggest that spider monkeys occupy a wider area and elevational range than howler monkeys. Throughout that range there is a wide variety of suitable habitats for these primates. Most of the sites where monkeys were recorded in the field are not officially protected and there was evidence of hunting and habitat destruction. It is important to improve protection, economic alternatives and environmental education as we move towards an integral solution for the conservation of these species. Validation of the GARP model was done for A. geoffroyi, since we had obtained enough field data for this species; this validation indicated that the predicted distribution of the species was statistically better than expected by chance. Hence, ecological niche modeling is a useful approach when performing an initial assessment to identify distribution patterns, detecting suitable areas for future exploration, and for conservation planning. Our findings provide an improved basis for primate conservation and productive fieldwork in Oaxaca.

Published

2008

48. Interaction intimacy affects structure and coevolutionary dynamics in mutualistic networks.

Author

Guimarães PR Jr, Rico-Gray V, Oliveira PS, Izzo TJ, dos Reis SF, and Thompson JN

Subjects

Animals, Ants pathogenicity, Ants physiology, Biodiversity, Models, Biological, Plant Physiological Phenomena, Symbiosis, Biological Evolution, Ecosystem

Abstract

The structure of mutualistic networks provides clues to processes shaping biodiversity [1-10]. Among them, interaction intimacy, the degree of biological association between partners, leads to differences in specialization patterns [4, 11] and might affect network organization [12]. Here, we investigated potential consequences of interaction intimacy for the structure and coevolution of mutualistic networks. From observed processes of selection on mutualistic interactions, it is expected that symbiotic interactions (high-interaction intimacy) will form species-poor networks characterized by compartmentalization [12, 13], whereas nonsymbiotic interactions (low intimacy) will lead to species-rich, nested networks in which there is a core of generalists and specialists often interact with generalists [3, 5, 7, 12, 14]. We demonstrated an association between interaction intimacy and structure in 19 ant-plant mutualistic networks. Through numerical simulations, we found that network structure of different forms of mutualism affects evolutionary change in distinct ways. Change in one species affects primarily one mutualistic partner in symbiotic interactions but might affect multiple partners in nonsymbiotic interactions. We hypothesize that coevolution in symbiotic interactions is characterized by frequent reciprocal changes between few partners, but coevolution in nonsymbiotic networks might show rare bursts of changes in which many species respond to evolutionary changes in a single species.

Published

2007

49. Asymmetries in specialization in ant-plant mutualistic networks.

Author

Guimarães PR Jr, Rico-Gray V, dos Reis SF, and Thompson JN

Subjects

Adaptation, Physiological, Animals, Food Chain, Models, Biological, Population Dynamics, Ants physiology, Ecosystem, Plant Physiological Phenomena

Abstract

Mutualistic networks involving plants and their pollinators or frugivores have been shown recently to exhibit a particular asymmetrical organization of interactions among species called nestedness: a core of reciprocal generalists accompanied by specialist species that interact almost exclusively with generalists. This structure contrasts with compartmentalized assemblage structures that have been verified in antagonistic food webs. Here we evaluated whether nestedness is a property of another type of mutualism-the interactions between ants and extrafloral nectary-bearing plants--and whether species richness may lead to differences in degree of nestedness among biological communities. We investigated network structure in four communities in Mexico. Nested patterns in ant-plant networks were very similar to those previously reported for pollination and frugivore systems, indicating that this form of asymmetry in specialization is a common feature of mutualisms between free-living species, but not always present in species-poor systems. Other ecological factors also appeared to contribute to the nested asymmetry in specialization, because some assemblages showed more extreme asymmetry than others even when species richness was held constant. Our results support a promising approach for the development of multispecies coevolutionary theory, leading to the idea that specialization may coevolve in different but simple ways in antagonistic and mutualistic assemblages.

Published

2006

50. Morphological and secretory characterization of extrafloral nectaries in plants of coastal Veracruz, Mexico.

Author

Díaz-Castelazo C, Rico-Gray V, Ortega F, and Angeles G

Subjects

Acacia ultrastructure, Animals, Ants, Apocynaceae ultrastructure, Bidens cytology, Bignoniaceae ultrastructure, Callicarpa ultrastructure, Cedrela ultrastructure, Combretaceae ultrastructure, Cordia ultrastructure, Fabaceae cytology, Ipomoea ultrastructure, Mexico, Opuntia ultrastructure, Plant Components, Aerial physiology, Plant Epidermis physiology, Carbohydrate Metabolism, Fabaceae ultrastructure, Plant Components, Aerial ultrastructure, Plant Epidermis ultrastructure

Abstract

Background and Aims: Morphological descriptions of the extrafloral nectaries (EFNs) of certain plant species are common in the literature, but they rarely relate morphology with histology, gland distribution and secretory attributes. In this study a morphological/secretory characterization of EFNs occurring on several plant species in a tropical coastal community is made and the implications of gland attributes discussed from a functional perspective., Methods: The morphology and nectar secretion of the EFNs of 20 plant species are characterized through scanning electron microscopy, histochemical detection of reducing sugars (Fehling's reagent) and nectar volume/concentration estimates., Key Results: Sixty-five per cent of plant species in coastal communities had EFNs on vegetative structures and 35 % of species had glands on reproductive and vegetative organs. The Fabaceae is the plant family with the most species with EFNs and most diversity of gland morphologies. Four types of vascularized nectaries and four of glandular trichomes are described; sugar-secreting trichomes are characterized using Fehling's technique, and the first descriptions of unicellular and peltate trichomes functioning as EFNs are provided. Glands of ten plant species and six genera are described for the first time. Four plant species possess more than one morphological type of EFN. Eleven species have EFNs in more than one location or organ. More complex glands secrete more nectar, but are functionally homologous to the aggregations of numerous secretory trichomes on specific and valuable plant organs., Conclusion: Important diversity of EFN morphology was foundin the coastal plant community studied. Both vascularized and non-vascularized EFNs are observed in plants and, for the latter, previously non-existent morpho-secretory characterizations are provided with a methodological approach to study them. It is recommended that studies relating EFN attributes (i.e. morphology, distribution) with their differential visitation by insects (i.e. ants) and the cost of maintenance to the plants are carried out to understand the evolution of these glands.

Published

2005