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Nico Blüthgen - One of the best experts on this subject based on the ideXlab platform.
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Behavioural and chemical mechanisms behind a Mediterranean ant-ant association.
Ecological Entomology, 2010Co-Authors: Florian Menzel, Martin Woywod, Nico Blüthgen, Thomas SchmittAbstract:urzburg, WGermany Abstract. 1. Interspecific competition among ants is common, and so is competitive exclusion among dominant ant species. In contrast, specific associations between non- parasitic ant species are rare, especially in the temperate zones. As an exception, the subordinate ant Camponotus lateralis frequently co-occurs with the dominant Crematogaster scutellaris but rarely with other dominant ants. 2. This association is one of various associations between Camponotus and Crematogaster species across the world. However, the mechanisms behind these co- occurences are largely unknown. 3. In the present study, we therefore investigated the association of Ca. lateralis and Cr. scutellaris. We studied the spatial association of the nests, interspecific aggression, both species' cuticular hydrocarbon profiles, and their propensity to follow the other species' pheromone trails. 4. Crematogaster scutellaris usually attacked and displaced the generally submissive Ca. lateralis, but was significantly less aggressive at jointly used trails. Camponotus nests were always in close proximity to Crematogaster nests. 5. The cuticular hydrocarbons of both species consisted of alkanes with chain lengths between C21 and C35. The two species had 25 hydrocarbons in common, including mono-, di-, and tetramethyl alkanes. Despite this qualitative similarity, however, the quantitative hydrocarbon composition differed between the two species. 6. Camponotus lateralis followed artificial trails containing trail pheromones of Cr. scutellaris, but the latter did not follow Ca. lateralis trail pheromones. Interspecific trail-following by Camponotus, but not vice versa, has been observed in another Camponotus-Crematogaster association and may be a more general mechanism that facilitates associations between the two ant genera.
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selective interspecific tolerance in tropical crematogaster Camponotus associations
Animal Behaviour, 2008Co-Authors: Florian Menzel, Karl Eduard Linsenmair, Nico BlüthgenAbstract:Associations between ants of the genera Crematogaster and Camponotus are found in many parts of the world. Associated species use common trails (trail sharing) or even share a common nest (parabiosis). In a tropical lowland forest in Malaysian Borneo, we studied intraspecific and interspecific aggression among the parabiotic species Crematogaster modiglianii and Camponotus rufifemur using both field and laboratory assays. Cr. modiglianii tolerated Ca. rufifemur workers from certain foreign colonies but fiercely attacked those of others. In contrast, Ca. rufifemur was tolerant even towards attacking allocolonial Cr. modiglianii workers but killed other Crematogaster species. By analogy, other Camponotus species usually attacked and killed Cr. modiglianii. Intraspecific confrontations among Ca. rufifemur colonies yielded a gradient from allocolonial tolerance to strong aggression. The aggression patterns coincide with those of Cr. modiglianii towards Ca. rufifemur workers from the same colonies. Our results suggest either that Ca. rufifemur is not able to recognize allocolonial Cr. modiglianii workers as foreign or that they are recognized but tolerated. The unilateral, species-specific but not colony-specific tolerance of Ca. rufifemur towards its partner species contrasts with highly colony-specific tolerance found among neotropical parabioses.
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Selective interspecific tolerance in tropical Crematogaster–Camponotus associations
Animal Behaviour, 2008Co-Authors: Florian Menzel, Karl Eduard Linsenmair, Nico BlüthgenAbstract:Associations between ants of the genera Crematogaster and Camponotus are found in many parts of the world. Associated species use common trails (trail sharing) or even share a common nest (parabiosis). In a tropical lowland forest in Malaysian Borneo, we studied intraspecific and interspecific aggression among the parabiotic species Crematogaster modiglianii and Camponotus rufifemur using both field and laboratory assays. Cr. modiglianii tolerated Ca. rufifemur workers from certain foreign colonies but fiercely attacked those of others. In contrast, Ca. rufifemur was tolerant even towards attacking allocolonial Cr. modiglianii workers but killed other Crematogaster species. By analogy, other Camponotus species usually attacked and killed Cr. modiglianii. Intraspecific confrontations among Ca. rufifemur colonies yielded a gradient from allocolonial tolerance to strong aggression. The aggression patterns coincide with those of Cr. modiglianii towards Ca. rufifemur workers from the same colonies. Our results suggest either that Ca. rufifemur is not able to recognize allocolonial Cr. modiglianii workers as foreign or that they are recognized but tolerated. The unilateral, species-specific but not colony-specific tolerance of Ca. rufifemur towards its partner species contrasts with highly colony-specific tolerance found among neotropical parabioses.
Florian Menzel - One of the best experts on this subject based on the ideXlab platform.
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What makes you a potential partner? Insights from convergently evolved ant–ant symbioses
Chemoecology, 2014Co-Authors: Florian Menzel, Jérôme Orivel, Martin Kaltenpoth, Thomas SchmittAbstract:Mutualistic, commensalistic or parasitic interactions are unevenly distributed across the animals and plants: in certain taxa, such interspecific associations evolved more often than in others. Within the ants, associations between species of the genera Camponotus and Crematogaster evolved repeatedly and include trail-sharing associations, where two species share foraging trails, and parabioses, where two species share a nest without aggression. Camponotus and Crematogaster may possess life-history traits that favour the evolution of associations. To identify which traits are affected by the association, we investigated a neotropical parabiosis of Ca. femoratus and Cr. levior and compared it to a paleotropical parabiosis and a trail-sharing association. The two neotropical species showed altered cuticular hydrocarbon profiles compared to non-parabiotic species accompanied by low levels of interspecific aggression. Both species occurred in two chemically distinct types. Camponotus followed artificial trails of Crematogaster pheromones, but not vice versa. The above traits were also found in the paleotropical parabiosis, and the trail-following results match those of the trail-sharing association. In contrast to paleotropical parabioses, however, Camponotus was dominant, had a high foraging activity and often fought against Crematogaster over food resources. We suggest three potential preadaptations for parabiosis. First, Crematogaster uses molecules as trail pheromones, which can be perceived by Camponotus, too. Second, nests of Camponotus are an important benefit to Crematogaster and may create a selection pressure for the latter to tolerate Camponotus. Third, there are parallel, but unusual, shifts in cuticular hydrocarbon profiles between neotropics and paleotropics, and between Camponotus and Crematogaster.
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Behavioural and chemical mechanisms behind a Mediterranean ant-ant association.
Ecological Entomology, 2010Co-Authors: Florian Menzel, Martin Woywod, Nico Blüthgen, Thomas SchmittAbstract:urzburg, WGermany Abstract. 1. Interspecific competition among ants is common, and so is competitive exclusion among dominant ant species. In contrast, specific associations between non- parasitic ant species are rare, especially in the temperate zones. As an exception, the subordinate ant Camponotus lateralis frequently co-occurs with the dominant Crematogaster scutellaris but rarely with other dominant ants. 2. This association is one of various associations between Camponotus and Crematogaster species across the world. However, the mechanisms behind these co- occurences are largely unknown. 3. In the present study, we therefore investigated the association of Ca. lateralis and Cr. scutellaris. We studied the spatial association of the nests, interspecific aggression, both species' cuticular hydrocarbon profiles, and their propensity to follow the other species' pheromone trails. 4. Crematogaster scutellaris usually attacked and displaced the generally submissive Ca. lateralis, but was significantly less aggressive at jointly used trails. Camponotus nests were always in close proximity to Crematogaster nests. 5. The cuticular hydrocarbons of both species consisted of alkanes with chain lengths between C21 and C35. The two species had 25 hydrocarbons in common, including mono-, di-, and tetramethyl alkanes. Despite this qualitative similarity, however, the quantitative hydrocarbon composition differed between the two species. 6. Camponotus lateralis followed artificial trails containing trail pheromones of Cr. scutellaris, but the latter did not follow Ca. lateralis trail pheromones. Interspecific trail-following by Camponotus, but not vice versa, has been observed in another Camponotus-Crematogaster association and may be a more general mechanism that facilitates associations between the two ant genera.
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selective interspecific tolerance in tropical crematogaster Camponotus associations
Animal Behaviour, 2008Co-Authors: Florian Menzel, Karl Eduard Linsenmair, Nico BlüthgenAbstract:Associations between ants of the genera Crematogaster and Camponotus are found in many parts of the world. Associated species use common trails (trail sharing) or even share a common nest (parabiosis). In a tropical lowland forest in Malaysian Borneo, we studied intraspecific and interspecific aggression among the parabiotic species Crematogaster modiglianii and Camponotus rufifemur using both field and laboratory assays. Cr. modiglianii tolerated Ca. rufifemur workers from certain foreign colonies but fiercely attacked those of others. In contrast, Ca. rufifemur was tolerant even towards attacking allocolonial Cr. modiglianii workers but killed other Crematogaster species. By analogy, other Camponotus species usually attacked and killed Cr. modiglianii. Intraspecific confrontations among Ca. rufifemur colonies yielded a gradient from allocolonial tolerance to strong aggression. The aggression patterns coincide with those of Cr. modiglianii towards Ca. rufifemur workers from the same colonies. Our results suggest either that Ca. rufifemur is not able to recognize allocolonial Cr. modiglianii workers as foreign or that they are recognized but tolerated. The unilateral, species-specific but not colony-specific tolerance of Ca. rufifemur towards its partner species contrasts with highly colony-specific tolerance found among neotropical parabioses.
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Selective interspecific tolerance in tropical Crematogaster–Camponotus associations
Animal Behaviour, 2008Co-Authors: Florian Menzel, Karl Eduard Linsenmair, Nico BlüthgenAbstract:Associations between ants of the genera Crematogaster and Camponotus are found in many parts of the world. Associated species use common trails (trail sharing) or even share a common nest (parabiosis). In a tropical lowland forest in Malaysian Borneo, we studied intraspecific and interspecific aggression among the parabiotic species Crematogaster modiglianii and Camponotus rufifemur using both field and laboratory assays. Cr. modiglianii tolerated Ca. rufifemur workers from certain foreign colonies but fiercely attacked those of others. In contrast, Ca. rufifemur was tolerant even towards attacking allocolonial Cr. modiglianii workers but killed other Crematogaster species. By analogy, other Camponotus species usually attacked and killed Cr. modiglianii. Intraspecific confrontations among Ca. rufifemur colonies yielded a gradient from allocolonial tolerance to strong aggression. The aggression patterns coincide with those of Cr. modiglianii towards Ca. rufifemur workers from the same colonies. Our results suggest either that Ca. rufifemur is not able to recognize allocolonial Cr. modiglianii workers as foreign or that they are recognized but tolerated. The unilateral, species-specific but not colony-specific tolerance of Ca. rufifemur towards its partner species contrasts with highly colony-specific tolerance found among neotropical parabioses.
Karl Eduard Linsenmair - One of the best experts on this subject based on the ideXlab platform.
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selective interspecific tolerance in tropical crematogaster Camponotus associations
Animal Behaviour, 2008Co-Authors: Florian Menzel, Karl Eduard Linsenmair, Nico BlüthgenAbstract:Associations between ants of the genera Crematogaster and Camponotus are found in many parts of the world. Associated species use common trails (trail sharing) or even share a common nest (parabiosis). In a tropical lowland forest in Malaysian Borneo, we studied intraspecific and interspecific aggression among the parabiotic species Crematogaster modiglianii and Camponotus rufifemur using both field and laboratory assays. Cr. modiglianii tolerated Ca. rufifemur workers from certain foreign colonies but fiercely attacked those of others. In contrast, Ca. rufifemur was tolerant even towards attacking allocolonial Cr. modiglianii workers but killed other Crematogaster species. By analogy, other Camponotus species usually attacked and killed Cr. modiglianii. Intraspecific confrontations among Ca. rufifemur colonies yielded a gradient from allocolonial tolerance to strong aggression. The aggression patterns coincide with those of Cr. modiglianii towards Ca. rufifemur workers from the same colonies. Our results suggest either that Ca. rufifemur is not able to recognize allocolonial Cr. modiglianii workers as foreign or that they are recognized but tolerated. The unilateral, species-specific but not colony-specific tolerance of Ca. rufifemur towards its partner species contrasts with highly colony-specific tolerance found among neotropical parabioses.
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Selective interspecific tolerance in tropical Crematogaster–Camponotus associations
Animal Behaviour, 2008Co-Authors: Florian Menzel, Karl Eduard Linsenmair, Nico BlüthgenAbstract:Associations between ants of the genera Crematogaster and Camponotus are found in many parts of the world. Associated species use common trails (trail sharing) or even share a common nest (parabiosis). In a tropical lowland forest in Malaysian Borneo, we studied intraspecific and interspecific aggression among the parabiotic species Crematogaster modiglianii and Camponotus rufifemur using both field and laboratory assays. Cr. modiglianii tolerated Ca. rufifemur workers from certain foreign colonies but fiercely attacked those of others. In contrast, Ca. rufifemur was tolerant even towards attacking allocolonial Cr. modiglianii workers but killed other Crematogaster species. By analogy, other Camponotus species usually attacked and killed Cr. modiglianii. Intraspecific confrontations among Ca. rufifemur colonies yielded a gradient from allocolonial tolerance to strong aggression. The aggression patterns coincide with those of Cr. modiglianii towards Ca. rufifemur workers from the same colonies. Our results suggest either that Ca. rufifemur is not able to recognize allocolonial Cr. modiglianii workers as foreign or that they are recognized but tolerated. The unilateral, species-specific but not colony-specific tolerance of Ca. rufifemur towards its partner species contrasts with highly colony-specific tolerance found among neotropical parabioses.
Germán Amat - One of the best experts on this subject based on the ideXlab platform.
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Distribución espacial de Cordyceps spp. (Ascomycotina: Clavicipitaceae) y su impacto sobre las hormigas en selvas del piedemonte amazónico de Colombia
Vicerractoría Investigación, 2001Co-Authors: Sanjuán Tatiana, Luis Guillermo Henao, Germán AmatAbstract:Se estudió la diversidad del género Cordyceps, hongo entomopatógeno, en hormigas del piedemonte Amazónico colombiano (450-600 msnm, enero y mayo de 1998, épocas seca y lluviosa, respectivamente). La recolección de hormigas sanas y parasitadas por Cordyceps se llevó a cabo en tres bosques con distintos regímenes de perturbación: natural, antrópico y poco perturbado. Se establecieron 100 cuadrantes de 1 m² por cada bosque. Las muestras fueron tomadas en hojarasca, arbustos y troncos como sustratos, y cada 50 cm hasta 2 m de altura los estratos verticales. El género Azteca fue el predominante en el bosque poco perturbado, mientras Camponotus, Pheidole y Crematogaster abundaron en los bosques con perturbación natural y antrópica. El bosque con perturbación natural presentó 759 individuos de C. unilateralis y 69 de C. lloydii var. binata parasitando hormigas Camponotus spp. (Formicidae: Formicinae). Se encontraron sólo seis casos de C. kniphofioides var. ponerinarum y C. australis en las hormigas Paraponera clavata y Pachycondyla crassinoda (Formicidae: Ponerinae). En el bosque perturbado antrópicamente se presentaron 34 ejemplares de C. unilateralis en Camponotus mientras que en el menos perturbado no se observaron hormigas parasitadas. Se halló que las hormigas Camponotus spp. que son parasitadas por C. unilateralis y C. lloydii var. binata se ubican preferencialmente en el sustrato hoja, hasta 1 m de altura. Se determinó que la incidencia de la interacción Cordyceps / hormiga no está influenciada por el estado de conservación del bosque, sin embargo, la variación de la humedad relativa y la presencia o ausencia de la hormiga hospedera son factores que influyen en la diversidad de Cordyceps en hormigas. Se encontró, además, que la distribución microespacial de la interacción sigue un patrón determinado, aportando más argumentos a la hipótesis de que los mecanismos de dispersión de Cordyceps coevolucionaron con la hormiga influenciando sus códigos feromonalesEntomopathogenic fungi of the genus Cordyceps were sampled in the foothills of the Colombian Amazon region (450 - 600 msnm altitude, January and May, 1998, i.e. dry and wet seasons, respectively). Healthy and Cordyceps-parasitized ants from a nearly pristine, a naturally disturbed and a human-disturbed forests were collected on 100 quadrants (1 m²) per forest. Litter, shrubs and trunks were explored as substrates, and samples were gathered in vertical strata from 50 cm to 2 m high. Aztec was the predominant ant genus in near pristine forest whereas Camponotus, Pheidole and Crematogaster were dominant in disturbed forests. In the naturally disturbed forest we found 759 individuals of Cordyceps unilateralis and 69 of C. lloydii var. binata parasitizing Camponotus spp (Formicidae: Formicinae), whereas C. kniphofioides var. ponerinarum and C. australis were found only in six cases infecting the ants Paraponera clavata and Pachycondila crassinoda (Formicidae: Ponerinae). In the human disturbed forest it were found 34 individuals of C. unilateralis on Camponotus. In the near pristine forest we did not find parasitized ants. The Camponotus spp ants parasitized by C. unilateralis and C. lloydii var binata were found predominantly in the substratum foliage up to 1 m. It was concluded that the incidence of Cordyceps-ant interactions is not influenced by the conservation status of the forest. Instead, relative humidity and presence/absence of host ants appear to be key factors. Also, the micro-spatial distribution of the interactions seems to follow a definite pattern. This work observations support the hypothesis on coevolution of dispersion mechanisms in Cordyceps and ant feromonal code
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Distribución espacial de Cordyceps spp. (Ascomycotina: Clavicipitaceae) y su impacto sobre las hormigas en selvas del piedemonte amazónico de Colombia
Revista de biologia tropical, 2001Co-Authors: Tatiana Sanjuan, Luis Guillermo Henao, Germán AmatAbstract:Entomopathogenic fungi of the genus Cordyceps were sampled in the foothills of the Colombian Amazon region (450 – 600 msnm altitude, January and May, 1998, i.e. dry and wet seasons, respectively). Healthy and Cordyceps-parasitized ants from a nearly pristine, a naturally disturbed and a human-disturbed forests were collected on 100 quadrants (1 m2) per forest. Litter, shrubs and trunks were explored as substrates, and samples were gathered in vertical strata from 50 cm to 2 m high. Azteca was the predominant ant genus in near pristine forest whereas Camponotus, Pheidole and Crematogaster were dominant in disturbed forests. In the naturally disturbed forest we found 759 individuals of Cordyceps unilateralis and 69 of C. lloydii var. binata parasitizing Camponotus spp. (Formicidae: Formicinae), whereas C. kniphofioides var. ponerinarum and C. australis were found only in six cases infecting the ants Paraponera clavata and Pachycondila crassinoda (Formicidae: Ponerinae). In the human disturbed forest it were found 34 individuals of C. unilateralis on Camponotus. In the near pristine forest we did not find parasitized ants. The Camponotus spp. ants parasitized by C. unilateralis and C. lloydii var. binata were found predominantly in the substratum foliage up to 1 m. It was concluded that the incidence of Cordyceps–ant interactions is not influenced by the conservation status of the forest. Instead, relative humidity and presence/absence of host ants appear to be key factors. Also, the microspatial distribution of the interactions seems to follow a definite pattern. This work observations support the hypothesis on coevolution of dispersion mechanisms in Cordyceps and ant pheromonal codes.
Luis Guillermo Henao - One of the best experts on this subject based on the ideXlab platform.
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Distribución espacial de Cordyceps spp. (Ascomycotina: Clavicipitaceae) y su impacto sobre las hormigas en selvas del piedemonte amazónico de Colombia
Vicerractoría Investigación, 2001Co-Authors: Sanjuán Tatiana, Luis Guillermo Henao, Germán AmatAbstract:Se estudió la diversidad del género Cordyceps, hongo entomopatógeno, en hormigas del piedemonte Amazónico colombiano (450-600 msnm, enero y mayo de 1998, épocas seca y lluviosa, respectivamente). La recolección de hormigas sanas y parasitadas por Cordyceps se llevó a cabo en tres bosques con distintos regímenes de perturbación: natural, antrópico y poco perturbado. Se establecieron 100 cuadrantes de 1 m² por cada bosque. Las muestras fueron tomadas en hojarasca, arbustos y troncos como sustratos, y cada 50 cm hasta 2 m de altura los estratos verticales. El género Azteca fue el predominante en el bosque poco perturbado, mientras Camponotus, Pheidole y Crematogaster abundaron en los bosques con perturbación natural y antrópica. El bosque con perturbación natural presentó 759 individuos de C. unilateralis y 69 de C. lloydii var. binata parasitando hormigas Camponotus spp. (Formicidae: Formicinae). Se encontraron sólo seis casos de C. kniphofioides var. ponerinarum y C. australis en las hormigas Paraponera clavata y Pachycondyla crassinoda (Formicidae: Ponerinae). En el bosque perturbado antrópicamente se presentaron 34 ejemplares de C. unilateralis en Camponotus mientras que en el menos perturbado no se observaron hormigas parasitadas. Se halló que las hormigas Camponotus spp. que son parasitadas por C. unilateralis y C. lloydii var. binata se ubican preferencialmente en el sustrato hoja, hasta 1 m de altura. Se determinó que la incidencia de la interacción Cordyceps / hormiga no está influenciada por el estado de conservación del bosque, sin embargo, la variación de la humedad relativa y la presencia o ausencia de la hormiga hospedera son factores que influyen en la diversidad de Cordyceps en hormigas. Se encontró, además, que la distribución microespacial de la interacción sigue un patrón determinado, aportando más argumentos a la hipótesis de que los mecanismos de dispersión de Cordyceps coevolucionaron con la hormiga influenciando sus códigos feromonalesEntomopathogenic fungi of the genus Cordyceps were sampled in the foothills of the Colombian Amazon region (450 - 600 msnm altitude, January and May, 1998, i.e. dry and wet seasons, respectively). Healthy and Cordyceps-parasitized ants from a nearly pristine, a naturally disturbed and a human-disturbed forests were collected on 100 quadrants (1 m²) per forest. Litter, shrubs and trunks were explored as substrates, and samples were gathered in vertical strata from 50 cm to 2 m high. Aztec was the predominant ant genus in near pristine forest whereas Camponotus, Pheidole and Crematogaster were dominant in disturbed forests. In the naturally disturbed forest we found 759 individuals of Cordyceps unilateralis and 69 of C. lloydii var. binata parasitizing Camponotus spp (Formicidae: Formicinae), whereas C. kniphofioides var. ponerinarum and C. australis were found only in six cases infecting the ants Paraponera clavata and Pachycondila crassinoda (Formicidae: Ponerinae). In the human disturbed forest it were found 34 individuals of C. unilateralis on Camponotus. In the near pristine forest we did not find parasitized ants. The Camponotus spp ants parasitized by C. unilateralis and C. lloydii var binata were found predominantly in the substratum foliage up to 1 m. It was concluded that the incidence of Cordyceps-ant interactions is not influenced by the conservation status of the forest. Instead, relative humidity and presence/absence of host ants appear to be key factors. Also, the micro-spatial distribution of the interactions seems to follow a definite pattern. This work observations support the hypothesis on coevolution of dispersion mechanisms in Cordyceps and ant feromonal code
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Distribución espacial de Cordyceps spp. (Ascomycotina: Clavicipitaceae) y su impacto sobre las hormigas en selvas del piedemonte amazónico de Colombia
Revista de biologia tropical, 2001Co-Authors: Tatiana Sanjuan, Luis Guillermo Henao, Germán AmatAbstract:Entomopathogenic fungi of the genus Cordyceps were sampled in the foothills of the Colombian Amazon region (450 – 600 msnm altitude, January and May, 1998, i.e. dry and wet seasons, respectively). Healthy and Cordyceps-parasitized ants from a nearly pristine, a naturally disturbed and a human-disturbed forests were collected on 100 quadrants (1 m2) per forest. Litter, shrubs and trunks were explored as substrates, and samples were gathered in vertical strata from 50 cm to 2 m high. Azteca was the predominant ant genus in near pristine forest whereas Camponotus, Pheidole and Crematogaster were dominant in disturbed forests. In the naturally disturbed forest we found 759 individuals of Cordyceps unilateralis and 69 of C. lloydii var. binata parasitizing Camponotus spp. (Formicidae: Formicinae), whereas C. kniphofioides var. ponerinarum and C. australis were found only in six cases infecting the ants Paraponera clavata and Pachycondila crassinoda (Formicidae: Ponerinae). In the human disturbed forest it were found 34 individuals of C. unilateralis on Camponotus. In the near pristine forest we did not find parasitized ants. The Camponotus spp. ants parasitized by C. unilateralis and C. lloydii var. binata were found predominantly in the substratum foliage up to 1 m. It was concluded that the incidence of Cordyceps–ant interactions is not influenced by the conservation status of the forest. Instead, relative humidity and presence/absence of host ants appear to be key factors. Also, the microspatial distribution of the interactions seems to follow a definite pattern. This work observations support the hypothesis on coevolution of dispersion mechanisms in Cordyceps and ant pheromonal codes.
