Your search keyword '"Wirth, Rainer"' showing total 23 results

1. Spatio-Temporal Permanence and Plasticity of Foraging Trails in Young and Mature Leaf-Cutting Ant Colonies (Atta spp.)

Author

Wirth, Rainer

Published

2005

2. Divergent effects of leaf‐cutting ant herbivory and soil engineering on the reproductive success of plants in a Caatinga dry forest.

Author

de Oliveira, Francisca Raimunda, Centeno‐Alvarado, Diego, Oliveira, Fernanda M. P., Wirth, Rainer, Lopes, Ariadna Valentina, and Leal, Inara R.

Subjects

LEAF-cutting ants, TROPICAL dry forests, SOIL mechanics, CAATINGA plants, BIOLOGICAL fitness

Abstract

Plant reproduction is influenced by resource availability, environment and interactions with pollinators, pathogens and herbivores. In the Neotropical region, the leaf‐cutting ants are voracious herbivores and soil engineers, potentially affecting plant performance. This study investigated the effects of herbivory and soil changes via nest construction and maintenance linked to Atta opaciceps (Hymenoptera: Formicidae) (Bormeier, 1939) on the reproductive success of two Leguminosae species (Cenostigma pyramidale (Tul.) E. Gagnon & G.P. Lewis and Indigofera suffruticosa Mill. Mill.) widely distributed in the Caatinga dry forest.We selected eight nests from A. opaciceps colonies, with both plant species nearby. For each colony, we selected similar‐sized adult plants from foraging trail ends, where ants concentrate foraging efforts and herbivory is pronounced. We also selected plants located 20 m away from the foraging trail ends, representing herbivory‐protected scenarios, secured by tanglefoot barriers. Additionally, to assess ant‐related soil effects, we selected individuals from different nest‐associated soils (i.e., nest mounds and external refuse dumps) and from locations 20 m away from the aforementioned locations. All these individuals were shielded with tanglefoot barriers.Herbivory and soil changes from A. opaciceps did not affect any metric evaluated of C. pyramidale. Yet, for I. suffruticosa, ant herbivory boosted fruit set, and nest‐related soil changes, notably from refuse dumps, increased the number of flowers and fruits.Our findings indicate that leaf‐cutting ant effects on plant performance are species‐specific and may eventually benefit plant reproduction. Given the proliferation of leaf‐cutting ants in human‐modified landscapes of the Caatinga dry forest, positive interactions with plants might be vital to improving plant recruitment and forest regeneration dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

3. Annual Foraging of the Leaf-Cutting Ant Atta colombica in a Semideciduous Rain Forest in Panama

Author

Wirth, Rainer, Beyschlag, Wolfram, Ryel, Ronald J., and Holldobler, Bert

Published

1997

4. Leaf‐cutting ant nests support less dense and impoverished seed assemblages in a human‐modified Caatinga dry forest.

Author

Oliveira, Fernanda M. P., Knoechelmann, Clarissa M., Wirth, Rainer, Tabarelli, Marcelo, and Leal, Inara R.

Subjects

LEAF-cutting ants, TROPICAL dry forests, COMPOSITION of seeds, FOREST resilience, FOREST dynamics

Abstract

Regenerating forests make up an increasingly large portion of tropical landscapes worldwide and regeneration dynamics may be influenced by leaf‐cutting ants (LCA), which proliferate in disturbed areas and collect seeds for fungus culturing. Here, we investigate how LCA influences seed fate in human‐modified areas of Caatinga dry forest. We evaluate the seed deposition and predation on Atta opaciceps nests, foraging habitat surrounding nest and control habitat away of nest influence of 15 colonies located along a forest cover gradient during the rainy and dry seasons. For each habitat, four 50‐cm2 plots were established and all seeds on the soil surface were collected along 1 year. We recorded 13,628 seeds distributed among 47 species and 36.57% of the total seeds did not show any sign of predation. Nest mound habitats supported low‐density and species‐poor seed assemblages, which were taxonomically distinct from the control habitats. These effects only occurred in the rainy season. The proportion of undamaged seeds were similar across the habitats. While forest cover did not influence seed assemblage in terms of species richness or seed predation, it did interact with habitat type via increments in seed abundance as forest cover increased across the nests. Forest cover also affected seed composition, but only in the rainy season. These results indicate that LCA decrease seed deposition in areas under their influence, particularly on the nest mounds. As LCA profit from human disturbance in the Caatinga, their role as seed 'sinks' should be enhanced in disturbed Caatinga patches, particularly during the rainy season, when most of the plant recruitment occurs. Our findings reinforce the importance of LCA as drivers of forest dynamics and resilience in human‐modified landscapes. [ABSTRACT FROM AUTHOR]

Published

2023

5. Non-specific association between filamentous bacteria and fungus-growing ants

Author

Kost, Christian, Lakatos, Tanja, Böttcher, Ingo, Arendholz, Wolf-Rüdiger, Redenbach, Matthias, and Wirth, Rainer

Published

2007

6. Effects of pasture and forest microclimatic conditions on the foraging activity of leaf‐cutting ants.

Author

Bustamante, Santiago, Amarillo‐Suárez, Angela, and Wirth, Rainer

Subjects

LEAF-cutting ants, CLEARCUTTING, FORAGING behavior, PASTURES, SURFACE temperature, TROPICAL dry forests, LAND cover

Abstract

Copyright of Biotropica is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

7. Leaf‐cutting ants negatively impact the regeneration of the Caatinga dry forest across abandoned pastures.

Author

Knoechelmann, Clarissa M., Oliveira, Fernanda M. P., Siqueira, Felipe F. S., Wirth, Rainer, Tabarelli, Marcelo, and Leal, Inara R.

Subjects

FOREST regeneration, LEAF-cutting ants, TROPICAL dry forests, HERBACEOUS plants, TROPICAL forests, WOODY plants

Abstract

The mechanisms affecting forest regeneration in human‐modified landscapes are attracting increasing attention as tropical forests have been recognized as key habitats for biodiversity conservation, provision of ecosystem services, and human well‐being. Here we investigate the effect of the leaf‐cutting ants (LCA) Atta opaciceps on regenerating plant assemblages in Caatinga dry forest. Our study encompassed 15 Atta opaciceps colonies located in landscape patches with a gradient of forest cover from 8.7% to 87.8%, where we monitored regenerating individuals (seedlings and saplings of woody and herbaceous plants) in different habitats (nests, foraging areas, and control areas) over one year. We recorded 2,977 regenerating plant individuals, distributed among 55 species from 23 families. Herbaceous plants represented 82.1% and 58.2% of the total number of individuals and species, respectively. Species richness of both the whole and herbaceous plant assemblages increased along the forest cover gradient, but without difference between the habitats. Total plant abundance was highest in control areas followed by foraging areas and nests and this pattern held for both woody and herbaceous plants. Although forest cover did not influence the abundance of herbaceous plants and the whole plant assemblage, it positively affects woody plant abundance across control areas. Forest cover and habitat changed species composition of both the entire regenerating and the herbaceous assemblages. These results together indicate that LCA negatively impact regenerating plant assemblages, particularly in those sites with increased forest cover. As LCA proliferate in human‐modified landscapes, they may prevent plant regeneration of disturbed areas. [ABSTRACT FROM AUTHOR]

Published

2020

8. Foraging activity of leaf-cutting ants changes light availability and plant assemblage in Atlantic forest.

Author

CORRÊA, MICHELE M., SILVA, PAULO S. D., WIRTH, RAINER, TABARELLI, MARCELO, and LEAL, INARA R.

Subjects

LEAF-cutting ants, FORAGING behavior, ANT behavior, TROPICAL forests, HERBIVORES

Abstract

1. Leaf-cutting ants ( LCAs) have often been denoted as ecosystem engineers because of their multifarious effects on the vegetation, particularly via nest-driven environmental changes. However, the non-trophic impacts of LCAs on forest dynamics via foliage harvesting across sizeable foraging zones (so-called associated ecosystem engineering) are still poorly investigated. 2. Here, light availability and sapling assemblages were assessed within foraging areas and ant-free control zones of 16 Atta cephalotes colonies located in a large remnant of Atlantic forest in northeastern Brazil. 3. Canopy openness and total light transmission were 1.4 and 1.6 times higher in foraging zones than in control areas. In parallel, sapling density and species richness decreased constantly from control to foraging zone plots. Additionally, shade-tolerant species exhibited reduced abundance across foraging zones. A non-metric multidimensional scaling ordination based on taxonomic similarity primarily segregated foraging zone and control plots; foraging zone plots converged to be more similar to each other as well. Finally, some plant species emerged as indicators of LCA-free zones. 4. These results suggest that LCA foraging activity in the forest canopy directly increases the light availability and indirectly affects the recruitment and the structure of local plant assemblages. 5. Such a biologically significant effect on the light environment and its cascades confirms LCAs as potent ecosystem engineers, particularly as a plant assembly force, which operates beyond the spatial reach of their well-described nest effects. [ABSTRACT FROM AUTHOR]

Published

2016

9. The Multiple Impacts of Leaf-Cutting Ants and Their Novel Ecological Role in Human-Modified Neotropical Forests.

Author

Leal, Inara R., Wirth, Rainer, and Tabarelli, Marcelo

Subjects

LEAF-cutting ants, FORESTS & forestry, ECOLOGICAL impact, MICROCLIMATOLOGY, SEED dispersal, AGRICULTURAL pests

Abstract

Copyright of Biotropica is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2014

10. Foraging Leaf-Cutting Ants Learn to Reject Vitis vinifera ssp. vinifera Plants that Emit Herbivore-Induced Volatiles.

Author

Thiele, Theresa, Kost, Christian, Roces, Flavio, and Wirth, Rainer

Subjects

LEAF-cutting ants, VITIS vinifera, HERBIVORES, FUNGICIDES, JASMONIC acid, VOLATILE organic compounds, FORAGING behavior

Abstract

Leaf-cutting ants (LCAs) are dominant herbivores of the Neotropics, as well as economically important pests. Their foraging ecology and patterns/mechanisms of food selection have received considerable attention. Recently, it has been documented that LCAs exhibit a delayed rejection of previously accepted food plants following treatment with a fungicide that makes the plants unsuitable as substrate for their symbiotic fungus. Here, we investigated whether LCAs similarly reject plants with induced chemical defenses, by combining analysis of volatile emissions with dual-choice bioassays that used LCA subcolonies ( Atta sexdens L.). On seven consecutive days, foraging ants were given the choice between leaf disks from untreated control plants and test plants of Vitis vinifera ssp. vinifera L. treated with the phytohormone jasmonic acid (JA) to mimic herbivore attack. Chemical analysis revealed the emission of a characteristic set of herbivore-induced volatile organic compounds (VOC) from JA-induced plants. Dual-choice experiments indicated that workers did not show any preference initially, but that they avoided JA-treated plants from day five onwards. Our finding that A. sexdens foragers learn to avoid VOC-emitting plants, which are likely detrimental to their symbiotic fungus, represents the first evidence for avoidance learning in attine ants toward plants with induced defenses. [ABSTRACT FROM AUTHOR]

Published

2014

11. Leaf-cutting ants as ecosystem engineers: topsoil and litter perturbations around Atta cephalotes nests reduce nutrient availability.

Author

MEYER, SEBASTIAN T., NEUBAUER, MEIKE, SAYER, EMMA J., LEAL, INARA R., TABARELLI, MARCELO, and WIRTH, RAINER

Subjects

LEAF-cutting ants, ECOSYSTEM dynamics, NESTS, SOIL acidity, FOREST litter, PLANT population regeneration

Abstract

Despite considerable research into the effects of leaf-cutting ant nests, the potential occurrence of low-nutrient soils at nest sites has hitherto gone undetected., Leaf litter cover and topsoil conditions (organic carbon, total nitrogen, soil acidity, cation exchange capacity) were assessed along transects running from nests of eight adult Atta cephalotes colonies into the understorey of Atlantic forest to examine the extent of nest effects., Nests were virtually free of leaf litter ( c. 150 g m−2) and litter cover increased along a saturating curve with nest distance, reaching 1300 g m−2 in the undisturbed forest. Soil acidity and nutrient concentrations were strongly correlated with leaf litter cover ( r = 0.66-0.72) for both soil types occurring in the study region. Total soil nitrogen concentration varied from 0.2 g kg−1 in sandy nest soil and 0.5 g kg−1 in clay-rich nest soil to 0.5 and 1.3 g kg−1, respectively, at a distance of 24 m from nests, while soil carbon concentration ranged from 2.1 to 6.1 g kg−1 (sandy soil) and 4.5 to 15.7 g kg−1 (clay-rich soil) over the same distance. Nest-associated variations in edaphic parameters suggest that each colony affected an area of up to 0.5 ha., In contrast to the common perception that leaf-cutting ant activities increase nutrient availability, our results suggest that their territories are characterised by reduced levels of leaf litter and, consequently, soil nutrients., The observed nutrient depletion must be taken into account when considering the potential impacts of ant nests for plant regeneration. [ABSTRACT FROM AUTHOR]

Published

2013

12. Foraging in highly dynamic environments: leaf-cutting ants adjust foraging trail networks to pioneer plant availability.

Author

Silva, Paulo Sávio Damásio, Bieber, Ana Gabriela Delgado, Knoch, Tobias Aurelius, Tabarelli, Marcelo, Leal, Inara Roberta, and Wirth, Rainer

Subjects

LEAF-cutting ants, INSECT societies, FORAGE plants, BIOCOMPLEXITY

Abstract

Major shifts in the availability of palatable plant resources are of key relevance to the ecology of leaf-cutting ants in human-modified landscapes. However, our knowledge is still limited regarding the ability of these ants to adjust their foraging strategy to dynamic environments. Here, we examine a set of forest stand attributes acting as modulating forces for the spatiotemporal architecture of foraging trail networks developed by Atta cephalotes L. ( Hymenoptera: Formicidae: Attini). During a 12-month period, we mapped the foraging systems of 12 colonies located in Atlantic forest patches with differing size, regeneration age, and abundance of pioneer plants, and examined the variation in five trail system attributes (number of trails, branching points, leaf sources, linear foraging distance, and trail complexity) in response to these patch-related variables. Both the month-to-month differences (depicted in annual trail maps) and the steadily accumulating number of trails, trail-branching points, leaf sources, and linear foraging distance illustrated the dynamic nature of spatial foraging and trail complexity. Most measures of trail architecture correlated positively with the number of pioneer trees across the secondary forest patches, but no effects from patch age and size were observed (except for number of leaf sources). Trail system complexity (measured as fractal dimension; Df index) varied from 1.114 to 1.277 along the 12 months through which ant foraging was monitored, with a marginal trend to increase with the abundance of pioneer stems. Our results suggest that some leaf-cutting ant species are able to generate highly flexible trail networks (via fine-tuned adjustment of foraging patterns), allowing them to profit from the continuous emergence/recruitment of palatable resources. [ABSTRACT FROM AUTHOR]

Published

2013

13. Drought stress drives intraspecific choice of food plants by Atta leaf-cutting ants.

Author

Ribeiro Neto, José Domingos, Pinho, Bruno Ximenes, Meyer, Sebastian Tobias, Wirth, Rainer, and Leal, Inara Roberta

Subjects

DROUGHT tolerance, LEAF-cutting ants, EDIBLE plants, HERBIVORES, PLANT species

Abstract

Leaf-cutting ants ( LCA) are polyphagous and dominant herbivores throughout the Neotropics that carefully select plant individuals or plant parts to feed their symbiotic fungus. Although many species-specific leaf traits have been identified as criteria for the choice of food plants, the factors driving intraspecific herbivory patterns in LCA are less well studied. Herein, we evaluate whether or not drought-stressed native plants are a preferred food source using free-living colonies of two leaf-cutting ants, Atta sexdens L. ( Hymenoptera: Formicidae: Attini), in combination with five plant species, Ocotea glomerata Nees ( Lauraceae), Lecythis lurida S. A. Mori ( Lecythidaceae), Miconia prasina DC ( Melastomataceae), Tovomita brevistaminea Engl. ( Clusiaceae), and Tapirira guianensis Aubl. ( Anacardiaceae), and Atta cephalotes L., in combination with two plant species, O. glomerata and Licania tomentosa Benth. ( Chrysobalanaceae). In dual-choice bioassays, ants removed about three times more leaf area from drought-stressed plants compared to control plants. Both leaf-cutting ant species consistently preferred drought-stressed plants for all species tested, except T. guianensis. The mean acceptability index - expressing the preference for one of two options on a scale of 0 to 1 - of drought-stressed plants ranged from 0.65 to 0.86 across plant species, and the preference did not differ significantly among the tested plant species. Our results suggest that selection of drought-stressed individuals is a general feature of food plant choice by leaf-cutting ants irrespective of ant or plant species. As human-modified forest assemblages across the Neotropics are increasingly prone to drought stress, the documented preference of Atta for drought-stressed plants may have tangible ecological implications. [ABSTRACT FROM AUTHOR]

Published

2012

14. Do Leaf Cutting Ants Cut Undetected? Testing the Effect of Ant-Induced Plant Defences on Foraging Decisions in Atta colombica.

Author

Kost, Christian, Tremmel, Martin, and Wirth, Rainer

Subjects

ATTA colombica, FORAGING behavior, LEAF-cutting ants, HERBIVORES, LIMA bean, ANIMAL defenses, SYMBIOSIS

Abstract

Leaf-cutting ants (LCAs) are polyphagous, yet highly selective herbivores. The factors that govern their selection of food plants, however, remain poorly understood. We hypothesized that the induction of anti-herbivore defences by attacked food plants, which are toxic to either ants or their mutualistic fungus, should significantly affect the ants' foraging behaviour. To test this ''induced defence hypothesis,'' we used lima bean (Phaseolus lunatus), a plant that emits many volatile organic compounds (VOCs) upon herbivore attack with known anti-fungal or ant-repellent effects. Our results provide three important insights into the foraging ecology of LCAs. First, leaf-cutting by Atta ants can induce plant defences: Lima bean plants that were repeatedly exposed to foraging workers of Atta colombica over a period of three days emitted significantly more VOCs than undamaged control plants. Second, the level to which a plant has induced its anti-herbivore defences can affect the LCAs' foraging behaviour: In dual choice bioassays, foragers discriminated control plants from plants that have been damaged mechanically or by LCAs 24 h ago. In contrast, strong induction levels of plants after treatment with the plant hormone jasmonic acid or three days of LCA feeding strongly repelled LCA foragers relative to undamaged control plants. Third, the LCA-specific mode of damaging leaves allows them to remove larger quantities of leaf material before being recognized by the plant: While leaf loss of approximately 15% due to a chewing herbivore (coccinelid beetle) was sufficient to significantly increase VOC emission levels after 24 h, the removal of even 20% of a plant's leaf area within 20 min by LCAs did not affect its VOC emission rate after 24 h. Taken together, our results support the ''induced defence hypothesis'' and provide first empirical evidence that the foraging behaviour of LCAs is affected by the induction of plant defence responses. [ABSTRACT FROM AUTHOR]

Published

2011

15. Ecosystem engineering by leaf-cutting ants: nests of Atta cephalotes drastically alter forest structure and microclimate.

Author

MEYER, SEBASTIAN T., LEAL, INARA R., TABARELLI, MARCELO, and WIRTH, RAINER

Subjects

LEAF-cutting ants, ATTA (Insects), GERMINATION, EDGE effects (Ecology), SOIL moisture, FOREST canopy gaps, PLANT growth

Abstract

1. The role played by Atta species as ecosystem engineers remains poorly investigated despite previous evidence that their nests can impact plant assemblages. 2. In a large remnant of Atlantic forest, we compared forest structure at 36 Atta cephalotes nests to control sites and assessed shifts in microclimate along transects from nests up to 24 m into the forest (11 representative colonies). 3. Nests (average size: 55 m) were virtually free of understorey vegetation with a high proportion of dead stems (up to 70%). 4. Canopy openness above colonies increased by roughly 40% compared with controls (5.3% at colony vs. 3.7% at control sites). 5. At nest centres, about 6% of the total radiation penetrated through the sparse canopy. Light levels declined exponentially, reaching a third (2%) in the unaffected forest understorey. 6. Likewise, maximum soil temperatures and daily amplitudes declined exponentially from 25 to 23 °C and 1.6 to 0.8 °C, respectively. Soil moisture increased significantly along transects, yet the effect was small and no differences were detected for air temperature and humidity. 7. We extrapolated that individual A. cephalotes nests modify the microclimate in an area of almost 200 m on average. For the population, this amounts to 6% of the area along forest edges, where colonies are strongly aggregated, compared with only 0.6% in the forest interior. 8. Nests changed microclimate to an extent that has been reported to impact seed germination, plant growth, and survival of seedlings, conclusively demonstrating that leaf-cutting ants act as ecosystem engineers. [ABSTRACT FROM AUTHOR]

Published

2011

16. Chemical basis of the synergism and antagonism in microbial communities in the nests of leaf-cutting ants.

Author

Schoenian, Ilka, Spiteller, Michael, Ghaste, Manoj, Wirth, Rainer, Herz, Hubert, and Spiteller, Dieter

Subjects

LEAF-cutting ants, SYMBIOSIS, LIQUID chromatography, CHROMATOGRAPHIC analysis, ACTINOMYCIN, ANTINEOPLASTIC antibiotics

Abstract

Leaf-cutting ants cultivate the fungus Leucoagaricus gongylophorus, which serves as a major food source. This symbiosis is threatened by microbial pathogens that can severely infect L. gongylophorus. Microbial symbionts of leaf-cutting ants, mainly Pseudonocardia and Streptomyces, support the ants in defending their fungus gardens against infections by supplying antimicrobial and antifungal compounds. The ecological role of microorganisms in the nests of leaf-cutting ants can only be addressed in detail if their secondary metabolites are known. Here, we use an approach for the rapid identification of established bioactive compounds from microorganisms in ecological contexts by combining phylogenetic data, database searches, and liquid chromatography electrospray ionisation high resolution mass spectrometry (LC-ESI-HR-MS) screening. Antimycins A1-A4, valinomycins, and actinomycins were identified in this manner from Streptomyces symbionts of leaf-cutting ants. Matrix-assisted laser desorption ionization (MALDI) imaging revealed the distribution of valinomycin directly on the integument of Acromyrmex echinatior workers. Valinomycins and actinomycins were also directly identified in samples from the waste of A. echinatior and A. niger leaf-cutting ants, suggesting that the compounds exert their antimicrobial and antifungal potential in the nests of leaf-cutting ants. Strong synergistic effects of the secondary meta-bolites produced by ant-associated Streptomyces were observed in the agar diffusion assay against Escovopsis weberi. Actinomycins strongly inhibit soil bacteria as well as other Streptomyces and Pseudonocardia symbionts. The antifungal antimycins are not only active against pathogenic fungi but also the garden fungus L. gongylophorus itself. In conclusion, secondary metabolites of microbial symbionts of leaf-cutting ants contribute to shaping the microbial communities within the nests of leaf-cutting ants. [ABSTRACT FROM AUTHOR]

Published

2011

17. How leaf-cutting ants impact forests: drastic nest effects on light environment and plant assemblages.

Author

Corrˆa, Michele M., Silva, Paulo S. D., Wirth, Rainer, Tabarelli, Marcelo, and Leal, Inara Roberta

Subjects

LEAF-cutting ants, HERBIVORES, NESTS, FOREST canopy gaps

Abstract

Leaf-cutting ants ( Atta spp.) have become a topical issue in Neotropical ecology, particularly because they are reaching hyper-abundance due to escalating levels of fragmentation in recent years. Yet, despite intensive research on their role as dominant herbivores, there is still insufficient documentation on the impacts of their large, long-lived nests on plant assemblage structure and ecosystem functioning. Our study aimed at investigating the magnitude, nature, and spatial extent of nest influence by assessing 11 attributes of ant nest, canopy structure, light environment and sapling assemblage for 20 colonies in four plots along nest-understorey gradients in a large remnant of Atlantic forest. We also monitored the performance of seeds and seedlings of Chrysophyllum viride, an abundant shade-tolerant species. Previously unrecognized canopy gaps above ant nests (0.04–87.9 m2) occurred in 95% of all colonies surveyed. Overall, canopy openness and light availability at least doubled in ant nest plots compared with distant understorey plots. These drastic changes in the light environment paralleled those in plant assemblage: sapling density almost tripled (mean ± SE: 0.42 ± 0.1 saplings m−2) and sapling species richness doubled (0.16 ± 0.02 species m−2) in distant plots, as did shade-tolerant species. After a 1-year period, only 33 ± 15.6% of the seeds germinated and all seedlings died on nests, whereas seed germination reached 68 ± 5.1% in distant plots and 66.4 ± 7.6% of their seedlings survived after 12 months. Therefore, plot location was the most significant explanatory variable for predictable and conspicuous changes in the light environment and structure of sapling assemblages. Our findings greatly extend knowledge on the role played by leaf-cutting ants as ecosystem engineers by demonstrating that ant nest-mediated disturbance promotes environmental modifications in tens of meters around nests and is thus, strong enough to drive plant recruitment and consequently alter both the floristic and functional signature of plant assemblages. [ABSTRACT FROM AUTHOR]

Published

2010

18. Persisting Hyper-abundance of Leaf-cutting Ants ( Atta spp.) at the Edge of an Old Atlantic Forest Fragment.

Author

Meyer, Sebastian T., Leal, Inara R., and Wirth, Rainer

Subjects

LEAF-cutting ants, POPULATION dynamics, INSECT populations, EDGE effects (Ecology), LIFE spans, COLONIZATION (Ecology)

Abstract

Leaf-cutting ants (LCAs) profoundly benefit from edge creation in Neotropical forests, where they act as a keystone species and disturbance agent. In view of their poorly explored population dynamics, the question arises whether high densities of LCAs are a transitional or a persisting phenomenon. We studied the temporal variation of LCA colony densities at the edge of the Brazilian Atlantic forest. At physically stable edges of an old forest fragment, densities of Atta cephalotes and Atta sexdens (11 and five times higher in a 50 m edge zone in comparison with the forest interior) persisted over a 4-yr interval (2001–2005) with no significant difference in densities between years. Species-specific per colony growth rates ranged from 12 to −5 percent/yr, suggesting that populations were approximately at equilibrium. High rates of colony turnover (little less than 50% in 4 yr) indicated an average colony life span of about 7 yr—a life expectancy considerably lower than previous estimates for Atta colonies. Stable, hyper-abundant populations of LCAs accord with the constantly high availability of palatable pioneer vegetation (the preferred food source of LCAs) at forest edges and are expected to persist in time as long as forests are characterized by high edge to interior ratios, with potentially long-lasting consequences for the ecosystem. [ABSTRACT FROM AUTHOR]

Published

2009

19. Candicidin-producing Streptomyces support leaf-cutting ants to protect their fungus garden against the pathogenic fungus Escovopsis.

Author

Haeder, Susanne, Wirth, Rainer, Herz, Hubert, and Spiteller, Dieter

Subjects

*STREPTOMYCES, *BACTERIA, *LEAF-cutting ants, *FUNGUS ants, *FUNGI, *MASS spectrometry

Abstract

Leaf-cutting ants such as Acromyrmex octospinosus live in obligate symbiosis with fungi of the genus Leucoagaricus, which they grow with harvested leaf material. The symbiotic fungi, in turn, serve as a major food source for the ants. This mutualistic relation is disturbed by the specialized pathogenic fungus Escovopsis sp., which can overcome Leucoagaricus sp. and thus destroy the ant colony. Microbial symbionts of leaf-cutting ants have been suggested to protect the fungus garden against Escovopsis by producing antifungal compounds [Currie CR. Scott JA. Summerbell RC, Malloch D (1999) Fungus-growing ants use antibiotic-producing bacteria to control garden parasites. Nature 398:701-704.]. To date, however, the chemical nature of these compounds has remained elusive. We characterized 19 leaf-cutting ant-associated microorganisms (5 Pseudonocardia, 1 Dermacoccus, and 13 Streptomyces) from 3 Acromyrmex species, A. octospinosus, A. echinatior, and A. volcanus, using 16S-rDNA analysis. Because the strain Streptomyces sp. Ao10 proved highly active against the pathogen Escovopsis, we identified the molecular basis of its antifungal activity. Using bioassay-guided fractionation, high-resolution electrospray mass spectrometry (HR-ESI-MS), and UV spectroscopy, and comparing the results with an authentic standard, we were able identify candicidin macrolides. Candicidin macrolides are highly active against Escovopsis but do not significantly affect the growth of the symbiotic fungus. At least one of the microbial isolates from each of the 3 leaf-cutting ant species analyzed produced candicidin macrolides. This suggests that candicidins play an important role in protecting the fungus gardens of leaf-cutting ants against pathogenic fungi. [ABSTRACT FROM AUTHOR]

Published

2009

20. Edge-mediated reduction of phorid parasitism on leaf-cutting ants in a Brazilian Atlantic forest.

Author

de Almeida, Walkiria R., Wirth, Rainer, and Leal, Inara R.

Subjects

*LEAF-cutting ants, *ANIMAL feeding behavior, *PARASITISM, *PHORIDAE

Abstract

Previous studies have shown that leaf-cutting ant populations benefit greatly from living in or near the edges of the Brazilian Atlantic forest. One of the mechanisms responsible for this rise in population density is an edge-mediated increase of pioneer plants, resulting in increased food availability for the ants (i.e., less bottom-up control). Here, we hypothesized that the release from natural enemies (i.e., less top-down control) may also contribute to the phenomenon. We investigated whether parasitism of phorid flies on leaf-cutting ants decreases in colonies located along the forest edge vs. the interior of a large tract of Atlantic forest in northeastern Brazil. For this, we assessed abundance and rates of oviposition attack by phorids in bimonthly intervals over a period of 1 year in 10 adult colonies of Atta cephalotes (L.) (Hymenoptera: Formicidae: Myrmicinae), five at the forest edge and five in the forest interior. The number of phorids attracted by ants at edge colonies was 40% lower than that at interior colonies. The temporal variation in phorid attraction was also significant, with approximately 35% fewer flies in the dry months as compared to the rainy months. As a result of lower phorid abundance, ant workers of edge colonies suffered three times fewer oviposition attacks than those of interior colonies. There was a tendency for fewer attacks during dry months, but the difference in the temporal variation was not significant. Our findings suggest that edge creation contributes to increased leaf-cutting ant abundance, not only via the attenuation of bottom-up forces, but also through an environmentally triggered depression of parasitoid abundance/efficiency, possibly because of adverse environmental conditions in edge habitats. [ABSTRACT FROM AUTHOR]

Published

2008

21. Cutting More from Cut Forests: Edge Effects on Foraging and Herbivory of Leaf-Cutting Ants in Brazil.

Author

Urbas, Pille, Araújo Jr., Manoel V., Leal, Inara R., and Wirth, Rainer

Subjects

LEAF-cutting ants, ATTA (Insects), FORAGING behavior, HERBIVORES, FORESTS & forestry

Abstract

Edge-mediated changes in species composition are known to result in modified species interactions. Because of the crucial trophic position of herbivores and their far-reaching impact on plant communities, it is important to understand how edge influences herbivory. In the present paper, we investigated whether and how leaf-cutting ant foraging is altered in the forest edge, as this habitat is characterized by an increased proportion of pioneer species. We assessed basic foraging data as well as the herbivory rate ( i.e., the proportion of the leaf material harvested by a colony in relation to the available leaf area in the foraging area) of Atta cephalotes colonies at the edge versus interior sites of a large remnant of the Atlantic forest in Northeast Brazil. Our results indicated clear edge effects on leaf-cutting ants: equally sized A. cephalotes colonies located at the forest edge removed about twice as much leaf area from their foraging grounds than interior colonies (14.3 vs. 7.8%/col/yr). This greater colony-level impact within the forest edge zone was a consequence of markedly reduced foraging areas (0.9 vs. 2.3 ha/col/yr) and moderately lower leaf area index in this habitat, whereas harvest rates were the same. Our results suggest that forest edges induce increased leaf-cutting ant herbivory, probably via the release of resource limitation. Together with the increase of leaf-cutting ant populations along forest edges, this may amplify environmental changes induced by habitat fragmentation. [ABSTRACT FROM AUTHOR]

Published

2007

22. Spatio-temporal permanence and plasticity of foraging trails in young and mature leaf-cutting ant colonies (Atta spp.).

Author

Kost, Christian, de Oliveira, Evandro Gama, Knoch, Tobias Aurelius, and Wirth, Rainer

Abstract

The distribution and formation of foraging trails have largely been neglected as factors explaining harvesting patterns of leaf-cutting ants. We applied fractal analysis, circular, and conventional statistics to published and newly recorded trail maps of seven Atta colonies focusing on three aspects: permanence, spatio-temporal plasticity and colony life stage. In the long term, trail patterns of young and mature Atta colonies revealed that foraging activities were focused on distinct, static sectors that made up only parts of their potentially available foraging range. Within these foraging sectors, trails were typically ephemeral and highly variable in space and time. These ephemeral trails were concentrated around permanent trunk trails in mature and around nest entrances in young colonies. Besides these similarities, the comparison of trail systems between the two life stages indicated that young colonies exploited fewer leaf sources, used smaller and less-complex systems of foraging trails, preferred different life forms as host plants, and switched hosts more often compared with mature colonies. Based on these analyses, we propose a general hypothesis which describes the foraging pattern in Atta as a result of initial foraging experiences, spatio-temporal distribution of suitable host plants, energetic constraints, and other factors such as seasonality and interspecific predation. [ABSTRACT FROM PUBLISHER]

Published

2005

23. Divergent reproductive responses of Caatinga dry forest plants to leaf-cutting ant herbivory.

Author

Silva, Isabelle L.H., Oliveira, Fernanda M.P., Câmara, Talita, Wirth, Rainer, Lopes, Ariadna V., and Leal, Inara R.

Subjects

*LEAF-cutting ants, *TROPICAL dry forests, *FOREST plants, *CAATINGA plants, *PLANT drying, *INFLORESCENCES

Abstract

Herbivory is one of the key processes shaping life history traits linked to plant fitness and the leaf-cutting ants are amongst the most voracious and polyphagous herbivores of the Neotropics. They extensively harvest aboveground plant parts to grow their symbiotic fungus, including vegetative and reproductive tissues. Although leaf-cutting ant herbivory is expected to reduce plant reproductive success, the potentially different outputs of damage to vegetative and reproductive parts are still poorly known. This study investigates the influence of Atta opaciceps herbivory on the reproductive success of three plant species native to the Caatinga dry forest: Croton argyrophylloides (Euphorbiaceae), Cenostigma pyramidale , and Indigofera suffruticosa (Leguminosae). We selected 10 adult and active nests of A. opaciceps based on the presence of individuals of the three focal plant species in their vicinity. For each colony, we marked four individuals of each plant species (totaling 12 individuals per colony), which were then subjected to one of four herbivory treatments: (1) ant herbivory on both reproductive and vegetative parts, (2) manually simulated herbivory on the reproductive parts alone, (3) ant herbivory exclusively on vegetative parts, and (4) no herbivory. From January to April 2020, we monitored all 120 individuals, recording the number of inflorescences, flower buds, flowers, fruits, and the proportion of flowers maturing into fruits (fruit set, as a proxy of reproductive success). Results revealed variations in reproductive structure production and divergent responses to leaf-cutting ant herbivory among our focal species. In terms of inflorescence, flower bud production, and fruit set C. argyrophylloides showed reduced numbers when subjected to higher levels of total herbivory (reproductive and vegetative parts), but increased inflorescence and flower bud production when plants suffered only leaf damage. Cenostigma pyramidale individuals under partial herbivory displayed lower flower bud numbers than protected ones. In contrast, I. suffruticosa displayed conflicting results, with fully exposed plants producing more inflorescences than partially exposed counterparts and more flowers than leaf-damaged and protected individuals. Despite the varied effects on different plant parts across all three study species, the overall reproductive success (i.e. fruit set) of only one species (C. argyrophylloides) was significantly reduced by leaf-cutting ant herbivory. The resilience of the two other plant species to leaf-cutting ant pressure may be attributed to compensatory mechanisms, shedding light on the intricate interplay between herbivores and plants in the Caatinga dry forest. As leaf-cutting ants proliferate in response to anthropogenic disturbances, the patterns described in this study may become more pronounced, potentially affecting the organization of plant communities in the Caatinga dry forest. [Display omitted] • Leaf-cutting ants' herbivory alters the production of inflorescences, flowers and fruits of plant species in the Caatinga dry forest. • Damage to reproductive or vegetative parts similarly affects the production of reproductive plant parts. • Fruit set remains unaffected by leaf-cutting ants in certain plant species but are reduced in others. • Caatinga dry forest plant species exhibit divergent reproductive responses to leaf-cutting ant herbivory. [ABSTRACT FROM AUTHOR]

Published

2024