Secondary succession has surprisingly low impact on arboreal ant communities in tropical montane rainforest

Mottl, Ondřej; Plowman, Nichola S.; Novotný, Vojtěch; Gewa, Bradley; Rimandai, Maling; Klimeš, Petr

doi:10.1002/ecs2.2848

Cited by 13 publications

(21 citation statements)

References 64 publications

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“…Our study has demonstrated that vegetation structure and its differential use by ant species can contribute to the elevational patterns in tree-nesting ant richness, abundance and community structure. We comprehensively sampled all nests in all trees in forest plots, an approach previously used to explore the effects of forest succession, but not a forest elevational gradient (Klimes et al 2012, Mottl et al 2019. We found a strong mid-elevation peak in nest abundance and species richness, and there, in the largest trees species co-occurred more than expected by chance.…”

Section: Discussionmentioning

confidence: 91%

“…inside myrmecophytic bulb plants such as Hydnophytum and Myrmecodia, or under the roots of mosses, orchids and ferns) as present on the supporting tree. Nests were categorized into 12 types based on nest locations (microhabitat sites), where they were found within each tree: 'on trunk base', 'under epiphyte roots', 'cavity/gallery in trunk', 'carton/soil/silk on leaves', 'under bark', 'on bark', 'in/under liana', 'myrmecophytic epiphyte', 'cavity/ gallery in live branch', 'cavity/gallery in live twig', 'in dead/ rotten branch' and 'in dead/rotten twig' (Klimes et al 2012, Mottl et al 2019. We recorded the distance in metres of the nest from ground level (nest height hereafter), and estimated nest size on an ordinal scale (1: ≤ 100 workers, 2: 100-500 workers, 3: 500-1000 workers 4: > 1000 workers).…”

Section: Study Sites and Sampling Methodsmentioning

confidence: 99%

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Nest microhabitats and tree size mediate shifts in ant community structure across elevation in tropical rainforest canopies

et al. 2019

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Declines or mid‐elevation peaks in invertebrate diversity with elevation are often attributed to climate and geometric constraints. However, vegetation structure may also drive diversity patterns, especially for tree‐dwelling species, via its effects on microhabitat use and competitive interactions. Here we investigate these effects on the diversity and community structure of tree‐nesting ants over elevation. We exhaustively sampled ant nests in 1254 trees within continuous plots of primary rainforest at low (200 m a.s.l.), mid (900 m a.s.l.) and high (1800 m a.s.l.) elevation in Papua New Guinea. Ant diversity, nest abundance and tree occupancy peaked at mid‐elevation. Although host tree diversity also peaked at mid‐elevation, there was low specialisation of ant species to tree species at all elevations. Mid‐elevation trees hosted more species, more nests and a greater diversity of nest types than trees of a similar size at low or high elevation. Tree size and nest microhabitat use were the strongest predictors of species composition, explaining twice as much of the variability in the communities than elevation. At mid to high elevation there were proportionally fewer large nests than in the lowlands, with an increase in smaller nests in live hollow twigs and epiphytes. There was high species turnover between elevations, and between trees within elevations. Species co‐occurrence patterns within trees differed with tree size, and with elevation. In large trees species tended to co‐occur at random at low and high elevation, but co‐occurred more often than expected by chance at mid elevation, indicating an elevational shift in competitive interactions. We conclude that the more extreme diurnal temperatures at higher elevations, combined with increased epiphyte availability, drive ants to nest in more insulated microhabitats. This results in smaller colony sizes and a decrease in interspecific competition, thereby boosting species co‐existence at mid elevation.

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Section: Discussionmentioning

confidence: 91%

Section: Study Sites and Sampling Methodsmentioning

confidence: 99%

Nest microhabitats and tree size mediate shifts in ant community structure across elevation in tropical rainforest canopies

et al. 2019

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“…This non‐linearity can probably be attributed to the distribution of microhabitats, some of which were found only on large‐canopy trees, or trees with numerous lianas or epiphytes (Klimes, 2017). Indeed, microhabitat richness was found to be the main driver for the pattern in arboreal ant communities in other extensive whole‐forest studies (Klimes et al ., 2015; Mottl et al ., 2019; Plowman et al ., 2019). A similar pattern of tree biomass affecting the abundances of arboreal arthropods has also been observed in specialist herbivores feeding only on a single tree genus or species (Novotny et al ., 2006, 2010).…”

Section: Discussionmentioning

confidence: 99%

“…Basset et al ., 2012), plot‐based censuses can become a useful tool to assess the abundances of arthropods and improve our understanding of habitat‐ and temporal‐driven changes. For example studies of whole‐forest arthropod communities have already revealed the contrasting effect of forest age on leaf‐chewing communities (Redmond et al ., 2018) and tree‐dwelling ants (Mottl et al ., 2019), suggesting the importance of microhabitats for ants. In the light of recent reports of a worldwide decline in insects (Basset and Lamarre, 2019), the need to understand the processes underpinning arthropod ecology becomes increasingly important.…”

Section: Discussionmentioning

confidence: 99%

“…For ants, we hand‐collected foraging individuals during a standardised search immediately upon felling, beginning with the base of the trunk and working up to the top of the canopy (Klimes et al ., 2015). In addition, we sampled all ant nests found during the destructive sampling (including cryptic nests inside tree tissues and the attached epiphytes and lianas, see details in Klimes et al ., 2015; Mottl et al ., 2019; Plowman et al ., 2019). The size of nests was visually estimated on a three‐level categorical scale: (1) <100, (2) 100–1000 and (3) >1000 individuals.…”

Section: Methodsmentioning

confidence: 99%

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Spatial covariance of herbivorous and predatory guilds of forest canopy arthropods along a latitudinal gradient

et al. 2020

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In arthropod community ecology, species richness studies tend to be prioritised over those investigating patterns of abundance. Consequently, the biotic and abiotic drivers of arboreal arthropod abundance are still relatively poorly known. In this cross-continental study, we employ a theoretical framework in order to examine patterns of covariance among herbivorous and predatory arthropod guilds. Leaf-chewing and leaf-mining herbivores, and predatory ants and spiders, were censused on > 1000 trees in nine 0.1 ha forest plots. After controlling for tree size and season, we found no negative pairwise correlations between guild abundances per plot, suggestive of weak signals of both inter-guild competition and top-down regulation of herbivores by predators. Interguild interaction strengths did not vary with mean annual temperature, thus opposing the hypothesis that biotic interactions intensify towards the equator. We find evidence for the bottom-up limitation of arthropod abundances via resources and abiotic factors, rather than for competition and predation.

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Colony life history of the tropical arboreal ant, Cephalotes goniodontus De Andrade, 1999

Butler,

Butterfield,

Janda

et al. 2024

Insect. Soc.

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Arboreal ants are ecologically important in tropical forests, but there are few studies using DNA markers to examine their population and colony structure. Colonies of the arboreal turtle ant Cephalotes goniodontus create trail networks through the canopy of the tropical forest, in dense vegetation where it is difficult to determine how long a nest is used and how neighboring colonies partition space. We monitored 53 nest sites for up to six years and, using seven microsatellite markers, genotyped samples of workers collected at or near 41 nests over 1–4 years. We calculated average relatedness within samples collected at a given location, and between samples collected at the same location in successive years, and performed pedigree analysis to predict the number of queens that produced each sample of workers. Fifteen samples were highly related (r ≥ 0.6) from single colonies, of which 11 were monogynous and the remaining four had two queens; 19 were of intermediate relatedness (0.1 ≤ r < 0.6) with 1–6 queens, and 7 were groups of unrelated workers (r < 0.1) from at least 4 queens. Colonies persisted at the same nest site for 2–6 years. The smallest distance we found separating nests of different colonies was 16.2 m. It appears that different colonies may share foraging trails. Our study demonstrates the feasibility of using a cost-efficient genotyping method to provide information on colony structure and life history of ant species.

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Secondary succession has surprisingly low impact on arboreal ant communities in tropical montane rainforest

Cited by 13 publications

References 64 publications

Nest microhabitats and tree size mediate shifts in ant community structure across elevation in tropical rainforest canopies

Nest microhabitats and tree size mediate shifts in ant community structure across elevation in tropical rainforest canopies

Spatial covariance of herbivorous and predatory guilds of forest canopy arthropods along a latitudinal gradient

Colony life history of the tropical arboreal ant, Cephalotes goniodontus De Andrade, 1999

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