Ant diversity patterns across tropical elevation gradients: effects of sampling method and subcommunity

Longino, John T.; Branstetter, Michael G.; Ward, Philip S.

doi:10.1002/ecs2.2798

Cited by 12 publications

(9 citation statements)

References 48 publications

(93 reference statements)

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“…A clear distinction in the faunal composition of springtail assemblage in both strata (canopy vs. forest floor) and elevation was observed in a tropical forest in the Philippines. The distinct assemblages along elevation gradients concur with other studies on temperate forest springtails (Maunsell et al 2013) and with other tropical forest arthropods (Nunes et al 2016;Brehm et al 2018;Longino et al 2019). The distinct springtail communities along an elevation gradient may be linked to the known effects of elevation on the properties, temperature, and moisture of soil (Jiang et al 2015).…”

Section: Simper Analysis (supporting

confidence: 87%

Collembola (Arthropoda: Hexapoda) Assemblages in the Canopy and Forest Floor along an Elevational Gradient at Mt. Makiling, Philippines

Alviola¹,

Soto-Adames²,

Lucañas³

et al. 2021

Philipp J Sci

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Patterns of distribution and diversity of springtails along an elevational gradient in the canopy and forest floor of Mt. Makiling, Philippines were determined, this being the first study conducted on springtail diversity along an elevational gradient and also the first published report of canopy arthropods in the Philippines. Springtails were extracted from soil samples from the floor and those suspended in the canopy of three natural forests at different elevations (tropical lowland evergreen rainforest, lower montane rainforest, and tropical upper montane forest). We predict that elevation and forest strata will have significant effects on the springtail assemblages. A total of 2,287 springtails representing 31 morpho-species and eight families were collected from the study. Across the elevation gradient, mean species richness and mean abundance consistently decrease as elevation increases, but only the mean abundance of the lowland forest is significantly different from that of the lower and upper montane forests. Diversity t-test (p-values less than 0.05) revealed significant differences between different sites and strata. Clustering analysis using the Bray-Curtis similarity index revealed separate groupings of the lowland forests to those of the montane forests. Lastly, the results of PERMANOVA showed that both elevation and strata were found to have significant effects on the overall assemblage of springtails. This study suggests that forest floor species assemblages are closely related to each other unlike those of the canopy, where only the upper montane and lower montane are similar. The results of this study affirm our main hypothesis that springtails (as a group) respond significantly to both elevation and strata in a tropical forest in the Philippines.

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Section: Simper Analysis (supporting

confidence: 87%

Collembola (Arthropoda: Hexapoda) Assemblages in the Canopy and Forest Floor along an Elevational Gradient at Mt. Makiling, Philippines

Alviola¹,

Soto-Adames²,

Lucañas³

et al. 2021

Philipp J Sci

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“…All rights reserved alike. Longino et al (2019) hypothesized that arboreal ants were less sensitive than ground ants to warming and elevational range shifts associated with the current interglacial, and thus may be less sensitive to anthropogenic climate warming in the future. This study of the La Selva fauna can facilitate testing of the hypothesis, by creating a benchmark that will allow assessment of changes over time in ant community richness and composition, in parallel with changes in regional land use and local climate.…”

Section: Author Manuscriptmentioning

confidence: 99%

The arboreal ants of a Neotropical rain forest show high species density and comprise one third of the ant fauna

Longino

Colwell

2020

Biotropica

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“…We test this relationship using the rainforest ant fauna of the Australian Wet Tropics Bioregion. Ants are an excellent study system for testing scaling rules in biogeography as they fill multiple niches in the rainforest environment and occupy space along both vertical and elevation gradients (Blüthgen et al., 2003; Longino et al., 2019). Ant distribution is strongly related to temperature—temperature requirements for brood development and adult foraging success are both important drivers of ant distributions (Kipyatkov & Lopatina, 2015; Penick et al., 2017).…”

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Vertical niche and elevation range size in tropical ants: Implications for climate resilience

Leahy

Scheffers

Andersen

et al. 2020

Diversity and Distributions

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Aim We propose that forest trees create a vertical dimension for ecological niche variation that generates different regimes of climatic exposure, which in turn drives species elevation distributions. We test this hypothesis by statistically modelling the vertical and elevation distributions and microclimate exposure of rainforest ants. Location Wet Tropics Bioregion, Australia. Methods We conducted 60 ground‐to‐canopy surveys to determine the vertical (tree) and elevation distributions, and microclimate exposure of ants (101 species) at 15 sites along four mountain ranges. We statistically modelled elevation range size as a function of ant species’ vertical niche breadth and exposure to temperature variance for 55 species found at two or more trees. Results We found a positive association between vertical niche and elevation range of ant species: for every 3 m increase in vertical niche breadth, our models predict a ~150% increase in mean elevation range size. Temperature variance increased with vertical height along the arboreal gradient and ant species exposure to temperature variance explained some of the variation in elevation range size. Main conclusions We demonstrate that arboreal ants have broader elevation ranges than ground‐dwelling ants and are likely to have increased resilience to climatic variance. The capacity of species to expand their niche by climbing trees could influence their ability to persist over broader elevation ranges. We propose that wherever vertical layering exists—from oceans to forest ecosystems—vertical niche breadth is a potential mechanism driving macrogeographic distributional patterns and resilience to climate change.

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Ant diversity patterns across tropical elevation gradients: effects of sampling method and subcommunity

Cited by 12 publications

References 48 publications

Collembola (Arthropoda: Hexapoda) Assemblages in the Canopy and Forest Floor along an Elevational Gradient at Mt. Makiling, Philippines

Collembola (Arthropoda: Hexapoda) Assemblages in the Canopy and Forest Floor along an Elevational Gradient at Mt. Makiling, Philippines

The arboreal ants of a Neotropical rain forest show high species density and comprise one third of the ant fauna

Vertical niche and elevation range size in tropical ants: Implications for climate resilience

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