Vertical stratification patterns of tropical forest vertebrates: a meta‐analysis

Basham, Edmund W.; Baecher, J. Alex; Klinges, David H.; Scheffers, Brett R.

doi:10.1111/brv.12896

Cited by 15 publications

(11 citation statements)

References 136 publications

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“…Species richness, abundance and community composition patterns along vertical gradient are not consistent across different biomes and taxa (Figure 2). Several studies show small mammals and frogs with greater species richness and abundance on the ground than the canopy (Basham et al, 2019(Basham et al, , 2022Vieira & Monteiro-Filho, 2003). While arthropod diversity is highly variable across studies which may be due to taxon-specific requirements (Basset, 2001;Charles & Basset, 2005;Kato et al, 1995;Nadkarni, 1994;Ulyshen et al, 2010) or due in part to the difficulty in achieving consistency in sampling efforts between the canopy and the ground (Ashton et al, 2016;Basset, 1997Basset, , 2001.…”

Section: Diversity and Abundance Distributionmentioning

confidence: 99%

“…• Niche plasticity/lability hypothesis: Species can adjust their vertical niche in pursuit of optimal conditions (microclimatic and/or resource; Basham et al, 2022) or as a compensatory response to disturbance (Borden et al, 2022;Neilly et al, 2018) • Arboreal trait syndrome: The amalgamation of physiological, behavioural and morphological adaptations to living above-ground generates a syndrome of traits (Scheffers & Williams, 2018). A similar hypothesis by Scheffers et al (2017) proposes that, as a consequence of this syndrome, arboreal species should also have higher dispersal potential which would increase resistance and resilience to both current and historical environmental instability, respectively.…”

Section: Future Direc Tionsmentioning

confidence: 99%

“…Many studies of arthropods have focused on either Lepidoptera (butterflies; Fermon et al, 2005) or Coleoptera (beetles; Grimbacher & Stork, 2007) and few sampled the entire arthropod community (but see Basset et al, 2001; de Souza Amorim et al, 2022; Dial et al, 2006). Regardless of taxa, common explanatory factors attributed to shaping vertical diversity patterns are resource availability, microclimate and vegetation structural features (Basham et al, 2022; de Souza Amorim et al, 2022). For example, in temperate hardwood forests, Coleoptera tend to have higher species richness in strata with high branching density and occurrence of fungal fruiting bodies (Schroeder et al, 2009).…”

Section: Ecological Patterns In Vertical Dimensions Across Space and ...mentioning

confidence: 99%

“…Species living towards the canopy experience higher rates of evaporative water loss; hence, stronger desiccation resistance (often combined with other adaptations such as larger body size/mass) could be an advantage (Bujan et al, 2016; Hood & Tschinkel, 1990; Tracy et al, 2010). Niche plasticity/lability hypothesis : Species can adjust their vertical niche in pursuit of optimal conditions (microclimatic and/or resource; Basham et al, 2022) or as a compensatory response to disturbance (Borden et al, 2022; Neilly et al, 2018). Here, two traits are prerequisite for a niche shift—suitable morphology to expand into a new niche (e.g.…”

Section: Future Directionsmentioning

confidence: 99%

“…These traits interact with climate and delineate the fundamental vertical niche of the species (Leahy et al, 2021). This niche space is further modified by the distribution of resources, natural enemies and dispersal limitation of the species, producing a realised niche within the vertical environment (Basham et al, 2022). In addition, the vertical gradient interacts with diel and seasonal changes: resources and microclimates can shift on daily to annual time‐scales and many species follow such changes through time (Basham & Scheffers, 2020).…”

Section: Introductionmentioning

confidence: 99%

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Ecological patterns and processes in the vertical dimension of terrestrial ecosystems

Xing

Leahy

Ashton

et al. 2023

Journal of Animal Ecology

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Climatic gradients such as latitude and elevation are considered primary drivers of global biogeography. Yet, alongside these macro‐gradients, the vertical space and structure generated by terrestrial plants form comparable climatic gradients but at a fraction of the distance. These vertical gradients provide a spectrum of ecological space for species to occur and coexist, increasing biodiversity. Furthermore, vertical gradients can serve as pathways for evolutionary adaptation of species traits, leading to a range of ecological specialisations. In this review, we explore the ecological evidence supporting the proposition that the vertical gradient serves as an engine driving the ecology and evolution of species and shaping larger biogeographical patterns in space and time akin to elevation and latitude. Focusing on vertebrate and invertebrate taxa, we synthesised how ecological patterns within the vertical dimension shape species composition, distribution and biotic interactions. We identify three key ecological mechanisms associated with species traits that facilitate persistence within the vertical environment and draw on empirical examples from the literature to explore these processes. Looking forward, we propose that the vertical dimension provides an excellent study template to explore timely ecological and evolutionary questions. We encourage future research to also consider how the vertical dimension will influence the resilience and response of animal taxa to global change.

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Section: Diversity and Abundance Distributionmentioning

confidence: 99%

Section: Future Direc Tionsmentioning

confidence: 99%

Section: Ecological Patterns In Vertical Dimensions Across Space and ...mentioning

confidence: 99%

Section: Future Directionsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Ecological patterns and processes in the vertical dimension of terrestrial ecosystems

Xing

Leahy

Ashton

et al. 2023

Journal of Animal Ecology

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A cross‐taxon study in Thailand demonstrates significance of vertical stratification and seasonality in monitoring tropical forest insects

Punthuwat,

Taveesri,

Stewart

et al. 2024

Integrative Conservation

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In tropical rainforests, trees and associated plants create vertically heterogeneous habitats mediated by seasonal changes in climate and plant phenology. Despite extensive studies on the spatiotemporal dynamics of tropical forest ecosystems, insect monitoring programs often neglect the vertical and seasonal dimensions because the relative importance of muti‐dimensional dynamics of insect diversity has not been well understood. In this study, we employed a spatially explicit sampling design to understand the distribution patterns of Coleoptera, Hymenoptera, and two families (Noctuidae and Nolidae) of Lepidoptera in the canopy and understory during the dry and wet seasons in two tropical rainforests located at lower and higher latitudes in Thailand. We compared the vertical stratification of gamma diversity, alpha diversity, total abundance, and beta turnover and nestedness. We also identified the insect species characteristic of certain vertical strata and/or seasons. Our samples resulted in a total of 4,452 insects (1,622 coleopterans, 1,763 hymenopterans, and 1,067 lepidopterans) representing 437 Coleoptera species, 694 Hymenoptera species, and 98 Lepidoptera species. All insect groups generally displayed moderately higher diversity in the canopy than in the understory, but the significance of this pattern varied among seasons, forests, and insect groups. Over 50% of significant habitat indicator species were restricted to certain vertical strata but were only found in certain seasons. Our findings demonstrate that spatiotemporal dynamics of insect diversity are highly context‐dependent and are not as clearly discernible as we hypothesized in three major insect groups, suggesting the importance of monitoring insects across vertical strata and seasons, even in low‐latitude tropical rainforests.

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Evaluating the efficiency of different sampling techniques to survey non-flying small mammals in the Amazon

Botelho,

D’Andrea,

Crisóstomo

et al. 2023

Mamm Res

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Small non-flying mammals represent 44% of Brazilian mammal species and have a wide range of habits and life-history strategies. This wide diversity requires different sampling methods in survey studies. We compared the efficiency of pitfall and live-traps in different vertical positions in relation to the alpha and beta diversity of small mammals in three forest fragments with different levels of conservation and in a continuous area in the southwestern Amazon, Acre state. Captures were carried out using a combination of pitfall traps and live-traps on the ground, understorey, and canopy. Taxonomic identification was performed by morphological and molecular analyses. Alpha diversity was evaluated using Hill numbers (q = 0 and q = 1). The turnover between different types of traps and different vertical strata (beta diversity) was analysed using permutation analysis of variance. Species richness between areas ranged from 6 to 21. The highest species richness was observed in ground traps, and the lowest species richness was observed in the canopy. Live-traps on the ground recorded a greater diversity in two areas. Pitfall traps recorded the greatest number of unique species in three areas. The different types of traps and the different vertical positions acted in a complementary way in the small mammal samplings. The turnover in relation to trap type and stratum indicated the formation of two significantly different groups: ground traps and aboveground traps. However, the use of canopy traps did not contribute significantly to an increase in the estimated species richness and diversity in three of the four localities.

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Vertical stratification patterns of tropical forest vertebrates: a meta‐analysis

Cited by 15 publications

References 136 publications

Ecological patterns and processes in the vertical dimension of terrestrial ecosystems

Ecological patterns and processes in the vertical dimension of terrestrial ecosystems

A cross‐taxon study in Thailand demonstrates significance of vertical stratification and seasonality in monitoring tropical forest insects

Evaluating the efficiency of different sampling techniques to survey non-flying small mammals in the Amazon

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