Victor Michelon Alves scite author profile

Strategies to deal with global radiation may be related to important aspects of species biology and ecology by reflecting, transmitting or absorbing the radiation of varying wavelengths differently. The elytra capacity to manage infrared, visible and ultraviolet radiations (from 185 to 1400 nm) was assessed with a spectrophotometric analysis in five Canthon species of dung beetles; we calculated the reflectance, transmittance and absorbance capacity of the elytra of these species. These species have different ecologies: two species preferentially inhabit forest areas (Canthon angularis and Canthon lividus lividus), two species preferentially inhabit open areas (Canthon chalybaeus and Canthon tetraodon) including agricultural crops, and one species does not present a clear habitat preference and can be found in both habitats (Canthon quinquemaculatus). All the species show a similar pattern in which the light from shorter wavelengths and higher frequencies is almost entirely absorbed by the elytra, while radiation from longer wavelengths and lower frequencies can mostly pass through the elytra. However, C. quinquemaculatus seems to have significantly higher rates of reflectance and transmittance in the visible- and near-infrared spectrum. This different pattern found in C. quinquemaculatus may be associated with its capacity to establish populations both in agricultural and forest areas.

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Wing shape is influenced by environmental variability in Polietina orbitalis (Stein) (Diptera: Muscidae)

Alves

Moura

Carvalho

2016

Revista Brasileira de Entomologia

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Local extinctions may be evidenced by the holes of the morphometric hypervolume in dung beetle communities

Alves

Hernández

2019

Austral Ecology

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The body shape of a species is associated with its evolutionary history and can reflect behavioural peculiarities related to the ecological niche of each species. Morphology can characterise the morphometric niche of species and can be represented as body shape points within a morphometric universe. This information can be to calculate the morphometric diversity of communities through hypervolume metrics, and the hole sizes that remain in the morphometric hypervolume, which are empty areas with no species. Such holes may be 'natural' or caused by a local extinction. In this study, we evaluate the ecological community of dung beetles through the lens of morphometric diversity. We evaluated 38 dung beetle species from 30 subtropical communities in southern Brazil sampled in the summer of 2015, including 15 forest remnant communities from the Atlantic Forest and 15 communities from adjacent maize cultivations. The shape of 495 dung beetle specimens was measured using geometric morphometric and hypervolume techniques to calculate the morphometric diversity and the hole size of each of the 30 communities. We found that the taxonomic diversity positively correlated with the morphometric diversity and negatively correlated with the size of the holes. We also found that forest communities had higher values of morphometric diversity and smaller holes in the hypervolume than the maize cultivation communities, suggesting that local extinction may reduce community body shape spaces.Austral Ecology (2019) 44, 827-837 Fig. 6. Relationship among species diversity, morphometric diversity and hypervolume hole size. (a) Relationship between morphometric diversity to species diversity; (b) relationship of hole size to species diversity in 30 communities of dung beetles, 15 forest communities and 15 maize cultivation communities, collected in the region of São Miguel do Oeste, SC, Brazil.

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Ecological Characteristics of Atlantic Forest Dung Beetles (Coleoptera: Scarabaeidae: Scarabaeinae) in the State of Santa Catarina, Southern Brazil

Hernández

Silva

Niero

et al. 2019

The Coleopterists Bulletin

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Morphometric Modifications in Canthon quinquemaculatus Castelnau 1840 (Coleoptera: Scarabaeinae): Sublethal Effects of Transgenic Maize?

Alves

Hernández

2017

Insects

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The effects of transgenic compounds on non-target organisms remain poorly understood, especially in native insect species. Morphological changes (e.g., changes in body size and shape) may reflect possible responses to environmental stressors, like transgenic toxins. The dung beetle Canthon quinquemaculatus (Coleoptera: Scarabaeinae) is a non-target species found in transgenic crops. We evaluated whether C. quinquemaculatus individuals inhabiting corn fields cultivated with different seed types (conventional, creole and transgenic) present modifications in body shape compared to individuals inhabiting adjacent native forest fragments. We collected C. quinquemaculatus specimens across an agricultural landscape in southern Brazil, during the summer of 2015. Six populations were sampled: three maize crop populations each under a different seed type, and three populations of adjacent forests. After sampling, specimens were subjected to morphometric analyses to discover differences in body shape. We chose fifteen landmarks to describe body shape, and morphometric data were tested with Procrustes ANOVA and Discriminant Analysis. We found that body shape did not differ between individuals collected in conventional and creole crops with their respective adjacent forests (p > 0.05); however, transgenic crop populations differed significantly from those collected in adjacent forests (p < 0.05). Insects in transgenic maize are more oval and have a retraction in the abdominal region, compared with the respective adjacent forest, this result shows the possible effect of transgenic crops on non-target species. This may have implications for the ecosystem service of organic matter removal, carried out by these organisms.

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