Seasonal diversity of Cerambycidae (Coleoptera) is more complex than thought: evidence from a tropical dry forest of Mexico.

José Guadalupe Martínez-Hernández,Angélica María Corona-López,Víctor Hugo Toledo-Hernández,Alejandro Flores-Palacios,Matthias Rös

doi:10.7717/peerj.7866

José Guadalupe Martínez-Hernández, Angélica María Corona-López + Show 3 more

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https://doi.org/10.7717/peerj.7866

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Abstract

Global climate change is expected to affect temperature and precipitation patterns worldwide, which in turn is likely to affect insect phenology, distribution and diversity. To improve our understanding of such processes, it is important to understand how insects may respond to changes in seasonality, and how these affect their activity, patterns of distribution and species richness. The tropical dry forest (TDF) is a highly seasonal ecosystem, for which two seasons are commonly described (rainy and dry) and there is a lack of information on the combined effect of both precipitation and temperature on the insect communities. In order to evaluate the seasonal patterns in the community of Cerambycidae in a TDF, historical climatic variables were obtained, and an annual sampling of the family was carried out, using three collection techniques. We found that the Cerambycidae family showed a more complex response to climate, than simply the rainy and dry season of the year. The relationship between diversity and composition of cerambycids with changes in temperature and precipitation showed four seasonal communities which were synchronized with phenological processes of the TDF. Climate change could reduce biodiversity, causing seasonal patterns to lose complexity, either because the climatic characteristics of a season disappear and/or because the duration of a season expands, these changes will modify the ecological processes of the TDF, since they would generate changes in the flora and fauna associated with the different seasons.

Highlights

Phenology is defined as the study of the timing of recurrent biological activities in order to detect their seasonal patterns and their causes (Rathcke & Lacey, 1985)
Insects are a suitable group for the study of seasonal patterns of diversity, since they show rapid responses to environmental changes and close relationships with vegetation phenology (Danks, 2007)
A total of 66% of the species were active during the rainy season (89 spp), 20% were recorded in both seasons (26 spp) and 14% were only present in the dry season (19 spp)

Summary

Introduction

Phenology is defined as the study of the timing of recurrent biological activities in order to detect their seasonal patterns and their causes (Rathcke & Lacey, 1985). The phenological variation of plant behavior is mainly related to weather factors and generates pulses of resources for animals, creating a seasonal segregation of animal species (Rathcke & Lacey, 1985; Cardoso et al, 2007). Insects are a suitable group for the study of seasonal patterns of diversity, since they show rapid responses to environmental changes and close relationships with vegetation phenology (Danks, 2007). For many insects groups and guilds, seasonal patterns of species diversity have been less studied than spatial patterns, and few published works show data of at least one complete annual cycle (comprising all the seasons Dornelas et al, 2013)

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