Bloom evenness modulates the influence of bloom abundance on insect community structure in suburban gardens.

Elizabeth Y Braatz,Kristin Rossetti,Geena M Hill,Lily T Maynard,Marissa A Streifel,Zachariah J Gezon,Jonathan S Bremer,Jaret C Daniels

doi:10.7717/peerj.11132

Elizabeth Y Braatz, Kristin Rossetti + Show 6 more

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https://doi.org/10.7717/peerj.11132

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Abstract

As land use change drives global insect declines, the value of enhancing habitat in urban and suburban landscapes has become increasingly important for flower-visiting insects. In order to help identify best landscaping practices, we conducted plant surveys and insect bowl-trap surveys in 34 suburban yards for 21 months in Gainesville, FL, USA, which resulted in 274 paired days of plant and insect survey data. We assessed the impact of nearest greenspace size, distance to greenspace, yard area, plant richness, plant type, bloom abundance, bloom richness and bloom evenness on insect abundance and richness. Our samples include 34,972 insects captured, 485,827 blooms counted and 774 species of plants recorded. We found that bloom evenness had a modulating effect on bloom abundance—a more even sample of the same number of blooms would have a disproportionately greater positive impact on flower visitor richness, insect richness and insect abundance. Bloom abundance was also highly significant and positively associated with flower visitor abundance, but nearest greenspace size, distance to greenspace, plant type (native vs. non-native vs. Florida Friendly), and yard area were not found to be important factors. Plant richness was a highly significant factor, but its effect size was very small.

Highlights

Anthropogenic-driven land use and land cover changes are considered among the primary threats to biodiversity and the fundamental productivity and sustainability of ecological systems (Cardoso et al, 2020; Goulson, 2019; Van Klink et al, 2020)
Bloom evenness modulates the influence of bloom abundance on insect community structure in suburban gardens
We conducted this study with the goal of increasing our understanding of which suburban landscape factors contribute most to attracting pollinator and insect populations in order to help inform plant choice and related landscaping decisions

Summary

Introduction

Anthropogenic-driven land use and land cover changes are considered among the primary threats to biodiversity and the fundamental productivity and sustainability of ecological systems (Cardoso et al, 2020; Goulson, 2019; Van Klink et al, 2020). Significant biodiversity degradation is often most pronounced in urban areas due to the overall intensity of land modification leading to high levels of direct habitat loss and increased habitat fragmentation (Piano et al, 2020; Sánchez-Bayo & Wyckhuys, 2019) This in turn is commonly associated with the loss of landscape connectivity, changes in species. These stressors are reflected in global insect populations, with one recent metastudy finding that terrestrial insect populations have declined by 24% in the last 30 years (Van Klink et al, 2020)

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