# Influence of Environmental Covariates on Pollinator Community Occupancy, Detection, and Richness Across Urban Gardens in Richmond, Virginia, USA

**Authors:** Nicholas J. Ruppel, Robert B. Nipko, Mackenzie Dingus, Allison C. Ortiz, Teresa Weir, Marcella J. Kelly, Stephanie S. Coster

PMC · DOI: 10.1002/ece3.72502 · Ecology and Evolution · 2025-11-17

## TL;DR

This study explores how urban gardens in the Mid-Atlantic USA support pollinators, finding that plant species and urban settings influence pollinator activity and diversity.

## Contribution

The study applies multispecies occupancy models to assess pollinator interactions in urban gardens, revealing species-specific patterns and detection influences.

## Key findings

- Pollinator occupancy varied significantly, with Halictidae having the highest (0.86) and Halyomorpha halys the lowest (0.04).
- Detection rates were influenced by plant species, survey timing, and urban distance, with some taxa preferring specific plants or settings.
- Urban gardens were found to support diverse pollinator communities, emphasizing their ecological importance.

## Abstract

Pollination is a vital ecosystem service essential for the reproduction of most flowering plants. However, pollinators, especially insects, are in dramatic worldwide decline, threatening food security and global biodiversity. Urban areas, when managed well, can act as critical corridors and reserves for pollinators, benefiting ecosystems beyond the urban environment. This study assessed plant–pollinator interactions in urban gardens across the Mid‐Atlantic (USA) region, focusing on two native plants: dense blazing star (
Liatris spicata
 ) and clustered mountain mint (
Pycnanthemum muticum
 ). Over 350 visual surveys in 52 gardens recorded 361 pollinator detection events involving 14 taxa, with five taxa dominating the detections. Using multispecies occupancy models (MSOMs) in a Bayesian framework, we evaluated how site and survey factors influenced species occupancy, detection, and richness. Species occupancy ranged from 0.04 (
Halyomorpha halys
 ) to 0.86 (Halictidae), with little influence from external variables. Detection was influenced by plant species, survey start time, Julian date, and urban distance. For instance, honey bees (
Apis mellifera
 ) and wasps (Vespoidea) were more likely to visit 
P. muticum
 , while 
Atalopedes campestris
 favored 
L. spicata
 . Detections of Halictidae increased in urban areas, while Bombus spp. were more common in rural settings. Our study demonstrates that MSOMs can be an effective tool for monitoring and investigating the urban pollinator community. We were able to estimate occupancy for the 14 observed insect taxa, nine of which were detected fewer than eight times. We also estimated effects of detection covariates that impacted multiple taxa and provided insight into ways to improve future pollinator monitoring efforts. These findings further our understanding of how plant species and the urban setting may variably influence pollinator activity and highlight the importance of urban gardens in supporting diverse insect communities.

Urban gardens can play a vital role in supporting pollinator diversity and aiding ecosystem health amidst global declines in pollinators. This study analyzed plant–pollinator interactions in Mid‐Atlantic (USA) urban gardens using multispecies occupancy models, focusing on two native plants: 
Liatris spicata
 and 
Pycnanthemum muticum
 . Findings revealed species‐specific occupancy patterns, detection influenced by plant type and urban distance, and the importance of urban gardens in fostering diverse pollinator communities.

## Linked entities

- **Species:** Liatris spicata (taxon 886939), Pycnanthemum muticum (taxon 326164), Halyomorpha halys (taxon 286706), Halictidae (taxon 77572), Apis mellifera (taxon 7460), Vespoidea (taxon 34725), Atalopedes campestris (taxon 509350)

## Full-text entities

- **Species:** Pycnanthemum muticum (species) [taxon 326164], Vespidae (wasps, family) [taxon 7438], Liatris spicata (species) [taxon 886939], Halictidae (family) [taxon 77572], Apis mellifera (bee, species) [taxon 7460], Atalopedes campestris (species) [taxon 509350], Vespoidea (superfamily) [taxon 34725], Halyomorpha halys (brown marmorated stink bug, species) [taxon 286706]

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12623005/full.md

## References

86 references — full list in the complete paper: https://tomesphere.com/paper/PMC12623005/full.md

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Source: https://tomesphere.com/paper/PMC12623005