Summary:

Smoke drifting from Canadian wildfires may make many breeding birds harder to observe across New York State. Researchers at the University at Buffalo (UB) compared local concentrations of fine particulate matter (PM₂.₅) with 98,960 birdwatching checklists submitted to Cornell University’s eBird platform during the 2021–2023 breeding seasons.

After accounting for habitat, weather, time of day, season and survey effort, the analysis showed that PM₂.₅ levels were associated with changes in the likelihood of recording 55 of the 84 species studied. Forty species, including numerous migratory forest songbirds, were observed less often as PM₂.₅ concentrations increased. Fifteen species were recorded more frequently, while 29 showed no significant change.

The researchers caution that reduced sightings do not necessarily indicate population losses. Smoke may alter birds’ movement, singing or use of vegetation, making them less detectable. Observer behaviour could also influence which species are reported under smoky conditions. Published in Biodiversity and Conservation, the study suggests that PM₂.₅ levels should be considered when bird surveys are used to estimate species distribution and abundance.

Image: Fig. 3 - Wildfire smoke alters observations of 65% of breeding bird species in New York State (s. Canadian wildfire smoke linked to changes in New York bird sightings)
Spatial distribution of eBird checklists and PM₂.₅ monitoring sites included in our analysis. Red triangles denote PM₂.₅ monitoring sites. Gray dots represent all available eBird checklists submitted during our study period (May 1–August 31, 2021–2023) in New York State; those colored in blue indicate checklists used in our final analysis. These checklists met all our filtering criteria, including close proximity (i.e., within 25 km) of an air quality monitoring station. Inset map shows the location of New York State within the continental United States. Credit: Adegbola et al. (2026) | DOI: 10.1007/s10531-026-03406-9 | Biodiversity and Conservation | CC BY

— Press Release —
Canadian wildfire smoke linked to fewer bird sightings in New York State

Despite burning hundreds of miles away, Canadian wildfires have become a familiar source of disruption in New York State. Air quality advisories. A spike in emergency room visits for asthma.

Now, a University at Buffalo study has identified another consequence: fewer sightings of dozens of bird species across the Empire State.

In a study published earlier this month in Biodiversity and Conservation, a Springer Nature journal, researchers found that 40 different bird species were less likely to be observed in New York as levels of fine particulate matter (PM₂.₅) in the air increased during recent breeding seasons. The analysis included the 2023 season that overlapped with Canada’s worst wildfire season on record.

“Our results show a link between wildfire smoke and the probability of observing particular bird species,” says corresponding author Festus Adegbola, a PhD candidate in the Department of Geography, within the UB College of Arts and Sciences. “Wildfire smoke is often underexplored when monitoring biodiversity. Failing to account for air quality may bias models of species distributions and abundance.”

The researchers first analyzed PM₂.₅ levels, a key marker of wildfire smoke, during New York’s 2021–2023 breeding seasons. The highest concentrations occurred in 2023, when smoke from Canada’s historic wildfires degraded air quality across New York throughout June and July. PM₂.₅ levels exceeded World Health Organization guidelines on multiple occasions, at times reaching eight times the recommended limit.

Image: A black and white warbler
A black and white warbler, one of 40 bird species that was less likely to be observed in New York State when air quality decreased due to Canadian wildfires according to University at Buffalo research.

The researchers then matched the PM₂.₅ data with nearly 99,000 birdwatching checklists submitted to Cornell University’s eBird database. The citizen science project, run by the Cornell Lab of Ornithology, allows birdwatchers to record the birds they observe, creating one of the world’s largest collections of bird observations.

Because the observations come from birdwatchers with varying levels of experience, the UB researchers used rigorous data filtering and statistical methods to ensure reliable results.

In all, they analyzed 84 different bird species across nearly 99,000 eBird checklists collected across all of New York during the three recent breeding seasons.

Nearly half of the species studied were less likely to be observed when PM₂.₅ rose. These included many migratory forest songbirds, such as warblers, thrushes and vireos.

“It’s possible that smoky conditions changed the birds’ behavior – singing and moving less, spending more time in dense forest canopy – and therefore made them harder to detect,” Adegbola says.

However, 15 species were actually more likely to be observed as PM₂.₅ levels rose, while another 29 showed no significant change in how likely they were to be observed. These included many aerial insectivores and some wetland-associated birds.

Read also: Birds adjust life strategies based on climate variability, study finds

That doesn’t necessarily mean wildfire smoke benefited those birds.

“These species often occupy more open environments than forest songbirds, so it’s possible their increased sightings had more to do with where birdwatchers chose to observe during smoky conditions than how the birds themselves responded,” says co-author Adam Wilson, PhD, associate professor of geography and Adegbola’s adviser.

The findings suggest that fewer bird sightings during smoky periods don’t necessarily mean there are fewer birds – they may simply be harder to detect. Understanding that distinction is crucial for biodiversity monitoring so that temporary declines in detectability aren’t mistaken for true population declines.

“Still, as climate change continues to intensify wildfires, it’s crucial we understand how birds will be affected by increased smoke pollution,” Wilson says. “This study is hopefully a first step to better understanding how species respond to wildfire smoke exposure.”

Other co-authors include Stuart Evans, PhD, assistant professor of geography, and Olivia Sanderfoot, PhD, a research scientist with the Cornell Lab of Ornithology.

Journal Reference:
O. Adegbola, F., M. Evans, S., V. Sanderfoot, O. et al., ‘Wildfire smoke alters observations of 65% of breeding bird species in New York State’, Biodiversity and Conservation 35, 204 (2026). DOI: 10.1007/s10531-026-03406-9

Article Source:
Press Release/Material by Tom Dinki | University at Buffalo (UB)
Featured image credit: Daniel Gomez | Unsplash

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