In the first study of its kind Benjamin, who completed his PhD at the Durrell Institute of Conservation and Ecology (DICE) at Kent, monitored wildlife acoustic activity in Singapore before, during and after the major forest fires that hit the region in 2015.
The data showed there was a dramatic drop in acoustic activity by as much as 37.5% during the haze as animals were affected by the pollution. It took a further 16 weeks after the haze had dissipated before acoustic levels showed even a partial recovery.
Furthermore, the researchers said it is highly likely the damage to wildlife was even greater in locations closer to the fires, where air pollution levels were 15-times higher than those in Singapore.
The image above shows the impact the pollution has on the surrounding environment.
Tropical Asia experiences fires and haze annually, which cause significant human health problems and economic damage across the region. The 2015 event was one of the worst on record.
The findings indicate that large-scale air pollution events, such as those caused by forest or peatland fires, have a far greater impact on biodiversity that previously thought and that preventing such events occurring is paramount.
Benjamin was assisted in his research by Dr Matthew Struebig and Dr Zoe Davies from DICE.
The paper, Smoke pollution disrupted biodiversity during the 2015 El Niño fires in Southeast Asia, has been published in the journal Environmental Research Letters.