Litcius/Paper detail

Delayed leaf green-up is associated with fine particulate air pollution in China

Wenjun Qu, Hao Hua, Ting Yang, Constantin M. Zohner, Josep Peñuelas, Jing Wei, Le Yu, Chaoyang Wu

2025Nature Communications14 citationsDOIOpen Access PDF

Abstract

Climate warming has led to earlier leaf green-up dates (GUD) with a greening trend of land surfaces in spring, yet the influence of multi-source particle pollution is not well understood. Using ground records and satellite observations of green-up date and fine particulate matter below 2.5 μm (PM2.5) over the last two decades in China, here we show that PM2.5 pollution is associated with reduced plant carbon uptake and delayed green-up dates. These effects offset climate-driven spring greening and reduce subsequent photosynthesis in China. We find that pollution-associated delays in green-up date are primarily linked to increased chilling demands and higher heat requirements. PM2.5-associated decreases in photosynthetically active radiation and maximum rate of carboxylation could also weaken plant photosynthetic capacity. Finally, when we incorporate a PM2.5 effect, phenological models predict up to a one-week delay in green-up date by the year 2060 compared to previous predictions. Negative feedbacks between anthropogenic pollution and terrestrial carbon uptake suggest unexpected uncertainty of China’s carbon neutral targets resulting from air pollution, with far-reaching implications for both ecosystem health and policy-making. PM2.5 pollution partially counteracts vegetation greening trends by delaying green-up dates and reducing photosynthetic activity. This study shows that the negative feedback between PM2.5 pollution and terrestrial carbon uptake introduces unforeseen uncertainty in China’s carbon neutrality goals.

Topics & Concepts

Environmental scienceParticulatesAir pollutionPollutionParticulate pollutionPhotosynthesisClimate changeEcosystemAtmospheric sciencesPhotosynthetically active radiationEcologyBotanyBiologyGeologyPlant responses to elevated CO2Atmospheric chemistry and aerosolsPlant Water Relations and Carbon Dynamics