Investigating physiological responses and fine particulate matter retention of urban trees in Budapest

IF 3.9 Q2 ENVIRONMENTAL SCIENCES

City and Environment Interactions Pub Date : 2024-12-01 DOI:10.1016/j.cacint.2024.100182

Haimei Chen , Levente Kardos , Haibin Chen , Veronika Szabó

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Abstract

The urban environment is posing substantial challenges to both human well-being and the growth of plantations. Deploying advanced urban trees that effectively interact with atmospheric pollution will be a crucial step in urban planning. However, there is a paucity of knowledge in Hungary regarding these aspects. We studied the photosynthesis activities of three commonly planted trees (Acer platanoides, Fraxinus excelsior, and Tilia tomentosa) from two locations in Budapest, as well as their potential of capturing fine particulate matter on leaf surfaces. Our results reveal that T. tomentosa has developed a denser canopy and better photosynthetic activities, hence enhancing its adaptation to the urban environment in Budapest. F. excelsior showed a higher amount of fine PM wash-off, as it has a smoother leaf surface and was subjected to influences from wind speed and precipitation, making the captured particles more easily dislodged. Whereas fine PM concentration of A. platanoides and T. tomentosa were influenced by ambient PM₁₀ and PM_2.5, which might retain on their rough and hairy leaf surfaces. Approximately 38.17 tons of fine PM could be retained on urban greenery of Budapest at any given moment, highlighting the significant ecological and economic benefits of urban greenery. However, more accurate and long-term modeling is needed to develop a sustainable strategy for maximizing these benefits.

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研究布达佩斯城市树木的生理反应和细颗粒物滞留

城市环境对人类福祉和种植园的增长都构成了重大挑战。部署先进的城市树木，有效地与大气污染相互作用，将是城市规划的关键一步。然而，匈牙利在这些方面缺乏知识。我们研究了布达佩斯两个地点的三种常用树种（platanoides， Fraxinus excelsior和Tilia tomentosa）的光合作用活性，以及它们在叶片表面捕获细颗粒物的潜力。结果表明，在布达佩斯地区，毛竹的冠层密度更高，光合活性更高，从而增强了对城市环境的适应能力。F. excelsior显示出更多的细颗粒物被冲洗掉，因为它的叶片表面更光滑，并且受到风速和降水的影响，使得捕获的颗粒更容易被移除。而白桫椤和毛毛桫椤的细颗粒物浓度受环境PM10和PM2.5的影响，可能停留在其粗糙和多毛的叶片表面。大约38.17吨细颗粒物在布达佩斯的城市绿地上可以保留在任何给定的时刻，突出了城市绿化的显著生态和经济效益。然而，需要更准确和长期的建模来制定可持续的战略，以最大限度地提高这些效益。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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