Modeling airborne pollen concentrations at an urban scale with pollen release from individual trees

IF 2.2 3区 环境科学与生态学 Q2 BIOLOGY
Daniel S. W. Katz, Alan P. Baptist, Stuart A. Batterman
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引用次数: 2

Abstract

Airborne pollen can trigger allergic reactions, but exposure is poorly understood because neither regional pollen models nor monitoring networks adequately capture the extensive spatial variation in pollen concentrations observed at urban scales. Here, we test whether pollen emissions from individual source plants can predict spatial variation in airborne pollen at scales of hundreds of meters to kilometers. To do so, we quantified pollen release within a city for oaks (Quercus) by mapping individual trees using remote sensing, calculating each tree’s pollen production with allometric equations, and estimating the timing of flowering with satellite-derived temperature data. We also measured airborne pollen concentrations multiple times a week at 9 sites in the first year and at 15 sites in the second year. Predicted pollen release explained 86% of the spatial variation in measured airborne pollen across the pollen season and 55% of local airborne pollen concentrations on any given day, whereas a traditional monitoring station measurements explained only 34% of spatiotemporal variation. Airborne pollen was best predicted by pollen release within approximately 1–2 km. Our results demonstrate that airborne pollen can be effectively modeled within cities by quantifying pollen release from individual trees. This type of approach could potentially be applied elsewhere, improving predictions of airborne pollen within cities and providing opportunities to avoid allergen exposure, fine-tune medication use, and better inform tree management decisions.

Graphical abstract

Abstract Image

用单个树木的花粉释放模拟城市尺度的空气中花粉浓度
空气中的花粉会引发过敏反应,但人们对接触花粉的情况知之甚少,因为无论是区域花粉模型还是监测网络都无法充分捕捉到在城市尺度上观察到的花粉浓度的广泛空间变化。在这里,我们测试了单个来源植物的花粉排放是否可以预测空气中花粉在数百米到公里尺度上的空间变化。为此,我们通过遥感绘制单株树木的地图,用异速方程计算每棵树的花粉产量,并用卫星衍生的温度数据估计开花时间,来量化城市内橡树(Quercus)的花粉释放量。我们还在第一年的9个地点和第二年的15个地点每周多次测量空气中的花粉浓度。预测的花粉释放解释了整个花粉季节测量的空气传播花粉的86%的空间变化和任何一天当地空气传播花粉浓度的55%,而传统监测站的测量仅解释了34%的时空变化。空气中的花粉最好通过大约1-2公里内的花粉释放来预测。我们的研究结果表明,通过量化个别树木的花粉释放,可以在城市内有效地模拟空气中的花粉。这种方法可能会应用于其他地方,改善对城市内空气传播花粉的预测,并提供机会避免过敏原暴露,微调药物使用,更好地为树木管理决策提供信息。图形摘要
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来源期刊
Aerobiologia
Aerobiologia 环境科学-环境科学
CiteScore
4.50
自引率
15.00%
发文量
37
审稿时长
18-36 weeks
期刊介绍: Associated with the International Association for Aerobiology, Aerobiologia is an international medium for original research and review articles in the interdisciplinary fields of aerobiology and interaction of human, plant and animal systems on the biosphere. Coverage includes bioaerosols, transport mechanisms, biometeorology, climatology, air-sea interaction, land-surface/atmosphere interaction, biological pollution, biological input to global change, microbiology, aeromycology, aeropalynology, arthropod dispersal and environmental policy. Emphasis is placed on respiratory allergology, plant pathology, pest management, biological weathering and biodeterioration, indoor air quality, air-conditioning technology, industrial aerobiology and more. Aerobiologia serves aerobiologists, and other professionals in medicine, public health, industrial and environmental hygiene, biological sciences, agriculture, atmospheric physics, botany, environmental science and cultural heritage.
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