Microclimate of large solitary trees along rural-to-urban gradients across Europe

IF 5.6 1区农林科学 Q1 AGRONOMY

Agricultural and Forest Meteorology Pub Date : 2025-05-02 DOI:10.1016/j.agrformet.2025.110585

Astrid Van den Bossche , Karlien Moeys , Karen De Pauw , Koenraad Van Meerbeek , Arno Thomaes , Jörg Brunet , Sara A.O. Cousins , Martin Diekmann , Bente J. Graae , Jenny Hagenblad , Paige Heavyside , Per-Ola Hedwall , Thilo Heinken , Siyu Huang , Jonathan Lenoir , Jessica Lindgren , Sigrid Lindmo , Leonie Mazalla , Tobias Naaf , Anna Orczewska , Pieter De Frenne

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引用次数: 0

Abstract

Large solitary trees are keystone features for biodiversity in many urban and rural landscapes around the world. Yet, because of their isolation, they do not benefit from the buffering effect of neighbouring trees as in forests. As they are more exposed, solitary trees are more vulnerable to the impacts of climate change, such as extreme droughts, heat waves, and wind gusts. Research on microclimates below solitary trees is scarce and a more detailed understanding is needed to better understand and predict the future impacts of climate change on their associated biodiversity and ecosystem services. Here we quantified air temperatures and vapour pressure deficits below the crown of >200 trees along rural-to-urban gradients for three tree species (oak, ash, and lime) across nine European cities. We recorded microclimate measurements every 30 min for 10 months and analysed the effects of the surrounding built-up area and how different tree species influence microclimatic conditions. The microclimate below trees in more urban areas was overall warmer and drier than below rural trees, whereby 10 % more built-up area caused average summer air temperatures to increase by 0.1 °C and average vapour pressure deficits by 0.02 kPa. Oak and lime were able to dampen the temporal fluctuations of air temperature and vapour pressure deficit more than ash and were able to mitigate maximum summer temperatures 0.55 °C more than ash. Our research thus underpins that solitary trees shape their own species-specific microclimate. We advocate for integrated tree planning to preserve and provide space for solitary trees, and by adopting solitary trees as key components of urban and rural green infrastructures, we can improve microclimatic conditions and enhance biodiversity, ultimately creating more sustainable and liveable landscapes.

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整个欧洲沿着农村到城市梯度的大的单生树木的小气候

在世界各地的许多城市和农村景观中，大型孤树是生物多样性的重要特征。然而，由于它们的隔绝性，它们不能像在森林中那样从邻近树木的缓冲作用中获益。由于它们更多地暴露在外，孤立的树木更容易受到气候变化的影响，如极端干旱、热浪和阵风。对孤立树下小气候的研究很少，需要更详细地了解和预测气候变化对其相关生物多样性和生态系统服务的未来影响。在这里，我们量化了9个欧洲城市的3种树种（橡树、白蜡树和石灰树）沿乡村到城市梯度的200棵树树冠以下的气温和蒸汽压赤字。我们连续10个月每30分钟记录一次小气候测量，并分析了周围建成区的影响以及不同树种对小气候条件的影响。在更多的城市地区，树木下的小气候总体上比农村树木下的小气候更温暖、更干燥，其中10%的建成区面积导致夏季平均气温升高0.1°C，平均蒸汽压差升高0.02 kPa。橡树和石灰比灰更能抑制气温和蒸汽压差的时间波动，比灰更能降低夏季最高温度0.55°C。因此，我们的研究证实，孤独的树木塑造了它们自己特定物种的小气候。我们提倡综合树木规划，保护和提供孤树空间，并通过将孤树作为城乡绿色基础设施的关键组成部分，改善小气候条件，增加生物多样性，最终创造更可持续和宜居的景观。

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来源期刊

Agricultural and Forest Meteorology 农林科学-林学

CiteScore

10.30

自引率

9.70%

发文量

415

审稿时长

69 days

期刊介绍： Agricultural and Forest Meteorology is an international journal for the publication of original articles and reviews on the inter-relationship between meteorology, agriculture, forestry, and natural ecosystems. Emphasis is on basic and applied scientific research relevant to practical problems in the field of plant and soil sciences, ecology and biogeochemistry as affected by weather as well as climate variability and change. Theoretical models should be tested against experimental data. Articles must appeal to an international audience. Special issues devoted to single topics are also published. Typical topics include canopy micrometeorology (e.g. canopy radiation transfer, turbulence near the ground, evapotranspiration, energy balance, fluxes of trace gases), micrometeorological instrumentation (e.g., sensors for trace gases, flux measurement instruments, radiation measurement techniques), aerobiology (e.g. the dispersion of pollen, spores, insects and pesticides), biometeorology (e.g. the effect of weather and climate on plant distribution, crop yield, water-use efficiency, and plant phenology), forest-fire/weather interactions, and feedbacks from vegetation to weather and the climate system.