Plant responses to urban gradients: Extinction, plasticity, adaptation

IF 5.3 1区 环境科学与生态学 Q1 ECOLOGY Journal of Ecology Pub Date : 2024-10-30 DOI:10.1111/1365-2745.14427
Alejandro Sotillo, Laurent Hardion, Etienne Chanez, Kenji Fujiki, Audrey Muratet
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Abstract

Biodiversity‐oriented urban management and planning require information on the drivers of wildlife composition and ecosystem function within cities. Urban landscapes impose environmental gradients along which species may be filtered away, or respond by showing adaptive variation in functional trait values. Such trait variation may in turn be due to a species' phenotypic plasticity, or a consequence of microevolution leading to local adaptation. This study investigates three possible plant responses to urban environmental gradients, with different evolutionary consequences: extinction, plasticity and adaptation. We assessed whether individual functional traits (LMA—leaf mass per area, plant height and flower length), population performance traits (seed mass and germination rate), as well as species frequency in the plant community, responded to gradients in mowing frequency, soil fertility and structure, temperature and surrounding mean building height, among four herbaceous plant species present in the metropolitan area of Strasbourg. Using a common garden experiment, we tested whether the observed trait variation was hereditary, and may thus constitute evidence for local adaptation. Our results detected the three types of expected responses. Plantago lanceolata is plastic to urban gradients, and Trifolium pratense showed both plastic and hereditary responses. Dactylis glomerata and Medicago lupulina showed all three responses: they both declined under increasing mowing frequency, were plastic to surrounding mean building height, and showed hereditary responses to different urban gradients. Urban management and planning therefore impact on the evolutionary capabilities of plants in cities. In the case of management this is highlighted by the detected trends in species' traits and frequency in response to mowing. The consequences of urban planning are evidenced by mean building height eliciting most often plastic and adaptive responses. Synthesis. Herbaceous plants often change their morphology in response to urban conditions: grass cutting, altered soils, warmer temperatures and being surrounded by tightly packed buildings. These changes are sometimes hereditary, which suggests that city management and planning affect the ability of plants to survive and evolve in urban environments.
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植物对城市梯度的反应:灭绝、可塑性、适应性
以生物多样性为导向的城市管理和规划需要了解城市中野生动物组成和生态系统功能的驱动因素。城市景观造成了环境梯度,沿此梯度,物种可能会被过滤掉,或通过在功能特征值上表现出适应性变异来做出反应。这种性状变化可能是由于物种的表型可塑性,也可能是微进化导致局部适应的结果。本研究调查了植物对城市环境梯度的三种可能反应,它们会带来不同的进化后果:灭绝、可塑性和适应性。我们评估了斯特拉斯堡大都会地区四种草本植物的个体功能特征(单位面积叶片质量、株高和花长)、种群表现特征(种子质量和发芽率)以及物种在植物群落中的出现频率是否会对割草频率、土壤肥力和结构、温度以及周围平均建筑物高度的梯度产生反应。通过一个普通花园实验,我们检验了所观察到的性状变异是否具有遗传性,从而是否构成了当地适应性的证据。我们的结果发现了三种预期反应。车前草(Plantago lanceolata)对城市梯度具有可塑性,而马齿苋(Trifolium pratense)则同时表现出可塑性和遗传性反应。Dactylis glomerata和Medicago lupulina表现出所有三种反应:它们都在除草频率增加的情况下衰退,对周围平均建筑高度具有可塑性,并对不同的城市梯度表现出遗传性反应。因此,城市管理和规划会影响城市植物的进化能力。在管理方面,通过检测物种性状和频率对除草的反应趋势,可以突出说明这一点。城市规划的后果体现在平均建筑高度通常会引起可塑性和适应性反应。综述。草本植物经常会因城市条件而改变形态:割草、土壤改变、温度升高以及被密集的建筑物包围。这些变化有时是遗传性的,这表明城市管理和规划会影响植物在城市环境中的生存和进化能力。
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来源期刊
Journal of Ecology
Journal of Ecology 环境科学-生态学
CiteScore
10.90
自引率
5.50%
发文量
207
审稿时长
3.0 months
期刊介绍: Journal of Ecology publishes original research papers on all aspects of the ecology of plants (including algae), in both aquatic and terrestrial ecosystems. We do not publish papers concerned solely with cultivated plants and agricultural ecosystems. Studies of plant communities, populations or individual species are accepted, as well as studies of the interactions between plants and animals, fungi or bacteria, providing they focus on the ecology of the plants. We aim to bring important work using any ecological approach (including molecular techniques) to a wide international audience and therefore only publish papers with strong and ecological messages that advance our understanding of ecological principles.
期刊最新文献
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