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生态学杂志 ›› 2024, Vol. 43 ›› Issue (1): 254-263.doi: 10.13292/j.1000-4890.202401.009

• 综合评述 • 上一篇    下一篇

大气颗粒物对植物影响研究进展

唐敬超,黄昱,孙宝娣,宋志文*,徐爱玲   

  1. (青岛理工大学, 山东青岛 266520)
  • 出版日期:2024-01-10 发布日期:2024-01-11

Review of the effects of atmospheric particulate matter on plants.

TANG Jingchao, HUANG Yu, SUN Baodi, SONG Zhiwen*, XU Ailing   

  1. (Qingdao University of Technology, Qingdao 266520, Shandong, China).

  • Online:2024-01-10 Published:2024-01-11

摘要: 大气颗粒物是大气中固态或液态微粒物质的总称。大气颗粒物的增多会对气候、空气能见度、公共卫生等造成重大影响。种植合适的植物成为减轻大气颗粒损害的良好措施,但大气颗粒物覆盖在植物叶片表面及进入植物体内都会对植物造成不同程度的影响。本文围绕大气颗粒物的成因及组成,大气颗粒物对植物生长发育、生理生化、抗病虫性、植物生产力和产量的影响方式及机理与减轻途径等进行了系统综合与评述,并展望了未来的研究趋势。综合发现,大气颗粒物对植物的影响广泛且复杂多样,并受到环境条件、颗粒物浓度及组成、植物种类及研究尺度的影响。通过提前预知大气颗粒物浓度变化、提供充足的营养和水分、及时冲洗叶片、人工补光及合理选择并种植植物等方式可避免或者减轻大气颗粒物所带来的负面效应。未来可增加大气颗粒物影响下景观和造林植物的研究、大尺度植被生理生态、各种化合物和微生物颗粒物对植物影响的研究,研究内容可关注植物生理生态、植物叶片氮分配、叶肉细胞导度及植物遗传育种学等。


关键词: 大气颗粒物, 植物, 生理生态, 影响机理

Abstract: Atmospheric particulate matter (APM) is a general term for a complex mixture of solids and aerosols in the atmosphere, comprised of small droplets of liquid, dry solid fragments, and solid cores with liquid coatings. A large amount of APM can significantly affect climate, air visibility, and public health. Growing suitable plants can reduce the damage associated with particulate matter, although APM can affect plants to varying degrees through deposition or foliar uptake. Here, we systematically synthesize and review the causes and composition of APM and its effects on plant growth and development, physiology and biochemistry, resistance to disease and insects, productivity, and yield. Methods to reduce the harmful effects are discussed, and future research focusing on how APM affects plants is proposed. The effects of APM on plants are extensive, complex, and dependent on environmental conditions, the concentration and composition of particulate matter, plant species, and study scale. Avoiding or reducing the negative effects of APM can be achieved by predicting changes in the concentration of APM, providing adequate nutrition and hydration, washing the leaves, providing light, and choosing suitable plants. In the future, studies of landscapes and afforestation plants, large-scale vegetation physiology and ecology under the influence of APM, and the effects of various compounds and microbial particulate matter on plants need to be increased. Those researches can focus on plant ecophysiology, leaf nitrogen allocation, mesophyll cell conductivity, and plant genetics and breeding.


Key words: atmospheric particulate matter, plant, physiological ecology, influence mechanism