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生态学杂志 ›› 2021, Vol. 40 ›› Issue (7): 1916-1923.doi: 10.13292/j.1000-4890.202107.014

• 研究报告 • 上一篇    下一篇

土壤和大气增温对杉木幼树细根生物量和叶片性状的影响

时应贵1,2,熊德成1,2*,叶旺敏1,2,张楠1,2,唐玉祥1,2,陈娟1,2,吴帆1,2   

  1. 1福建师范大学地理科学学院, 福州 350007; 2福建三明森林生态系统与全球变化国家野外科学观测研究站, 福建三明 365000)
  • 出版日期:2021-07-10 发布日期:2021-07-09

Effects of soil and air warming on fine root biomass and leaf traits of Chinese fir saplings.  

SHI Ying-gui1,2, XIONG De-cheng1,2*, YE Wang-min1,2, ZHANG Nan1,2, TANG Yu-xiang1,2, CHEN Juan1,2, WU Fan1,2, LIU Xiao-fei1,2, YANG Zhi-jie1,2   

  1. (1College of Geographical Sciences, Fujian Normal University, Fuzhou 350007, China; 2Fujian Sanming Forest Ecosystem and Global Change National Observation and Research Station, Sanming 365000, Fujian, China).
  • Online:2021-07-10 Published:2021-07-09

摘要: 为揭示不同增温方式对杉木幼树细根生物量和叶片性状的影响,设置土壤增温(电缆增温4 ℃,不增温)×大气增温(开顶箱被动式增温,不增温)双因子实验,对杉木幼树细根生物量和叶片性状进行研究。结果表明:大气增温、土壤和大气同时增温使杉木细根总生物量显著减少,土壤增温后细根总生物量无显著变化;大气增温、土壤增温、土壤和大气同时增温显著降低了0~10 cm土层细根生物量,大气增温、土壤和大气同时增温显著降低了10~20 cm土层细根生物量;而各处理20~40 cm土层细根生物量与对照无显著差异;大气增温、土壤增温显著减少1年生叶片组织密度及比叶质量;土壤增温、土壤和大气同时增温显著减少2年生叶片面积,显著增加了叶组织密度及比叶质量;大气增温显著减少了2年生叶片面积;未来气候变暖下杉木幼树可能会通过改变细根生物量的土层分布以及不同年龄叶片的性状来适应增加的温度。因此,为更真实、准确揭示增温对植物的影响,应考虑不同增温方式对植物性状的影响,尤其是应加强地上和地下同时增温的控制实验。

关键词: 增温方式, 细根, 垂直分布, 叶龄, 比叶质量

Abstract: To reveal the effects of different warming modes on the fine root biomass and leaf traits of Chinese fir saplings, an experiment with factorial soil warming (ambient, +4 ℃ via cable heating) × air warming (ambient, opentop chamber (OTC)) was carried out in Sanming, Fujian Province. The results showed that the total fine root biomass of Chinese fir significantly reduced in the air warming treatment and the soil + air warming treatment compared to the control, whereas the total fine root biomass was not reduced by soil warming. Fine root biomass was significantly reduced in 0-10 cm soil layer under all the warming treatments, and was significantly reduced in 10-20 cm soil layer in the air warming treatment and the soil + air warming treatment. The biomass of fine roots in 20-40 cm soil layer did not differ among all the treatments. Leaf tissue density (LTD) and leaf mass per area (LMA) of 1-year-old leaf were significantly reduced in the soil warming treatment and the air warming treatment, while LTD and LMA of 2-year-old leaf were significantly increased in the soil warming treatment and the soil + air warming treatment. The leaf area of 2-year-old leaf was significantly reduced in the air warming treatment, the soil warming treatment, and the soil + air warming treatment. Our results suggest that Chinese fir saplings may adapt to the increased temperature by changing vertical distribution of fine root biomass in soils and leaf traits of different leaf ages. In order to reveal the effects of warming on plants more truly and accurately, the effects of different warming methods on plant traits should be considered, especially the control experiments of simultaneous warming above and below ground should be strengthened.

Key words: heating method, fine root, vertical distribution, leaf age, leaf mass per area.