大气CO2浓度倍增和CdCl2胁迫对玉米生长及光合性能的影响

doi:10.13292/j.1000-4890.202511.004

生态学杂志 ›› 2025, Vol. 44 ›› Issue (11): 3620-3628.doi: 10.13292/j.1000-4890.202511.004

大气CO₂浓度倍增和CdCl₂胁迫对玉米生长及光合性能的影响

张佳睿¹，莫晓燕¹，宋炜²，李菲¹，马超¹，郝立华¹，郑云普¹，刘亮^1*

（¹河北工程大学水利水电学院，河北邯郸 056038； ²河北省煤田地质局环境地质调查院，石家庄 050091）

出版日期:2025-11-10 发布日期:2025-11-10

Effects of elevated atmospheric CO₂ concentration and CdCl₂ stress on plant growth and photosynthetic performance of maize.

ZHANG Jiarui¹, MO Xiaoyan¹, SONG Wei², LI Fei¹, MA Chao¹, HAO Lihua¹, ZHENG Yunpu¹, LIU Liang^1*

(¹School of Water Conservancy and Hydropower, Hebei University of Engineering, Handan, 056038, Hebei, China; ²Environmental Geological Survey Institute of Hebei Coalfield Geological Bureau, Shijiazhuang, 050091, China).

Online:2025-11-10 Published:2025-11-10

摘要/Abstract

摘要： 为深入理解气候变化背景下玉米对大气CO₂浓度升高和土壤镉污染的生理生态响应，本研究以“郑单958”玉米品种为试材，利用可精准控制CO₂浓度的环境生长室，采用裂区实验方法探讨了不同CO₂浓度和CdCl₂胁迫对玉米气体交换参数、叶绿素含量、植株生物量、MDA含量及相关抗氧化酶活性的交互影响。结果表明：大气CO₂浓度升高导致轻度和重度CdCl₂胁迫下玉米的净光合速率（P_n）分别提高24%（P<0.001）和6%（P<0.05），但却降低了叶片的蒸腾速率（P<0.001）和气孔导度（P<0.001），从而导致水分利用效率均显著提高（P<0.001）；轻度CdCl₂胁迫显著提高了环境CO₂浓度下的叶片生物量（P<0.001），但CO₂浓度升高却降低根系生物量（P<0.05）和茎秆生物量（P<0.001）；轻度与中度CdCl₂胁迫导致不同CO₂浓度下叶片MDA含量增多，同时POD活性上升，但CO₂浓度升高却减少了MDA含量并导致POD活性下降；CO₂浓度和CdCl₂胁迫对叶片的P_n产生了显著的交互影响（P=0.002），大气CO₂浓度升高可以提高轻度与中度CdCl₂胁迫下玉米净光合速率和水分利用效率，且同时导致MDA含量的降低，从而增强植株抵抗CdCl₂胁迫的能力。

关键词: 玉米（Zea may L.）, 二氧化碳浓度, 镉胁迫, 气体交换参数, 生理过程

Abstract: To better understand the physiological and ecological responses of maize to elevated atmospheric CO₂ concentration and soil cadmium pollution under future climate change, we investigated the interactive effects of different CO₂ concentrations and CdCl₂ stresses on leaf gas exchange, chlorophyll content, plant biomass as well as the MDA content and related antioxidant enzyme activities of the maize cultivar Zhengdan 958 in a split-plot experiment with environmental growth chambers. Elevated atmospheric CO₂ concentration increased net photosynthetic rate (P_n) by 24% (P<0.001) and 6% (P<0.05) under mild and severe CdCl₂ stress, respectively. Elevated atmospheric CO₂ concentration decreased the transpiration rate and stomatal conductance of maize leaves (P<0.001), and thus increased the instantaneous water use efficiency (P<0.001). Mild CdCl₂ stress significantly increased leaf biomass under ambient CO₂ concentration (P<0.001), but elevated CO₂ concentration decreased root biomass (P<0.05) and stem biomass of maize (P<0.001). Mild and moderate CdCl₂ stress increased MDA content and POD activity in maize leaves under different CO₂ concentrations, but elevated CO₂ concentration reduced MDA content and POD activity. There were significantly interactive effects of CO₂ concentration and CdCl₂ stress on the P_n of maize plants (P=0.002). Our results suggested that elevated atmospheric CO₂ concentration could increase net photosynthetic rate and instantaneous water use efficiency of maize under mild and moderate CdCl₂ stress, but reduce the MDA content, thus improving the resistance of maize plants to CdCl₂ stress.

Key words: maize (Zea may L.), CO₂ concentration, Cd stress, gas exchange parameter, physiological process

张佳睿, 莫晓燕, 宋炜, 李菲, 马超, 郝立华, 郑云普, 刘亮. 大气CO₂浓度倍增和CdCl₂胁迫对玉米生长及光合性能的影响[J]. 生态学杂志, 2025, 44(11): 3620-3628.

ZHANG Jiarui, MO Xiaoyan, SONG Wei, LI Fei, MA Chao, HAO Lihua, ZHENG Yunpu, LIU Liang. Effects of elevated atmospheric CO₂ concentration and CdCl₂ stress on plant growth and photosynthetic performance of maize.[J]. Chinese Journal of Ecology, 2025, 44(11): 3620-3628.

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大气CO₂浓度倍增和CdCl₂胁迫对玉米生长及光合性能的影响

Effects of elevated atmospheric CO₂ concentration and CdCl₂ stress on plant growth and photosynthetic performance of maize.

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