Winter low temperature disturbance in the southern subtropics of China promotes the competitiveness of an invasive plant
文献类型: 外文期刊
第一作者: Yue, Maofeng
作者: Yue, Maofeng;Yue, Maofeng;Shen, Hao;Ye, Wanhui;Shen, Hao;Ye, Wanhui;Li, Weihua;Chen, Jinfeng
作者机构:
关键词: Low temperature disturbance; Southern subtropics; Invasive plant; Bidens pilosa; Competitiveness; Physiological responses
期刊名称:BIOLOGICAL INVASIONS ( 影响因子:3.087; 五年影响因子:3.137 )
ISSN: 1387-3547
年卷期:
页码:
收录情况: SCI
摘要: Winter low temperature disturbance in the southern subtropics has important effects on the weed community structure, but the role of uniquely low temperatures in biological invasions is unclear. Here, we examined the competitive effects of an invasive plant, Bidens pilosa L., and its native congener, Bidens biternata (Lour.) Merr. et Sherff, during high and low temperature seasons to determine whether low temperatures promote the competitiveness of B. pilosa in the southern subtropics of China. The growth and physiological responses of the two Bidens species to low (10/5 degrees C) and optimum (30/25 degrees C) temperatures were examined to determine how the invasive B. pilosa responds to low temperature stress. Our results showed that the competitive balance index values of B. pilosa in low temperature seasons were significantly higher than those in high temperature seasons, which implied that low temperatures may be more beneficial to the competitiveness of B. pilosa than high temperatures in the southern subtropics. The smaller decline in the relative growth rate and the photosynthetic ability of B. pilosa compared with B. biternata under low temperature stress indicated that the former was less negatively affected by low temperature than the latter. A higher DPPH center dot (1.1-diphenyl-2-picrylhy-drazyl) scavenging rate and greater heat-stable protein content in B. pilosa under low temperatures might help the invasive plant to maintain more effective physiological functions and thus a higher growth rate. Overall, the uniquely low temperature in the southern subtropics of China is expected to promote the invasiveness of the exotic B. pilosa.
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