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不同钙浓度对两种岩溶植物幼苗生长及其酶活性的影响 |
张 芳1,2,5, 宋 敏1,2,3, 彭晚霞1,2*, 曾馥平1,2, 杜 虎1,2,
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1.中国科学院亚热带农业生态研究所 亚热带农业生态过程重点实验室, 长沙 410125;2. 中国科学院环江喀斯特
生态系统观测研究站, 广西 环江 547100;3. 湖南农业大学 农学院, 长沙 410128;4. 湖南农业大学
生物科学技术学院, 长沙410128;5. 中国科学院大学, 北京 100049
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摘要: |
该研究采用砂培法,以狗骨木(Swida wilsoniana)和南酸枣(Choerospondias axillaris)两种岩溶植物为研究对象, 用不同钙离子(Ca2+)浓度(设为 5、35、70、150、300 mmol·L-1的5个水平)的营养液进行培养,研究其对两种植物的生长及酶活性的影响。结果表明:狗骨木和南酸枣的株高在5 mmol·L-1时最大,之后随Ca2+浓度上升呈下降趋势,南酸枣在300 mmol·L-1时有所回升。两种植物的根、枝、叶生物量和总生物量随着Ca2+浓度增加而减少。狗骨木叶、枝、根的生物量分配比率为根>枝>叶,南酸枣在35 mmol·L-1时表现为根>枝>叶,其他在Ca2+浓度下均为枝>根>叶,叶生物量分配少。狗骨木和南酸枣的丙二醛(MDA)含量在150 mmol·L-1时最低,且狗骨木的低于南酸枣。钙胁迫下,与南酸枣相比,狗骨木维持较高的过氧化氢酶(CAT)活性和可溶性糖含量。两种植物在5和150 mmol·L-1的Ca2+浓度下各项指标处于较适水平,而在300 mmol·L-1的高钙离子浓度下受到明显的胁迫, 对比两种植物,狗骨木较南酸枣在高钙浓度下有更好的适应性。 |
关键词: 幼苗, 生物量, 还原糖, 岩溶植物, 抗氧化酶 |
DOI:10.11931/guihaia.gxzw201611016 |
分类号:Q945 |
文章编号:1000-3142(2017)06-0707-09 |
Fund project:国家重点研发计划项目(2016YFC0502405); 国家自然科学基金(31370485, 31370623, 31400412, 31460135); 广西科技惠民计划项目(桂科转1599001-6); 广西重点研发计划项目(桂科AB16380255); 广西特聘专家项目 [Supported by the National Key Research and Development(2016YFC0502405); National Natural Science Foundation of China(31370485, 31370623, 31400412, 31460135); Guangxi Provincial Benefitting Program of Science and Technology(1599001-6); Guangxi Key Research and Development Program(AB16380255); Guangxi Program of Distinguished Experts]。 |
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Effects of different calcium concentrations on seedling growth and enzyme activities of two karst plant species |
ZHANG Fang1,2,5, SONG Min1,2,3, PENG Wan-Xia1,2*, ZENG Fu-Ping1,2,
DU Hu1,2, HU Fang1,2,5, CHEN Li1,2,4, SU Liang1,2,4
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1. Key Laboratory of Agro-ecological Processes in Subtropical Region, Institute of Subtropical Agriculture, Chinese Academic of Sciences, Changsha
410125, China;2. Huanjiang Observation and Research Station of Karst Ecosystem, Chinese Academy of Sciences, Huangjiang 547100, Guangxi,
China;3. Agricultural College, Hunan Agricultural University, Changsha 410128, China;4. College of Bioscience and Biotechnology,
Hunan Agricultural University, Changsha 410128, China;5. University of Chinese Academy of Sciences, Beijing 100049
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Abstract: |
Calcium(Ca)is an essential nutrient for plant growth; however, high Ca concentrations have detrimental effects on several plant species, while a few plant species have adapted to high levels of Ca via multiple mechanisms. The limestone soils of karst regions in southwest China are characterized by high levels of Ca, which have substantial influences on plant physiological characteristics and distribution. High Ca concentrations influence photosynthesis and might even destroy organelles resulting in death of the plant. Adaptation mechanisms of plants to high concentrations of Ca are very complex processes and are relative to all aspects of plant growth. Selection of suitable tree species plays a key role in ecological restoration. In order to investigate the physiological adaptation mechanisms of plants to high calcium conditions in the karst region of Southwest China, a pot experiment was conducted with seedlings of two species, i.e., Swida wilsoniana and Choerospondias axillaris. To exclude the influences from other confounding factors, each pot was filled with sand instead of soil. The seedlings were treated with five Ca levels, i.e., 5, 35, 70, 150, 300 mmol·L-1. The growth and enzyme activities of the two plant species were measured. The results showed that the both species were the highest at 5 mmol·L-1, and tended to decrease with the increase in Ca concentration. The biomass of roots, branches, leaf and total biomass of both species demonstrated a downward trend as Ca concentration increase, but those of C. axillaris showed a tendency to increase for the 300 mmol·L-1 treatment. The biomass allocation ratio was in the order of root > branch > leaf for Swida wilsoniana, and root > branch > leaf for S. wilsoniana at 35 mmol·L-1. The biomass allocation at other Ca levels showed a variation pattern of branch > root > leaf for both species. MDA content was the greatest at 150 mmol·L-1 for both species. MDA content of Choeropondias axillaris was lower than that of Swida wilsoniana. The soluble sugar content and CAT activity of S. wilsoniana under calcium stress were higher than those of Choerospondis axillaris. The physiological indices reached optimum levels at the Ca concentrations of 5 and 150 mmol·L-1 for both species, while were inhibited at the concentration 300 mmol·L-1, which led to a decline of photosynthetic capacity. Our results also revealed that S. wilsoniana had better adaptability to high Ca concentrations relative to C. axillaris. |
Key words: seedling, biomass, solube sugar, karst plant, antioxidative enzyme |
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