The morphological and physiological responses of the soil and water conservation plant Neyraudia reynaudiana to acid stress

doi:10.11686/cyxb2016170

Abstract

Abstract: Soil acidification is one of the main limitation factors affecting vegetation restoration in mining wastelands. Neyraudia reynaudiana can grow normally in the wasteland of rare earth mines with extremely serious soil acidification, indicating that it has specific morphological and physiological mechanisms. In order to reveal these mechanisms, a one-pot acid stress experiment was designed with four different pH levels (3.5, 4.5, 5.0 and 5.6) and the growth indices, biomass, antioxidant enzymes and MDA content of N. reynaudiana were measured. The results showed that N. reynaudiana grows normally in soil with pH 3.5, suggesting a strong resistance to acid stress. With the increase of soil pH, growth indices such as plant height, leaf length, number of leaves, tiller number, root length, root volume, root surface area and root diameter at first increased and then decreased, demonstrating that the low acid stress had a promotion effect on N. reynaudiana growth. In addition, all the growth indices for N. reynaudiana reached their peak under the pH 4.5 treatment, suggesting that this is the most suitable soil pH level for the species. N. reynaudiana adapts to acid stress by accelerating the root diameter growth rate and increasing the biomass allocation of the root. Our research also indicated that the antioxidant enzymes of N. reynaudiana were inhibited under acid stress.

CHEN Xue-Jiao, HAN Hang, HOU Xiao-Long, LIU Ai-Qin, CAI Li-Ping, ZHOU Chui-Fan, MA Xiang-Qing. The morphological and physiological responses of the soil and water conservation plant Neyraudia reynaudiana to acid stress[J]. Acta Prataculturae Sinica, 2017, 26(4): 143-149.

References

[1] Li W. Research on Landscape and Ecology Restoration of Wasted Ionic Rare Earth Deposit in South China[D]. Fuzhou: Fujian Agriculture and Forestry University, 2014.
李伟. 离子型稀土废弃地景观生态恢复研究[D]. 福州: 福建农林大学, 2014.
[2] Qiu R L, Qiu H, Lei M, et al . Advance in research on remediation of multi-metal contaminated soil in mine and surrounding area. Journal of Agricultural Environmental Science, 2009, 28(6): 1085-1091.
仇荣亮, 仇浩, 雷梅, 等. 矿山及周边地区多金属污染土壤修复研究进展. 农业环境科学学报, 2009, 28(6): 1085-1091.
[3] Ai X M, Yang P, Li Y, et al . Variation of physiological indexes of Melaleuca bracteata seedlings under acid, alkali and salt stress. Journal of West China Forestry Science, 2014, 43(1): 29-33.
艾星梅, 杨鹏, 李煜, 等. 酸、碱、盐胁迫下千层金幼苗的生理指标变化研究. 西部林业科学, 2014, 43(1): 29-33.
[4] Wang Y S, Wu P F, Hou X L, et al . Effect of different revegetation model on soil properties in abandon mine area of rare earth. Ecology and Environmental Sciences, 2015, 24(11): 1831-1836.
王友生, 吴鹏飞, 侯晓龙, 等. 稀土矿废弃地不同植被恢复模式对土壤肥力的影响. 生态环境学报, 2015, 24(11): 1831-1836.
[5] Ma J F, Ryan P R. Understanding how plants cope with acid soils. Functional Plant Biology, 2010, 37(4): 3-6.
[6] Sun F Z, Hu R, Zhang Y D, et al . The evaluation mechanism and application of burmareed on the growth. Soil and Water Conservation in China, 2004, 7(8): 18-20.
孙发政, 胡荣, 张艺东, 等. 类芦在岩壁上生长的机理及其应用评价. 中国水土保持, 2004, 7(8): 18-20.
[7] Cai L P, Wu P F, Hou X L, et al . Effect of drought stress on the photosynthetic characteristics of the pioneer plant Neyraudia reynaudiana on soil and water conservation. Journal of Soil and Water Conservation, 2011, 25(6): 237-241.
蔡丽平, 吴鹏飞, 侯晓龙, 等. 干旱胁迫对水土保持先锋植物类芦光合特性的影响. 水土保持学报, 2011, 25(6): 237-241.
[8] Dai W J, Ning P, Liu X H, et al . Tolerance and accumulation of Neyraudia reynaudiana for Pb. Journal of Environmental Engineering, 2008, 2(7): 1004-1008.
戴文娇, 宁平, 刘晓海, 等. 类芦对铅的耐性及富集能力探讨. 环境工程学报, 2008, 2(7): 1004-1008.
[9] Yuan Z Y, Guo Y B, Li Q, et al . Effects of organic-inorganic fertilizer application on pioneer plant Neyraudia reynaudiana on ecological restoration. Journal of Soil and Water Conservation, 2014, (5): 302-308.
袁中友, 郭彦彪, 李强, 等. 有机无机肥配施对生态重建先锋植物类芦生长的影响. 水土保持学报, 2014, (5): 302-308.
[10] Deng H, Ye Z H, Wong M H. Accumulation of lead, zinc, copper and cadmium by 12 wetland plant species thriving in metal-contaminated sites in China. Environmental Pollution, 2004, 132(1): 29-40.
[11] Deng H, Ye Z H, Wong M H. Lead, zinc and iron (Fe 2+ ) tolerances in wetland plants and relation to root anatomy and spatial pattern of ROL. Environmental and Experimental Botany, 2009, 65(2): 353-362.
[12] Liu Y, Zeng B S, Qiu Z F, et al . Effect of different substrates on transplanting survival rate of Paraserianthes falcataria tube culture seedlings. Journal of Central South University of Forestry and Technology, 2013, 33(11): 29-33.
刘英, 曾炳山, 裘珍飞, 等. 基质对南洋楹组培苗移植成活的影响. 中南林业科技大学学报, 2013, 33(11): 29-33.
[13] Jiang J, Xu R K, Zhao A Z. Detemination of pH buffer capacity of acid red soils by acid-base titration. Chinese Journal of Soil Science, 2006, 37(6): 1247-1248.
姜军, 徐仁扣, 赵安珍. 用酸碱滴定法测定酸性红壤的pH缓冲容量. 土壤通报, 2006, 37(6): 1247-1248.
[14] Wang X K. Principle and Technology of Plant Physiology and Biochemistry Experiment[M]. Beijing: Higher Education Press, 2006.
王学奎. 植物生理生化实验原理和技术[M]. 北京: 高等教育出版社, 2006.
[15] Tong G H, Liu T J, Huang W, et al . Effect of simulated acid rain and its acidified soil on lipid peroxidation of wheat seedlings. Acta Ecologica Sinica, 2005, 25(6): 1509-1516.
童贯和, 刘天骄, 黄伟. 模拟酸雨及其酸化土壤对小麦幼苗膜脂过氧化水平的影响. 生态学报, 2005, 25(6): 1509-1516.
[16] Wu Y Y, Xing D K, Zhu Y L, et al . Effect of pH on growth characters and chlorophyll fluorescence of three vine plants. Acta Botanica Boreali-Occidentalia Sinica, 2009, 29(2): 338-343.
吴沿友, 邢德科, 朱咏莉, 等. 营养液pH对3种藤本植物生长和叶绿素荧光的影响. 西北植物学报, 2009, 29(2): 338-343.
[17] Xu K J, Shi L L, Wang Y, et al . Effect of the pH value on switchgrass seedling growth and development in hydroponics. Acta Ecologica Sinica, 2015, 23(35): 7691-7698.
徐开杰, 史丽丽, 王勇, 等. 水培条件下pH值柳枝稷幼苗生长发育的影响. 生态学报, 2015, 23(35): 7691-7698.
[18] Navascués J, Pérez-Rontomé C, Sánchez D H, et al . Oxidative stress is a consequence, not a cause, of aluminum toxicity in the forage legume Lotus corniculatus . New Phytologist, 2012, 193(3): 625-636.
[19] Vardar F, Īsmailoĝlu I, Īnan D, et al . Determination of stress responses induced by aluminum in maize ( Zea mays ). Acta Biologica Hungarica, 2011, 62(2): 156-170.
[20] Tang K, Zhu W W, Zhou W X, et al . Research progress on effcets of soil pH on plant growth and development. Crop Research, 2013, 27(2): 207-212.
唐琨, 朱伟文, 周文新, 等. 土壤pH对植物生长发育影响的研究进展. 作物研究, 2013, 27(2): 207-212.
[21] Li F L, Bao W K, Wu N. Morphological and physiological responses of current sophora davidii seedlings to drought stress. Acta Ecologica Sinica, 2009, 29(10): 5407-5416.
李芳兰, 包维楷, 吴宁. 白刺花幼苗对不同强度干旱胁迫的形态与生理响应. 生态学报, 2009, 29(10): 5407-5416.
[22] Liu C H, Luo L Q, Guo T, et al . Preliminary research on Cd-tolerance of Panicum virgatum and Panicum maximum . Acta Prataculturae Sinica, 2015, 24(11): 100-108.
刘长浩, 娄来清, 郭涛, 等. 柳枝稷和坚尼草的耐镉性初步研究. 草业学报, 2015, 24(11): 100-108.
[23] Cai L P. The Mechanism of Eco-physiological Respond to Enviromental Stress for Pioneer Plant Neyraudia reynaudiana in Collapsing Hill Area[D]. Fuzhou: Fujian Agriculture and Forestry University, 2012.
蔡丽平. 崩岗侵蚀区先锋植物类芦对环境胁迫的生理生态学响应机制[D]. 福州: 福建农林大学, 2012.
[24] Zhao Y D, Pan Y Z, Liu B Y, et al . Pilea cadierei Gagnep.et Guills growth and accumulation under single and combined pollution of Cd and Pb. Journal of Agricultural Environmental Science, 2012, 31(1): 48-53.
赵杨迪, 潘远智, 刘碧英, 等. Cd、Pb单一及复合污染对花叶冷水花生长的影响及其累积性研究. 农业环境科学学报, 2012, 31(1): 48-53.
[25] Li Z Z, Wu J, Tang Y, et al . Effect of Pb, Zn and their interactions on the chlorophyll content and antioxidant enzyme systems of Houttuynia cordata thumb. Acta Ecologica Sinica, 2007, 27(12): 5441-5445.
李铮铮, 伍钧, 唐亚, 等. 铅、锌及其交互作用对鱼腥草( Houttuynia cordata )叶绿素含量及抗氧化酶系统的影响. 生态学报, 2007, 27(12): 5441-5445.