壳聚糖对镉胁迫下玉米幼苗根系生长及叶片光合的影响

生态学杂志

壳聚糖对镉胁迫下玉米幼苗根系生长及叶片光合的影响

曲丹阳¹,张立国²,顾万荣^1*,曹鑫波¹,樊海潮¹,孟瑶³,陈喜昌²,魏湜^1#br#

（¹东北农业大学农学院，哈尔滨 150030； ^2黑龙江省农业科学院玉米研究所，哈尔滨 150086； ³黑龙江省农垦科学院，哈尔滨 150038）

出版日期:2017-05-10 发布日期:2017-05-10

Effects of chitosan on root growth and leaf photosynthesis of maize seedlings under cadmium stress.

QU Dan-yang¹, ZHANG Li-guo², GU Wan-rong^1*, CAO Xin-bo¹, FAN Hai-chao¹, MENG Yao³, CHEN Xi-chang², WEI Shi^1#br#

(¹College of Agronomy, Northeast Agricultural University, Harbin 150030, China; ^2Maize Research Institute, Heilongjiang Academy of Agricultural Sciences, Harbin 150086, China; ^3Heilongjiang Academy of Land Reclamation Sciences, Harbin 150038, China).

Online:2017-05-10 Published:2017-05-10

摘要/Abstract

摘要：

本试验采用营养液水培法，以玉米品种“郑单958”（镉不敏感型）和“东农253”（镉敏感型）为试验材料，研究在80 mg·L^-1 Cd²⁺胁迫下100 mg·L^-1壳聚糖对玉米幼苗干鲜重、根系特征（根长、根表面积、根体积、平均直径、总根尖数）、根系细胞膜透性、根系抗氧化酶（SOD、POD）活性、叶片叶绿素含量、光合参数（P_n、G_s、T_r、C_i）及最大光能转化效率（F_v/F_m）的影响，探究壳聚糖提高玉米幼苗抗镉胁迫能力的生理生化机制。结果表明：80 mg·L^-1 Cd²⁺抑制了玉米幼苗的生长，破坏了根系细胞膜的稳定性和抗氧化酶活性，抑制了叶片光合作用；壳聚糖缓解了镉胁迫对玉米根系生长的抑制，增加了幼苗的根长、根表面积、根体积；增强了根系的渗透调节能力，降低了根系的MDA含量和相对电导率；抑制了根系活性氧的产生，增加了SOD和POD活性；提高了叶片的光合作用，增加了叶片的叶绿素a（Chla）、叶绿素b（Chlb）含量、净光合速率（P_n）和F_v/F_m，从而缓解了镉胁迫对幼苗生长的抑制作用，且对“东农253”（镉敏感型）的缓解效果更好，为壳聚糖应用到玉米抗镉胁迫生产上提供了依据。

关键词: 预培养, 氮素含量, 土壤冷储存, 氮素转化, 森林土壤

Abstract: This study investigated the mechanism of resistance to cadmium (Cd) after chitosan application. Two different varieties of maize, “Zhengdan 958” (Cdtolerant) and “Dongnong 253” (Cdsensitive) were chosen as experimental materials. Effects of 100 mg·L^-1 of chitosan application on plant growth, root feature parameters (root length, root surface, root volume, average diameter, tip number), cell membrane permeability of root, activities of root antioxidant enzymes (SOD, POD), leaf chlorophyll content, photosynthetic parameters (P_n,G_s, T_r, C_i) and the maximal photochemical efficiency (F_v/F_m) of leaf were measured under 80 mg·L^-1 Cd²⁺ stress. The results showed that 80 mg·L^-1 Cd²⁺ inhibited the growth of maize seedlings, destroyed the stability of root cell membrane and antioxidant enzymes system, and had a negative effect on the photosynthesis of leaves. The chitosan application led to a marked increase in root length, root surface and root volume, alleviating the growth inhibition under Cd stress. Chitosan treatment played an important role in stabilizing root plasma membrane structure and function, decreased the malondialdehyde (MDA) content and relative conductivity of root system under Cd stress, inhibited the production of ROS, and increased the activity of SOD and POD. Chitosan treatment increased the contents of chlorophyll a (Chla) and chlorophyll b (Chlb) in leaves, increased the photosynthetic rate and F_v/F_m, which enhanced the photosynthesis of leaves, so as to alleviate the seedling growth inhibition under Cd stress. Dongnong 253 (Cdsensitive) showed a better effect than Zhengdan 958 maize variety. The results provide a theoretical and experimental basis for the application of chitosan to maize Cdresistant production.

Key words: pre-incubation, forest soil., nitrogen transformation, soil cold storage, nitrogen content

曲丹阳1,张立国2,顾万荣1*,曹鑫波1,樊海潮1,孟瑶3,陈喜昌2,魏湜1. 壳聚糖对镉胁迫下玉米幼苗根系生长及叶片光合的影响[J]. 生态学杂志.

QU Dan-yang1, ZHANG Li-guo2, GU Wan-rong1*, CAO Xin-bo1, FAN Hai-chao1, MENG Yao3, CHEN Xi-chang2, WEI Shi1. Effects of chitosan on root growth and leaf photosynthesis of maize seedlings under cadmium stress.[J]. cje.

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