Chen Wu, Liudong Zhang, Yikang Fu, Guilong Fu, Degang Fu, Hui Li, Shuai Su, Huicheng Xie, Hui Tian, Ruijiang Wang, Kun Li
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When adding a low concentration of SA (10 mg·L−1) to treat S. matsudana seedlings, all exogenous treatment groups could alleviate the stress of 2,4-DNP on the photosynthetic system and chlorophyll fluorescence system of S. matsudana seedlings, and 10 mg·L−1 SA (DNP + S1) was the best. (2) The addition of exogenous SA could alleviate the damage of 2,4-DNP to S. matsudana seedlings by enhancing the activity of its antioxidant enzymes to remove excess reactive oxygen species (ROS) in the body and reducing the level of membrane lipid peroxidation and the size of membrane damage. The treatment with 10 mg·L−1 SA had the best effect. (3) Exogenous low concentration of SA (10 mg·L−1) could alleviate the decline of biomass index of S. matsudana seedlings under 2,4-DNP stress, but a high concentration of SA (1000 mg·L−1) could not alleviate the 2,4-DNP toxicity of S. matsudana seedlings leaves. Exogenous SA could effectively alleviate the growth damage caused by 2,4-DNP stress on S. matsudana seedlings and increase the tolerance threshold range of S. matsudana seedlings to 2,4-DNP (8.81–33.78 mg·L−1). (4) Exogenous addition of SA could increase the removal percentage of 2,4-DNP in Salix matsudana seedlings. Among them, the removal percentage of Salix matsudana was the highest at 10 mg·L−1 SA, which was 1.46 times (5 days) and 1.19 times (10 days) higher than that of the DNP treatment group, respectively. Overall, when SA reached 10 mg·L−1, the photosynthetic productivity of S. matsudana was the highest, and S. matsudana had the best purification effect on 2,4-DNP in wastewater.","PeriodicalId":505742,"journal":{"name":"Forests","volume":"2 5","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-08-09","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Exogenous Salicylic Acid Alleviates Physiological Stress in Salix matsudana Seedlings and Increases 2,4-Dinitrophenol Removal\",\"authors\":\"Chen Wu, Liudong Zhang, Yikang Fu, Guilong Fu, Degang Fu, Hui Li, Shuai Su, Huicheng Xie, Hui Tian, Ruijiang Wang, Kun Li\",\"doi\":\"10.3390/f15081392\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"2,4-dinitrophenol (2,4-DNP) is a new kind of pollutant that is highly toxic and difficult to be biodegraded. In this study, the feasibility of using exogenous growth regulator salicylic acid (SA) to improve the purification ability of Salix matsudana (S. matsudana) seedlings to 2,4-DNP stress was investigated by a hydroponic simulation experiment. The main research results are as follows: (1) After adding exogenous SA, a high concentration of SA (1000 mg·L−1) inhibited the photosynthetic process and the normal physiological process of the chlorophyll fluorescence system of S. matsudana seedlings to a certain extent. When adding a low concentration of SA (10 mg·L−1) to treat S. matsudana seedlings, all exogenous treatment groups could alleviate the stress of 2,4-DNP on the photosynthetic system and chlorophyll fluorescence system of S. matsudana seedlings, and 10 mg·L−1 SA (DNP + S1) was the best. (2) The addition of exogenous SA could alleviate the damage of 2,4-DNP to S. matsudana seedlings by enhancing the activity of its antioxidant enzymes to remove excess reactive oxygen species (ROS) in the body and reducing the level of membrane lipid peroxidation and the size of membrane damage. The treatment with 10 mg·L−1 SA had the best effect. (3) Exogenous low concentration of SA (10 mg·L−1) could alleviate the decline of biomass index of S. matsudana seedlings under 2,4-DNP stress, but a high concentration of SA (1000 mg·L−1) could not alleviate the 2,4-DNP toxicity of S. matsudana seedlings leaves. Exogenous SA could effectively alleviate the growth damage caused by 2,4-DNP stress on S. matsudana seedlings and increase the tolerance threshold range of S. matsudana seedlings to 2,4-DNP (8.81–33.78 mg·L−1). (4) Exogenous addition of SA could increase the removal percentage of 2,4-DNP in Salix matsudana seedlings. Among them, the removal percentage of Salix matsudana was the highest at 10 mg·L−1 SA, which was 1.46 times (5 days) and 1.19 times (10 days) higher than that of the DNP treatment group, respectively. 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引用次数: 0
摘要
2,4-二硝基苯酚(2,4-DNP)是一种剧毒且难以生物降解的新型污染物。本研究通过水培模拟实验,探讨了利用外源生长调节剂水杨酸(SA)提高松花丹(Salix matsudana)幼苗对 2,4-DNP 胁迫净化能力的可行性。主要研究结果如下(1)添加外源 SA 后,高浓度 SA(1000 mg-L-1)在一定程度上抑制了马尾松幼苗的光合过程和叶绿素荧光系统的正常生理过程。当添加低浓度 SA(10 mg-L-1)处理 S. matsudana 幼苗时,所有外源处理组均能缓解 2,4-DNP 对 S. matsudana 幼苗光合系统和叶绿素荧光系统的胁迫,其中以 10 mg-L-1 SA(DNP + S1)效果最好。(2)添加外源 SA 可通过增强其抗氧化酶的活性来清除体内过量的活性氧(ROS),降低膜脂过氧化水平和膜损伤程度,从而减轻 2,4-DNP 对松花菜幼苗的伤害。用 10 mg-L-1 SA 处理的效果最好。(3)外源低浓度SA(10 mg-L-1)可缓解2,4-DNP胁迫下松花菜幼苗生物量指数的下降,但高浓度SA(1000 mg-L-1)不能缓解2,4-DNP对松花菜幼苗叶片的毒性。外源 SA 能有效缓解 2,4-DNP 胁迫对松花菜幼苗的生长伤害,提高松花菜幼苗对 2,4-DNP 的耐受阈值范围(8.81-33.78 mg-L-1)。(4) 外源添加 SA 可提高沙柳幼苗对 2,4-DNP 的去除率。其中,SA 为 10 mg-L-1 时,Salix matsudana 的去除率最高,分别是 DNP 处理组的 1.46 倍(5 天)和 1.19 倍(10 天)。总的来说,当 SA 达到 10 mg-L-1 时,沙柳的光合生产力最高,沙柳对废水中 2,4-DNP 的净化效果最好。
Exogenous Salicylic Acid Alleviates Physiological Stress in Salix matsudana Seedlings and Increases 2,4-Dinitrophenol Removal
2,4-dinitrophenol (2,4-DNP) is a new kind of pollutant that is highly toxic and difficult to be biodegraded. In this study, the feasibility of using exogenous growth regulator salicylic acid (SA) to improve the purification ability of Salix matsudana (S. matsudana) seedlings to 2,4-DNP stress was investigated by a hydroponic simulation experiment. The main research results are as follows: (1) After adding exogenous SA, a high concentration of SA (1000 mg·L−1) inhibited the photosynthetic process and the normal physiological process of the chlorophyll fluorescence system of S. matsudana seedlings to a certain extent. When adding a low concentration of SA (10 mg·L−1) to treat S. matsudana seedlings, all exogenous treatment groups could alleviate the stress of 2,4-DNP on the photosynthetic system and chlorophyll fluorescence system of S. matsudana seedlings, and 10 mg·L−1 SA (DNP + S1) was the best. (2) The addition of exogenous SA could alleviate the damage of 2,4-DNP to S. matsudana seedlings by enhancing the activity of its antioxidant enzymes to remove excess reactive oxygen species (ROS) in the body and reducing the level of membrane lipid peroxidation and the size of membrane damage. The treatment with 10 mg·L−1 SA had the best effect. (3) Exogenous low concentration of SA (10 mg·L−1) could alleviate the decline of biomass index of S. matsudana seedlings under 2,4-DNP stress, but a high concentration of SA (1000 mg·L−1) could not alleviate the 2,4-DNP toxicity of S. matsudana seedlings leaves. Exogenous SA could effectively alleviate the growth damage caused by 2,4-DNP stress on S. matsudana seedlings and increase the tolerance threshold range of S. matsudana seedlings to 2,4-DNP (8.81–33.78 mg·L−1). (4) Exogenous addition of SA could increase the removal percentage of 2,4-DNP in Salix matsudana seedlings. Among them, the removal percentage of Salix matsudana was the highest at 10 mg·L−1 SA, which was 1.46 times (5 days) and 1.19 times (10 days) higher than that of the DNP treatment group, respectively. Overall, when SA reached 10 mg·L−1, the photosynthetic productivity of S. matsudana was the highest, and S. matsudana had the best purification effect on 2,4-DNP in wastewater.
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