种稻配施改良剂对苏打盐碱土—水—作物系统氟迁移的影响

郑玉昕<sup>1</sup>; 赵兴敏<sup>1</sup>; 朱孟龙<sup>2</sup>; 刘金华<sup>1</sup>; 王鸿斌<sup>1</sup>; 胡吉蒙<sup>1</sup>; 黄鑫<sup>1</sup>; 吴攀<sup>1</sup>

文章摘要

郑玉昕, 赵兴敏, 朱孟龙, 刘金华, 王鸿斌, 胡吉蒙, 黄鑫, 吴攀.种稻配施改良剂对苏打盐碱土—水—作物系统氟迁移的影响[J].水土保持学报,2023,37(2):385~391

种稻配施改良剂对苏打盐碱土—水—作物系统氟迁移的影响

Effects of Rice Planting with Amendments on Fluorine Migration in Soda Saline-Alkali Soil-Water-Crop System

投稿时间：2022-07-14

DOI：10.13870/j.cnki.stbcxb.2023.02.045

中文关键词: 苏打盐碱土水稻改良剂氟释放氟迁移湛水层

英文关键词: soda saline-alkali soil rice amendment fluorine release fluorine migration Zhanjiang aquifer

基金项目:吉林省自然科学基金项目(20210101095JC);吉林省教育厅科学研究项目(JJKH20210340KJ)

作者	单位	E-mail
郑玉昕¹, 赵兴敏¹, 朱孟龙², 刘金华¹, 王鸿斌¹, 胡吉蒙¹, 黄鑫¹, 吴攀¹	1. 吉林农业大学资源与环境学院, 农业农村部盐碱土改良与利用(东北内陆盐碱地)重点实验室, 长春 130118 2. 临沂市生态环境局临沭县分局, 山东临沭 276700	zhaoxingmin0704@163.com;liujinhua80@126.com

摘要点击次数: 42

全文下载次数: 58

中文摘要:

为探讨化学改良剂对苏打盐碱土稻田生态系统中氟迁移的影响,采用盆栽试验,研究硫酸铝、脱硫石膏和有机复合改良剂作用下的土壤各形态氟含量变化,以及土壤氟向水体和地上部植株的迁移情况。结果表明,化学改良剂影响苏打盐碱土—水—作物系统中氟的迁移及生物有效性。种稻后各改良剂处理的土壤水溶态氟变化范围为8.33~20.90 mg/kg,与对照相比,均呈下降趋势,其中硫酸铝处理下降得最多,降低60.15%;可交换态氟和有机束缚态氟呈增加趋势,其中有机复合改良剂处理增加得最多,分别为79.54%和86.37%;种稻前后铁锰氧化物结合态氟变化较复杂,其中硫酸铝处理无显著变化,对照处理和有机复合改良剂处理分别增加19.05%和42.03%,而脱硫石膏处理下降22.79%;残余态氟和总氟含量呈下降趋势,其中有机复合改良剂处理的残余态氟降低得最多,为35.50%,硫酸铝处理的总氟降低得最少,为10.47%,其余处理降幅为12.50%~12.55%。在水稻种植过程中,土壤中氟向水中累积释放总量为对照＞有机复合改良剂＞脱硫石膏＞硫酸铝,与对照相比,其他3个处理分别降低3.25%,5.13%和5.19%。土壤中氟向水稻茎叶和稻谷的迁移总量依次为有机复合改良剂＞脱硫石膏＞硫酸铝,单位土壤的迁移量分别为0.44,0.40,0.25 mg/kg,迁移率分别为0.16%,0.15%和0.09%。相关分析表明,土壤中氟向水中释放总量和向水稻茎叶迁移总量均与土壤pH、可溶盐和各形态氟含量呈显著的正相关关系,而水稻稻谷的含氟量不受土壤性质影响。由于硫酸铝处理的水稻茎叶对氟的吸收量显著低于其他处理,并且土壤水溶态氟含量及土壤向水中释放的氟总量也较少,所以硫酸铝改良剂具有较好地降低苏打盐碱稻田土氟迁移和生物有效性的能力。

英文摘要:

In order to study the effect of chemical amendments on fluorine migration in the paddy ecosystem of soda saline-alkali soil,pot experiments were conducted to study the changes of fluorine content in various forms of soil and the migration of soil fluorine to water and aboveground plants under the effects of aluminum sulfate,desulfurized gypsum and organic compound modifiers.The results showed that chemical amendments would affect the migration and bioavailability of fluorine in soda saline-alkali soil-water-crop system.After planting rice,the variation of soil water-soluble fluorine in each amendment treatment ranged from 8.33 to 20.90 mg/kg,which showed a downward trend compared with the control,of which aluminum sulfate treatment decreased the most,by 60.15%;Exchangeable fluorine and organic bound fluorine showed an increasing trend,among which the organic compound modifier treatment increased the most,by 79.54% and 86.37% respectively;The changes of iron manganese oxide bound fluorine before and after rice planting were complex,among which aluminum sulfate treatment had no significant change,the control treatment and organic compound modifier treatment increased by 19.05% and 42.03% respectively,while desulfurization gypsum treatment decreased by 22.79%;The contents of residual fluorine and total fluorine showed a downward trend,among which the residual fluorine decreased the most by 35.50% under the organic compound modifier treatment,the total fluorine decreased the least by 10.47% under the aluminum sulfate treatment,and the other treatments decreased by 12.50% to 12.55%.In the process of rice planting,the total cumulative released amount of fluorine from soil to water was control > organic compound modifier > desulfurization gypsum > aluminum sulfate.Compared with the control,the other three treatments decreased by 3.25%,5.13% and 5.19% respectively.The total migration amount of fluorine in soil migrating to rice stems,leaves and paddy was in the order of organic compound modifier > desulfurized gypsum > aluminum sulfate,the migration amount per unit soil was 0.44,0.40 and 0.25 mg/kg respectively,and the migration rates were 0.16%,0.15% and 0.09% respectively.The results of correlation analysis showed that the total amount of fluorine released from soil to water and transferred to rice stems and leaves in soil were positively correlated with soil pH,soluble salt and various forms of fluorine content,while the fluorine content of rice paddy was not affected by soil properties.Because the absorption of fluorine by rice stems and leaves under the aluminum sulfate treatment was significantly lower than that of other treatments,and the content of water-soluble fluorine in soil and the total amount of fluorine released from soil to water were also less,aluminum sulfate modifier had a better ability to reduce fluorine migration and bioavailability in soda saline-alkali paddy soil.

查看全文查看/发表评论下载PDF阅读器

关闭