| 开顶式气室原位研究水稻汞富集对大气汞浓度升高的响应 |
| 摘要点击 1533 全文点击 1041 投稿时间:2015-01-15 修订日期:2015-03-24 |
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| 中文关键词 开顶式气室 气态单质汞 土壤汞 水稻 原位 |
| 英文关键词 open-top chamber GEM soil Hg rice in situ |
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| 中文摘要 |
| 采用开顶式气室熏气实验和土壤加汞培育实验,原位研究水稻各器官汞富集对大气汞质量浓度升高的响应关系. 结果表明,水稻根中汞含量与大气汞质量浓度无显著相关性(P>0.05),与土壤汞含量呈显著正相关(R=0.9988, P<0.05),表明水稻根中的汞主要来自于对土壤中汞的吸收累积. 水稻茎中汞含量随大气汞质量浓度的升高呈线性增加(RB=0.9646, RU=0.9831, P<0.05),且上部茎中汞含量高于下部茎; 茎下部汞含量随土壤汞含量的升高呈线性增加(R=0.9901, P<0.05),茎上部汞含量随土壤汞含量的升高呈二次拟合增加(R=0.9989, P<0.05),且下部茎汞含量高于上部茎,说明茎汞含量受土壤和大气汞浓度的共同影响. 水稻叶中汞含量与大气汞质量浓度呈显著正相关(R=0.9985, P<0.05),与土壤汞含量也有很好的线性关系(R=0.9983, P=0.0585),表明水稻从大气吸收的汞主要积累在叶片中,从土壤吸收的汞主要富集在根中并通过茎部向叶部传输. 利用实验建立的函数关系对水稻地上生物质中汞的大气来源估算,至少60%~94%和56%~77%水稻叶和上部茎中的汞来自大气,而大气对下部茎仅贡献8%~56%. 由此水稻地上部分生物质汞主要来自对大气汞的吸收,为区域大气汞的收支及汞循环模型提供理论依据. |
| 英文摘要 |
| In situ research was conducted on the response of mercury enrichment in rice organs to elevated gaseous elemental mercury (GEM) with open-top chambers (OTCs) fumigation experiment and soil Hg enriched experiment. The results showed that Hg concentrations in roots were generally correlated with soil Hg concentrations (R=0.9988, P<0.05) but insignificantly correlated with air Hg concentrations (P>0.05), indicating that Hg in rice roots was mainly from soil. Hg concentrations in stems increased linearly (RB=0.9646, RU=0.9831, P<0.05) with elevated GEM, and Hg concentrations in upper stems were usually higher than those in bottom stems in OTCs experiment. Hg concentrations in bottom stems were generally correlated with soil Hg concentrations (R=0.9901, P<0.05) and second-order polynomial (R=0.9989, P<0.05) was fitted for Hg concentrations in upper stems to soil Hg concentrations, and Hg concentrations in bottom stems were usually higher than those in upper stems in soil Hg enriched experiment, indicating the combining impact of Hg from air and soil on the accumulation of mercury in stems. Hg concentrations in foliage were significantly correlated (P<0.05) with air Hg and linearly correlated with soil Hg (R=0.9983, P=0.0585), implying that mercury in foliage was mainly from air and some of Hg in root from soil was transferred to foliage through stem. Based on the function in these filed experiments, it was estimated that at least 60%-94% and 56%-77% of mercury in foliage and upper-stem of rice was from the atmosphere respectively, and yet only 8%-56% of mercury in bottom-stem was attributed to air. Therefore, mercury in rice aboveground biomass was mainly from the atmosphere, and these results will provide theoretical basis for the regional atmospheric mercury budgets and the model of mercury cycling. |
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