Anne Helene Fostier, David Amouroux, Emmanuel Tessier, José Lucas Martins Viana, Larissa Richter
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引用次数: 0
摘要
亚马逊雨林土壤和植被中的甲基汞研究仍然很少。因此,本研究的目的是确定凋落物和表层土壤中总汞(THg)和甲基汞(MeHg)的浓度,通过凋落物沉积的甲基汞(MeHg),以及亚马逊雨林森林火灾期间甲基汞的命运。在规定的森林火灾之前和之后分别对凋落物、土壤(0-1、1-2和2-5 cm)和灰分进行采样。结果表明,凋落物中[THg](34±8 ng g -1)和[MeHg](0.16±0.03 ng g -1)值较低,相应的MeHg凋落物通量估计值较低(0.13±0.03 μgm -2 yr -1),这可能是由于野外试验中潜在的损失而被低估的。灰烬中[THg]为23±8 ng g -1, [MeHg]为0.11±0.04 ng g -1。尽管在火灾中,生物质中含有的Hg有很大一部分丢失了,但[MeHg]/[THg]的比值不受火灾的影响,凋落物和灰分中的[MeHg]/[THg]比值相同(约0.5%)。土壤中3层[THg] BB平均值为149±12 ng g -1, [MeHg]平均值在0.8 ~ 1.0 ng g -1之间。森林火灾仅影响表层土壤,0 ~ 1 cm层[THg]和[MeHg]显著降低。同样,表层土壤中[MeHg]/[THg]比值的降低表明MeHg比其他汞更容易排放或降解。
Methylmercury content in soil and litter from the Amazonian rainforest and its potential fate during forest fires
Methylmercury in soils and vegetation from the Amazonian rainforest is still poorly studied. Hence, the aim of this work was to determine the total mercury [THg] and methylmercury [MeHg] concentrations in litter and surface soil, MeHg deposition via litterfall, and the MeHg fate during a forest fire in the Amazonian rainforest. Sampling of litter, soil (0–1, 1–2, and 2–5 cm), and ash was carried out before (BB) and after (AB) a prescribed forest fire. The results showed a low [THg] (34 ± 8 ng g -1 ) and [MeHg] (0.16 ± 0.03 ng g -1 ) value in litter, with a correspondingly low estimate of the MeHg litterfall flux (0.13 ± 0.03 μgm -2 yr -1 ) which has been probably underestimated due to potential losses during the field experiment. In ashes, [THg] and [MeHg] values were 23 ± 8 ng g -1 and 0.11 ± 0.04 ng g -1 , respectively. Although a significant part of Hg contained in the biomass was lost during the fire, the [MeHg]/[THg] ratio was not affected by it and was the same in litterfall and ash (∼0.5%). In soil, the average [THg] BB value was 149 ± 12 ng g -1 in the three layers and [MeHg] was between 0.8 and 1.0 ng g -1 . The forest fire only affected the superficial soil, with a significant decrease of [THg] and [MeHg] in the 0-1 cm layer. Similarly, the decrease of the [MeHg]/[THg] ratio in the surface soil layer suggested that MeHg was more readily emitted or degraded than the other Hg species present.
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