[科拉亚北极地区森林生态系统对工业大气排放减少的响应]。

Pub Date : 2016-03-01
G N Koptsik, S V Koptsik, I E Smirnova, A D Kudryavtseva, K A Turbabina
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引用次数: 0

摘要

尽管大气排放有所减少,但Severonickel企业影响区内森林生态系统的现状仍然反映了人为偏离阶段的全谱。随着与企业的距离越来越近,森林群落的结构功能变化表现为苔藓和地衣的减少,灌木被禾科取代,林分和林下条件恶化并逐渐死亡,从而形成人为荒地。由于暴露于污染物,冷杉树皮和针叶的元素组成发生变化,包括镍、铜、钴、砷和硫的积累,以及钙、镁、锰和锌的消耗。相关分析和多参数分析表明,随着离污染源的距离越来越近,杉木各器官中重金属的积累与根系土壤中重金属浓度的增加密切相关。与背景冷杉林相比,企业附近露天冷杉林地地面凋落物中有效化合物镍和铜的浓度增加了30-60倍,分别达到280和130 mg/kg。随着人为压力的增加,凋落物的有效钙、镁、钾、锰和锌逐渐枯竭。首次追踪了杉林植被与土壤状态对大气排放减少的耦合动态响应。对减少最明显的反应似乎是影响区内小叶植物幼体生长的发育。近十年来,冷杉针叶和地面凋落物中镍的浓度降低了1.2-2倍。至于铜,其在针叶中的浓度降低了2-4倍,但在地面凋落物中的浓度保持不变。与20世纪80 ~ 90年代边缘最大排放期相比,企业附近冷桦林针叶中镍和铜的浓度分别降低了2.5 ~ 6倍和7 ~ 12倍。冷杉针叶中重金属浓度的降低主要与它们从大气中排放的减少有关,尽管它们在过去几十年中在土壤中积累的储藏量仍然相当丰富。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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[The response of forest ecosystems to reduction in industrial atmospheric emission in the Kola Subarctic].

In spite of reduction in atmospheric emission, current state of forest ecosystems within the impact zone of Severonickel enterprise still reflects the entire spectrum of anthropogenic digression stages. As the distance to the enterprise grows shorter, structural-functional changes in forest communities are manifested in dropping out of mosses and lichens, replacement of undershrub by Poaceae, worsening of timber stand and undergrowth conditions and their progressive dying-off, and, as a result, in forming of anthropogenic wastelands. Alterations of elemental composition of fir bark and needles due to exposure to pollutants consist in accumulation of nickel, copper, cobalt, arsenic, and sulfur along with depletion of calcium, magnesium, manganese, and zinc. According to the data obtained by correlation and multiparameter analyses, the accumulation of heavy metals in fir organs is closely related to the increasing of their concentration in root-inhabited soil layers as the distance to the pollution source is getting shorter. By comparison with the background fir grove, concentration of available compounds of nickel and copper in the ground litter of open fir-birch woodland near the enterprise increases by the factor of 30-60, reaching up 280 and 130 mg/kg respectively. With the increasing of anthropogenic stress, the ground litter becomes depleted of available calcium, magnesium, potassium, manganese, and zinc. For the first time, the coupled dynamics of vegetation and soil state in fir forests as a response to reduction in atmospheric emission is tracked back. The most distinguishable response to the reduction appears to be the development of small-leaved plants' young growth within the impact zone. For the last decade, concentration of nickel in fir needles and in ground litter has reduced by the factor of 1.2-2. As for copper, its concentration in needles has reduced by the factor of 2-4, though in ground litter remains the same. By comparison with the period of maximum emission at the edge of 1980-90s, in open fir-birch woodland near the enterprise the concentration of nickel and copper in needles has reduced by the factors of 2.5-6 and 7-12 respectively. This reduction of heavy metals concentration in fir needles is related mainly to diminishing of their emission from the atmosphere, although their stores, accumulated in soil during previous decades, still remain quite plentiful.

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