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Resistance of Klebsormidium flaccidum (Kützing) Silva, Mattox & Blackwell (Streptophyta) to heavy metals

NBU Journal of Plant Sciences Pub Date : 1900-01-01 DOI:10.55734/nbujps.2009.v03i01.007
L. Gaysina, E. S. Purina, S. M. Safiullina, G. Bakieva
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引用次数: 1

Abstract

The influence of copper (1-10-10-2 M/L), nickel (1-10-6-1 M/L) and manganese (Ix10-1-1 M/L) chlorides on morphology of filaments and cells in Klebsormidium flaccidum (Kützing) Silva, Mattox & Blackwell (Streptophyta) were studied. Concentrations of CuCl2 (1x10-5 M/L). NiCl2 (lx10-3 M/L) and MnCl2 (Ix10-1 M/L) caused different morphological aberrations in algal cells, such as granulation, changing of cell form, damage of chloroplast, and complete destruction of the cell content. Heavy metals resulted in a decrease of K. flaccidum filament length. CuCl2 caused increase of the cell length. K. flaccidum aplanospores formation occurred at a MnCl2 concentration of 1x10-1 M/L.
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flac意外克雷伯菌(k tzing) Silva, Mattox & Blackwell(链菌科)对重金属的抗性
研究了铜(1-10-10-2 M/L)、镍(1-10-6 M/L)和锰(Ix10-1-1 M/L)氯化物对flacacium (k tzing) Silva、Mattox和Blackwell(链藻目)菌丝和细胞形态的影响。CuCl2浓度(1 × 10-5 M/L)。NiCl2 (lx10-3 M/L)和MnCl2 (Ix10-1 M/L)在藻类细胞中引起不同的形态畸变,如肉芽形成、细胞形态改变、叶绿体损伤、细胞内容物完全破坏等。重金属对黄花金丝长度的影响较大。CuCl2使细胞长度增加。在MnCl2浓度为1 × 10-1 M/L的条件下,无平面层扁豆孢子形成。
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NBU Journal of Plant Sciences
NBU Journal of Plant Sciences
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