ВПЛИВ Zn2+ ВОДНОГО СЕРЕДОВИЩА НА ДОБОВУ ЦИКЛІЧНІСТЬ ДИХАННЯ АЛОВИДІВ PLANORBARIUS CORNEUS S. L. (MOLLUSCA, GASTROPODA, PLANORBIDAE)

Scientific Issue Ternopil Volodymyr Hnatiuk National Pedagogical University. Series: Biology Pub Date : 2022-11-23 DOI:10.25128/2078-2357.22.3.5

Yu. V. Babych

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Abstract

We investigated the impact of the different concentrations of Zn2+ in the water (in the 0.5 MPL – 3 MPL range) on the chronological features of lung and direct diffusive respiration in representatives of superspecies complex of ramshorns Planorbarius corneus s. l. (“eastern” and “western” allospecies) from the Ukrainian river network. They have a bimodal respiration. Atmospheric oxygen goes into their true lungs through the breathing pore – pneumostome, – during the periodical rises up to the water surface tension film. And the oxygen soluble in the water is acquired by the osmosis through the epithelial body coverings and the surface of adaptive gill. Both ways are almost equally important for the oxygen supply of mollusks’ organisms. Zn2+ ions are the powerful toxins of local effect for ramshorns. The excess of the MPL may lead to the impairment of stable homeostasis. Both P. corneus allospecies s. l. have clearly expressed diurnal cyclicality of their lung respiration (in the “day-night” rhythm). They perform 1.2–1.3 times more “inhales” during the day with the shorter (1.3–1.4 times) intervals. This apparently is the consequence of physiological activity increasing in the period of their most intensive life-giving metabolic processes occurring. Under the 0.5 MPL of Zn2+ there were no statistically significant changes in lung and direct diffusive respirations indexes (comparing to the control) in both allospecies during the latent phase of their intoxication process. “Inhales” during the day were 1.1 time longer than during the night in experimental animals. This let mollusks replenish the amount of oxygen they underreceived due to the decreased number of night “inhales”. Under MPL Zn2+ level the respirational indexes of ramshorns (number, length and volume of “inhales” and intervals between them) increased in average 1.1 times. Their feeding and moving behaviors visibly activated, which promoted the increasing of the daily frequency of their respiration rhythm. Under the 2 MPL concentration of Zn2+ there was further significant increasing (p

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我们研究了水中不同浓度的Zn2+(在0.5 MPL - 3 MPL范围内)对来自乌克兰河网的ramshorns Planorbarius corneus s.l .(“东部”和“西部”异种)超种复群代表的肺和直接扩散呼吸的时间特征的影响。它们有双峰呼吸。大气中的氧气通过呼吸孔进入它们真正的肺部，在周期性上升到水面张力膜的过程中。水中的氧溶物是通过上皮体覆盖层和适应性鳃表面的渗透作用获得的。这两种方式对软体动物有机体的氧气供应几乎同样重要。Zn2+离子是一种强效的局部毒素。MPL的过量可能导致稳定的体内平衡受损。两种异种角质瘤都清楚地表达了其肺呼吸的昼夜周期性(“昼夜”节律)。他们在白天进行1.2-1.3倍的“吸入”，间隔时间较短(1.3-1.4次)。这显然是在它们最密集的赋予生命的代谢过程发生期间生理活动增加的结果。在0.5 MPL Zn2+浓度下，两种异体动物在中毒潜伏期肺和直接弥漫性呼吸指标与对照组相比均无显著变化。实验动物白天的“吸入”时间是夜间的1.1倍。这让软体动物补充了由于夜间“吸入”次数减少而缺乏的氧气量。在MPL Zn2+水平下，羊的呼吸指标(“吸入”次数、“吸入”时长、“吸入”量及间隔时间)平均增加1.1倍。它们的进食和移动行为明显被激活，这促进了它们每天呼吸频率的增加。Zn2+在2 MPL浓度下进一步显著升高(p

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Scientific Issue Ternopil Volodymyr Hnatiuk National Pedagogical University. Series: Biology

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