Suppression behavior increased by telencephalic lesions in the teleost, Macropodus opercularis

Behavioral biology Pub Date : 1978-09-01 DOI:10.1016/S0091-6773(78)92866-3

Roger E. Davis, Robin Chase Reynolds, Anne Ricks

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引用次数: 13

Abstract

Previous experiments in several teleost species suggested that defensive reactions are increased following extensive bilateral ablation of the telencephalon. We investigated the effects of varied telencephalic lesions on the reaction of fish to handling and placement in an unfamiliar tank. When intact or sham-operated males were handled, they showed increased rates of surfacing for air. Males which were previously administered bilateral (TLX) or unilateral (UTLX) telencephalon ablation suppressed activity following handling. TLX lesions resulted in the greatest suppression reactions; in addition, the TLX males showed slightly decreased rates of activity prior to handling. Extensive, bilateral lesions of the dorsal telencephalon did not induce the suppression reaction in most males. Based on the results, we propose that one of the functions of the teleost telencephalon is to modulate defensive behavior. The structures which influence defensive behavior appear to be located in the ventral and possibly the rostrodorsal area of the telencephalon.

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硬骨鱼的抑制行为因端脑损伤而增加

先前对几种硬骨鱼的实验表明，在双侧端脑广泛消融后，防御反应增加。我们研究了不同的端脑损伤对鱼对处理和放置在不熟悉的水箱中的反应的影响。当完整的或假手术的雄性被处理时，它们显示出上升的空气率。先前接受双侧(TLX)或单侧(UTLX)端脑消融治疗的男性在处理后抑制了活动。TLX病变抑制反应最大;此外，TLX雄性在处理前的活动率略有下降。在大多数男性中，广泛的双侧背端脑损伤不会引起抑制反应。基于这些结果，我们提出硬骨鱼端脑的功能之一是调节防御行为。影响防御行为的结构似乎位于端脑的腹侧和可能的背侧区域。

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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Behavioral biology

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