环境丰富增加蛇的脑容量。

IF 2.3 4区医学 Q3 NEUROSCIENCES

Journal of Comparative Neurology Pub Date : 2025-03-21 DOI:10.1002/cne.70043

Gokulan Nagabaskaran, Vijay Moonilal, Morgan Skinner, Noam Miller

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引用次数: 0

摘要

环境富集对哺乳动物和鸟类的影响已经有了充分的记录，但对爬行动物的研究却很少。因为蛇在圈养环境中很常见，无论是作为宠物还是在研究/商业设施中，探索它们对标准圈养环境的反应是至关重要的。在这里，我们研究了环境富集对一种流行的宠物蛇——西部猪鼻蛇（Heterodon nasicus）大脑发育的影响。猪鼻蛇（n = 15）在浓缩或标准环境中单独饲养一年，然后采集它们的大脑并使用MRI成像。我们发现，与普通蛇相比，富集蛇的脑容量明显更大，尤其是在大脑后部区域。此外，我们还观察到不同性别的大脑投资：当蛇长得更大时，雄性的大脑半球相对更大，而雌性的大脑后部区域则更大。这些结果表明，环境丰富对促进蛇的健康大脑发育至关重要，而且蛇的大脑可塑性与在哺乳动物和鸟类中观察到的非常相似。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Environmental Enrichment Increases Brain Volume in Snakes

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Environmental Enrichment Increases Brain Volume in Snakes

The effects of environmental enrichment have been well documented in mammals and birds, but less work has focused on reptiles. Because snakes are common in captivity, both as pets and in research/commercial facilities, it is critical to explore how they react to standard captive housing. Here, we examined the effects of environmental enrichment on brain development in a popular pet snake species, the western hognose snake (Heterodon nasicus). Hognose snakes (n = 15) were individually housed for one year in either enriched or standard environments before their brains were harvested and imaged using MRI. We found that enriched snakes had significantly larger brain volumes compared to standard snakes, most prominently in posterior brain regions. In addition, we observed sex-specific brain investments: as snakes grew larger, males displayed relatively larger cerebral hemispheres, and females displayed larger posterior brain regions. These results suggest that environmental enrichment is critical to encouraging healthy brain development in snakes and that snake brain plasticity is very similar to that observed in mammals and birds.

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来源期刊

Journal of Comparative Neurology 医学-动物学

CiteScore

5.80

自引率

8.00%

发文量

158

审稿时长

3-6 weeks

期刊介绍： Established in 1891, JCN is the oldest continually published basic neuroscience journal. Historically, as the name suggests, the journal focused on a comparison among species to uncover the intricacies of how the brain functions. In modern times, this research is called systems neuroscience where animal models are used to mimic core cognitive processes with the ultimate goal of understanding neural circuits and connections that give rise to behavioral patterns and different neural states. Research published in JCN covers all species from invertebrates to humans, and the reports inform the readers about the function and organization of nervous systems in species with an emphasis on the way that species adaptations inform about the function or organization of the nervous systems, rather than on their evolution per se. JCN publishes primary research articles and critical commentaries and review-type articles offering expert insight in to cutting edge research in the field of systems neuroscience; a complete list of contribution types is given in the Author Guidelines. For primary research contributions, only full-length investigative reports are desired; the journal does not accept short communications.