一条水蛇用尾巴和身体在潮汐池里搜寻鱼的猎物

Q4 Agricultural and Biological Sciences
L. M. Botelho, Alexandro Kenor DA SILVA, Iberê Farina Machado, Ivan Sazima, E. Muscat
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引用次数: 0

摘要

蛇类用尾巴作为诱饵,在攻击距离内吸引潜在的猎物。尾鳍诱捕主要记录在Boidae, colbridae, Dipsadidae, Elapidae和Viperidae (Murphy et al., 1978;Sazima & Puorto, 1993;Sazima, 2006;Hagmant et al., 2008;Andrade et al., 2010)。为吸引鸟类而展示的精心的尾鳍诱饵的一个极端例子是,具有毒蛇特征的pseudocerasturarachnoides,其尾端与蜘蛛非常相似(Fathinia et al., 2015)。有一两种蛇用尾巴把潜在的猎物从它们的藏身之处冲出来,使它们移动。这个动作吸引了蛇的注意,它试图抓住逃跑的猎物。这种戳戳行为被记录在dipsadid hydrodynastgigas (str ssmann & Sazima, 1990)中,并被建议用于dipsadid Echinanthera undulata (Gomes & Marques, 2012)。我们在这里描述了另一种狩猎策略,用尾巴和身体从潮汐池的缝隙中冲洗鱼的猎物,这是由disadid水蛇Erythrolamprus militaris展示的。戳尾不同于只使用尾巴进行扫描(str ssmann & Sazima, 1990)。这种水蛇在南美洲分布广泛,在巴西、厄瓜多尔、玻利维亚、巴拉圭、阿根廷和乌拉圭都有记录(Giraudo, 2006)。它生活在不同的栖息地,包括湖泊、河流、沼泽、红树林,偶尔也会有潮池和海滩(Sazima & Haddad, 1992;Marques & Souza, 1993;Duarte et al., 2014; Rocha-Lima et al., 2018;Van der Burg, 2020)。Erythrolamprus militaris是一种机会主义和多面手的捕食者,捕食鱼类、两栖动物、爬行动物和小型哺乳动物(Van der Burg, 2020;Eisfeld等人,2021),甚至食腐动物也会将公路上被杀死的青蛙撕成碎片(Gomes等人,2017)。我们于2022年10月30日12:25 h在巴西帕拉纳瓜的Ilha do Mel海滩(25°33′47.2”S, 48°19′06.5”W, WGS84, 9 m a.s.l.)记录了一只E. miliaris个体。它在潮汐池中寻找猎物,并展示了一种狩猎策略,我们称之为“尾巴和身体扫描”。事件的顺序可以在我们制作的视频中看到它的行为(BHS视频,2023)。当蛇的头露出水面时(图1A),它开始用尾巴和身体的一部分摆动动作来扫描潮汐池。这次扫描发现了一条褶鳍虾虎鱼(Bathygobius soporator),这条蛇以前没有发现过(图1B)。扫描反复扰乱了鱼,它从一个地方游到另一个地方,寻找一个安全的地方。在扫描的某个时刻,虾虎鱼游向水池的较高位置,很快被蛇发现并捕获(图1C)。这条蛇抓住猎物,把它带到一块露出水面的岩石上(图1D),在那里它先吞下了尾巴。从我们第一次在潮池中看到蛇开始,上述事件持续了大约1分15秒。这是第一篇关于棘足鼠尾巴和身体扫描行为的报道,据我们所知,这也是任何一篇关于棘足鼠尾巴和身体扫描行为的报道。《爬行动物通报》165,2023:39-40
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A water snake uses the tail and body to scan for fish prey in tide pools
S snake species use the tail as a lure to attract potential prey within striking distance. Caudal luring is mostly recorded for the Boidae, Colubridae, Dipsadidae, Elapidae, and Viperidae (Murphy et al., 1978; Sazima & Puorto, 1993; Sazima, 2006; Hagmant et al., 2008; Andrade et al., 2010). An extreme example of elaborate caudal luring displayed to attract birds is that of the viperid Pseudocerastes urarachnoides, whose tail tip bears an extraordinary resemblance to a spider (Fathinia et al., 2015). One or two snake species use the tail to flush potential prey from their shelters and cause them to move. The movement attracts the attention of the snake, which attempts to catch the fleeing prey. This poking behaviour is recorded for the dipsadid Hydrodynastes gigas (Strüssmann & Sazima, 1990) and is suggested for the dipsadid Echinanthera undulata (Gomes & Marques, 2012). We describe here another hunting tactic scanning with the use of tail and body to flush fish prey from crevices in tide pools, displayed by the dipsadid water snake Erythrolamprus miliaris. Tail poking differs from scanning by the use of tail only (Strüssmann & Sazima, 1990). This water snake has a wide distribution in South America, recorded from Brazil, Ecuador, Bolivia, Paraguay, Argentina, and Uruguay (Giraudo, 2006). It dwells in different habitats including lakes, rivers, swamps, mangroves, and occasionally tide pools and beaches (Sazima & Haddad, 1992; Marques & Souza, 1993; Duarte et al., 2014, Rocha-Lima et al., 2018; Van der Burg, 2020). Erythrolamprus miliaris is an opportunistic and generalist feeder, preying on fish, amphibians, reptiles, and small mammals (Van der Burg, 2020; Eisfeld et al., 2021), and even scavenges on roadkill frogs smashed to pieces (Gomes et al., 2017). We recorded an E. miliaris individual on 30 October 2022, at 12:25 h at the Pontinha beach (25° 33’47.2” S, 48° 19’06.5” W, WGS84, 9 m a.s.l.), in the Ilha do Mel, Paranaguá, Paraná, Brazil. It searched for prey in a tide pool and displayed a hunting tactic we are calling ‘tail and body scanning’. The sequence of events can be viewed on the video we made of its behaviour (BHS video, 2023). The snake had its head out of the water (Fig. 1A) when it began to make waving movements with the tail and part of the body to scan the tide pool. This scanning flushed out a frillfin goby Bathygobius soporator, which was previously undetected by the snake (Fig. 1B). The scanning repeatedly disturbed the fish, which swam from one spot to another of the tide pool looking for a safe place. At one moment of the scanning, the goby swam towards a higher point of the pool, being quickly detected by the snake and was caught (Fig. 1C). The snake held the prey and carried it to a rock out of the water (Fig. 1D), where it was swallowed tail first. From our first sighting of the snake in the tide pool, the above-described event lasted about 1 min 15 s. This is the first report of tail and body scanning behaviour for E. miliaris and, to our knowledge, the first one by any The Herpetological Bulletin 165, 2023: 39–40
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来源期刊
Herpetological Bulletin
Herpetological Bulletin Agricultural and Biological Sciences-Animal Science and Zoology
CiteScore
0.60
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0.00%
发文量
61
期刊介绍: The Herpetological Bulletin is produced quarterly and publishes, in English, a range of articles related to herpetology. These include full length papers, book reviews, letters from readers, society news and other items of general herpetological interest. Emphasis is placed on natural history, captive breeding and husbandry, veterinary and behavioural articles
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