西伯利亚松鸦繁殖后期黏菌的贮藏

Q4 Agricultural and Biological Sciences
Boris Petrov Nikolov, I. Hristova
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The hoarded items (food boli) had the size of a chewing gum (about 2 cm long) and were fixed in concealed places, in most cases among hanging lichens (Usnea sp.) on side branches. The food boli were stored on trees (mostly Norway spruce Picea abies and birch Betula, but also Scots pine Pinus sylvestris) within a radius of 10–15 m from the mould. The nearest three stored items were fixed 2–5 m away (mean 3 m), at 1.9–4.05 m above the ground (mean 3.15 m) and on Norway spruce (2.9 m high) and birches (7 and 9 m). It is evident that food items were fixed at roughly the mid-height of trees – the above-mentioned three at about 45– 65.5% (mean 53.5%) of total tree height. Before starting storing the food, both Siberian Jays were observed to chase away persistently 1–2 Redwings Turdus iliacus. It remains unclear whether the jays were provoked because of the fact that Redwings found the slime mould first or just because of their presence in the jays’ territory. The marked tendency in Siberian Jays to store food is well known (Cramp & Perrins 1994). This type of behaviour occurs mainly in spring, autumn and winter (Blomgren 1971, Andreev 1982, Pravosudov 1984), very rarely in summer. Most of the young are already fledged by the end of May or in early June, and a month later they usually feed independently (Cramp & Perrins 1994). Hence, the observed behaviour of food storing in July could be regarded either as supporting the young birds still inhabiting the territory or as a beginning of the intensive food storing in autumn or even as quick utilization of large but perishable food resource. As an adaptation for living in the boreal regions in winter the Siberian Jay, as well as its close relative the Grey Jay Perisoreus canadensis, have sublingual salivary glands producing saliva, which is used to form food balls and to make them stick to hiding places (Bock 1961, Dow 1965, Andreev 1982, Pravosudov 1984). In contrast to the cold season, in spring the food is carried in bill and not treated with saliva (Pravosudov 1984). In our case the food boli were completely permeated by and coated with saliva, otherwise the extremely soft and fragile plasmodium of the slime mould could not be stored as well-formed food items. In the past, the slime moulds were treated taxonomically as part of the fungi but currently they fall in another kingdom that includes the protozoans (Cavalier-Smith 2003). Although fungi (“true fungi”) have been recorded in the diet of the Siberian Jay (Novikov 1952, Vorobiev 1963, Andreev 1982), no references dedicated on feeding of this bird species on slime moulds were found. However, the Gray Jay has once been reported ”feeding on a large yellow plasmodium of the slime mold Fuligo septica in the Northern Cascades of Washington” (Sutherland & Crawford 1979). Data on the relationships between birds and slime moulds are extremely limited. 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引用次数: 0

摘要

2008年7月8日,在位于瑞典拉普兰最南端的Björnlandet国家公园,人们观察到了一对西伯利亚鸦。观测是在下午晚些时候(当地时间17 - 17:30)在湖北部约一公里处Angsjön进行的。研究人员记录了两只鸟储存食物的情况,这些食物来自一种黏液霉菌的亮黄色疟原虫(显示鸟类行为的视频片段可以在http://www.fotobiota.com/ video_inUK.php?spec=53&clip=143上观看)。一只接一只,有时是一起,松鸦反复来到躺在地上的潮湿和严重腐烂的树干上,支撑着黏菌,把它们的舌下袋装满霉菌,然后把食物固定在邻近的树上(图1)。囤积的食物(食物堆)有口香糖大小(约2厘米长),被固定在隐蔽的地方,大多数情况下是挂在侧枝上的地衣(Usnea sp.)上。食物堆被储存在距离霉菌10-15米半径范围内的树木上(主要是挪威云杉云杉和桦树,但也有苏格兰松松)。最近的三种储存物品固定在距地面2-5米(平均3米),离地面1.9-4.05米(平均3.15米),挪威云杉(2.9米)和桦树(7米和9米)上。很明显,食物物品固定在树木的中等高度-上述三种约占树木总高度的45 - 65.5%(平均53.5%)。在开始储存食物之前,观察到这两只西伯利亚松鸦一直在赶走1-2只红翅鸫。目前还不清楚是红翼鸟先发现了黏菌,还是仅仅因为它们出现在了红翼鸟的领地。西伯利亚松鸦储存食物的显著倾向是众所周知的(Cramp & Perrins 1994)。这种行为主要发生在春季、秋季和冬季(Blomgren 1971, Andreev 1982, Pravosudov 1984),很少发生在夏季。大多数幼鸟在5月底或6月初已经羽翼成熟,一个月后它们通常会独立进食(Cramp & Perrins 1994)。因此,观察到的7月食物储存行为可以被认为是支持雏鸟仍然居住在领土上,或者是秋季密集食物储存的开始,甚至是对大量易腐食物资源的快速利用。为了适应冬季在北方地区的生活,西伯利亚松鸦及其近亲加拿大灰松鸦(Grey Jay Perisoreus canadensis)都有分泌唾液的舌下唾液腺,唾液被用来形成食物球并使它们粘在藏身之处(Bock 1961, Dow 1965, Andreev 1982, Pravosudov 1984)。与寒冷季节相比,在春天,食物是用喙携带的,而不是用唾液处理的(Pravosudov 1984)。在我们的案例中,食物boli完全被唾液渗透和包裹,否则极其柔软和脆弱的黏菌疟原虫无法作为成形良好的食物储存。过去,黏菌在分类上被视为真菌的一部分,但目前它们属于包括原生动物在内的另一个王国(Cavalier-Smith 2003)。虽然真菌(“真正的真菌”)在西伯利亚松鸦的饮食中有记录(Novikov 1952, Vorobiev 1963, Andreev 1982),但没有发现关于这种鸟类以黏菌为食的参考资料。然而,曾经有报道称灰鸦“在华盛顿北部的喀斯喀特山脉以一种巨大的黄色黏菌——败血症灰鸟疟原虫为食”(Sutherland & Crawford 1979)。关于鸟类和黏菌之间关系的数据非常有限。研究表明,一些陆食雀形目鸟类是黏菌的传播媒介(Suthers 1985)。目前观察的贡献是(1)一年中的不寻常时间,当食物-
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Food-storing of slime mould in Siberian Jay Perisoreus infaustus during the postbreeding season
On July 8, 2008 a pair of Siberian Jays Perisoreus infaustus was observed at Björnlandet National Park, which lies in southernmost Swedish Lapland. The observation took place about one km to the north of the lake Angsjön in late afternoon (17–17:30h local time). Both birds were recorded to store food items from the bright yellow plasmodium of a slime mould (video clip showing the birds’ behaviour can be viewed at http://www.fotobiota.com/ video_inUK.php?spec=53&clip=143). One by one, sometimes together, the jays were coming repeatedly to the moist and heavily decayed trunk lying on the ground and supporting the slime mould, filling their sublingual pouches with mould and then fixing the food items on neighbouring trees (Figure 1). The hoarded items (food boli) had the size of a chewing gum (about 2 cm long) and were fixed in concealed places, in most cases among hanging lichens (Usnea sp.) on side branches. The food boli were stored on trees (mostly Norway spruce Picea abies and birch Betula, but also Scots pine Pinus sylvestris) within a radius of 10–15 m from the mould. The nearest three stored items were fixed 2–5 m away (mean 3 m), at 1.9–4.05 m above the ground (mean 3.15 m) and on Norway spruce (2.9 m high) and birches (7 and 9 m). It is evident that food items were fixed at roughly the mid-height of trees – the above-mentioned three at about 45– 65.5% (mean 53.5%) of total tree height. Before starting storing the food, both Siberian Jays were observed to chase away persistently 1–2 Redwings Turdus iliacus. It remains unclear whether the jays were provoked because of the fact that Redwings found the slime mould first or just because of their presence in the jays’ territory. The marked tendency in Siberian Jays to store food is well known (Cramp & Perrins 1994). This type of behaviour occurs mainly in spring, autumn and winter (Blomgren 1971, Andreev 1982, Pravosudov 1984), very rarely in summer. Most of the young are already fledged by the end of May or in early June, and a month later they usually feed independently (Cramp & Perrins 1994). Hence, the observed behaviour of food storing in July could be regarded either as supporting the young birds still inhabiting the territory or as a beginning of the intensive food storing in autumn or even as quick utilization of large but perishable food resource. As an adaptation for living in the boreal regions in winter the Siberian Jay, as well as its close relative the Grey Jay Perisoreus canadensis, have sublingual salivary glands producing saliva, which is used to form food balls and to make them stick to hiding places (Bock 1961, Dow 1965, Andreev 1982, Pravosudov 1984). In contrast to the cold season, in spring the food is carried in bill and not treated with saliva (Pravosudov 1984). In our case the food boli were completely permeated by and coated with saliva, otherwise the extremely soft and fragile plasmodium of the slime mould could not be stored as well-formed food items. In the past, the slime moulds were treated taxonomically as part of the fungi but currently they fall in another kingdom that includes the protozoans (Cavalier-Smith 2003). Although fungi (“true fungi”) have been recorded in the diet of the Siberian Jay (Novikov 1952, Vorobiev 1963, Andreev 1982), no references dedicated on feeding of this bird species on slime moulds were found. However, the Gray Jay has once been reported ”feeding on a large yellow plasmodium of the slime mold Fuligo septica in the Northern Cascades of Washington” (Sutherland & Crawford 1979). Data on the relationships between birds and slime moulds are extremely limited. It was shown that a number of ground-feeding passerine species of birds serve as distribution vectors of slime moulds (Suthers 1985). The contribution of the present observation is towards the (1) unusual time of the year when food-
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Ornis Svecica
Ornis Svecica Agricultural and Biological Sciences-Animal Science and Zoology
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