荷兰三角洲浅海地区大鸬鹚的食物选择和猎物选择:当地比目鱼种群的重要性

Pub Date : 2022-07-01 DOI:10.5253/arde.v109i2.a20
Stef van Rijn, Mennobart R. van Eerden
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引用次数: 2

摘要

在荷兰北海浅海觅食的大鸬鹚,正在捕食丰富的海洋底栖鱼类。2010年至2012年,在Voordelta地区进行了密集的鱼类调查,2009年至2015年,每年3月至9月期间,在Voorne Breede Water的繁殖地取样了鸬鹚颗粒。饲料中共检测到48种鱼类,其中38种为海洋鱼类。以比目鱼为主,以欧鲽、鲽鱼和比目鱼为主要捕食对象。实验拖网捕鱼共发现65种鱼类,其中以虾虎鱼、鲱鱼、白鲑、梭子鱼、欧洲鲽鱼和白鲑最为丰富。与拖网数据相比,鸬鹚表现出对普通Dab和普通鳎以及其他独居底鱼(如沙鳗和短刺鱼)的偏好。这些物种在该地区都很常见。对于不常见和稀有的物种,没有优先选择的记录。比目鱼的密度在最靠近繁殖地的觅食区最高,可能的耗竭效应仅在普通Dab中记录。这个白天活动的物种在这个季节的早期就已经被捕食了。其他比目鱼的夜间觅食习惯,加上挖洞行为和圆圆的身体形状,是有效的反捕食者特征,这反映在鸬鹚饮食中这些物种的频率较低。在繁殖期开始时,鸬鹚消耗淡水鱼,使其能够更早地开始繁殖,而晚春时比目鱼的增加与饲养雏鸟的高峰需求相匹配。几乎只捕食比目鱼可能是由于大多数鸬鹚的近海底觅食行为造成的,这种习惯使鸟类也以其他丰富的底栖鱼类为食,如白鲑、沙鳗、短刺鱼、小Weever和蜻蜓。尽管鸬鹚数量众多,但这种以海底为食的行为导致了它们对远洋鱼类的捕食非常有限。我们估计,每年鸬鹚总共可捕取约100吨鱼类,包括约77,600公斤比目鱼和约20,700公斤其他海鱼。虽然斑海豹的部分觅食范围不在沿海地区,但斑海豹和灰海豹的渔获量是鸬鹚的9倍。由于海豹是已知的比目鱼的消费者,这表明哺乳动物和鸟类捕食者之间对沿海地区的底栖鱼类资源存在竞争。
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Food Choice and Prey Selection by Great Cormorants Phalacrocorax carbo in a Shallow Coastal Zone in the Dutch Delta Area: Importance of Local Flatfish Stocks
Coastal breeding Great Cormorants Phalacrocorax carbo foraging in a shallow part of the Dutch North Sea preyed upon abundant marine demersal fish species. In 2010–2012 intensive fish surveys were performed in the Voordelta area and in 2009–2015 Cormorant pellets were sampled in the breeding colony of Breede Water, Voorne, four times per year between March and September. In total 48 fish species were detected in the diet, 38 being marine species. Mainly flatfish were consumed, and European Plaice, Common Dab and Common Sole were the most important prey according to fish mass. Experimental trawling revealed 65 species of fish of which gobies, Herring, Whiting, Sprat, European Plaice and Common Dab were the most abundant. Compared to the trawl data, Cormorants showed a preference for Common Dab and Common Sole and for other solitary bottom fish like sandeels and Shorthorn Sculpin. These species were all common in the area. With respect to uncommon and rare species, no preferential selection was recorded. Densities of flatfish were highest in foraging areas closest to the breeding colony and possible depletion effects were only recorded in Common Dab. This diurnal species was already being preyed upon early in the season. Nocturnal foraging habits in other flatfish species, in combination with burrowing behaviour and rounded body shape are effective anti-predator traits and this was reflected in lower frequencies of these species in the Cormorants' diet. Consumption of freshwater fish by Cormorants at the beginning of the breeding period enabled an early start to breeding, and the increasing availability of flatfish in late spring matched the peak demand of rearing nestlings. The almost exclusive predation on flatfish was probably caused by the near-bottom foraging behaviour of most Cormorants and this habit made the birds feed on other abundant demersal fish species as well, such as Whiting, sandeels, Shorthorn Sculpin, Lesser Weever and dragonet species. And although numerous in the system, this bottom-oriented feeding behaviour of Cormorants therefore resulted in a very limited predation on pelagic fish species. In total we estimate an annual extraction by Cormorants of some 100 tonnes of fish being c. 77,600 kg flatfish and c. 20,700 kg other marine fish. Although with a foraging range partly outside the coastal zone, the extraction of fish by Harbour Seals Phoca vitulina and Grey Seals Halichoerus grypus outnumbered that of Cormorants by a factor of 9. As seals are known flatfish consumers, this suggests that there is competition between mammalian and avian predators on demersal fish stocks in the coastal zone.
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