Triggers affecting crayfish burrowing behaviour

IF 1.7 4区环境科学与生态学 Q3 ECOLOGY

Aquatic Ecology Pub Date : 2023-09-14 DOI:10.1007/s10452-023-10057-3

Edwin T. H. M. Peeters, Robin de Vries, Jesper Elzinga, Mercédesz Ludányi, Robbert van Himbeeck, Ivo Roessink

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Abstract

Surface water inhabiting crayfish are well-known for the impact on their surroundings. This impact has been related to loss of biodiversity and deteriorating water quality for invasive crayfish. Crayfish dig burrows for various reasons like lack of natural shelters, avoiding an upcoming drought, or high crayfish density and this may lead to increased sediment transport and accelerated bank instability. All crayfish are considered to have burrowing capability, but not all species have been observed burrowing. Studies comparing this behaviour among different species in standardized ways are scarce. Crayfish burrowing was investigated under standardized laboratory conditions to reveal differences among species and their sex. All studied species occur in the Netherlands and were the native Astacus astacus (Linnaeus, 1758), the Eurasian Pontastacus leptodactylus (Eschscholtz, 1823) and the invasive North American Faxonius virilis (Hagen, 1870), F. limosus (Rafinesque 1817), Pacifastacus leniusculus (Dana, 1852), Procambarus acutus (Girard 1852), and P. clarkii (Girard, 1852). As burrowing triggers were evaluated presence of shelter, increased light intensity, increased water temperature, and increased crayfish density. Results showed species-specific and sometimes sex-specific differences in burrowing behaviour among crayfish. The response to burrowing triggers was also species-specific and no two species reacted identical to all triggers. Absence of shelter was a strong driver to burrow for A. astacus, F. limosus and F. virilis, while increased light intensity triggered burrowing behaviour in P. leptodactylus, P. acutus and P. clarkii and lowered activity of F. limosus. Burrowing behaviour of P. clarkii was mostly influenced by increased water temperature. Significant differences between females and males were observed for P. leptodactylus, P. leniusculus and P. acutus in the shelter, increased density and increased water temperature treatment, respectively. Understanding the triggers that invoke burrowing may help managing populations of these invasive species.

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影响小龙虾穴居行为的诱因

栖息在地表水中的小龙虾因其对周围环境的影响而闻名。这种影响与生物多样性的丧失和入侵小龙虾水质的恶化有关。小龙虾挖掘洞穴有多种原因，如缺乏天然庇护所、避免即将到来的干旱或小龙虾密度过高，这可能会导致沉积物迁移量增加，加速河岸不稳定。所有小龙虾都被认为具有掘洞能力，但并非所有物种都被观察到掘洞。以标准化方式比较不同物种穴居行为的研究很少。我们在标准化的实验室条件下对螯虾的穴居行为进行了研究，以揭示不同物种及其性别之间的差异。所有被研究的物种都出现在荷兰，包括本土的 Astacus astacus（Linnaeus，1758 年）、欧亚大陆的 Pontastacus leptodactylus（Eschscholtz，1823 年）和入侵北美的 Faxonius virilis（Hagen，1870 年）、F.limosus（Rafinesque，1817 年）、Pacifastacus leniusculus（Dana，1852 年）、Procambarus acutus（Girard，1852 年）和 P. clarkii（Girard，1852 年）。对穴居诱因进行了评估，包括是否有遮蔽物、光照强度是否增加、水温是否升高以及小龙虾密度是否增加。结果显示，小龙虾的穴居行为存在物种差异，有时还存在性别差异。对穴居诱因的反应也有物种特异性，没有两个物种对所有诱因的反应是相同的。没有遮蔽物是 A. astacus、F. limosus 和 F. virilis 钻洞的主要诱因，而光照强度增加会引发 P. leptodactylus、P. acutus 和 P. clarkii 的钻洞行为，并降低 F. limosus 的活动。P.clarkii的穴居行为主要受水温升高的影响。在庇护所、密度增加和水温升高的处理中，分别观察到雌性和雄性 P. leptodactylus、P. leniusculus 和 P. acutus 的显著差异。了解穴居的触发因素可能有助于管理这些入侵物种的种群。

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来源期刊

Aquatic Ecology 环境科学-海洋与淡水生物学

CiteScore

3.90

自引率

0.00%

发文量

审稿时长

3 months

期刊介绍： Aquatic Ecology publishes timely, peer-reviewed original papers relating to the ecology of fresh, brackish, estuarine and marine environments. Papers on fundamental and applied novel research in both the field and the laboratory, including descriptive or experimental studies, will be included in the journal. Preference will be given to studies that address timely and current topics and are integrative and critical in approach. We discourage papers that describe presence and abundance of aquatic biota in local habitats as well as papers that are pure systematic. The journal provides a forum for the aquatic ecologist - limnologist and oceanologist alike- to discuss ecological issues related to processes and structures at different integration levels from individuals to populations, to communities and entire ecosystems.