Putting rakali in the spotlight: innovative methods for detecting an elusive semi-aquatic mammal

IF 1.6 3区生物学 Q3 ECOLOGY

Wildlife Research Pub Date : 2024-05-31 DOI:10.1071/wr24002

Emmalie Sanders, Dale G. Nimmo, James M. Turner, Skye Wassens, Damian R. Michael

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引用次数: 0

Abstract

Context

Freshwater ecosystems rank among the most threatened environments on Earth. Monitoring aquatic and semi-aquatic species is vital to informing conservation of freshwater ecosystems. However, many semi-aquatic mammals can be difficult to detect with conventional survey methods.

Aims

We aimed to identify the most effective survey method for detecting an Australian semi-aquatic mammal, the rakali (Hydromys chrysogaster).

Methods

We compared rakali detection rates among camera-trapping, live-trapping and visual surveys, and tested the influence of camera angle, trap proximity to water and time of survey, across the Yanco Creek system in southern New South Wales.

Key results

Nocturnal spotlight surveys were the most effective method for detecting rakali, with most observations occurring while individuals were foraging or swimming in the water. Camera traps facing a floating platform and cage traps mounted on floating platforms performed better than those deployed on land. Downward-facing camera traps detected rakali three times more often than did forward-facing cameras. Trapping rakali was unreliable, with the species detected at fewer than half of the sites where presence was confirmed via visual observation and camera traps. For species absence to be determined with 95% confidence, 2–4 weeks of nightly trapping is required, compared with six nights of visual surveys or 12 nights for a platform-facing camera. Morning visual surveys were largely ineffective because of predominantly nocturnal rakali activity and difficulty in detecting signs in creek environments.

Conclusions

The likelihood of detecting rakali can be maximised through the use of nightly spotlighting and deployment of baited camera traps focussed on platforms or natural resting areas within a water body.

Implications

Understanding the effectiveness of each method is essential for developing species-appropriate protocols for population monitoring. Our findings present suitable options to be further explored among the 100-plus small (<1 kg) semi-aquatic mammals worldwide that share similar behaviours and characteristics to the rakali, many of which are threatened or data deficient.

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让拉卡利成为焦点：探测难以捉摸的半水栖哺乳动物的创新方法

背景淡水生态系统是地球上最受威胁的环境之一。监测水生和半水生物种对保护淡水生态系统至关重要。然而，许多半水生哺乳动物很难用传统的调查方法检测到。目的我们旨在确定检测澳大利亚半水生哺乳动物rakali（Hydromys chrysogaster）最有效的调查方法。方法我们在新南威尔士州南部的延科溪系统比较了照相机诱捕、现场诱捕和目测调查的rakali发现率，并测试了照相机角度、诱捕器与水的距离和调查时间的影响。主要结果夜间聚光灯调查是发现拉卡利的最有效方法，大多数观察结果都发生在个体在水中觅食或游泳时。面向浮动平台的相机捕获器和安装在浮动平台上的笼式捕获器比部署在陆地上的捕获器效果更好。朝下的相机诱捕器比朝上的相机诱捕器探测到拉卡利的次数多三倍。诱捕拉卡利的结果并不可靠，在通过肉眼观察和相机诱捕器确认存在拉卡利的地点中，只有不到一半的地点能发现该物种。要以 95% 的置信度确定物种不存在，需要每晚进行 2-4 周的诱捕，而目测需要 6 晚，平台相机需要 12 晚。由于拉卡利人主要在夜间活动，而且在溪流环境中很难发现其活动迹象，因此上午的目测调查基本上没有效果。结论通过使用夜间聚光灯和在水体中的平台或自然休息区部署带饵相机陷阱，可以最大限度地提高发现拉卡利的可能性。意义了解每种方法的有效性对于制定适合物种的种群监测方案至关重要。我们的研究结果为全球100多种小型（1千克）半水生哺乳动物提供了合适的选择，这些哺乳动物的行为和特征与拉卡利相似，其中许多都受到威胁或缺乏数据。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Wildlife Research 生物-动物学

CiteScore

4.30

自引率

15.80%

发文量

审稿时长

3 months

期刊介绍： Wildlife Research represents an international forum for the publication of research and debate on the ecology, management and conservation of wild animals in natural and modified habitats. The journal combines basic research in wildlife ecology with advances in science-based management practice. Subject areas include: applied ecology; conservation biology; ecosystem management; management of over-abundant, pest and invasive species; global change and wildlife management; diseases and their impacts on wildlife populations; human dimensions of management and conservation; assessing management outcomes; and the implications of wildlife research for policy development. Readers can expect a range of papers covering well-structured field studies, manipulative experiments, and analytical and modelling studies. All articles aim to improve the practice of wildlife management and contribute conceptual advances to our knowledge and understanding of wildlife ecology. Wildlife Research is a vital resource for wildlife scientists, students and managers, applied ecologists, conservation biologists, environmental consultants and NGOs and government policy advisors. Wildlife Research is published with the endorsement of the Commonwealth Scientific and Industrial Research Organisation (CSIRO) and the Australian Academy of Science.