大中型兽类种群数量估算的研究进展

doi:10.17520/biods.2021134

摘要/Abstract

摘要：

大中型兽类种群数量的估算是动物生态学中重要的基本问题, 受到研究者、管理者和公众的共同关注。国际上从20世纪中期开始研究该问题, 已出现了多种研究方法和相应案例, 且还在快速发展, 但世界各地仍有很多物种的种群数量尚未知晓。在我国, 从20世纪80年代开始调查大中型兽类种群数量, 取得了重要进展, 也还有很多物种的种群数量尚不清楚。因此, 有必要归纳国际上种群数量估算的研究进展, 同时, 总结国内研究的现状、优势和趋势, 供研究者参考。本文首先选择估算大中型兽类种群数量的原理、数据来源和模型这3个要素归纳出简明的研究框架, 将现有的多种方法置于其中予以阐述。在该框架下, 根据估算原理分为4大类方法, 为距离取样法、标志重捕法、基于遇见率法和遥感影像直接计数法。针对每一大类方法, 论述其基本原理模型和模型假设, 说明能实现该原理的相应数据来源(视觉观测、红外相机拍摄、DNA微卫星识别、卫星定位跟踪、声音监测或遥感影像)的特点及如何实现该原理, 评价其适用性及优缺点, 并选择其中具有可比性的方法予以比较评价。其次, 参照该研究框架, 总结我国的研究现状, 分析未来发展的优势和趋势: 我国的红外相机数据积累充分, 可以发展以此为数据源的距离取样法、标志重捕法和基于遇见率法; 发展以粪便样品为数据来源的距离取样法和粪便DNA标志重捕法; 相比地面调查数据, 获取高分辨率遥感影像数据更容易, 尽量以此估算符合适用条件的大中型兽类的种群数量。最后, 本文提出了适用于我国大中型兽类种群数量的估算方法的选择流程, 供研究者参考。

关键词: 种群数量, 种群密度, 大中型兽类, 距离取样法, 标志重捕法, 基于遇见率法, 遥感影像直接计数法

Abstract

Context: Estimating the population size of large and medium-sized mammals is a fundamental issue in animal ecology, attracting great attention from researchers, managers, and the public. However, despite the fact that it has been explored from the mid-20th century to now, the population sizes of numerous species worldwide are unknown. In China, the research targeting large and medium-sized mammals have been explored since 1980s. Although it has made great progress, the population size of many species in China are still unknown.
Aims: We aim to establish a framework to categorize existing estimation methods and further summarize the research development of population size estimation in China while highlighting strengths and trends under this framework.
Results & Conclusions: First, we establish a concise hierarchical framework according to the estimation theory, data resources, and models used. This framework indicates that there are four classes of methods including distance sampling method, capture-recapture method, encounter-based method, and direct count method from remotely sensed imagery according to estimation theory. Then for each of the four methods, we illustrate the basic model and its assumptions, explaining how existing data resources (including insight, camera trap, DNA microsatellite, satellite tracking, acoustic monitor, and remote sensing data) realize each theory respectively. We summarize unique features, advantages, and disadvantages of each method and compare size or density estimation resulted from different methods. Secondly, we summarize the development of population size estimation methods in China in the context of this framework while highlighting trends and strengths. Numerous data obtained from infrared cameras in many study areas during the last decade can be used to estimate the population size by employing distance sampling, capture-recapture models, and encounter-based methods. Meanwhile, the pellet distance sampling method, fecal-DNA capture-recapture method and direct count method from remotely sensed imagery are suggested to be developed. Finally, a guide to select the estimation methods appropriate for their studies is provided as a reference for future researchers.

Key words: population size, population density, large and medium-sized mammals, distance sampling, capture-recapture method, encounter-based method, direct count method from remotely sensed imagery

李月辉 (2021) 大中型兽类种群数量估算的研究进展. 生物多样性, 29, 1700-1717. DOI: 10.17520/biods.2021134.

Yuehui Li (2021) A review on estimating population size of large and medium-sized mammals. Biodiversity Science, 29, 1700-1717. DOI: 10.17520/biods.2021134.

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链接本文: https://www.biodiversity-science.net/CN/10.17520/biods.2021134

https://www.biodiversity-science.net/CN/Y2021/V29/I12/1700

图/表 2

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估算原理 Theory	数据来源 Data sources	估算模型 Estimation models	关键技术或参数 Key technology or parameter	程序 Programs
距离取样法 Distance sampling method	人视觉观测个体 To observe the animal individuals by insight	距离取样模型 Distance sampling model	-	DISTANCE
	红外相机观测个体 To observe the animal individuals by infrared cameras	距离取样模型 Distance sampling model	动物与相机的距离 Distance between animals and cameras
	红外相机数据 + 卫星定位追踪数据 Infrared cameras data + satellite tracking data	结合移动数据的距离取样法模型 Movement with distance sampling model	跟踪数据 Satellite tracking data
	粪便数量和分布 Abundance and distribution of faeces	距离取样模型 + 粪便数量与个体数量转化模型 Distance sampling model + conversion function from pellet group density to animal density	粪便分解速率 Faeces decay rate
	动物鸣叫记录 Animal call records	样点距离取样模型 Point-transect sampling model	鸣叫个体与样点的距离Distances to detected animals
标志重捕法 Capture- recapture method	动物个体 Animal individuals	非空间标志重捕模型 Non-spatial capture-recapture model		非空间模型 Non-spatial capture-recapture model: Capture, Capwire, Program mark 空间模型 Spatial capture-recapture model: DENSITY, SPACECAP
	动物DNA DNA from animal body	非空间标志重捕模型、空间标志重捕模型 Capture- recapture model, spatial capture-recapture model	DNA微卫星技术识别个体 To distinguish by DNA microsatellite
	红外相机数据 Data from infrared cameras	空间标志重捕模型 Spatial capture-recapture model	利用照片识别个体Distinguishment of the target individuals in photos
	动物鸣叫记录 Animal call records	空间标志重捕模型 + 鸣叫声数量与个体数量转化模型Spatial capture-recapture model + conversion function from call density to animal density	个体的鸣叫次数和群体内鸣叫个体的数量比例 Call rate per individual and calling individual percentage of the group
基于遇见率法 Encounter-based method	红外相机数据 Data from infrared cameras	随机遇见模型、随机遇见-停留时间模型、空间-事件模型、时间-事件模型 Random encounter model, random encounter and staying time model, space-to-event model, time-to-event model	动物移动的速度 Animal movement speed	-
遥感影像直接计数法 Direct count method from remotely sensed imagery	高分辨率卫星遥感影像或航拍影像 Very high-resolution satellite imagery or aerial imagery	人工目视识别计数、监督识别、非监督识别、利用多期影像识别 Manual counts, image segmentation, supervised classification, unsupervised classification, multi-temporal image classification	从所处景观中辨别出动物个体 To detect the target individuals from background landscapes	-

估算原理 Theory	数据来源 Data sources	估算模型 Estimation models	关键技术或参数 Key technology or parameter	程序 Programs
距离取样法 Distance sampling method	人视觉观测个体 To observe the animal individuals by insight	距离取样模型 Distance sampling model	-	DISTANCE
	红外相机观测个体 To observe the animal individuals by infrared cameras	距离取样模型 Distance sampling model	动物与相机的距离 Distance between animals and cameras
	红外相机数据 + 卫星定位追踪数据 Infrared cameras data + satellite tracking data	结合移动数据的距离取样法模型 Movement with distance sampling model	跟踪数据 Satellite tracking data
	粪便数量和分布 Abundance and distribution of faeces	距离取样模型 + 粪便数量与个体数量转化模型 Distance sampling model + conversion function from pellet group density to animal density	粪便分解速率 Faeces decay rate
	动物鸣叫记录 Animal call records	样点距离取样模型 Point-transect sampling model	鸣叫个体与样点的距离Distances to detected animals
标志重捕法 Capture- recapture method	动物个体 Animal individuals	非空间标志重捕模型 Non-spatial capture-recapture model		非空间模型 Non-spatial capture-recapture model: Capture, Capwire, Program mark 空间模型 Spatial capture-recapture model: DENSITY, SPACECAP
	动物DNA DNA from animal body	非空间标志重捕模型、空间标志重捕模型 Capture- recapture model, spatial capture-recapture model	DNA微卫星技术识别个体 To distinguish by DNA microsatellite
	红外相机数据 Data from infrared cameras	空间标志重捕模型 Spatial capture-recapture model	利用照片识别个体Distinguishment of the target individuals in photos
	动物鸣叫记录 Animal call records	空间标志重捕模型 + 鸣叫声数量与个体数量转化模型Spatial capture-recapture model + conversion function from call density to animal density	个体的鸣叫次数和群体内鸣叫个体的数量比例 Call rate per individual and calling individual percentage of the group
基于遇见率法 Encounter-based method	红外相机数据 Data from infrared cameras	随机遇见模型、随机遇见-停留时间模型、空间-事件模型、时间-事件模型 Random encounter model, random encounter and staying time model, space-to-event model, time-to-event model	动物移动的速度 Animal movement speed	-
遥感影像直接计数法 Direct count method from remotely sensed imagery	高分辨率卫星遥感影像或航拍影像 Very high-resolution satellite imagery or aerial imagery	人工目视识别计数、监督识别、非监督识别、利用多期影像识别 Manual counts, image segmentation, supervised classification, unsupervised classification, multi-temporal image classification	从所处景观中辨别出动物个体 To detect the target individuals from background landscapes	-