Camera trap data recorded during pilot studies in the Amsterdamse Waterleidingduinen

Paquete de Datos	descargar (74 KB)
Archivo de metadatos	descargar (7 KB)

Descripción

Camera trap pilot 2 was a test of the difference in species detection and data accumulation between a Snyper Commander camera with a regular lens (52°) and one with a wide lens (100°). The cameras were deployed at 30 cm above the ground within the herbivore exclosure Zeeveld Noord in the Amsterdam Water Supply Dunes from 14th of August 2021 to 24th of September 2021. During this pilot, a solar panel failure caused the cameras to stop recording data from the 24th of August 2021 to the 6th of September (14 days). During annotation, only days in which both cameras were operational were annotated. This led to a total of 1,113 images over 28 days from the two cameras. A detailed description of the dataset can be found in a data paper published in the journal Data in Brief (Evans et al. 2024, https://doi.org/10.1016/j.dib.2024.110544).

Registros

Los datos de este recurso se han publicado como un Paquete de Datos.

media

994

observations

194

deployments

Este IPT archiva los datos y, por lo tanto, sirve como repositorio de datos. Los datos y los metadatos del recurso están disponibles para su descarga en la sección descargas. La tabla versiones enumera otras versiones del recurso que se han puesto a disposición del público y permite seguir los cambios realizados en el recurso a lo largo del tiempo.

Versiones

La siguiente tabla muestra sólo las versiones publicadas del recurso que son de acceso público.

Palabras clave

dune ecosystem; mammals; exclosure; camera trap; biodiversity monitoring; Natura 2000; herbivore; wildlife camera

Colaboradores

Julian Evans

principalInvestigator

jevansbio@gmail.com

University of Amsterdam

Rotem Zilber

principalInvestigator

r.kadanzilber@uva.nl

University of Amsterdam

W. Daniel Kissling

principalInvestigator

wdkissling@gmail.com

University of Amsterdam

https://www.danielkissling.de/

Fuentes

Título	Agouti
Ruta	https://www.agouti.eu
Correo Electrónico	agouti@wur.nl
Versión	v4

Licencias

Nombre	CC-BY-4.0
Alcance	data

Nombre	CC-BY-4.0
Alcance	media

Alcance geográfico

Coordenadas	[[4.52, 52.35583], [4.520242, 52.35604]]
Precisión de las coordenadas	-

Alcance taxonómico

ID del taxón	https://www.checklistbank.org/dataset/COL2023/taxon/FRJJ
Referencia del ID del taxón
Nombre científico	Apodemus sylvaticus
Nivel del taxón	species
Nombres comunes	wood mouse [eng], bosmuis [nld]

ID del taxón	https://www.checklistbank.org/dataset/COL2023/taxon/YNHJ
Referencia del ID del taxón
Nombre científico	Corvus corone
Nivel del taxón	species
Nombres comunes	carrion crow [eng], zwarte kraai [nld]

ID del taxón	https://www.checklistbank.org/dataset/COL2023/taxon/6MB3T
Referencia del ID del taxón
Nombre científico	Homo sapiens
Nivel del taxón	species
Nombres comunes	human [eng], mens [nld]

ID del taxón	https://www.checklistbank.org/dataset/COL2023/taxon/74ZBP
Referencia del ID del taxón
Nombre científico	Oryctolagus cuniculus
Nivel del taxón	species
Nombres comunes	European rabbit [eng], Europees konijn [nld]

ID del taxón	https://www.checklistbank.org/dataset/COL2023/taxon/5BSG3
Referencia del ID del taxón
Nombre científico	Vulpes vulpes
Nivel del taxón	species
Nombres comunes	red fox [eng], vos [nld]

Alcance temporal

Inicio / Inicio	2021-08-14 / 2021-09-23

Proyecto

Título	Data from three camera trapping pilots in the Amsterdam Water Supply Dunes of the Netherlands
Descripción	Three pilot studies were conducted to test the autonomous deployment of wireless 4G wildlife cameras with solar panels and automated data transmission in the coastal dunes of the Amsterdam Water Supply Dunes, The Netherlands. Monitoring and management of grazing mammals such as the European rabbit (Oryctolagus cuniculus) and the European fallow deer (Dama dama) is of key interest in this nature reserve, as they slow down the rate of natural succession and alter plant species composition and vegetation structure through grazing and digging. These grazers as well as predators such as the red fox (Vulpes vulpes) have typically been monitored using traditional survey methods such as transect and areal counts, but only once or twice a year. The study was aimed to test the feasibility and methodology of running long-term autonomous monitoring networks with wildlife cameras. This involved the testing of power usage, data transmission, and data accumulation, and the robustness of cameras to herbivore damage. Furthermore, the pilots specifically tested how the detection of focal species (rabbits, deer, foxes) differs with deployment heights, camera lens types and the placement in different habitats. The pilot also provides labelled images for the development of deep learning algorithms to automatically identify species. Work was carried out as part of the development of the monitoring demonstration sites of a large-scale research infrastructure project ARISE.
Ruta	https://www.arise-biodiversity.nl/teammonitoringdemonstration
Diseño del muestreo	opportunistic
Método de captura	[activityDetection]
Nivel de observación	[event]
Individuo animal	false

Cita bibliográfica

Evans J, Zilber R, Kissling W D (2024). Camera trap data recorded during pilot studies in the Amsterdamse Waterleidingduinen - pilot 2. Version 2. University of Amsterdam / IBED. Camtrap DP dataset. https://ipt.nlbif.nl/resource?r=awd_pilot2&v=2

Referencias

Evans, J.C., Zilber, R., & Kissling, W.D. (2024). Data from three camera trapping pilots in the Amsterdam Water Supply Dunes of the Netherlands. Data in Brief, 54, 110544. https://doi.org/10.1016/j.dib.2024.110544

Identificadores relacionados

Identificador relacionado	https://doi.org/10.1016/j.dib.2024.110544
Tipo de relación	IsPublishedIn
Tipo de recurso general	DataPaper
Tipo de identificador relacionado	DOI