EcoCertified: A cameraTrap survey in solar field and control grasslands

Occurrence
最新版本 published by Wageningen Environmental Research on 5月 19, 2025 Wageningen Environmental Research
發布日期:
2025年5月19日
授權條款:
CC-BY 4.0

下載最新版本的 Darwin Core Archive (DwC-A) 資源,或資源詮釋資料的 EML 或 RTF 文字檔。

DwC-A資料集 下載 107,608 紀錄 在 English 中 (68 MB) - 更新頻率: 無計畫更新
元數據EML檔 下載 在 English 中 (13 KB)
元數據RTF文字檔 下載 在 English 中 (11 KB)

說明

These camera trap datasets are derived from the Agouti project EcoC Inventory 2022 - Impact of photovoltaic park in the Netherlands and EcoC Inventory 2024 - Impact of photovoltaic park in the Netherlands. Data have been standardized to Darwin Core using the camtraptor R package and only include observations (and associated media) of animals. Excluded are records that document blank or unclassified media, vehicles, and observations of humans. Geospatial coordinates are rounded to 0.001 degrees. The original dataset description follows. EcoC Inventory 2022/2024 - Impact of photovoltaic park in the Netherlands are occurrence dataset published by Wageningen University and Research (WUR), which was funded by the Netherlands Enterprise Agency under grant number MOOI22004 and is part of the EcoCertified Solar Parks project. Both data sets are monitoring of the effect of solar fields on species in solar fields, extensive meadow controls, and intensive grassland controls. Data were collected by the Wildlife Ecology and Conservation chair group. The cameras used are all Reconix HF2X. All species were annotated to the species level if possible; if not genus level was accepted. The inventory happened in 15 solar fields with their paired controls, an extensive and an intensive grassland. AI (MegaDetector V6) was used to annotate blank pictures only.

資料紀錄

此資源出現紀錄的資料已發佈為達爾文核心集檔案(DwC-A),其以一或多組資料表構成分享生物多樣性資料的標準格式。 核心資料表包含 107,608 筆紀錄。

亦存在 1 筆延伸集的資料表。延伸集中的紀錄補充核心集中紀錄的額外資訊。 每個延伸集資料表中資料筆數顯示如下。

Occurrence (核心)
107608
Multimedia 
2337913

此 IPT 存放資料以提供資料儲存庫服務。資料與資源的詮釋資料可由「下載」單元下載。「版本」表格列出此資源的其它公開版本,以便利追蹤其隨時間的變更。

版本

以下的表格只顯示可公開存取資源的已發布版本。

如何引用

研究者應依照以下指示引用此資源。:

Tavernier C, de Vries S, Marmara A, Willers H, Tavernier D (2025). EcoCertified: A cameraTrap survey in solar field and control grasslands. Version 1.0. Wageningen Environmental Research. Occurrence dataset. https://ipt.nlbif.nl/resource?r=ecocertified_cameratrap_solarfields&v=1.0

權利

研究者應尊重以下權利聲明。:

此資料的發布者及權利單位為 Wageningen Environmental Research。 This work is licensed under a Creative Commons Attribution (CC-BY 4.0) License.

GBIF 註冊

此資源已向GBIF註冊,並指定以下之GBIF UUID: 4b377669-f4a2-4953-abd9-6628ab9302a5。  Wageningen Environmental Research 發佈此資源,並經由Netherlands Biodiversity Information Facility同意向GBIF註冊成為資料發佈者。

關鍵字

Samplingevent; Observation

聯絡資訊

Chloé Tavernier
  • 連絡人
Wageningen University and Research
Sylvia de Vries
  • 出處
University of Groningen
Aliki Marmara
  • 出處
Hanna Willers
  • 出處
Dimitri Tavernier
  • 出處
Chloé Tavernier
  • 連絡人
Wagneningen University and Research
Chloe Tavernier
  • 作者
Wageningen University and Research
Rascha Nuijten
Wageningen University and Research
Ralph Buij
Wageningen University and Research
Karen Krijgveld
Wageningen University and Research
Frank van Langevelde
Wageningen University and Research

地理涵蓋範圍

The Netherlands

界定座標範圍 緯度南界 經度西界 [51.138, 3.582], 緯度北界 經度東界 [53.527, 7.053]

時間涵蓋範圍

起始日期 / 結束日期 2022-04-01 / 2022-12-01
起始日期 / 結束日期 2024-04-01 / 2024-12-01

計畫資料

As an answer to energy transition goals, there are more and more solar fields being built in the landscape. In contrast with other renewable energy utilities like wind farms, the impact of solar fields on biodiversity is still unknown. However, this impact should not be overlooked, as they may have a large land requirement. With the EcoCertified project, the goal is to understand the current effect of solar fields on local biodiversity, from the soil to the larger mammal taxa.

計畫名稱 EcoCertified: Assessing the impact of solar fields on biodiversity
經費來源 Netherlands Enterprise Agency under grant number MOOI22004
研究區域描述 The Netherlands

參與計畫的人員:

Chloé Tavernier
Karen Krijgsveld
  • 出處

取樣方法

A block-plot design was applied (15 block and 3 plot per block). Locations were selected based on access permission given by the solar field asset manager. The cameras were set up at 40 cm above the ground and took 3 to 5 picture by detection with a 30s interval between two detections. Once a month, the cameras were moved around the fields to avoid over- or under-sampling the fields due to micro-habitat features. Images were collected from the camera traps and uploaded to Agouti. Students and project members annotated the pictures on agouti.

研究範圍 15 locationscomprising 15 solar fields and 30 controls, in the Netherlands were sampled using 80 camera traps (2 in each field). The cameras were randomly placed in the field and moved around once a month.

方法步驟描述:

  1. - Randomly selecttwo points in each field 100 m away - Set-up the camera with a unique identifier - Parameter the trigger: 10 pictures, no quiet period, high sensitivity, a wide range of view, and 24 hours of activity - Place the camera 40 cm (knee height) from the ground. - Calibrate the camera using a 1 m stick marked every 10 cm by taking 15 pictures at different points in front of the camera - Parameter the trigger: three pictures, a quiet period of 30 seconds, high sensitivity, a wide range of view, and 24 hours of activity - Leave the camera for at least three weeks - Collect the pictures and move the cameras 50 m from their previous location - Upload the camera on Agouti, use the AI to annotate the blanks, annotate pictures

額外的詮釋資料

致謝 This project was funded by the Netherlands Enterprise Agency under grant number MOOI22004 and is part of the EcoCertified Solar Parks project. We greatly thank the many students who have helped with the annotation of the pictures, in particular, Aliki Marmara, Dimitri Tavernier, and Hanna Willers. We express our gratitude to all asset managers, farmers, and Natuurmonumenten and Staatsbosbeheer field managers for facilitating our entry to their fields. Finally, we thank Sebastiaan Forouzan Fard of Eelerwoude for facilitating communication with the solar field managers.
目的 The impact of solar fields on farmland species is uncertain. They may threaten local species by reducing habitat quality, but they could also enhance landscape heterogeneity and thus biodiversity. The purpose of this study was to compare the biodiversity within solar fields and two control fields: an intensive grassland from a dairy farm and an extensive meadow managed to increase biodiversity.
替代的識別碼 https://ipt.nlbif.nl/resource?r=ecocertified_cameratrap_solarfields