說明
Large-scale land abandonment and reconstruction activity has altered the ecosystem structure in the evacuation area for the Fukushima Daiichi power plant accident in 2011. Despite social concerns about changes in the avian assemblages that occurred after the accident, publicly accessible data are quite limited. We engaged in acoustic monitoring of birds using digital voice recorders from 2014 in and around the Fukushima evacuation zone. All monitoring sites were located within schoolyards (including those that had been converted to community centers) to examine the bird assemblages in the urban and rural landscapes that were heavily altered by land abandonment due to the nuclear plant accident. A digital voice recorder was installed at each monitoring site during May–July, and we recorded 20 minutes a day using timer-recording mode. We divided the audio data into 1-minute segments and identified species occurred in sampled segments by experts. These data represent the presence-absence records from 52 sites monitored in 2014, 57 sites monitored in 2015, 54 sites monitored in 2016, 57 sites monitored in 2017, 56 sites monitored in 2018, 52 sites monitored in 2019 and 50 sites monitored in 2020. We identified the species for 7,222 segments in total and 68 species occurred in 2014, 8,017 segments in total and 64 species occurred in 2015, 5,289 segments in total and 58 species occurred in 2016, 4,092 segments in total and 60 species occurred in 2017, 4,200 segments in total and 65 species occurred in 2018, 4,000 segments in total and 59 species occurred in 2019 and 3,900 segments in total and 56 species occurred in 2020. We are continuing to monitor and intend to update the dataset with new observations hereafter. Our dataset will help people to recognize the status and dynamics of avian assemblage inside the evacuation zone, and will contribute to promote open science in avian ecological studies.
資料紀錄
此資源sampling event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 2,071 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。
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。:
Fukasawa K., Mishima Y., Yoshioka A., Kumada N., Totsu K.(2017) Acoustic monitoring data of avian species inside and outside the evacuation zone of the Fukushima Daiichi power plant accident. Ecological Research, 32(6), 769. doi:10.1007/s11284-017-1491-y
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 National Institute of Genetics, ROIS。 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: 6fe80778-1b03-4f2c-a822-e62a998f321b。 National Institute of Genetics, ROIS 發佈此資源,並經由GBIF Japan同意向GBIF註冊成為資料發佈者。
關鍵字
Samplingevent; Fukushima Daiichi Nuclear Power Station; Agricultural landscape; Satoyama; depopulation; terrestrial bird; Japan; Samplingevent
聯絡資訊
- 元數據提供者 ●
- 出處 ●
- 連絡人
- 連絡人
- 作者
- 作者
- 作者
- 作者
- 作者
地理涵蓋範圍
Fukushima, Japan
| 界定座標範圍 | 緯度南界 經度西界 [36.996, 140.537], 緯度北界 經度東界 [37.801, 141] |
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分類群涵蓋範圍
無相關描述
| Class | Aves |
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時間涵蓋範圍
| 起始日期 / 結束日期 | 2014-05-22 / 2020-06-20 |
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取樣方法
A digital voice recorder (DS-850, Olympus, Tokyo, Japan) was installed at each monitoring site during May–July in each year. The recorders were adjusted to timer-recording mode and recorded for 10 min before and after sunrise (total 20 min) every day until the batteries were depleted. The recorders were fixed to tripod stands at a height of about 0.9 m. The recorded data were split into 1-min segments in MP3 (124 kbps) format, which was treated as the minimum sample unit. We identified species of birds from acoustic data. Bioacoustics signals is a promised source of information for avian species identification (Lopes et al. 2011), and acoustic monitoring can produce similar result as traditional on-site survey methods in comparative ecological studies (Haselmayer & Quinn 2000; Hobson et al. 2002; Klingbeil & Willig 2015). Because the number of segments was very large, we chose a subset of segments evenly throughout the sampling period (8.08 days/site and 17.2 segments/day/site in 2014, 7.89 days/site and 17.8 segments/day/site in 2015, 5.74 days/site and 17.1 segments/day/site in 2016, 4.28 days/site and 16.8 segments/day/site in 2017, 3.75 days/site and 20 segments/day/site in 2018, 3.85 days/site and 20 segments/day/site in 2019 and 3.9 days/site and 20 segments/day/site in 2020, in average). A total of 7,222 of the 45,540 segments were chosen in 2014, 8,017 of the 46,440 segments were chosen in 2015, 5,289 of the 42,440 segments were chosen in 2016, 4,092 of the 46,680 segments were chosen in 2017, 4,200 of the 43,580 segments were chosen in 2018, 4,000 of the 42,720 segments were chosen in 2019 and 3,900 of the 44,759 segments were chosen in 2020. Species that appeared in each segment were identified by experts and their presence-absence was recorded. Some of the segments were identified through a citizen-scientific project, “Bird Data Challenge (Fukasawa et al. 2017)”, in which we listened to audio data and prepared a species list of birds with involvement of local citizen experts. Data identified through the Bird Data Challenge was checked by authors or other experts to correct misspecifications of species. We were careful to avoid the negative impact (e.g., pressure of photographing and illegal capture) on endangered and attractive species when we made the species distribution data accessible online. We left the location ID blank and assigned the mean latitude and longitude of the study area in the presence-absence records for endangered species (i.e., species ranked VU, EN, and CR in the National or Prefectural Red List) and species attracting particular public interest (Terpsiphone atrocaudata and Halcyon coromanda).
| 研究範圍 | The study area was located in the eastern part of Fukushima Prefecture, northeastern Japan, and was enclosed within the following four sets of coordinates: (37.80137°N, 140.53747°E), (37.80136°N, 141.00048°E), (36.99588°N, 141.00048°E), and (36.99588°N, 140.53747°E). The study area contained the evacuation zone, which has been categorized into three subzones since October 2013: a zone in preparation for lifting the evacuation order (<=20 mSv/year, Zone 1), a restricted residence area (20–50 mSv/year, Zone 2), and a difficult-to-return-to zone (> 50 mSv/year, after five years the air dose rate will be > 20 mSv/year, Zone 3). Zone 1 and 2 areas have been reviewed annually, and the evacuation order was canceled at all of our sampling sites in Zone 1 and Zone 2. We set up 52 monitoring sites inside and outside the evacuation zone in 2014 (33 sites outside the evacuation zone, six sites in Zone 1, seven sites in Zone 2, and six sites in Zone 3), which were the same as the insect monitoring sites used by Yoshioka et al. (2015). After that we set up 57 monitoring sites (33 sites outside the evacuation zone, eight sites in Zone 1, ten sites in Zone 2, and six sites in Zone 3) in 2015, 55 monitoring sites (33 sites outside the evacuation zone, six sites in Zone 1, ten sites in Zone 2, and six sites in Zone 3) in 2016, 57 monitoring sites (51 sites outside the evacuation zone, 6 sites in Zone 3) in 2017, 56 monitoring sites (50 sites outside the evacuation zone, 6 sites in Zone 3) in 2018, 52 monitoring sites (46 sites outside the evacuation zone, 6 sites in Zone 3) in 2019 and 50 monitoring sites (44 sites outside the evacuation zone, 6 sites in Zone 3) in 2020. All monitoring sites were located within schoolyards (including those that had been converted to community centers) to minimize differences in the local site conditions and to examine the bird assemblages in the urban and rural landscapes that were heavily altered by land abandonment due to the nuclear plant accident. |
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| 品質控管 | All species were identified by the authors or by professional experts or local citizen experts. Core members of the local citizen experts belonged to chapters of the Wild Bird Society of Japan in Fukushima Prefecture. If we could not obtain sufficient information to identify a species from acoustic data, we recorded the next highest taxonomic level (e.g., genus) that could be specified with certainty. Scientific names followed the Ornithological Society of Japan (2012). Noise including rain sound was detected in acoustic records during the monitoring, which was indicated in 'eventRemarks'. |
方法步驟描述:
- (1) Presence-absence records with uncertain identification of species were removed.
- (2) Presence-absence records were summed up as daily data.
引用文獻
- Fukasawa K, Mishima Y, Kumada N, Takenaka A, Yoshioka A, Katsumata K, Haga A, Kubo T, Tamaoki M (2017) Bird Data Challenge: new approach for cooperation between birders and researchers on acoustic identification. Bird Research 13: A15-A28. (in Japanese with English summary)
- Haselmayer J, Quinn JS (2000) A comparison of point counts and sound recording as bird survey methods in amazonian southeast Peru. The Condor 102: 887-893. DOI: doi:10.1650/0010-5422(2000)102[0887:ACOPCA]2.0.CO;2
- Hobson KA, Rempel RS, Greenwood H, Turnbull B, Van Wilgenburg SL (2002) Acoustic surveys of birds using electronic recordings: new potential from an omnidirectional microphone system. Wildl Soc Bull: 709-720.
- Klingbeil BT, Willig MR (2015) Bird biodiversity assessments in temperate forest: the value of point count versus acoustic monitoring protocols. PeerJ 3: e973. DOI: 10.7717/peerj.973
- Lopes MT, Gioppo LL, Higushi TT, Kaestner CA, Silla Jr CN, Koerich AL (2011) Automatic bird species identification for large number of species. Multimedia (ISM), 2011 IEEE International Symposium on: 117-122.
- Ornithological Society of Japan (2012) Check-list of Japanese birds: 7th revised edition. Ornithological Society of Japan, Tokyo (in Japanese)
- Yoshioka A, Mishima Y, Fukasawa K (2015) Pollinators and Other Flying Insects inside and outside the Fukushima Evacuation Zone. PLoS ONE 10: e0140957. DOI: 10.1371/journal.pone.0140957
額外的詮釋資料
| 替代的識別碼 | 6fe80778-1b03-4f2c-a822-e62a998f321b |
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| https://www.gbif.jp/ipt/resource?r=nies_aafu |