學術資源整合系統-相關推薦
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| 作者 | Chan, Mei-Ling;Chen, Kuo-Xiang;Fan Jiang, Chun-Cheng |
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| 出版日期 | 202408 |
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| 已接受 | 202401 |
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| 著作名稱 | Exploring Psocathropos lachlani Ribaga, the Most Synanthropic Household insects in Taiwan: Unveiling the Ecological Insights Through Citizen Science and Climatic Analysis
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| 會議論文集 | XXVII International Congress of Entomology Conference program |
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| 會議名稱 | XXVII International Congress of Entomology Conference |
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| 會議地點 | Kyoto, Japan |
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| 會議日期 | 20240825 |
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| 主辦單位 | Graduate School of Agriculture, Kyoto University |
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| 國際性會議 | Y |
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| 主題 | 動物 |
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| 關鍵字 | Psocathropos lachlani, househole arthropods, citizen science, MaxEnt |
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| 摘要 | The fungivorous cave barklouse Psocathropos lachlani Ribaga, 1899 (Psocodea: Psyllipsocidae) has a subcosmopolitan distribution, thriving in tropical and subtropical areas and frequently found indoors. Despite its widespread occurrence, its distribution within Taiwan is rarely known. This study, conducted through science education activities and citizen science investigations from 2017 to 2023, involved the collection of 2,820 commercial roach sticky traps and collecting samples from 219 households across Taiwan. P. lachlani was found in 178 houses (81.3%), making it the predominant arthropod species in indoor environments. Our study also revealed that the occurrence of its tentative mymarid egg parasitoid, Dicopus psyche Girault, was found in 54 houses (24.7%), highly correlating with the occurrence of P. lachlani. To further understand the species distribution of P. lachlani and its ecological relevance, the georeferenced coordinate points of the above samples and GBIF occurrence records of this species from Taiwan were analyzed. We compared these occurrences with 19 historical bioclimate layers from WorldClim (2.1 ver.) dataset by using Ecological Niche Factor Analysis (ENFA) algorithm and then removed highly correlated bioclimate layers to reduce the effect of multicollinearity. The result shows that temperature variables, including temperature mean diurnal range (Bio2), temperature seasonality (Bio4), maximum temperature of warmest month (Bio5) and temperature annual range (Bio7), were the most correlated environmental variables with the presence of P. lachlani. Then, Maximum Entropy modeling (Mexent) was used to predict the potential distribution of P. lachlani based on the occurrence records and these four bioclimatic variables. The result showed that its potential distribution includes most of the island areas below 1,000m altitude, and the highest probability of occurrence was in Taipei basin, Western plain and Lan-Yang plain which is matched closely with the recorded occurrence of P. lachlani. In addition to examining the distribution and ecological dynamics of P. lachlani in Taiwan, our study provides globally relevant insights into indoor arthropod ecology, climate correlations, and the critical role of citizen science in advancing our understanding of indoor arthropod biodiversity. |
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| 資料連結 |  |
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| 計畫主持人 | 詹美鈴 |
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| 計畫編號 | (NSTC 112-2313-B-178-001 |
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| 計畫年度 | 112 |
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| 計畫委託單位 | 國家科學及技術委員會 |
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| 計畫名稱 | 室內嚙蟲與姬薪蟲多樣性監測與做為環境生物指標之評估 |
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| 系統號 | NO000007085 |
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