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🆕 Journal surfing - 03.2021: 生物多樣性、性狀方法與演化、生物地理
Manage episode 301132897 series 2960096
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👉 這一集是三月份的文章,介紹了一些生物多樣性、性狀方法與演化、與生物地理的研究:
[Trait-based methods]
(00:53-04:02)
1.以較平衡的多性狀組合來計算物種間的功能差異 doi.org/10.1111/2041-210X.13537
de Bello, F., Botta-Dukát, Z., Lepš, J., & Fibich, P. (2021). Towards a more balanced combination of multiple traits when computing functional differences between species.
Methods in Ecology and Evolution, 12(3), 443–448. © 2020 British Ecological Society.
(04:04-08:50)
2.印度東喜馬拉雅山海拔梯度天蛾科種內性狀的變異與群落構建 doi.org/10.1002/ece3.7054
Mungee, M., & Athreya, R. (2021). Intraspecific trait variability and community assembly in hawkmoths (Lepidoptera: Sphingidae) across an elevational gradient in the eastern Himalayas, India.
Ecology and Evolution, 11, 2471–2487. © 2020 The Authors.
(08:52-11:39)
3.種內性狀變異在促進功能生態位維度中的重要性 doi.org/10.1111/ecog.05254
He, D., Biswas, S. R., Xu, M. S., Yang, T. H., You, W. H., & Yan, E. R. (2021). The importance of intraspecific trait variability in promoting functional niche dimensionality.
Ecography, 44(3), 380–390. © 2020 The Authors.
[Methods in Biodiversity]
(11:59-12:20)
4.測量物種多樣性的概念指南 doi.org/10.1111/oik.07202
Roswell, M., Dushoff, J., & Winfree, R. (2021). A conceptual guide to measuring species diversity.
Oikos, 130(3), 321–338. © 2020 The Authors.
(12:20-12:49)
5.連接高通量生物多樣性名錄:全球基於樣地基因體架構整合與綜合的良機 doi.org/10.1111/mec.15797
Arribas, P., Andújar, C., Bidartondo, M. I., Bohmann, K., Coissac, É., Creer, S., … Emerson, B. C. (2021). Connecting high-throughput biodiversity inventories: Opportunities for a site-based genomic framework for global integration and synthesis.
Molecular Ecology, 30(5), 1120–1135. © 2020 The Authors.
(12:50-13:08)
6.擴散-生態位連續體指數:一種用於量化群落構建過程中擴散與生態位過程相對重要性的新指標 doi.org/10.1111/ecog.05356
Vilmi, A., Gibert, C., Escarguel, G., Happonen, K., Heino, J., Jamoneau, A., … Wang, J. (2021). Dispersal–niche continuum index: a new quantitative metric for assessing the relative importance of dispersal versus niche processes in community assembly.
Ecography, 44(3), 370–379. © 2020 The Authors.
[Trait evolution]
(13:13-13:46)
7.草食和碎屑食性的適應促使淡水魚在其輻射演化中出現大型腹腔的趨同演化(耳鰾派:脂鯉目) doi.org/10.1111/evo.14178
Burns, M. D. (2021). Adaptation to herbivory and detritivory drives the convergent evolution of large abdominal cavities in a diverse freshwater fish radiation (Otophysi: Characiformes).
Evolution, 75(3), 688–705. © 2021 The Authors. © 2021 The Society for the Study of Evolution.
[Macroecology]
(13:47-14:21)
8.演化的時間最佳解釋了現生淡水魚緯度上的多樣性梯度 doi.org/10.1111/geb.13253
Miller, E. C., & Román-Palacios, C. (2021). Evolutionary time best explains the latitudinal diversity gradient of living freshwater fish diversity.
Global Ecology and Biogeography, 30(3), 749–763. © 2021 John Wiley & Sons Ltd
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1. 以較平衡的多性狀組合來計算物種間的功能差異 doi.org/10.1111/2041-210X.13537 (00:00:53)
2. 印度東喜馬拉雅山海拔梯度天蛾科種內性狀的變異與群落構建 doi.org/10.1002/ece3.7054 (00:04:04)
3. 種內性狀變異在促進功能生態位維度中的重要性 doi.org/10.1111/ecog.05254 (00:08:52)
4. 測量物種多樣性的概念指南 doi.org/10.1111/oik.07202 (00:11:59)
5. 連接高通量生物多樣性名錄:全球基於樣地基因體架構整合與綜合的良機 doi.org/10.1111/mec.15797 (00:12:20)
6. 擴散-生態位連續體指數:一種用於量化群落構建過程中擴散與生態位過程相對重要性的新指標 doi.org/10.1111/ecog.05356 (00:12:50)
7. 草食和碎屑食性的適應促使淡水魚在其輻射演化中出現大型腹腔的趨同演化(耳鰾派:脂鯉目) doi.org/10.1111/evo.14178 (00:13:13)
8. 演化的時間最佳解釋了現生淡水魚緯度上的多樣性梯度 doi.org/10.1111/geb.13253 (00:13:47)
24 episoder
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