Yiching Lin
Tunghai University
33 Papers
130 Citations
Yiching Lin is an academic researcher from Tunghai University. The author has contributed to research in topics: Biology & Biodiversity. The author has an hindex of 14, co-authored 28 publications. Previous affiliations of Yiching Lin include Kaohsiung Medical University & University of Illinois at Urbana–Champaign.
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Papers
Rate of tree carbon accumulation increases continuously with tree size.
Nathan L. Stephenson,Adrian J. Das,Richard Condit,Sabrina E. Russo,Patrick J. Baker,Noelle G. Beckman,David A. Coomes,Emily R. Lines,William K. Morris,Nadja Rüger,Eric A. Álvarez,Cecilia Blundo,Sarayudh Bunyavejchewin,George B. Chuyong,Stuart J. Davies,Alvaro Duque,Corneille E. N. Ewango,Olivier Flores,Jerry F. Franklin,Hector Ricardo Grau,Zhanqing Hao,Mark E. Harmon,Stephen P. Hubbell,David Kenfack,Yiching Lin,Jean-Remy Makana,Agustina Malizia,Lucio R. Malizia,Robert J. Pabst,Nantachai Pongpattananurak,Sheng-Hsin Su,I-Fang Sun,Sylvester Tan,Duncan W. Thomas,P. J. van Mantgem,Xugao Wang,Susan K. Wiser,Miguel A. Zavala +37 more
TL;DR: A global analysis of 403 tropical and temperate tree species shows that for most species mass growth rate increases continuously with tree size, which means large, old trees do not act simply as senescent carbon reservoirs but actively fix large amounts of carbon compared to smaller trees.
Global importance of large‐diameter trees
James A. Lutz,Tucker J. Furniss,Daniel J. Johnson,Stuart J. Davies,David Allen,Alfonso Alonso,Kristina J. Anderson-Teixeira,Ana Andrade,Jennifer L. Baltzer,Kendall M. L. Becker,Erika M. Blomdahl,Norman A. Bourg,Norman A. Bourg,Sarayudh Bunyavejchewin,David F. R. P. Burslem,C. Alina Cansler,Ke Cao,Min Cao,Dairon Cárdenas,Li-Wan Chang,Kuo-Jung Chao,Wei-Chun Chao,Jyh-Min Chiang,Chengjin Chu,George B. Chuyong,Keith Clay,Richard Condit,Susan Cordell,H. S. Dattaraja,Alvaro Duque,Corneille E. N. Ewango,Gunter A. Fischer,Christine Fletcher,James A. Freund,Christian P. Giardina,Sara J. Germain,Gregory S. Gilbert,Zhanqing Hao,Terese B. Hart,Billy C.H. Hau,Fangliang He,Andy Hector,Robert W. Howe,Chang-Fu Hsieh,Yue-Hua Hu,Stephen P. Hubbell,Faith Inman-Narahari,Akira Itoh,David Janík,Abdul Rahman Kassim,David Kenfack,Lisa Korte,Kamil Král,Andrew J. Larson,Yide Li,Yiching Lin,Shirong Liu,Shawn K. Y. Lum,Keping Ma,Jean-Remy Makana,Yadvinder Malhi,Sean M. McMahon,William J. McShea,Hervé Memiaghe,Xiangcheng Mi,Michael D. Morecroft,Paul M. Musili,Jonathan Myers,Vojtech Novotny,Alexandre Adalardo de Oliveira,Perry S. Ong,David A. Orwig,Rebecca Ostertag,Geoffrey G. Parker,Rajit Patankar,Richard P. Phillips,Glen Reynolds,Lawren Sack,Guo-Zhang Michael Song,Sheng-Hsin Su,Raman Sukumar,I-Fang Sun,Hebbalalu S. Suresh,Mark E. Swanson,Sylvester Tan,Duncan W. Thomas,Jill Thompson,María Uriarte,Renato Valencia,Alberto Vicentini,Tomáš Vrška,Xugao Wang,George D. Weiblen,Amy Wolf,Shu-Hui Wu,Han Xu,Takuo Yamakura,Sandra L. Yap,Jess K. Zimmerman +98 more
TL;DR: Because large-diameter trees constitute roughly half of the mature forest biomass worldwide, their dynamics and sensitivities to environmental change represent potentially large controls on global forest carbon cycling.
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Temporal variability of forest communities: empirical estimates of population change in 4000 tree species
Ryan A. Chisholm,Ryan A. Chisholm,Richard Condit,K. Abd Rahman,Patrick J. Baker,Sarayudh Bunyavejchewin,Yu-Yun Chen,George B. Chuyong,H. S. Dattaraja,Stuart J. Davies,Corneille E. N. Ewango,C.V.S. Gunatilleke,I. A. U. Nimal Gunatilleke,Stephen P. Hubbell,Stephen P. Hubbell,David Kenfack,Somboon Kiratiprayoon,Yiching Lin,Jean-Remy Makana,Nantachai Pongpattananurak,Sandeep Pulla,Ruwan Punchi-Manage,Raman Sukumar,Sheng-Hsin Su,I-Fang Sun,H. S. Suresh,Sylvester Tan,Duncan W. Thomas,Sandra L. Yap +28 more
TL;DR: Analysis of changes in abundance of over 4000 tree species in 12 forests across the world over periods of 6-28 years shows that abundance fluctuations were smaller at species-rich sites, consistent with the idea that stable environmental conditions promote higher diversity.
Local spatial structure of forest biomass and its consequences for remote sensing of carbon stocks
Maxime Réjou-Méchain,Helene C. Muller-Landau,Matteo Detto,Sean C. Thomas,T. Le Toan,S.S. Saatchi,Juan Sebastian Barreto-Silva,Norman A. Bourg,Sarayudh Bunyavejchewin,Nathalie Butt,Nathalie Butt,Warren Y. Brockelman,Min Cao,Dairon Cárdenas,Jyh-Min Chiang,George B. Chuyong,Keith Clay,Richard Condit,H. S. Dattaraja,Stuart J. Davies,Alvaro Duque,Shameema Esufali,Corneille E. N. Ewango,R. H. S. Fernando,Christine Fletcher,I. A. U. N. Gunatilleke,Zhanqing Hao,Kyle E. Harms,Terese B. Hart,Bruno Hérault,Robert W. Howe,Stephen P. Hubbell,Stephen P. Hubbell,Daniel J. Johnson,David Kenfack,Andrew J. Larson,Luxiang Lin,Yiching Lin,James A. Lutz,Jean-Remy Makana,Yadvinder Malhi,Toby R. Marthews,Ryan W. McEwan,Sean M. McMahon,William J. McShea,Robert Muscarella,Anuttara Nathalang,Nur Supardi Md. Noor,Christopher J. Nytch,Alexandre Adalardo de Oliveira,Richard P. Phillips,Nantachai Pongpattananurak,Ruwan Punchi-Manage,R. Salim,Jonathan S. Schurman,Raman Sukumar,H. S. Suresh,Udomlux Suwanvecho,Duncan W. Thomas,Jill Thompson,María Uriarte,Renato Valencia,Alberto Vicentini,Amy Wolf,Sandra L. Yap,Zuoqiang Yuan,Charles E. Zartman,Jess K. Zimmerman,Jérôme Chave +68 more
TL;DR: In this article, the authors used 30 large (8-50 ha) globally distributed permanent forest plots to quantify the spatial variability in aboveground biomass density at spatial scales ranging from 5 to 250m (0.025-6.25 ha), and evaluate the implications of this variability for calibrating remote sensing products using simulated remote sensing footprints.
Point patterns of tree distribution determined by habitat heterogeneity and dispersal limitation
TL;DR: The results showed that the inhomogeneous Thomas process was the best fit model and described most of the species studied, suggesting that spatial patterns of tree species might be formed by the joint effects of habitat associations and dispersal limitation.
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