E
Emily R. Lines
Researcher at University of Cambridge
Publications - 19
Citations - 1612
Emily R. Lines is an academic researcher from University of Cambridge. The author has contributed to research in topics: Climate change & Tree (set theory). The author has an hindex of 9, co-authored 12 publications receiving 1324 citations. Previous affiliations of Emily R. Lines include Queen Mary University of London & University College London.
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Journal ArticleDOI
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.
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Patterns and Drivers of Tree Mortality in Iberian Forests: Climatic Effects Are Modified by Competition
Paloma Ruiz-Benito,Paloma Ruiz-Benito,Paloma Ruiz-Benito,Emily R. Lines,Emily R. Lines,Lorena Gómez-Aparicio,Miguel A. Zavala,David A. Coomes +7 more
TL;DR: The significant interaction between climate and competition on tree mortality indicated that global change in Mediterranean regions, causing hotter and drier conditions and denser stands, could lead to profound effects on forest structure and composition.
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Predictable changes in aboveground allometry of trees along gradients of temperature, aridity and competition
TL;DR: This work quantifies how environmental conditions influence the scaling of height and crown diameter (CD) with stem diameter (d.b.h.–CD) and highlights the role of hydraulic limitations in this region of Spain, where climate varies strongly.
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Influences of Forest Structure, Climate and Species Composition on Tree Mortality across the Eastern US
TL;DR: Bayesian analysis of over 430,000 tree records from a large eastern US forest database characterised tree mortality as a function of climate, soils, species and size (stem diameter), implying that variation in mortality is a crucial part of variation in the forest carbon cycle.
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A general integrative framework for modelling woody biomass production and carbon sequestration rates in forests
TL;DR: In this article, a general integrative framework for modelling the influences of stand age, environmental conditions, climate change and disturbance on woody biomass production and carbon sequestration was developed to explore drivers of carbon cycling in New Zealand mountain beech forests.