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Earlier leaf-out and later autumn leaf senescence under climate warming have been linked to increases in plant productivity and ecosystem carbon uptake. Yet, despite the potential implications of shifting phenology for plant carbon uptake, the degree to which phenological changes affect overall plant growth and the partitioning between above- an…

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Zohner_et_al_JEcol_Analysis_data_code
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PhenoGrowth

This project contains data files S1-S5 and R code for "How changes in spring and autumn phenology translate into growth - experimental evidence of asymmetric effects. Journal of Ecology. 2021"

Constantin M. Zohner, Susanne S. Renner, Veronica Sebald, Thomas W. Crowther

Author for correspondence: Constantin Zohner, constantin.zohner@gmail.com

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Earlier leaf-out and later autumn leaf senescence under climate warming have been linked to increases in plant productivity and ecosystem carbon uptake. Yet, despite the potential implications of shifting phenology for plant carbon uptake, the degree to which phenological changes affect overall plant growth and the partitioning between above- an…

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Data and code for 'How changes in spring and autumn phenology translate into growth - experimental evidence of asymmetric effects' Latest
Apr 29, 2021

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