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Future no-analogue vegetation produced by no-analogue combinations of temperature and insolation

Dates

Year
2014

Citation

Reu, Björn, Zaehle, Sönke, Bohn, Kristin, Pavlick, Ryan, Schmidtlein, Sebastian, Williams, John W., and Kleidon, Axel, 2014, Future no-analogue vegetation produced by no-analogue combinations of temperature and insolation: Global Ecology and Biogeography, v. 23, no. 2, p. 156-167.

Summary

Aim Projections of future climate change suggest that regional climates may evolve to states that are unlike any climate regime found on Earth today. These climates will impose novel constraints on plant species, and are likely to give rise to plant associations that are compositionally unlike any found on Earth today. Here, we explore whether the geographical distribution of previously mapped no-analogue climates corresponds to the geographical distribution of simulated no-analogue vegetation under scenarios of global warming. Location Global landmasses. Methods We used JeDi, a process-based vegetation model that accounts for ecophysiological trade-offs in plant growth and survival, to identify the assembly of plant functional types [...]

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  • LC MAP - Landscape Conservation Management and Analysis Portal
  • Northwest Boreal Landscape Conservation Cooperative

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6127 records
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NWBLCC-20160503-Saved.xml

Additional Information

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Type Scheme Key
DOI http://sciencebase.gov/vocab/identifierScheme 10.1111/geb.12110
ISSN http://sciencebase.gov/vocab/identifierScheme 1466-8238

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