Dept Home UCI Home

Search ESS

  • UCI Home
  • PS Home
  • Site Map
  • Contact Us
  • Home
  • About ESS
  • Research
  • Graduate
  • Undergraduate
  • People
  • News & Events

Latest News

  • Apr 24, 2013 4:41 GMT

    Ranking of Earth Sciences Graduate Schools and Many More

  • Apr 4, 2013 11:57 GMT

    NASA awards Eric Rignot $2.6 million to continue mapping Antarctic ice motion

 

ESS News

construction

Is carbon within the global terrestrial biosphere becoming more oxidized? Implications for trends in atmospheric O-2

  • chemical and elemental composition of organic matter
  • chemical-composition
  • co2 enrichment
  • construction
  • construction cost
  • cost-benefit-analysis
  • ecosystem
  • elemental composition
  • global carbon cycle
  • leaf life-span
  • litter quality
  • net primary production
  • oxygen fluxes
  • plant allocation
  • respiration
  • tissue
  • Randerson Research Group
ESS Associations
Research Area: 
Biogeochemical Cycles
Research Lab: 
Randerson Research Group
Randerson, J. T., Masiello C. A., Still C. J., Rahn T., Poorter H., & Field C. B. (2006).  Is carbon within the global terrestrial biosphere becoming more oxidized? Implications for trends in atmospheric O-2. Global Change Biology. 12, 260-271.
  • Tagged
  • XML
  • BibTex
  • Google Scholar
  • Home
  • About ESS
  • Research
  • Graduate
  • Undergraduate
  • People
  • News & Events
  • Sitemap
  • Internal
  • Contact Us
  • Login

© 2001-2010 The Regents of the University of California. All rights reserved. Copyright & Legal Notices.


This Web site is the responsibility of webmaster@ps.uci.edu.
If any of the material is in violation of a copyright, please contact the e-mail address.
Links on these pages to commercial Web sites do not represent endorsement by the University of California or its affliates.