Caroline Farrior - Publications

Dybzinski, R, CE Farrior, SW Pacala, 2014. Increased forest carbon storage with increased atmopspheric CO2 despite nitrogen limitation: A game-theoretic allocation model for trees in competition for nitrogen and light. Global Change Biology.
doi: 10.1111/gcb.12783 link

Farrior, CE, 2014. Competitive optimization models, attempting to understand the diversity of life. New Phytologist 203(4):1025-1027.  link

Farrior, CE
, D Tilman, R Dybzinski, PB Reich, SA Levin, and SW Pacala, 2013. Resource limitation in a competitive context determines complex plant responses to experimental resource additions. Ecology 94(11):2505-2517.
link     supplementary material  pdf

Dybzinski, R, CE Farrior, S Ollinger, SW Pacala, 2013. Interspecific vs intraspecific patterns in leaf nitrogen of forest trees across nitrogen availability gradients. New Phytologist 200:112-121.
link pdf

Farrior, CE, R Dybzinski, SA Levin, and SW Pacala, 2013. Competition for water and light in closed-canopy forests: a tractable model of carbon allocation with implications for carbon sinks. The American Naturalist 181(3): 314-330.
link     supplementary material     F1000 recommendation pdf

Dybzinski, R, CE Farrior, A Wolf, PB Reich, and SW Pacala, 2011. Evolutionarily stable strategy carbon allocation to foliage, wood, and fine roots in trees competing for light and nitrogen: An analytically tractable, individual-based model and quantitative comparisons to data. The American Naturalist 177(2):153-166.
link     supplementary material     F1000 recommendation pdf

In Review

Farrior, CE
, I Rodriguez-Iturbe, R Dybzinski, SA Levin, and SW Pacala, In Review. Water limitation amplifies potential for forest carbon sinks under elevated CO2.

Weng, E, S Malyshev, JW Lichstein, CE Farrior, R Dybzinski, T Zhang, E Shevliakova, and SW Pacala, In Review. Scaling from individual plants to the globe in an Earth System Model: height structured competition and carbon cycling.