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United States Department of Agriculture

Agricultural Research Service

The Prairie Heating and Carbon Dioxide Enrichment Experiment


PHACE Plot

The Prairie Heating and Carbon Dioxide Enrichment (PHACE) experiment was created in 2006 to learn how future environmental conditions will influence mixed-grass prairie. Mixed-grass prairie is the largest remaining grassland ecosystem in North America, and is integral to both agricultural productivity and conservation of biological diversity in the western United States.

PHACE Sampling

Click here for a video describing the experiment and early results.


NEW PUBLICATIONS

Blumenthal, D. M., V. Resco, J. A. Morgan, D. G. Williams, D. R. LeCain, E. M. Hardy,E. Pendall and E. Bladyka. 2013. Invasive forb benefits from water savings by native plants and carbon fertilization under elevated CO2 and warming. New Phytologist, doi: 10.1111/nph.12459.

Sorte, C.J.B., I. Ibanez, D.M. Blumenthal, N.A. Molinari, L.P. Miller, E.D. Grosholz, J.M. Diez, C.M. D’Antonio, J.D. Olden, S.J. Jones, and J.S. Dukes. Poised to prosper? A cross-system comparison of climate change effects on native and non-native species performance. Ecology Letters, 16: 261–270, doi: 10.1111/ele.12017

Dijkstra, F.A., E. Pendall, J.A. Morgan, D.M. Blumenthal, Y. Carillo, D.R. LeCain, R.F. Follett, and D.G. Williams. 2012. Climate change alters stoichiometry of phosphorus and nitrogen in semiarid grassland. New Phytologist 196:807-815.

Dieleman, W .I. J., S .Vicca , F. A. Dijkstra, F .Hagedorn, M. J. Hovenden, K. S. Larsen, J. A. Morgan, A. Volder, C. S Beier, J. S. Dukes, J. King, S. Leuzinger, S. Linder, Y. Luo, R. Oren, P. DeAngelis, D. Tingey, M. R. Hoosbeek and I. A. Janssens. 2012.  Simple additive effects are rare: a quantitative review of plant biomass and soil process responses to combined manipulations of CO2 and temperature. Global Change Biology 18:2681–2693.

Click here for a complete list of publications.


WHAT WE STUDY, AND WHAT WE’VE LEARNED

Identifying plants

Our objective is to predict the consequences of global change for plant and microbial communities and ecosystem processes. Responses of particular interest include plant metabolism, production, quality, diversity and community composition (invasive species, functional groups); microbial community composition and function; greenhouse gas sequestration and emission; and cycling of water, nitrogen and phosphorus. Read more… 


HOW PHACE WORKS

The core PHACE experiment includes five replications of the following treatments: (1) control (ambient conditions), (2) elevated CO2, (3) warming, and (4) elevated CO2 plus warming. Elevated CO2 treatments use free air CO2 enrichment technology to increase atmospheric CO2 to 600 ppm. Warming treatments use ceramic heaters to increase temperatures 1.5 C during the day and 3 C at night. Additional treatments use irrigation to separate water-mediated effects from direct effects of elevated CO2, and to learn how the seasonality of precipitation influences mixed-grass prairie. Read more about the experimental design...

Arial photo of PHACE


CONSTRUCTION OF PHACE

Installing frame

In 2005-2006, below-ground infrastructure for the PHACE plots was put in place, including hydrologic isolation of soils within plots, and installation of tubes for monitoring soil moisture and plant roots. The elevated CO2 and warming treatments began in spring 2006 and spring 2007, respectively. These treatments have been very effective in controlling environmental conditions. See Morgan et al. 2011, and associated supplementary material for details. See images of PHACE construction…


WHO WE ARE

This project is a collaboration between the United States Department of Agriculture-Agricultural Research Service, the University of Wyoming, Colorado State University, the University of Sydney, Arizona State University, and the Institute for BioMeteorology (CNR, Italia). See a full list of researchers here.

Collaborators


FUNDING

Funding for this work is provided by the US Department of Agriculture-Agricultural Research Service Climate Change, Soils & Emissions Program, the US Department of Agriculture-Cooperative State Research, Education, and Extension Service Soil Processes Program (grant no. 2008-35107-18655), the US Department of Energy’s Office of Science (Biological and Environmental Research) through the Western Regional Center of the National Institute for Climatic Change Research at Northern Arizona University, and the National Science Foundation (DEB no. 1021559).


CONTACT INFORMATION

Dr. Dana Blumenthal
Telephone: 970-492-7122
Fax: 970-492-7160
Postal address: 1701 Centre Ave, Fort Collins, CO 80526
e-mail: dana.blumenthal@ars.usda.gov

Webmaster: Pam.Freeman@ars.usda.gov


Last Modified: 11/12/2013