Free-air concentration enrichment

Free-air concentration enrichment
FACE facility in the Nevada desert.

Free-Air Carbon dioxide Enrichment (FACE) is a method used by ecologists and plant biologists that raises the concentration of CO2 in a specified area and allows the response of plant growth to be measured. Experiments using FACE are required because most studies looking at the effect of elevated CO2 concentrations have been conducted in labs and where there are often factors other than CO2 concentration that affect growth, for example the pot effect. Measuring the effect of elevated CO2 using FACE is a better way of estimating how plant growth will change in the future as the CO2 concentration rises in the atmosphere due to man-made emissions. FACE also allows the effect of elevated CO2 on plants that cannot be grown in small spaces (trees for example) to be measured.

Contents

Method

Horizontal or vertical pipes are placed in a circle around the experimental plot, which can be between 1m and 30m in diameter, and these emit CO2 enriched air around the plants. The concentration of CO2 is maintained at the desired level through placing sensors in the plot which feedback to a computer which then adjusts the flow of CO2 from the pipes.

Usage

FACE circles have been used across in parts of the United States in temperate forests and also in stands of aspen in Italy. The method is also utilized for agricultural research. For example, FACE circles have been used to measure the response of soybean plants to increased levels of ozone and carbon dioxide at research facilities at the University of Illinois at Urbana-Champaign.[1] FACE technologies have yet to be implemented in old growth forests, tropical forests, or boreal forests but future research projects will probably include these areas. TasFACE is investigating the effects of elevated CO2 on a native grassland in Tasmania, Australia. The National Wheat FACE array is presently being established in Horsham, Victoria, Australia as a joint project of the Victorian Department of Primary Industries and the University of Melbourne.[2]

A FACE experiment began at Duke University in June 1994. The Blackwood Division of the Duke Forest contains the Forest-Atmosphere Carbon Transfer and Storage facility. This consists of four free-air CO2 enrichment plots which provide higher levels of atmospheric CO2 concentration and four plots that provide ambient CO2 control.[3] There have been 253 publications reporting on the findings of the experiment.[4]

Results

In 2004, a meta-analysis of 15 years of FACE studies, found the response to elevated CO2 using FACE only slightly increases yield in crop plants (5-7% in rice and 8% in wheat). These responses were lower than was expected from previous studies that measured the effect in labs or enclosures. This has important consequences as previous projections of food production have assumed that decreases in yield as a result of climate change would be offset by increased yield due to elevated CO2.[5]

As of 2010, a more complete picture is emerging, with significant difference in response being observed by different plant species, also water availability and the concentration of ozone.[6] For example, the 2007-2010 Horsham FACE project (using wheat crops) in Victoria, Australia, found "The effect of eCO2 was to increase crop biomass at maturity by 20% and anthesis root biomass increased by 49%".[7] This study also concludes that "a wide gene pool needs to be investigated to see if particular cultivars are able to respond more to eCO2". Increased atmospheric carbon dioxide has been found to reduce plant water use, and consequently, the uptake of nitrogen, so particularly benefiting crop yields in arid regions.[8] The carbohydrate content of crops is increased from photosynthesis, but protein content is reduced due to lower nitrogen uptake. Legumes and their symbiotic "nitrogen fixing" bacteria appear to benefit more from increased carbon dioxide levels than most other species.

References

6. http://www.plumex.de^

7. http://geb.uni-giessen.de/geb/volltexte/2003/1125/ Siegfried W. Schmidt


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