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Design and performance of a new FACE (free air carbon dioxide enrichment) system for crop and short vegetation exposure.

Authors :
Fangmeier, Andreas
Torres-Toledo, Victor
Franzaring, Jürgen
Damsohn, Walter
Source :
Environmental & Experimental Botany. Oct2016, Vol. 130, p151-161. 11p.
Publication Year :
2016

Abstract

Current atmospheric CO 2 levels are unprecedented for the last 800,000 years and require assessments of their potential effects. Free Air Carbon dioxide Enrichment (FACE) is regarded as the most appropriate exposure system for experimental field investigations. While the early FACE technology involved fans for pre-dilution of CO 2 , now systems both with fans and without fans operating with pure CO 2 are employed. The most often used construction in FACE technology involves peripheral injection from a circular or octagonal plenum with CO 2 release pipes and jet holes surrounding the experimental plot which can create [CO 2 ] gradients across the plot. Here, we present a new FACE design for short vegetation (crops and grassland) that does not involve peripheral injection but distributes CO 2 directly within the plot canopy. The system involves numerous CO 2 release holes in porous tubes that hang down from the upper canopy surface and stretch into the canopy. They can be adjusted in height according to crop growth. Plot size was 2 m × 2 m which allows for a high number of replicates at low CO 2 consumption costs (6.5 tons CO 2 in one season at five replicate plots = 3.5 kg CO 2 per m 2 usable plot area and day during 24hr operation). System performance in terms of CO 2 control was very good both in time and space, with 93% of all instantaneous readings during daylight hours matching ±20% deviation from the set point, and low variation of [CO 2 ] at a given moment within the exposed canopy. Some shading (c. 4% at full canopy development) resulted from the FACE structure at the plots but hardly any other microclimatic artifacts were observed. The FACE system is of modular construction and highly flexible and adaptable to various types of short vegetation. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00988472
Volume :
130
Database :
Academic Search Index
Journal :
Environmental & Experimental Botany
Publication Type :
Academic Journal
Accession number :
116889504
Full Text :
https://doi.org/10.1016/j.envexpbot.2016.06.002