Improving the performance of infrared reflective night curtains for warming field plots

► We evaluate current “passive” warming ecosystem experiments. ► We analyze different parameters affecting energy storage. ► We demonstrate some feasible avenues for improving the achieved temperature increase. ► Benefits of reflective curtains will vary along geographical and climatic gradients. ►...

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Bibliographic Details
Published in:Agricultural and forest meteorology 2013-05, Vol.173, p.53-62
Main Authors: Bruhn, Dan, Larsen, Klaus S., de Dato, Giovanbattista D., Duce, Pierpaolo, Zara, Pierpaolo, Beier, Claus, Schmidt, Inger Kappel, Clausen, Sønnik, Mikkelsen, Teis N.
Format: Article
Language:English
Subjects:
Agricultural and forest climatology and meteorology. Irrigation. Drainage
Agronomy. Soil science and plant productions
Animal and plant ecology
Animal, plant and microbial ecology
Biological and medical sciences
Climate change
Conservation
Curtains
Daytime
Ecosystem manipulation
Ecosystems
employment
energy
field experimentation
Fundamental and applied biological sciences. Psychology
General agronomy. Plant production
Global warming
heat
Heat loss
home furnishings
Infrared
Infrared radiation
IR curtains
Night
Nighttime warming
Passive warming
Soil warming
Synecology
temperature
Wind speed
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Summary:► We evaluate current “passive” warming ecosystem experiments. ► We analyze different parameters affecting energy storage. ► We demonstrate some feasible avenues for improving the achieved temperature increase. ► Benefits of reflective curtains will vary along geographical and climatic gradients. ► “Nighttime warming only” results in a carryover effect into daytime. Infrared reflective (IR) curtains have been widely used to obtain passive nighttime warming in field ecosystem experiments in order to simulate and study climate warming effects on ecosystems. For any field installation with IR-reflective curtains in an ecosystem the achieved heating effect depends on the heat gain determined by the stored energy during daytime (incoming radiation can be used as a proxy) the heat conservation determined by the IR-reflective effect of the curtains (cloudiness can be used as a proxy) and the heat loss determined by convectional heat loss (wind speed can be used as a proxy). In this study, we demonstrate some feasible avenues for improving the achieved temperature increase (ΔT) when using IR-reflective curtains at field scale by attacking the three main factors determining the efficiency of the curtains: (i) improving the long wave IR reflection by the curtains, (ii) insulating the curtains and (iii) reducing the lateral wind speed. We provide experimentally based replies to the major concerns raised in the literature about the passive nighttime warming method. We show (a) that using IR-reflective curtains during night does in fact not result in nighttime warming only as there is a small carryover (
ISSN:0168-1923
1873-2240
DOI:10.1016/j.agrformet.2013.01.004