Substantial differences occur between canopy and ambient climate: Quantification of interactions in a greenhouse-canopy system

Organ temperature and variation therein plays a key role in plant functioning and its responses to e.g. climate change. There is a strong feedback between organ, especially leaf, temperature and the climate within the canopy (canopy climate), which in turn interacts with the climate outside the cano...

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Bibliographic Details
Published in:PloS one 2020-05, Vol.15 (5), p.e0233210
Main Authors: Westreenen, A van, Zhang, N, Douma, J C, Evers, J B, Anten, N P R, Marcelis, L F M
Format: Article
Language:English
Subjects:
Air temperature
Atmospheric temperature
Biological research
Biology and Life Sciences
Canopies
Climate change
Climate system
Crop diseases
Crops
Earth Sciences
Environmental aspects
Environmental conditions
Epidemics
Experiments
Flowers & plants
Greenhouse gases
Greenhouses
Heat pipes
Heating
Herbivores
Horticulture
Humidity
Leaf area
Leaf area index
Leaves
Light distribution
Light effects
Microclimate
Physical Sciences
Physiology
Plant canopies
Plant ecophysiology
Plant growth
Radiation
Relative humidity
Research and Analysis Methods
Short wave radiation
Systems analysis
Thermal radiation
Ventilation
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Summary:Organ temperature and variation therein plays a key role in plant functioning and its responses to e.g. climate change. There is a strong feedback between organ, especially leaf, temperature and the climate within the canopy (canopy climate), which in turn interacts with the climate outside the canopy (ambient climate). For greenhouses, the determinants of this interplay and how they drive differences between canopy and ambient climate are poorly understood. Yet, as many experiments on both regular greenhouse crops and field crops are done in greenhouses, this is crucial to know. Therefore, we designed an experiment to quantify the differences between ambient and canopy climate and leaf temperature. A path analysis was performed to quantify the interactions between components of the greenhouse canopy-climate system. We found that with high radiation the canopy climate can be up to 5°C cooler than the ambient climate, while for cloudy days this was only 2°C. Canopy relative humidity (RH) was up to 25% higher compared to ambient RH. We showed that radiation is very important for these climate differences, but that this effect could be partly counteracted by turning off supplementary light (i.e. due to its indirect effects e.g. changing light distribution). Leaf temperature was substantially different, both higher and lower, from the canopy air temperature. This difference was determined by leaf area index (LAI), temperature of the heating pipe and the use of supplementary light, which all strongly influence radiation, either shortwave or thermal radiation. The difference between leaf and ambient air temperature could be decreased by decreasing the LAI or increasing the temperature of the heating pipe.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0233210