Particle Films Affect Carbon Assimilation and Yield in `Empire' Apple

Particle Films Affect Carbon Assimilation and Yield in `Empire' Apple

Processed-kaolin particle films (PKPFs) are used commercially in large quantities on horticultural crops to repel insects, and reduce heat stress and solar injury of fruit. Our studies determined the effect of two processed-mineral particle film materials (kaolin and calcium carbonate), on whole pla...

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Bibliographic Details
Published in:Journal of the American Society for Horticultural Science Vol. 128; no. 3; pp. 356 - 362
Main Authors: Glenn, D. Michael, Erez, Amnon, Puterka, Gary J, Gundrum, Patricia
Format: Journal Article
Language:English
Published: American Society for Horticultural Science 01-05-2003
Subjects:
air temperature
apples
calcium carbonate
canopy
carbon
color
heat stress
horticultural crops
insects
kaolin
leaves
Malus
particle films
photosynthetically active radiation
stomatal conductance
water use efficiency
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Summary:Processed-kaolin particle films (PKPFs) are used commercially in large quantities on horticultural crops to repel insects, and reduce heat stress and solar injury of fruit. Our studies determined the effect of two processed-mineral particle film materials (kaolin and calcium carbonate), on whole plant carbon assimilation, water use efficiency, yield, mean fruit weight and quality in `Empire' apple [(Malus ×sylvestris (L.) Mill var. domestica (Borkh Mansf.))] over a four-year period. The application of a PKPF reduced canopy temperature, and probably reduced environmental stress, resulting in increased mean fruit weight and red color in two of the four years of the study. Whole canopy carbon assimilation studies indicated increased carbon assimilation only under conditions of high air temperature. The PKPF sprayed leaves also had reduced water use efficiency; likely due to increased stomatal conductance associated with reduced leaf temperature. Calcium carbonate had none of the positive effects of PKPF and reflected more photosynthetically active radiation (PAR) than the PKPF.
Bibliography:http://journal.ashspublications.org/content/128/3.toc
ISSN:0003-1062
2327-9788
DOI:10.21273/jashs.128.3.0356