Articles
Photoselective nets impact on apple fruit development
Article number
1271_44
Pages
321 – 326
Language
English
Abstract
To evaluate the effect of the light spectrum on apple fruit carbon partitioning, five light environments were created in a Rosy Glow orchard, in spring 2017. A standard black anti-hail net (serving as control) and four photoselective nets (red, blue, white, yellow) were used to cover 6 trees each.
Every treatment was replicated twice; shading was 20% for all nets.
Growth of 32 fruit, their bourse shoots and 32 extension shoots was measured twice a week, from the end of April to the end of May, and once a week, until the end of June.
Nets induced differences in both fruit and extension shoot growth, but not in bourse shoots.
The yellow and the black nets tended to increase growth, while blue appeared to slow it down in absolute terms, but not on per gram basis.
The red and white nets were mostly intermediate.
As fruit grew at different rates, whereas bourse shoots did not, different source-sink relations between the two are hinted.
The bourse shoots borne on the spurs with the more active fruit might have been more efficient, in terms of photosynthate production.
On the other hand, fruit might have been stronger sinks, able to draw a higher amount of photosynthates.
The light spectrum might induce differences in the carbon loading processes, but the potential applications in the field still need to be tested and further investigations are required.
Every treatment was replicated twice; shading was 20% for all nets.
Growth of 32 fruit, their bourse shoots and 32 extension shoots was measured twice a week, from the end of April to the end of May, and once a week, until the end of June.
Nets induced differences in both fruit and extension shoot growth, but not in bourse shoots.
The yellow and the black nets tended to increase growth, while blue appeared to slow it down in absolute terms, but not on per gram basis.
The red and white nets were mostly intermediate.
As fruit grew at different rates, whereas bourse shoots did not, different source-sink relations between the two are hinted.
The bourse shoots borne on the spurs with the more active fruit might have been more efficient, in terms of photosynthate production.
On the other hand, fruit might have been stronger sinks, able to draw a higher amount of photosynthates.
The light spectrum might induce differences in the carbon loading processes, but the potential applications in the field still need to be tested and further investigations are required.
Authors
A. Boini, K. Bresilla, G.D. Perulli, L. Manfrini, B. Morandi, L. Corelli Grappadelli
Keywords
light, spectrum, cytokinesis, fruit growth
Groups involved
- Division Greenhouse and Indoor Production Horticulture
- Division Precision Horticulture and Engineering
- Division Plant-Environment Interactions in Field Systems
- Working Group Nettings in Horticulture (subgroup of Protected Cultivation in Mild Winter Climates)
- Working Group Light in Horticulture
- Working Group Organic Greenhouse Horticulture
- Working Group Modelling Plant Growth, Environmental Control, Greenhouse Environment
- Working Group Protected Cultivation, Nettings and Screens for Mild Climates
- Working Group Vegetable Grafting
- Working Group Computational Fluid Dynamics in Agriculture
- Working Group Design and Automation in Integrated Indoor Production Systems
- Working Group Mechanization, Digitization, Sensing and Robotics
- Working Group Greenhouse Environment and Climate Control
- Commission Agroecology and Organic Farming Systems
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