Climate changes may cause severe impacts both on grapevine and berry development. Foliar application of kaolin has been suggested as a mitigation strategy to cope with stress caused by excessive heat/radiation absorbed by leaves and grape berry clusters. However, its effect on the light micro-environment inside the canopy and clusters, as well as on the acclimation status and physiological responses of the grape berries, is unclear. The main objective of this work was to evaluate the effect of foliar kaolin application on the photosynthetic activity of the exocarp and seeds, which are the main photosynthetically active berry tissues. For this purpose, berries from high light (HL) and low light (LL) microclimates in the canopy, from kaolin-t...
Heat waves, high light intensities and water deficit are becoming important threats in many importan...
In Mediterranean-like climate areas, field-grown grapevines are typically exposed to severe environm...
Supplementary data associated with this article can be found, in the online version, at https://doi....
Climate changes may cause severe impacts both on grapevine and berry development. Foliar application...
Climate changes may cause severe impacts both on grapevine and berry development. Foliar application...
The effects of climate change are becoming a real concern for the viticulture sector, with impacts o...
At a local scale, kaolin particle-film technology is considered a short-term adaptation strategy to ...
The effects of climate change are becoming a real concern for the viticulture sector, with impacts o...
Field-grown grapevines are often exposed to multiple environmental stresses, which challenges wine-g...
Kaolin-particle film has been considered a low-cost technology to mitigate the adverse effects of hi...
Kaolin-particle film has been considered a low-cost technology to mitigate the adverse effects of hi...
Rising temperatures in most viticultural regions are associated with a higher incidence of drastic w...
The Supplementary Material for this article can be found online at: http://journal.frontiersin.org/a...
Aims: Long exposure to high temperatures or UV-radiation may induce negative effects on vine physiol...
The aim of the study was to verify if vineyard kaolin application during the 2017 hot summer could r...
Heat waves, high light intensities and water deficit are becoming important threats in many importan...
In Mediterranean-like climate areas, field-grown grapevines are typically exposed to severe environm...
Supplementary data associated with this article can be found, in the online version, at https://doi....
Climate changes may cause severe impacts both on grapevine and berry development. Foliar application...
Climate changes may cause severe impacts both on grapevine and berry development. Foliar application...
The effects of climate change are becoming a real concern for the viticulture sector, with impacts o...
At a local scale, kaolin particle-film technology is considered a short-term adaptation strategy to ...
The effects of climate change are becoming a real concern for the viticulture sector, with impacts o...
Field-grown grapevines are often exposed to multiple environmental stresses, which challenges wine-g...
Kaolin-particle film has been considered a low-cost technology to mitigate the adverse effects of hi...
Kaolin-particle film has been considered a low-cost technology to mitigate the adverse effects of hi...
Rising temperatures in most viticultural regions are associated with a higher incidence of drastic w...
The Supplementary Material for this article can be found online at: http://journal.frontiersin.org/a...
Aims: Long exposure to high temperatures or UV-radiation may induce negative effects on vine physiol...
The aim of the study was to verify if vineyard kaolin application during the 2017 hot summer could r...
Heat waves, high light intensities and water deficit are becoming important threats in many importan...
In Mediterranean-like climate areas, field-grown grapevines are typically exposed to severe environm...
Supplementary data associated with this article can be found, in the online version, at https://doi....