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1.
Flashes of UV-C Light Stimulate Defenses of Vitis vinifera L. 'Chardonnay' Against Erysiphe necator in Greenhouse and Vineyard Conditions.
Plant Dis
; 105(8): 2106-2113, 2021 Aug.
Artículo
en Inglés
| MEDLINE | ID: mdl-33393363
2.
The influence of pulsed light exposure mode on quality and bioactive compounds of fresh-cut mangoes.
J Food Sci Technol
; 54(8): 2332-2340, 2017 Jul.
Artículo
en Inglés
| MEDLINE | ID: mdl-28740290
3.
Water shortage and quality of fleshy fruits--making the most of the unavoidable.
J Exp Bot
; 65(15): 4097-117, 2014 Aug.
Artículo
en Inglés
| MEDLINE | ID: mdl-24821951
4.
Carbohydrate control over carotenoid build-up is conditional on fruit ontogeny in clementine fruits.
Physiol Plant
; 147(4): 417-31, 2013 Apr.
Artículo
en Inglés
| MEDLINE | ID: mdl-22882610
5.
Metabolism in orange fruits is driven by photooxidative stress in the leaves.
Physiol Plant
; 149(2): 175-87, 2013 Oct.
Artículo
en Inglés
| MEDLINE | ID: mdl-23330573
6.
Effect of high salinity and of priming of non-germinated seeds by UV-C light on photosynthesis of lettuce plants grown in a controlled soilless system.
Front Plant Sci
; 14: 1198685, 2023.
Artículo
en Inglés
| MEDLINE | ID: mdl-37469782
7.
Effect of fruit load on maturity and carotenoid content of clementine (Citrus clementina Hort. ex Tan.) fruits.
J Sci Food Agric
; 92(10): 2076-83, 2012 Aug 15.
Artículo
en Inglés
| MEDLINE | ID: mdl-22311856
8.
Temperature and storage time increase provitamin A carotenoid concentrations and bioaccessibility in post-harvest carrots.
Food Chem
; 338: 128004, 2021 Feb 15.
Artículo
en Inglés
| MEDLINE | ID: mdl-32950868
9.
An overview of models of stomatal conductance at the leaf level.
Plant Cell Environ
; 33(9): 1419-38, 2010 Sep.
Artículo
en Inglés
| MEDLINE | ID: mdl-20545879
10.
Flashes of UV-C light: An innovative method for stimulating plant defences.
PLoS One
; 15(7): e0235918, 2020.
Artículo
en Inglés
| MEDLINE | ID: mdl-32645090
11.
Long-term drought results in a reversible decline in photosynthetic capacity in mango leaves, not just a decrease in stomatal conductance.
Tree Physiol
; 29(5): 675-84, 2009 May.
Artículo
en Inglés
| MEDLINE | ID: mdl-19324697
12.
Xenon lamps used for fruit surface sterilization can increase the content of total flavonols in leaves of Lactuca sativa L. without any negative effect on net photosynthesis.
PLoS One
; 14(10): e0223787, 2019.
Artículo
en Inglés
| MEDLINE | ID: mdl-31634363
13.
Interpreting the decrease in leaf photosynthesis during flowering in mango.
Tree Physiol
; 28(7): 1025-36, 2008 Jul.
Artículo
en Inglés
| MEDLINE | ID: mdl-18450567
14.
Assessing the Effects of Water Deficit on Photosynthesis Using Parameters Derived from Measurements of Leaf Gas Exchange and of Chlorophyll a Fluorescence.
Front Plant Sci
; 8: 2068, 2017.
Artículo
en Inglés
| MEDLINE | ID: mdl-29312367
15.
Influence of Environmental Conditions and Genetic Background of Arabica Coffee (C. arabica L) on Leaf Rust (Hemileia vastatrix) Pathogenesis.
Front Plant Sci
; 8: 2025, 2017.
Artículo
en Inglés
| MEDLINE | ID: mdl-29234340
16.
Juvenile Coffee Leaves Acclimated to Low Light Are Unable to Cope with a Moderate Light Increase.
Front Plant Sci
; 8: 1126, 2017.
Artículo
en Inglés
| MEDLINE | ID: mdl-28769937
17.
Season effects on leaf nitrogen partitioning and photosynthetic water use efficiency in mango.
J Plant Physiol
; 163(1): 48-57, 2006 Jan.
Artículo
en Inglés
| MEDLINE | ID: mdl-16360803
18.
Water deficit effects on tomato quality depend on fruit developmental stage and genotype.
J Plant Physiol
; 190: 26-35, 2016 Jan 15.
Artículo
en Inglés
| MEDLINE | ID: mdl-26629612
19.
Understanding the physiological effects of UV-C light and exploiting its agronomic potential before and after harvest.
Plant Physiol Biochem
; 105: 1-11, 2016 Aug.
Artículo
en Inglés
| MEDLINE | ID: mdl-27064192
20.
A User's View of the Parameters Derived from the Induction Curves of Maximal Chlorophyll a Fluorescence: Perspectives for Analyzing Stress.
Front Plant Sci
; 7: 1679, 2016.
Artículo
en Inglés
| MEDLINE | ID: mdl-27891137