2. Material and methods2.1. Plant m

2. Material and methods
2.1. Plant material and experimental conditions
Experiments were carried out with a strawberry cultivar (Fragaria ×ananassa Duch. cv ‘Diamond’) commonly cultivated in theAlgarve, southern Portugal. Forty eight plants were cultivated in six 20-L poly-ethylene vessels filled with Hoagland’s nutrient solution,which contained: 5 mM Ca(NO3)2, 5 mM KNO3, 1.0 mM KH2PO4,2.0 mM MgSO4, 46.0 M H3BO3, 0.8 M ZnSO4, 0.4 M CuSO4,9.0 M MnCl2, and 0.02 M MoO3. Half of the plants were grown in the presence of 10 M Fe added as Fe(III)-EDDHA, Fe(+), and half in the absence of Fe, Fe(−). The initial pH of the nutrient solution was 6.0±0.2 and the electrical conductivity (EC) was 2.2±0.1 dS m−1. The aerated nutrient solution was replaced when the EC dropped to 1.7 dS m−1. The experiments were performed in a glasshouse under natural photoperiod conditions: a photosynthetic photon flux density (PPFD) of 150−450 mol m−2 s−1 at the top of
the plants and a temperature≤25 ◦C. After 42 days, Fe(+) plants remained green but Fe(−) plants were severely chlorotic (Fig. 1).At this point, in order to study recovery from Fe deficiency, half of the chlorotic plants were transferred to nutrient solution that contained Fe, and further grown for eight days. The treatments are described as follows: Fe-sufficient = Fe(+)/Day 0, moderately Fe-deficient = Fe(−)/Day 20, severely Fe-deficient = Fe(−)/Day
27, extremely Fe-deficient = Fe(−)/Day 42 and Fe-recovered plants = Fe(−/+)/Day 50. Measurements were taken on the youngest fully expanded leaves of five plants of each treatment. At the end of the experiment (a total of 50 days), the number of leaves and their fresh weights were registered.