Abstract
In recent years, rhubarb is being increasingly cultivated, as it provides early yields when the vegetables supply to market is deficient and shows high levels of both polyphenols content and antioxidant capacity in edible parts. In 2017, we investigated crops of the rhubarb cultivar Victoria to the fifth year of production. Comparisons were performed between three root phase fertilizations—chemical (NPK 16-16-16®), organic (Orgevit®), and biological (Micoseeds MB®)—plus an unfertilized control. The determinations of polyphenols, the antioxidant capacity, and the yield indicators from the stalks (petioles) of rhubarb were made at each out of the 10 harvests carried out. The highest yield (59.16 t·ha−1) was recorded under the chemical fertilization. The total polyphenols content and antioxidant capacity varied widely from 533.86 mg GAE·g−1 d.w. and 136.86 mmol Trolox·g−1 d.w., respectively in the unfertilized control at the last harvest, up to 3966.56 mg GAE·g−1 d.w. and 1953.97 mmol Trolox·g−1 d.w. respectively under the organic fertilization at the four harvest. From the results of our investigation, it can be inferred that the chemical fertilization was the most effective in terms of yield, whereas the sustainable nutritional management based on organic fertilizer supply led to higher antioxidant compounds and activity.
Highlights
Rhubarb (Rheum rhabarbarum L.) is a perennial plant [1] that is characterized by high antioxidant properties and is cultivated only for its petiole [2], as its leaves are toxic due to their content of oxalic acid [3]
The total polyphenol content and antioxidant capacity were positively influenced by both the type of fertilization applied and the date of harvest compared to the unfertilized control
For the total polyphenol content, the highest statistically significant increase was recorded in the fertilized treatment with Mo (61.68% compared to Ct)
Summary
Rhubarb (Rheum rhabarbarum L.) is a perennial plant [1] that is characterized by high antioxidant properties and is cultivated only for its petiole [2], as its leaves are toxic due to their content of oxalic acid [3]. A study has shown promising anti-cancer properties and the broad therapeutic potential of anthraquinines in the petioles of rhubarb [6]. The technology and the nutritional regime used to cultivate crops influence the petioles production and its composition [7]. Important benefits from crop production have been observed by applying radicular fertilizers especially when soil conditions are limiting root uptake [8].
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