Effects of organic compost, gypsum, and topdress sulfur rates on bioactive compounds and physicochemical characteristics of collard greens

Maurício Dominguez Nasser,Juliana Arruda Ramos,Antonio Ismael Inácio Cardoso,Flávia Aparecida De Carvalho Mariano Nasser,Karina Aparecida Furlaneto,Juliana Aparecida Santos,Priscilla Kárim Caetano,Rogério Lopes Vieites

doi:10.14808/sci.plena.2020.090201

Maurício Dominguez Nasser, Juliana Arruda Ramos + Show 6 more

Open Access

https://doi.org/10.14808/sci.plena.2020.090201

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Abstract

This study evaluates the use of sulfur, gypsum, and organic compost as to their effects on bioactive compounds and physicochemical characteristics of collard greens. Twelve treatments were assessed in randomized blocks in a split-plot scheme, where the main plots received three types of soil amendments (preplanting incorporation of organic compost; gypsum; and organic compost + gypsum), and the subplots received four rates of topdress-applied sulfur (0; 80; 160; and 240 kg ha-1 of S). Flavonoid bioactive compounds, total antioxidant activity, and total phenolic compounds were evaluated. The physicochemical characteristics assessed were: reducing sugars, total sugars, sucrose, soluble solids, pH, titratable acidity, fiber, protein, pigments (chlorophyll a, b, anthocyanins, and total carotenoids), and the relative chlorophyll index (SPAD index). The treatment whose soil was prepared with organic compost and a topdressing of sulfur from ammonium sulfate increased the flavonoid content in the collard plants. Gypsum application to soil increased the antioxidant activity in the collard leaves but, when combined with organic compost, it decreased the levels of phenolic compounds thereof. The rates of topdress-applied sulfur and the use of organic compost or gypsum in the soil, or the combination of both methods, did not affect the physicochemical characteristics and the pigments of commercial collard leaves. The use of organic compost combined with gypsum during soil preparation decreased the SPAD index in commercial collard leaves. The rates of topdress-applied sulfur showed no influence on the SPAD index in commercial collard leaves.

Highlights

Kale or collards (Brassica oleracea var. acephala) are a widely grown and consumed vegetable in the world
The highest antioxidant activity was found for the soil amendments organic compost +gypsum (54.56%) and gypsum alone (50.10%), whereas the lowest was observed for organic compost alone (38.29%)
Rigueira et al (2016) [31] observed high antioxidant activity in leaf and stem samples of ‘butter collard’ (Brassica oleracea L. var. acephala) grown in an organic system in comparison with plants grown in conventional systems

Summary

Introduction

Kale or collards (Brassica oleracea var. acephala) are a widely grown and consumed vegetable in the world. Kale and collards form a group of plants of the same species, i.e. Brassica oleracea, which includes cabbage Carotenoids (lutein and beta-carotene), anthocyanins and chlorophylls present in their leaves reduce free radicals in the human body and help prevent some degenerative chronic diseases [6, 7]. They are rich in nutrients and bioactive compounds [8]. In kale or collard cultivars, the content and amount of secondary metabolites varies significantly according to endogenous developmental factors, such as gene expression and protein modification, along with environmental conditions [9]

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