Abstract
This study was designed to assess the effects of different types of organic matter on the quality and biochemical properties of red seedless watermelon. The research was a single factor experiment, which involved six (6) treatments and four (4) replications. Watermelon grown and harvested from five (5) different organic matter sources, namely; vermicompost (VC), poultry manure (PM), cow dung (CD), goat dung (GD), and moringa leaf extract (MLE), at the rates of 10 ton, 20 ton, 30 ton, 30 ton, and 3000 L ha-1, respectively, were used in this study. The results revealed that the treatment of vermicompost improved the chlorophyll content, chlorophyll fluorescence, stomatal conductance, internal carbon dioxide, net photosynthetic rate, fruit weight and mineral nutrient content of watermelon. The application of cow dung reduced the rind thickness and increased the TSS and antioxidant activity of the watermelon. The goat dung treatment significantly affected fruit size, juice content and the pH content of the watermelon’s fruit juice. The poultry manure (PM) and moringa extract (MLE) treatments resulted in the highest anthocyanin content of all the watermelon. Although all the organic matter, in their unique ways, improved the quality of red seedless watermelon, the study shows that the vermicompost application had better growth, yield and improvement in the quality of watermelon.
Highlights
The crop watermelon is a warm season crop
Characteristics and Photosynthetic Yield of Watermelon The chlorophyll content of the watermelon crops was measured at intervals of 21, 42, 63, and 84 days (DAT) after transplanting the nursery stock to separate fields with the 5 different organic matter treatments applied
The VC shows a greater impact than cow dung (CD), goat dung (GD), moringa leaf extract (MLE), and a control application, but, VC is not significantly different from poultry manure
Summary
The crop watermelon is a warm season crop. It is a member of the Cucurbitaceae family which belongs to the genus Citrullus and species Citrullus lanatus (ROSNAH et al, 2010). From 2001-2014, the area of production of watermelon in Brazil increased by 310% (ANGHINONI, 2014). Watermelons are a rich source of water and, as such, are helpful in averting dehydration. Watermelon contains mostly water (93.2%) and other nutrients such as sugar, plus many vitamins (Thiamin, riboflavin, and niacin), (IITA, 2013). As a macro nutrient, can be found in watermelon which is considered to help in the control of high blood pressure and perhaps avert stroke (IITA, 2013). It has been reported that potassium helps to reduce high blood pressure and protect against the formation of kidney stones (MCDONOUGH; NGUYEN, 2012 )
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