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In contribution towards the screening of eight hydroponically grown carrots, some biochemical, physical and sensory properties of the roots were evaluated. The carrots had been grown under two nutrient delivery systems, Nutrient Film Technique (NFT) and Microporous Tube Membrane nutrient delivery System (MTMS). Biochemical measures conducted included, moisture, fat and β-carotene contents, and the physical measures were texture and color. For the NFT- and MTMS-grown carrots, Nantes Touchan (91%) and Nanco Hybrid (87%), respectively, had the highest moisture contents. Fat contents for all the cultivars grown in both systems ranged from 0.1 to 0.4%. In the NFT-grown carrots, Baby Spike and Juwaroot had the highest and lowest β-carotene contents, 8777 and 248 µg/100 g, respectively. For the MTMS-grown carrots, Thumbelina had the highest β-carotene content (7840 µg/100 g). However, the lowest β-carotene value for the MTMS-grown carrots was 3059 µg/100 g.

The sweetpotato (Ipomoea batatas [L.] Lam) is a candidate crop for future space missions. However, sweetpotatoes are highly perishable and difficult to store, therefore, novel avenues for processing the surplus roots into value-added products that are commercially viable are needed. Technology was developed on a laboratory scale for the production of sweetpotato syrup and: i) the effect of varying levels of α-amylase on syrup quality determined; and ii) the storage stability and consumer acceptance of the syrup evaluated. Three levels of thermostable bacterial α-amylases (1.5, 3.0, 4.5 mL) were used for conversion of sweetpotato starch (SPS) into glucose syrup. The 1.5 mL α-amylase-treated was dropped from the experiment because there was no hydrolysis. The enzymatic conversion of SPS into glucose was significantly higher (P<0.05) for the 4.5 mL α-amylase-treated compared to the 1.5 and 3.0 mL levels.