Search Results (4)

Watermeal (Wolffia globosa) is an emerging sustainable feed ingredient, valued for its rapid growth, high protein content, and rich nutrient profile, offering great potential to improve the efficiency and sustainability of edible cricket production systems through efficient resource use and reduced environmental impact. This study aimed to evaluate the effects of replacing commercial cricket feed with dried watermeal and to determine the optimal substitution level for the production performance of two-spotted crickets (Gryllus bimaculatus). Seven dietary treatments were tested, namely 0% (control; T1), 10% (T2), 25% (T3), 50% (T4), 75% (T5), 90% (T6), and 100% (T7). Crickets were reared for four weeks in an open system with 6 replicates per treatment, with each containing 120 nymphs. Body weight, feed intake, and survival rate were recorded weekly, and a production index was calculated at the end of the trial. Results showed average growth rates ranging from 7.40 to 28.20 mg/day, feed conversion ratios (FCR) between 1.03 and 1.68, survival rates of 29.28% to 69.73%, and production index values from 24.00 to 128.30. A significant decline in production efficiency (p < 0.05) was observed at substitution levels of 75% and above, with the 100% watermeal group showing the lowest production efficiency (p < 0.05), likely due to nutrient imbalances and indigestible compounds. Segmented regression analysis identified 36.7% as the optimal level of watermeal supplementation. In terms of body composition, crickets fed diets containing up to 50% watermeal (10%, 25%, and 50%) showed crude protein, crude fat, crude fiber, and ash contents comparable to those fed the commercial diet. This finding suggests that dried watermeal can replace up to 50% of the commercial cricket feed without negatively affecting growth performance, survival, or nutritional quality, with 36.7% identified as the optimal replacement level for maximizing production efficiency. Full article

This study assessed the nutritional composition, bioactive compounds, phytosterol content, amino acids, and fatty acid profiles of watermeal cultivated under farm conditions (WF1) and harvested from natural environments (WF2 and WF3). WF1 exhibited the highest levels of protein (22.7%), dietary fiber (16.5%), total phenolic content (3.9 mg GAE/g DW), and total flavonoid content (5.0 mg QE/g DW). Chlorophyll and β-glucan contents were comparable across all samples. WF1 also showed the highest total amino acid content, while WF2 had the highest lysine and tryptophan levels. Although essential amino acid profiles were slightly below WHO/FAO/UNU reference values, watermeal remains a promising complementary plant protein source. Fatty acid analysis revealed a consistently high α-linolenic acid content (30%) across all samples, highlighting its value as a natural source of omega-3 fatty acids. Minor differences in amino acid and fatty acid profiles suggest an influence of environmental conditions. The most pronounced difference between the farmed and naturally sourced samples was observed in phytosterol content, which was highest in the farmed sample. Overall, despite variations in cultivation sources, watermeal consistently exhibits a rich nutritional profile, reinforcing its potential as a sustainable, nutrient-rich biomaterial for functional food applications. Full article

This study examined the impact of incorporating watermeal (Wolffia globosa) on the physicochemical characteristics, antioxidant activity, and starch and protein digestibility of rice noodles. The addition of watermeal powder (1, 3, 5%) significantly enhanced the nutritional and functional attributes of the noodles. The formulation with 5% watermeal (WF5) demonstrated a twofold increase in protein content compared to the control, along with a marked increase in the chlorophyll content as the watermeal concentration increased (p < 0.05). Moreover, fortifying the noodles with watermeal enhanced their bioactive compound content and antioxidant activity in all fortified noodles. Starch digestibility analyses revealed an increase in the resistant starch and slowly digestible starch, along with a reduction in the rapidly digestible starch and the estimated glycemic index. Protein digestibility in the WF5 sample improved by 22% compared to the control. These findings emphasize the capability of watermeal as a sustainable, plant-based ingredient for developing nutrient-rich noodle products with enhanced health benefits. Full article

Watermeal (Wolffia globosa) has emerged as a promising candidate as an alternative protein source due to its outstanding nutritional profile. This study evaluated the nutritional quality, functional properties, and biological characteristics of W. globosa. The protein content was found to be high at 26.76 g/100 g of dry weight (DW). Functional properties, including water and oil holding capacities, protein solubility, foaming, and emulsifying abilities across different pH levels, were assessed to determine optimal conditions. Amino acid profiling revealed that essential amino acids constitute 67% of the total amino acids. Polyunsaturated fatty acids (PUFAs), particularly α-linolenic (18:3 n-3) and linoleic acids (18:2 n-6), were identified as the predominant fatty acids. Additionally, watermeal was found to contain significant amounts of α-tocopherol (699 µg/g) and γ-oryzanol (100 µg/g), which contribute to its antioxidant capacity, as confirmed by DPPH and FRAP assays. The prominent protein bands were observed at around 62–67 kDa, likely representing a structural, metabolic protein (vicilin-like protein) of 38% of the total protein content. Overall, W. globosa demonstrates significant potential as a functional food ingredient, offering a rich nutrient profile and health-promoting properties, making it a promising choice for future diets. Full article