Search Results (2)

Background/Objectives: Immature watermelon (WM) rind contains higher levels of citrulline and potassium than mature fruit and may exert diuretic and metabolic benefits. This study aimed to evaluate the anti-obesity and diuretic effects of WM and salt-treated watermelon rind extract (WMS) in high-fat diet (HFD)-induced obese mice, focusing on changes in lipid metabolism, sodium handling, and tissue-level alterations. Methods: Citrulline concentrations in WM and WMS were quantified using high-performance liquid chromatography with ultraviolet detection (HPLC-UV). Four-week-old male C57BL/6 mice were fed an HFD for 6 weeks and subsequently administered WM (380 mg/kg) or WMS (380 mg/kg) orally for an additional 6 weeks. Body weight, food intake, organ and fat-pad weights, serum biochemical markers, and sodium (Na⁺) levels were measured. Histopathological analyses of liver and epididymal adipose tissue were performed to assess non-alcoholic steatohepatitis (NASH) scores and adipocyte morphology. Results: WM and WMS contained citrulline at levels substantially higher than those reported for mature watermelons. Both treatments significantly reduced body weight, liver weight, and epididymal fat mass compared with the HFD control. Serum total cholesterol and triglyceride levels were lowered in the WM- and WMS-treated groups. Serum Na⁺ concentrations increased by 43.2 ± 7.6% in WM-treated mice and 21.5 ± 6.6% in WMS-treated mice, suggesting enhanced sodium handling. Histological assessment revealed reduced NASH scores and smaller adipocyte sizes in both groups. These improvements are consistent with the known diuretic and metabolic actions of citrulline and potassium. Conclusions: WM and WMS exhibit significant anti-obesity and diuretic effects in HFD-induced obese mice. Their combined actions on sodium excretion, lipid metabolism, and adipose tissue remodeling suggest that immature watermelon rind extracts may serve as promising natural agents for preventing obesity and related metabolic dysfunction. Full article

Vegetables are considered high value crops based on their growing areas and productivity, even if they are affected by a variety of insect pests throughout the whole growing season. Leaf miner is an immature of an insect that lives inside and consumes the leaf tissues of vegetable plants. Adult females of leaf miner puncture the leaf with their ovipositor, forming tube pattern, and feed on the punctured parts. Host plants survey of leaf miner in Multan (Pakistan) area was conducted. Twenty host plants were found in 2017, whereas twenty-four host plants were found infested with Liriomyza spp. (Diptera) in 2022 i.e., watermelon (24% infestation), long melon (75%), pumpkin (71%), round gourd (67%), snake melon (70%), bitter gourd (50%), long gourd (89%), bottle gourd (93%), pointed gourd (80%), snap gourd (86%), ridge gourd (83%), cucumber (98%), mung bean (98%), eggplant (60%), Petunia alba (88%), Zinnia elegies (30%), cotton (10%), okra (5%), berseem (7%), tomato (89%), Pea (52%) and Canola (28%). No infestation of leaf miners was observed on potato, chilies, and sweet potatoes. Color attraction results in 2017 and 2022 showed that there was maximum attraction of tomato leaf miner towards yellow sticky cards as compared to blue sticky cards. Varietal preference of tomato crop showed that Baby red variety was the most preferred by leaf miner (Liriomyza spp.), and comparatively Sehar was the least preferred variety. Field efficacy of four different insecticides against leaf miner were also tested. Insecticidal effects attributed as percent reduction of leaf miner infestation that showed the highest reduction values were observed after 7 DOA for Spinetoram (76.98%), whereas Bifenthrin (57%). Deltaphos (43 %) was the least toxic insecticide against Liriomyza spp. Integrated approaches are recommended to manage vegetable leaf miner like application of yellow sticky traps, discouraging preferred host plants, application of insecticides with novel modes of actions like spintoram and spinosad for effective management. Full article