Kiwifruit: Every 200 calories of this fruit comes with 0.5mg zinc with 4% DV.
Zinc is an essential micronutrient with many health benefits. Fruits that are richest in zinc include pomegranate, wild blueberries, avocado, and others.
Sources of Zinc. The richest food sources of zinc include meat, fish, and seafood [3]. Oysters contain more zinc per serving than any other food, but beef contributes 20% of zinc intakes from food in the United States because it is commonly consumed [7]. Eggs and dairy products also contain zinc [3].
Although bananas are rich in carbohydrate, fiber, protein, fat, and vitamins A, C, and B6 they are largely deficient of iron (Fe), iodine, and zinc (Zn).
Vegetables Such as Mushrooms and Kale Are Low-Calorie Sources of Zinc. Did you know that nutritious vegetables like mushrooms, spinach, broccoli, kale, and garlic contain zinc, as well as other vital vitamins and minerals?
Phytate, which is present in staple foods like cereals, corn and rice, has a strong negative effect on zinc absorption from composite meals. Inositol hexaphosphates and pentaphosphates are the phytate forms that exert these negative effects, whereas the lower phosphates have no or little effect on zinc absorption.
High zinc fruits include avocados, blackberries, pomegranates, raspberries, guavas, cantaloupes, apricots, peaches, kiwifruit, and blueberries. These fruits provide 2-12% of the daily value per cup.
Blueberries contain iron, phosphorous, calcium, magnesium, manganese, zinc, and vitamin K. Each of these is a component of bone. Adequate intake of these minerals and vitamins contributes to building and maintaining bone structure and strength.
About the accumulation of Zn in the edible part of carrot, it was found that, due to increase in the Zn content in the soil, the plants generally have higher concentrations of this element, demonstrating that fertilization practice can increase the availability of Zn to plants, which is potentially absorbed.
Yogurt is a rich source of dietary minerals, and the NDBsr26 reports that a 100-g serving of plain low-fat yogurt includes amounts of calcium at 183 mg, magnesium at 17 mg, potassium at 234 mg, phosphorous at 144 mg, and zinc at 0.9 mg (14).
Kiwifruit: Every 200 calories of this fruit comes with 0.5mg zinc with 4% DV. Blueberries: About 100 grams of this fruit provides you with 0.2mg zinc.
Zinc deficiency can happen in people who have problems absorbing nutrients, for example, older people and those who have some gut diseases. Some medicines can also increase the loss of zinc through urine.
Strawberries (0.3mg per 100g)
Strawberries not only contain more vitamin C than oranges, but they also contain a decent amount of zinc at around 0.3mg of zinc per 100g.
Zinc is best absorbed when taken with a meal that contains protein. The best sources of zinc are oysters (richest source), red meats, poultry, cheese (ricotta, Swiss, gouda), shrimp, crab, and other shellfish.
Vitamins and Minerals in Apples
One medium sized apple contains 95 calories and 4.4 g of dietary fiber. In addition, an apple is a good source of potassium, phosphorus, calcium, manganese, magnesium, iron and zinc.
Phytate, which is a natural component of plants, severely decreases intestinal zinc bioavailability and is regarded as the main nutritional inhibitor of zinc absorption.
Zinc. A serving of peanut butter provides 0.85 mg of zinc. This is 7.7 percent of the recommended daily intake of 11 mg for men, and 10.6 percent of the RDA of 8 mg for women. Zinc is necessary for immunity, protein synthesis, and DNA formation.
Zinc Concerns
Phytates, an antioxidant in coffee, may inhibit absorption of zinc. Coffee has been found to affect the bio-availability of zinc, in lab tests, by up to 21 percent or 32 percent.
Caffeine may reduce the absorption of manganese, zinc and copper. It also increases the excretion of the minerals magnesium, potassium, sodium and phosphate. There is also evidence that caffeine interferes with the action of vitamin A.
The presence of intraluminal factors, such as dietary phytate or unabsorbed fat, may interfere with efficient reabsorption and cause essentially a “leaching” of zinc from the body.