Currently, the food and agricultural sectors are concerned about environmental problems caused by raw material waste, and they are looking for strategies to reduce the growing amount of waste disposal. Now, approaches are being explored that could increment and provide value-added products from agricultural waste to contribute to the circular economy and environmental protection. Edible mushrooms have been globally appreciated for their medicinal properties and nutritional value, but during the mushroom production process nearly one-fifth of the mushroom gets wasted. Therefore, improper disposal of mushrooms and untreated residues can cause fungal disease. The residues of edible mushrooms, being rich in sterols, vitamin D2, amino acids, and polysaccharides, among others, makes it underutilized waste. Most of the published literature has primarily focused on the isolation of bioactive components of these edible mushrooms; however, utilization of waste or edible mushrooms themselves, for the production of value-added products, has remained an overlooked area. Waste of edible mushrooms also represents a disposal problem, but they are a rich source of important compounds, owing to their nutritional and functional properties. Researchers have started exploiting edible mushroom by-products/waste for value-added goods with applications in diverse fields. Bioactive compounds obtained from edible mushrooms are being used in media production and skincare formulations. Furthermore, diverse applications from edible mushrooms are also being explored, including the synthesis of biosorbent, biochar, edible films/coating, probiotics, nanoparticles and cosmetic products.
Edible Mushroom Common Name | Scientific Name | Food Product | Beneficial Effects | Reference |
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Milky white | Calocybe indica |
Edible Mushrooms Common Name | Scientific Name | Product Used | Compounds | Key Findings | References |
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Cookies | Increase in protein, fiber, minerals and β-glucan, phenolic, flavonoids and antioxidants; decrease in starch, reduction in glycemic index | [ | 17 | ] | |
White button | Agaricus bisporus | Fruit bars | Chitosan | Increased antioxidant capacity, ascorbic acid content, fungal growth prevention and firmness | [45] |
Oyster | Pleurotus sajor-caju | Biscuits | Increase in concentration of protein, dietary fiber, ash and reduction in carbohydrate | [ | |
Lentinula edodes, Flammulina velutipes | ND | Insoluble dietary fibers | Highest tensile strength and an effective barrier to water vapor | [ | 48] |
Indian oyster | Pleurotus pulmonarius | ND | Flour | Significant barrier properties and mechanical strength | [49] |
Edible Mushrooms Common Name | Scientific Name | Probiotic Used | Form of Mushroom Used | Applications | References |
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White button | Agaricus bisporus | Probiotics mixture (Protexin 6 × 107CFU gm−1) | Powder | Lowered total cholesterol, LDL cholesterol, triglyceride concentrations, oxidative stress and dyslipidemia in hypercholesterolemic rats | [50] |
Wood ear/Jew’s ear | 19 | ] | |||
White button | Agaricus bisporus | Fresh-cut melons | Chitosan | Auricularia auricula | Lactobacillus acidophilus La-5, Bifidobacterium bifidum |
−1 | |||||
) | |||||
[ | 86 | ] | |||
Oyster | Pleurotus ostreatus | 80 °C/ND | Showed maximum biosorption against Ni2+ (20.71 mg g−1) | [87] | |
King trumpet | Pleurotus eryngii | 60 °C/24 h | Showed maximum biosorption against Pb2+ (3.30 mg g−1) | [88] | |
Lingzhi | Ganoderma lucidum | 60 °C/72 h | Maximum biosorption against malachite green (40.65 mg g−1), safranine T (33.00 mg g−1), and methylene (22.37 mg g−1) | [89] | |
King trumpet | Pleurotus eryngii | 60 °C/24 h | Removed 88.38% of NO3− | [90] |
Edible Mushrooms Common Name | Scientific Name | Process and Conditions Required for Biochar Formation | Applications | References |
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Edible Mushrooms Common Name | Scientific Name | Production Conditions | Applications | References | ||||||||
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Oyster, Shiitake | Pleurotus ostreatus, Lentinula edodes | Pyrolysis at 700 °C for 2 h | ||||||||||
Oyster | Pleurotus sp. | Adsorbed 326mg g | −1 and 398mg g−1 of lead Pb(II) from the water | [ | Hydrothermal/120 °C/4 h99] | |||||||
Selective sensitivity for Pb | 2+ | ; Antibacterial activity against | Staphylococcus aureus, Klebsiella pneumoniae and Pseudomonas aeruginosa; Anti-cancer activity against breast cancer cells (MDA-MB-231) | [118] | Lingzhi | Ganoderma lucidum | Pyrolysis at 650 °C for 2 hEnhance fruit firmness, inhibit off-flavors and reduce the microbial counts (up to 4 log CFU g−1). | Bb-12 | Extract | Enhancement in the survival rate of probiotics toabout 0.43 and 0.51 log CFU g−1[47] | ; improved probiotic protection and functional properties of symbiotic yogurt | [55] |
White button, Oyster | Agaricus bisporus, Pleurotus ostreatus | Spent mushroom substrate, and Sphagnum peat | Growing media for tomato, courgette and pepper | Showed maximal adsorption against Pb2+ (262.76 mg g−1) and Cd2+ (75.82 mg g−1)[67] | White button | |||||||
[ | 100 | ] | Velvet shank | Flammulina velutipes | Spent mushroom substrate, and chicken manure compost | Growing media for honeydew melon | [68] | |||||
Velvet shank | Flammulina velutipes | Spent mushroom substrate, calcium carbonate, wheat bran, and yeast extract and inorganic salts | Production media for Bacillus thuringiensis | [69] | ||||||||
Oyster | Pleurotusf lorida |
Edible Mushrooms Common Name | Scientific Name | Drying Temperature/Time | Applications | References | ||
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Oyster | Pleurotus florida | RT/24 h | Showed 100% removal of Fe2+ from the water sample | |||
Velvet shank | Flammulina velutipes | White button | Agaricus bisporus | Pyrolysis at 750 °C for 3 h | Showed maximal adsorption against Cu2+(65.2 mg g−1), Cd2+(76.3 mg g−1), and Zn2+(44.4 mg g−1) in water | [101] |
ND | ND | Pyrolysis at 300 °C for 90 min | Showed maximal adsorption against Pb2+ (21.0 mg g−1), Cu2+(18.8 mg g−1), Cd2+(11.2 mg g−1) and Ni2+(9.8 mg g−1) in water | [102] | ||
ND | ND | Pyrolysis at 450 °C for 4 h | Showed maximal adsorption against crystal violet (1057mg g−1) in wastewater | [103] | ||
ND | ND | Pyrolysis at 500 °C for 2 h | Showed maximal adsorption against fluoride (36.5 mg g−1) in water | [104] |
Edible Mushrooms Common Name | Scientific Name | Types of Nanoparticles Synthesized | Reaction Temperature/Time | Morphology | Size | Applications | References | |||||||
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[ | 79 | |||||||||||||
White button | Agaricus bisporus | ] | ||||||||||||
Copper | RT/24 h | Spherical | 2–10 nm | Antibacterial activity against | Enterobacter aerogens | ; Antioxidant activity using DPPH, and ABTS; Anti-cancer activity against cancer cell lines SW620 (colon cancer) | [107] | White button | Agaricus bisporus | 80 °C/24 h | ||||
Brown oyster | Pleurotus cystidiosus | Gold | Successfully biosorbed Reactive Blue 49 dye (1.85 × 10−4 mol g−1) from water | 29 °C/24 h | ND | ND | Antioxidant activity using DPPH, and ABTS | [108] | ||||||
Hydrothermal/250 °C/4 h | Sensed Cr | 6+ | with a limit of detection 0.73 µM and volatile organic compounds | [80] | [119] | Shiitake | Lentinula edodes | Agaricus bisporusChips | Improvement in quality attributes (color, sensory evaluation) | [20] | ||||
Velvet shank | Flammulina velutipes | ND | Saccharomyces cerevisiae | Powder | Improvement in the meat quality with the incorporation of mushroom and probiotics in the broiler diet | [ | Oyster | Pleurotus florida | Gold56 | 70 °C/1.5 h | Spherical | 2–14 nm | Anti-cancer activity against cancer cell lines A-549 (Human lung carcinoma), K-562 (Human chronic myelogenous leukemia bone marrow), HeLa (Human cervix) and MDA-MB (Human adenocarcinoma mammary gland) | [109] |
Oyster | Pleurotu ssp. | Hydrothermal/200 °C/25 h | Sensed nitroarenes in water samples | [120] | Oyster | Pleurotus ostreatus | Gold | 29 °C/24 h | Spherical | 22.9 nm | Antioxidant activity using DPPH, and ABTS | |||
Paddy straw | Volvariella volvacea | Hydrothermal/200 °C/25 h | Sensed Pb2 with limit of detection 12 nM and for Fe3+ 16 nM | [121] | [ | 108 | ] | |||||||
ND | ND | Hydrothermal/200 °C/6 h | Sensed hyaluronic acid and hyaluronidase | [122] |
Edible Mushrooms Common Name | Scientific Name | Product Base | Applications | References | ||||||
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White button, Oyster, Shiitake | Agaricus bisporus, Pleurotus ostreatus, Lentinula edodes | Cream | Anti-inflammatory; anti-tyrosinase; antioxidant and antibacterial activity | [127] | ||||||
Lingzhi | Ganoderma lucidum | Cream | Anti-tyrosinase; antioxidant and antibacterial activity | [128] | ||||||
] | ||||||||||
Oyster | Pleurotus ostreatus | Biscuits | Enhancement of nutritional quality | |||||||
Oyster | Pleurotus ostreatus | 40 °C/24 h | Showed greater adsorption against Pb2+(85.91 mg g−1) in water | [81] | [21] | |||||
Oyster | Pleurotus sajor-caju | Lactobacillus fermentum OVL | Powder | Increase in neutrophil count in rats, decrease in lymphocyte count | [57] | |||||
Oyster | Pleurotus ostreatus | 60 °C/24 h | Biosorbed 3.8 mg g−1 of Cd2+ | [ | White button | Agaricus bisporus | Ketchup | Increase in ash content, crude fiber, protein, total soluble solids, and reducing sugars; decrease in total sugars | [22] | |
Oyster | Pleurotus ostreatus | PrimaLac (Lactobacillus acidophilus, Lactobacillus casei, Bifidobacterium bifidium, Enterococcus faecium) | Powder | Decrease in abdominal fat on the carcass, increase in HDL concentration in plasma | [53] | Oyster | Pleurotus ostreatus | Jam | Increase in total soluble solids, percent acidity and reducing sugar, decrease in pH and non-reducing sugar | [23] |
White button | Agaricus bisporus | Mushroom tikki and stuffed mushroom | Increase in protein, dietary fiber, antioxidant and phenolic components | [24] | ||||||
Oyster | Pleurotus ostreatus | |||||||||
82 | ] | Caterpillar | Cordyceps militaris | Lactobacillus plantarum | Spent mushroom substrate | Increase in the specific growth rate, weight gain, final weight in fish fed supplemented diets | [58] | |||
Spent mushroom substrate | Production media for lignocellulolytic enzymes | [ | 70 | ] | Shiitake | Lentinus edodes | 1.0 ×108 CFU g−1(Lactobacillus acidophilus, Lactobacillus casei, Bifidobacterium bifdium, Enterococcus faecium) | Extract | No weight gain in broiler chickens | [59] |
King oyster | Pleurotus eryngii | Lactobacillus plantarum | Powder | Growth stimulation, immunity and disease resistance | [52] |
Edible Mushrooms Common Name | Scientific Name | Media Composition | Purpose/Utilization | References | |||||||||||
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Velvet shank | Flammulina velutipes | Spent mushroom substrate, perlite, and vermiculite | Growing media for tomato and cucumber seedlings | [66] | |||||||||||
Oyster, Black morels | |||||||||||||||
Oyster | Pleurotus ostreatus | Cream | Skin fairness | [129] | |||||||||||
Oyster | Pleurotus ostreatus | Gel | Anti-tyrosinase; antioxidant activity | [130] | Pleurotus ostreatus, Morchella conica | RT/4 days | Adsorbed methylene blue (82.81 and 38.47 mg g−1) and for malachite green (64.13 and 39.28 mg g−1) | [83] | Oyster | Pleurotus sajor-caju | Gold | RT/12 h | Spherical | 16–18 nm | Anti-cancer activity against cancer cell lines HCT-116 (colon cancer) |
Snow | Tremella fuciformis | Gel | Hand sanitizer | [131] | [ | 110 | ] | Oyster | Pleurotus ostreatus | ||||||
Velvet shank | Flammulina velutipes | Spent mushroom substrate | Production media for Lactococcus lactis | 60 °C/24 h | Maximum removal capacity against copper ions was 15.56 mg g−1[71] | ||||||||||
[ | 84 | ] | Oyster | Pleurotus ostreatus | |||||||||||
Shiitake | Lentinula edodes | Spent mushroom substrate, paddy straw, and soybean cake | Biopesticide (Trichoderma asperellum) development | [ | Freeze-dried/24 h72] | ||||||||||
Maximum absorption against Congo red was 217.86 mg g | −1 | [ | 85 | ] | Soup | ND | ND | Spent mushroom substrate and peat mossIncrease in nutritional value | Growing media for Chinese kale[25] | ||||||
[ | 73 | ||||||||||||||
Oyster | ] | ||||||||||||||
Pleurotus ostreatus | 78 °C/48 h | Showed maximum biosorption against uranium ion (19.95 mg g | Chestnut | Agrocybe aegerita | Snacks | Manipulation of glycemic response of individuals |
[26] | ||||||||
ND | ND | Spent mushroom substrate, perlite, and vermiculite | Growing media for lettuce seedlings | [74] | Oyster | Pleurotus sajur-caju | Biscuit | Increase in the mineral content | |||||||
ND | ND | [ | Spent mushroom substrate, polished rice, full-fat soybean, and rice bran | 27] | |||||||||||
Production media for arachidonic acid by | Mortierella | sp. | [ | 75] | Oyster | Pleurotus ostreatus | Vegetable mixture diets | Highly acceptable, nutritious, delicious, ready-to-eat diet | |||||||
ND | ND | [ | Spent mushroom substrate, and poultry cooked bones | 14] | |||||||||||
Production media for solubilizationphosphate by | Bacillus megaterium | [ | 76 | ] | Oyster | Pleurotus ostreatus | Processed cheese spreads | High moisture, ash and protein content, total viable counts and spore former bacteria was lower in processed cheese supplemented with mushrooms | [28] | ||||||
Oyster | |||||||||||||||
King tuber | Pleurotus tuber-regium | Selenium | RT/24 h | Spherical | 91–102 nm | Anti-cancer activity against gastric adenocarcinoma AGS | [111] | ||||||||
White button, Oyster | Agaricus bisporus, Pleurotus ostreatus | Cream | Anti-tyrosinase; antioxidant and antibacterial activity | [132] | Oyster | Pleurotus ostreatus | Silver | 25 °C/48 h | Spherical | 17.5 nm | Anti-cancer activity against cancer cell lines HepG2 (human liver) and MCF-7 (breast) | [112] | |||
Lingzhi | Ganoderma lucidum | Silver | ND/ND | Spherical | 15–22 nm | Antioxidant activity using DPPH; Antibacterial activity against Staphylococcus aureus, Enterococcus hirae, Bacillus cereus, Escherichia coli, Pseudomonas aeruginosa, Legionella pneumophila subsp. Pneumophila; and antifungal activity against Candida albicans | [113] | ||||||||
Matsutake | Tricholoma matsutake | Silver | RT/30 min | Spherical | 10–70 nm | Antibacterial activity against Bacillus cereus, Escherichia coli | [114] | ||||||||
Milky white, Oyster, White button, Lingzhi | Calocybe indica, Pleurotus ostreatus, Agaricu sbisporus, Ganoderma lucidum | Silver | RT/12 h | Spherical | 80–100 nm | Antibacterial activity against Staphylococcus aureus | [115] | ||||||||
Pink oyster | Pleurotus djamor | Titanium oxide | RT/20 min | Spherical | 31 nm | Antibacterial activity against Corynebacterium diphtheria, Pseudomonas fluorescens, and Staphylococcus aureus; Anti-cancer activity against cancer cell lines A-549 (Human lung carcinoma); larval toxicity against Aedes aegypti, Culex quinquefasciatus | [116]Pleurotus ostreatus | Biscuit | Higher moisture, protein, ash content, higher hardness, darker and redder in color | [29] | |||||
Increase in total solids, protein, fibers and carbohydrates | [ | 30 | ] | ||||||||||||
Oyster | Pleurotus sajor-caju | chicken patty | Reduction in fat content, no change in protein and β-glucan | [31] | |||||||||||
White button | Agaricus bisporus | Pasta | Improved antioxidant activity, increase moisture content, carbohydrates, decreased crude fiber, crude protein, and fat | [32] | |||||||||||
Oyster | Pleurotus sajor-caju | Cookies | High protein content, low-fat content, high fiber, minerals and vitamin content | [33] | |||||||||||
White button | Agaricus bisporus | Pasta | Decrease in the extent of starch degradation, increase in total phenolic content and antioxidant capacities | [34] | |||||||||||
White jelly | Tremella fuciformis | Patty | Oil holding capacity of mushroom has a positive effect on cooking yield of patty as well as senses | [35] | |||||||||||
Oyster | Pleurotus ostreatus | Instant noodles | Increase in protein and fiber content | [36] | |||||||||||
Polysaccharide | High tensile strength, barrier property to water vapor and oxygen | [ | |||||||||||||
Pink oyster | Pleurotus djamor | Zinc oxide | RT/24 h | Sphere | 74.36 nmOyster | Pleurotus ostreatus | White button | Agaricus bisporus | Beef burgers | Reduction in the fat content of beef burgers | [37] | ||||
46 | ] | Antioxidant activity using DPPH, ABTS, and H | 2 | O | 2 | ; larval toxicity against Aedes aegypti, Culex quinquefasciatus; Antibacterial activity against Corynebacterium diphtheria, Pseudomonas fluorescens, and Staphylococcus aureus | [ | Spreadable processed cheese | Oyster | Pleurotus ostreatus | Instant soup premix | Rich in protein, crude fiber, minerals and low in fat, carbohydrate and energy value | [38] | ||
117 | ] | White button | Agaricus bisporus | Sponge cake | Increase in apparent viscosity, volume, springiness and cohesiveness values | [39] | |||||||||
Oyster | Pleurotus sajor-caju | Biscuit | Reduction in starch pasting viscosities, starch gelatinization enthalpy value, increases in protein, crude fiber and mineral content | [16] | |||||||||||
Shiitake | Lentinula edodes | Noodles | Improvement in nutritional profile and reduction in the glycemic index of foods | King tuber | Pleurotus tuber-regium | ||||||||||
Shiitake, Velvet shank | [ | 18 | ] | Cookies | Higher protein, ash, crude fiber, water-soluble vitamins and minerals | [40] | |||||||||
Oyster | Pleurotus ostreatus | Noodles | Lower level of carbohydrate, fat, and sodium | [41] | |||||||||||
King trumpet | Pleurotus eryngii | Sponge cake | Increase in ash and proteincontent | [42] | |||||||||||
White button, Shitake, Porcini | Agaricus bisporus, Lentinula edodes, Boletus edulis | Pasta | High firmness and tensile strength | [43] |