Close

Current Research in Nutrition and Food Science - An open access, peer reviewed international journal covering all aspects of Nutrition and Food Science

lock and key

Sign in to your account.

Account Login

Forgot your password?

Nutritional, Bioactive, and Health Potential of Pomelo (Citrus maxima): An Exotic Underutilized Fruit

Simple Sharma1*, Barinderjit Singh1, Gurwinder Kaur1, Yashi Srivastava2 and Rubrinder Singh Sandhu3    

1Department of Food Science and Technology, I. K. Gujral Punjab Technical University, Kapurthala, Punjab, India

2Department of Applied Agriculture, Central University of Punjab, Bathinda, Punjab, India

3Department of Food Technology, Ch. Devi Lal State Institute of Engineering and Technology Panniwala Mota, Sirsa, Haryana, India

Corresponding Author E-mail: simplesharma966@gmail.com

DOI : https://dx.doi.org/10.12944/CRNFSJ.12.2.35

Article Publishing History

Received: 26 Apr 2024

Accepted: 16 Jul 2024

Published Online: 24 Jul 2024

Plagiarism Check: Yes

Reviewed by: Sarah Jane Monica

Second Review by: Asrul Bahar

Final Approval by: Dr. Prasad S. Variyar

Article Metrics

Views  

PDF Download  PDF Downloads: 322
Abstract:

Pomelo scientifically known as Citrus maxima belongs to the family Rutaceae and is one of the largest fruits among citrus varieties. Mainly pomelo comes in different flesh colors such as red, pink, light pink, and white. The principal pomelo fruit polyphenols are phenolic acids, flavonoids, anthocyanins, and tannins. Pomelo fruit generates a large number of wastes including peel, pomace, and seeds which are comprised of bioactive compounds. The bioactive compounds carried in waste improve health functionalities. The hesperidin, narirutin, naringin, and their aglycone (naringenin), which have traditionally been acknowledged to constitute a characteristic component of pomelo, are the fruit's major constituents. Also, pomelo fruit juice is high in vitamins A and C, and the peel offers high protein, carbohydrate, and mineral content. Pomelo production and processing of different byproducts have become a perfect and long-lasting resource for agriculture and the food industry. The wastes loaded with immense essential components in pomelo have great importance in terms of human health. To have unique goods, to increase high consumer acceptability, and to have health advantages, this work gives a summary of recent advancements made to date with nutritional benefits, bioactive elements, and health benefits of pomelo fruit.

Keywords:

Bioactive constituents; Health benefits; Industrial applications; Nutritional properties; Pomelo; Peel; Waste

Download this article as: 

Copy the following to cite this article:

Sharma S, Singh B, Kaur G, Srivastava Y, Sandhu R. S. Nutritional, Bioactive, and Health Potential of Pomelo (Citrus maxima): An Exotic Underutilized Fruit. Nutr Food Sci 2024; 12(2). doi : http://dx.doi.org/10.12944/CRNFSJ.12.2.35


Copy the following to cite this URL:

Sharma S, Singh B, Kaur G, Srivastava Y, Sandhu R. S. Nutritional, Bioactive, and Health Potential of Pomelo (Citrus maxima): An Exotic Underutilized Fruit. Nutr Food Sci 2024; 12(2). Available from: https://bit.ly/3YgG40B


Introduction

Citrus fruits are acclaimed as important constituents for human consumption as they are cholesterol-free and rich in folic acid, vitamin C, flavonoids, phenolics, pectin, and dietary fibers. Citrus fruits are the most significant fruit crops with a total production of 120 million tons per year.1 Citrus includes fruit members such as bitter orange (Citrus aurantium), sweet orange (Citrus sinensis), mandarin (Citrus reticulata), grapefruit (Citrus paradisi), and pomelo (Citrus maxima). Pomelo (Citrus maxima) is one of the most common and the largest fruits among the citrus fruit varieties belonging to the Rutaceae family.2,3 It is a natural, non-hybrid citrus fruit and is considered the principal ancestor of grapefruit. In Asia, Africa, and some parts of Australia citrus variety “pomelo” also regarded as “pummelo” or “shaddock” is widely grown and consumed in raw form or processed into juice. This fruit is referred to as chakotra in India. Due to different breeding and hybridization functioning with other species of citrus, there is development of different cultivars being available in many countries.4 Mainly pomelo fruit has more popularity in Southeast Asia and other parts of the world and now is regarded as one of the most cultivated and consumed citrus fruits along with mandarin, orange, grapefruit, and lemon. It is the most consumed fruit and the global harvested area and yield of pomelo fruit (Including grapefruit) were 3.7 × 105 ha and 9.4 × 106 tons.1 Pomelo fruit spreads up to 10-30 cm in width and weighs around 1-3 kg varying depending on the cultivars. Pomelo fruit contains high levels of vitamin C, just like other citrus fruits. The presence of a high amount of citric acid in juice gives pomelo a sharp taste and flavor.5 The popularity of pomelo juice is due to its pleasant and refreshing flavor. The pulp is available in red, pink, and white colors with large spindle-shaped juice sacs. It contains a significant amount of naringin and a wide variety of polyphenolic substances, including hesperidin, caffeic acid, P-coumaric acid, ferulic acid, and vanillic acid. Furthermore, the chakotra fruit is exclusively accessible throughout the winter season, and its availability is limited worldwide.4,6

Mainly the pomelo fruit is composed of different parts including flavedo, albedo, segment peel, pulp, juice, seeds, and pomace. The other portions are regarded as a waste part of pomelo fruit. Pomelo contains 3 key parts; exocarp (flavedo, green, peel), mesocarp (albedo, white spongy peel), and endocarp (fruit pulp). Fruit’s peel is made up of a cuticle on the exterior, covered by a thin epidermal layer (flavedo), and oil sacs that contain pectin and essential oils. These oil sacs and pectin have commercial importance.2,7 The albedo, or spongy layer, is made up of pectin and has parenchymatous cells. The center of the pomelo is made up of white, spongy tissue. Figure 1. represents the anatomy of the pomelo fruit. Pomelo fruits are consumed as raw fruit, or in juice form, and the peels are discarded as waste. Pomelo peel is considered to be the largest and thickest rind among all citrus fruits and comprises up to 40% of the fresh weight of the fruit. During juice processing and raw fruit consumption, a lot of waste is generated in the peel, albedo, seeds, and pomace form.8 The main constituents of pomelo waste include cellulose, water, hemicellulose, lipids, sugars, and active constituents include phenolics, and flavonoids. The presence of bioactive compounds and health benefits from pomelo fruit cause popularity among consumers because of the development of emerging food products from the waste of pomelo fruit.9 The waste discarded during the production and processing processes contains a huge number of useful constituents and presents valuable prospects in the fields of technology and health promotion.10 Food technologists, researchers, and industrialists are working on new extraction techniques and green tendencies to explore the field of fruit wastage for the production of new, innovative food and by-products.6,11 As a result, the current review has been put together to highlight specific elements related to the utilization of Citrus maxima waste, with a focus on their nutritional profile and their function in the management of health, bioactive substances, food industrial approaches, and the proposed future prospectus.

Figure 1: Anatomy of pomelo fruit

Click here to view Figure

Study methodology 

For this review, we used reputable search engines such as Google Scholar, Science Direct, PubMed, Web of Science, Scopus, and Research Gate. The time frame was 2014 to 2022, with a focus on recent literature. Types of publications included review articles, research papers, book chapters, and official reports collected from reputed journals, books, conference proceedings, and official websites.

Results and discussion of study 

Nutritional profile of pomelo fruit

Pomelo is a complete fruit as it comprises essential nutrients such as proteins, carbohydrates, fats, vitamins, and minerals. Being covered with high nutritional value, pomelo fruits are mainly utilized for self-consumption.12-15 With less utilization in rural areas, people used pomelo fruits during food scarcity periods and these fruits have a significant role in food security in hills and mountains by enhancing dietary diversity and also income chances.16-20 Pomelo fruit plays an encouraging role in food, nutrition as well as diverse food culture for poor people who have less access to major fruit crops. Pomelo fruit and its different fruit parts such as peel, segment peel, seeds, juice, and pomace are composed of an array of phytochemicals and nutritional components.21-24 The nutritional profile of different parts of pomelo fruit has been tabulated in Table 1. Pomelo fruit provides many nutrients such as vitamins A and E, B vitamins (riboflavin, niacin, thiamine), and vitamin C. The peel waste product of pomelo is regarded as a potential source of nutraceuticals. The presence of macro and micro minerals in the pulp and peel of pomelo fruit improves the dietary and therapeutic value. As compared to pulp and juice, the peel portion of the fruit contains a higher dose of vitamins and minerals. Pomelo peel is 7-5 times rich in sodium than its pulp and has 20% more potassium in the peel portion than the pulp.4, 25-26 The pulp, peel, and juice of pomelo fruit have promising sources of mineral elements that have health characteristics in food products. The albedo of pomelo mostly contains antioxidants and is also abundant in flavonoids. Seeds and pomace of pomelo fruit are rich in fibers and vitamins. The pomace of fruit is rich in fibers, sugars, and organic acids. Pomelo fruits have a delicious taste and distinct aroma with low-fat content.8 Pomelo has the highest concentration of iron (0.1 mg) and copper (0.048 mg); thus, these fruits are taken into account when treating disorders of hemoglobin formation brought on by a deficiency in these nutrients. Pomelo fruits are a very valuable source of potassium, which is required to maintain the water and electrolyte balance. Besides, this pomelo contains a lot of vitamin C, exactly like citrus fruits.10 Consuming pomelo fruit is a simple way to get fiber and vitamin C, both of which are crucial for the body’s ability to absorb nutrients. In 100 g of flesh, pomelos contain 52.3 mg of ascorbic acid. An individual can reach a level of 100% vitamin C by consuming a moderate amount of pomelo fruit each day.23-26 The folic acid present in pomelo fruit is composed of folate compounds namely 5-methyl tetrahydrofolate (monoglutamate) and polyglutamate. Pomelo is also composed of different levels of carotenoids such as lutein (2.95 μg/g), zeaxanthin (0.81 μg/g), β-cryptoxanthin (0.81 μg/g), and β-carotene (10.3 μg/g).27-28 The trace elements present in fruit may be affected by the mineral makeup of the soil where the fruit is grown, the type of fertilizer used, climatic conditions, agricultural practices, and irrigation water composition. Pomelo can play a role in the creation of new, high-value food products that are also beneficial by controlling their nutritional significance and investigating their proximate and nutritional importance.28

Table 1: Nutritional profile of different parts of pomelo fruit

Nutritional aspects

Whole pomelo fruit Peel Pulp Juice References

Energy (Calorie)

231 188 164

159

 

 

2,8,25,29

 

 

Moisture (%/100g)

82-94 78.0 83.3 79.57
Ash 3.14 2.49 1.15

0.73

Protein

0.7-2.0 0.42 1.86 1.76
Carbohydrate 3-12 71.57 21.34

16.79

Fat 0.05-0.5 9.74 0.96

0.83

Vitamins (mg/100g)

Vitamin A

20-30 8.23-9.26 8.16

7.34-7.85

 

 

 

 

3,26,31

 

 

Vitamin B

0.2-4.0 0.2-3.23 NA 0.16
Vitamin C 30-43 19.34 24.34-26.12

26.36

Vitamin E

5.26 4.45 NA 2.11
Thiamine (B1) 0.034 0.020 0.014

0.010

Riboflavin (B2)

0.027 0.021 NA NA
Niacin (B3) 0.22 0.16 0.18

0.14

Pyridoxine (B6)

0.036 0.030 0.028

0.026

Minerals (mg/100g)

Potassium

150-225 127 104

98.32

 

 

26,27,32,33,34

 

Sodium

0.38 0.68 0.10 0.12
Calcium 21-30 28.8 14.5

13.26

Phosphorus

20-27 21.9 18.9 18.96
Magnesium 21.9 23.0 19.40

19.23

Minerals (mg/100g)

Iron

0.49 0.52 0.46

0.38

 

 

25,26,35

Zinc

0.11 0.12 0.10 0.09
Copper 0.12 0.21 0.05

0.02

Manganese

0.08 0.15 0.01 0.01-0.02
Selenium (µg/100g) 1.61 2.00 1.30

1.26

ND: Not Applicable

Bioactive constituents of pomelo fruit

The pomelo fruit is known for its different properties such as antioxidant, antidiabetic, anti-inflammatory, anticancer, antimicrobial, antiallergic, and lipid regulation metabolism. The different properties of pomelo fruit are due to the presence of different bioactive constituents including polyphenols, flavonoids, phenolic acids, carotenoids, triterpenoids, phytosterols, carbohydrates, coumarins, and some miscellaneous constituents. Table 2 provides details on different bioactive compounds present in different parts of pomelo fruit which are discussed below:

Polyphenols  

Pomelo fruit contains different polyphenolic compounds including flavonoids and phenolic acids. Polyphenols are major phytochemical components with potential activities such as anti-inflammatory, antioxidant, antimicrobial, anti-nervous, and anti-metabolic. The different parts of pomelo fruit are rich in polyphenols at different ranges.35 In comparison to other portions of the pomelo fruit, the peel contains a higher concentration of polyphenols. The structure-based grouped chemicals of pomelo polyphenols are the flavonoids and phenolic acids class.19,36 A variety of extraction techniques, including maceration, ultra-high-pressure extraction, soxhlet extraction, microwave extraction, accelerated solvent extraction, supercritical fluid extraction, and heat reflux extraction are documented for the extraction of polyphenols. The polyphenolic profile of pomelo fruit can be affected by different factors such as extraction conditions, analysis methods, genotypes, environmental factors, and fruit color.37,38 The data available in the literature define the different studies related to polyphenolic extraction of compounds, yield, and the effect of different biological activities on it. Tran et al. (2021) studied the effect of different extraction methods on the flavedo of pomelo fruit to obtain polyphenol yield.36 The different methods utilized for extraction were soxhlet, ultrasound, and microwave extraction to obtain a high yield. For soxhlet extraction (35 min per cycle with 4 reflux cycles at 80 °C) was required. For ultrasound-assisted extraction (120 W, temperature 60 °C for 20 min) and microwave (150 W for 20 min) were utilized. Among the three methods, microwave-assisted extraction was efficient and yielded more polyphenols. In another study, Nguyen et al. (2020) examined the effect of microwave extraction of pomelo extract on polyphenols and defined the antioxidant activity of present polyphenols in pomelo fruit.39 The microwave extraction was performed on the pomelo albedo portion with a power of 300 W for 2 min and had the highest polyphenol content (2.46 g GAE/L).

Flavonoid

Flavonoids are an important class of polyphenolic secondary metabolites with significant antioxidant components within the human diet found in fresh produce. Fruits have an abundance of flavonoids as compared to other polyphenolic compounds.40 Flavonoids are composed of 10% dried pomelo fruit part. Pomelo fruit is composed of 75-90% of total flavonoids. Naringin makes up roughly 90% of the peel, pulp, and juice, whereas hesperidin makes up 0.015–0.025% of the juice. Subgroups of flavonoids include flavanones, flavones, flavonols, flavanonols, flavanols, isoflavones, and anthocyanins.41 Flavanones are the most important class of flavonoids in pomelo fruit. Under flavanones, the peel, seed, pomace, and juice portion of pomelo fruit is composed of hesperetin, hesperidin, naringenin, narirutin, naringin, diosmin, eriocitrin, and hespeidin. The predominant flavanones are hesperedin and naringenin in pomelo fruit. Flavones are the second most important class under flavonoids. Apigenin, luteolin, and tangeretin are different flavones in the peel and juice portion of pomelo. The flavonols of pomelo fruit contain quercetin and kaempferol in the peel and the juice portion of pomelo.40,41 Flavonoids are present in almost all the parts of pomelo fruit. The health benefits of flavonoids include antidiabetic, antiallergic, anticancer, anti-inflammatory, antimicrobial, antiproliferative, antioxidant, and anti-inflammatory activities. Flavonoids can be extracted using sonication, microwave assistance, supercritical fluid extraction, and soxhlet extraction. Centrifugation, vortexing, hydro distillation, and soxhlet extraction are the conventional techniques for extracting flavonoids.40 Ultrasound extraction, microwave-assisted extraction, supercritical fluid extraction, and subcritical water extraction are some of the contemporary techniques used to extract flavonoids. These processes require less time, energy, and solvent. Furthermore, they enable a higher yield at a cheaper cost. The study conducted by Nguyen et al. (2020) on pomelo peel for flavonoid extraction was done using ultrasound and enzyme-assisted extraction.39 The time for extraction of flavonoid using the enzyme technique was 65.23 min and for sonication, it was 69.26 min. The combination of ultrasonication and enzyme method favored more extraction of flavonoid (16.79 mg GAE/g) than the conventional method. Likewise, Phuong et al. (2021) identified the flavonoid content and biological activities of pomelo peel using water bath extraction.42 The results defined that the maximum flavonoid content (6.0 mg/g) was extracted from the pomelo peel of the Tan Trieu variety.   

Phenolic acids

After flavonoids, the other main class is phenolic acids. The different phenolic acids reported from pomelo peel and segment peel are caffeic, chlorogenic, ferulic, sinapic, vanillic acid, and p-coumaric. Phenolic acids are secondary metabolites that serve as the building blocks for vinyl phenols.32 For the extraction of phenolic acids, vortexing, centrifugation, soxhlet extraction, sonication, microwave irradiation, mechanical stirring, and pressurized liquid extraction techniques are utilized.9,29 Mainly the optimum conditions for extraction of phenolic acids vary with extraction time, temperature, type, the composition of the solvent, solvent-to-solid ratio, the particle size of the sample, and extraction cycles.9 Some studies revealed the effect of extraction conditions on the phenolic acids of pomelo fruit. Al‐Juhaimi et al. (2021) studied the extraction of phenolic content and antioxidant activity in pomelo peel using different solvent mixtures.32 The total phenolic content ranged between 12.43 (ethanol: water, 60:40 v/v) and 22.91 mg GAE/kg (methanol: water, 50:50 v/v). The combination of methanol and water at 1:1 ratio was effective for the extraction of phenolic content and for the determination of antioxidant activity. Similarly, Zhao et al. (2020) investigated the phenolic content in the flavedo, albedo, and pulp portion of pomelo fruit by using UHPLC-QqQ-MS/MS (Ultra high-performance liquid chromatography coupled with triple quadrupole mass spectrometry).43

Carotenoids

Carotenoids are present in the peel portion of pomelo fruit. Carotenoids not only have an eye appeal impact on the fruits but also have biological effects including immunomodulatory, antioxidant, anti-inflammatory, anticancer, antibacterial, and gastroprotective activities. There are estimated to be about 115 different carotenoids, ranging in color from yellow to red. The different carotenoids present in pomelo peel are α-carotene, β-carotene, lutein, zeaxanthin, β-cryptoxanthin, and roseoside.9 The pigments, or color-preserving substances, that give pomelo its distinctive red, pink, and white color are located in the peel’s cell walls. Carotenoids are responsible for golden yellow to pink or red colors to the fruit pulp and peel of the pomelo fruit. The red and pink-fleshed pomelos have higher amounts of carotenoids as compared to white-fleshed varieties.34 Zhao et al. (2021) identified the carotenoids in pomelo fruit.5 The different carotenoids extracted from the pomelo were lutein, α-carotene, and β-carotene and lutein was the maximum isolated compound. Likewise, Jiang et al. (2022) studied the different carotenoids in pomelo fruit using HPLC (High-performance liquid chromatography).44 The different carotenoids isolated included lutein, α-carotene, and β-carotene.

Limonoids

Limonoids are a highly oxygenated and modified class of triterpenoids. Limonoids are present in the flavedo oil glands portion of the peel. Other portions of pomelo fruit reported with limonoids are seed, pomace, and albedo. Different limonoids present in the pomelo fruit are methyl nomilinate, limonin, nomilin, isoobacunoic acid, obacunoic acid, isolimonic acid, ichigan.45 The pomelo fruit juice is bitter due to the presence limonin and nomilin compounds. The highest amount of limonin was found in the seed (9.50 mg/g), followed by the peel (4.69 mg/g) and the juice (0.218 mg/ml). The presence of limonoids in pomelo fruit provides anticancer, cytotoxic, antioxidant, anti-inflammatory, antibacterial, and anthelminthic activities.32 The study accompanied by Xiang et al. (2014) defines the isolation and identification of limonoid compounds from the pomelo segment membrane by using HPLC (High-performance liquid chromatography).46 The different compounds isolated from segment membranes were limonin, nomilin, and isoobacunoic acid. Another study conducted by Huang et al. (2021) examined the limonoids in the flavedo portion of pomelo fruit by using HPLC (High-performance liquid chromatography).45 The different compounds isolated are limonin, nomilin, and limonin glucoside.

Phytosterols

Phytosterols are plant-based compounds with dietary cholesterol that is absorbed by the intestines and result in lower blood cholesterol levels. Citrus fruit is rich in phytosterols. Mainly citron, pomelo, grapefruit, tangerine, kinnow, and murcott have high phytosterols present in them.47 Several phytosterols extracted from pomelo fruit are β-sitosterol, campesterol, daucosterol, and stigmasterol. These phytosterols are present in the peel and segment peel of pomelo contributing to antioxidant, anti-inflammatory, anti-cancer, and anti-inflammatory activities.8

Carbohydrates

The carbohydrates present in pomelo fruit’s different portions include glucose, fructose, maltose, sucrose, trace amounts of mannose, maltose, heptulose, and galactose. These carbohydrates are present in peel, juice, and pomace parts. They are considered natural saccharides, non-toxic, biodegradable, and biocompatible with advantages for biomedical and pharmaceutical uses.48 The biological activities directed by carbohydrates present in pomelo fruit are antibacterial, antifungal, antioxidant, antiallergic, anti-epileptic, and anti-inflammatory activities. Researchers are focusing on extraction yield and characterization of physical and chemical properties of the carbohydrates of pomelo fruit to have new fabrication of products.8

Coumarins

Coumarins are another group of secondary metabolites present in high amounts in pomelo fruit. The different coumarins reported from pomelo fruit are limettin, isopimpinellin, auraptene, 7-isopentenyloxycoumarin, and isoauraptene. The whole fruit and pericarp portion of pomelo fruit contains up to 17 coumarins.9 Coumarins are mainly present in the peel and peel segment portion of pomelo fruit. In the peel portion of pomelo, they are present in the oil sacs. They are known for their anti-inflammatory, hepatoprotective and antitumor activities.27

Miscellaneous

Apart from flavonoids, phenolics, carotenoids, coumarins, carbohydrates, limonoids, other miscellaneous compounds are also reported. The compounds include α- tocopherol, ascorbic acid, chlorophylls, decyl acetate, malonic acid, fumaric acid, succinic acid, and citric acid.15 The presence of these compounds in the peel, segment peel, juice, and pomace of pomelo fruit contribute to health benefits such as hypoglycemic, antimicrobial, antioxidant, anti-inflammatory, and anti-cancer activities.49

Table 2: Characterization of different bioactive compounds present in different parts of pomelo fruit  

Classification

Bioactive compounds Fruit part used Biological activities Action mechanism References
Flavonoids

·       Flavanones

 

 

 

 

 

 

 

 

 

 

·       Flavones

 

 

 

 

 

 

·       Flavonols

 

·       Hesperetin

·       Hesperidin

·       Naringenin

·       Narirutin

·       Naringin

·       Diosmin

·       Eriocitrin

·       hespeidin

 

 

·       Apigenin

·       Luteolin

·       Tangeretin

 

 

 

 

·       Quercetin

·       Kaempferol

 

Peel, Seeds, Juice, Pomace

 

 

 

 

 

 

 

 

Whole fruit, Juice

 

 

 

 

 

Peel, Juice

 

Antidiabetic, Antiallergic, Anticancer, Anti-inflammatory, Antimicrobial, Antiproliferative activities

 

 

 

 

 

 

Antioxidant, Anti-inflammatory, Antimicrobial,

Anticancer activities

 

 

 

Antiatherogenic,

Neuroprotective effects

 

·       Improves the intestinal
fate, bioavailability,
intestinal metabolism,
and interaction with
the gut microbiota

·       Treating cancer,
diabetes mellitus,
oxidative stress
disorders, cardiovascular
disease, and other diseases

 

 

 

·       Balance in bone
metabolism
on bone health

·       Reduction in hepatic
and intestinal
triglyceride
accumulation

 

·       Inhibition of
metastasis

·       Inhibition of tumor
progression

·       Inactivation of
carcinogens
and defense of
DNA against
oxidative damage

 

 

 

1,24,27,29

1,19,22

19,22,30

Phenolic acid

·       Caffeic

·       Chlorogenic

·       Ferulic

·       Sinapic

·       vanillic acid

·       P-coumaric

Peel, Segment peel Antioxidant, Anti-inflammatory,

Anti-cancer, Antidiabetic, Antiallergic, Antimicrobial, Antiproliferative activities

·       Prevents pancreatic,
stomach, colon,
breast, and
skin cancers
 

24,27,31

 

 

Carotenoids ·       α-carotene

·       β-carotene

·       Lutein

·       Zeaxanthin

·       β-cryptoxanthin

·       Roseoside

 

 

Peel Immunomodulatory, Antioxidant,

Anti-inflammatory, Anticancer, Antibacterial, Antigenotoxic,

Anthelminthic, Gastroprotective,

Anti-ulcerogenic activities

·       Prevents skin
tumorigenesis
and colon
carcinogenesis

1,8,9

Triterpenoid

Limonoids

 

 

·       Methyl nomilinate

·       Limonin and nomilin

·       Isoobacunoic acid

·       Isolimonexic acid

·       Limonexic acid

 

 

·       Obacunone

·       Nomilin

·       Obacunoic acid

·       Isolimonic acid

·       Deacetylnomilin

·       Ichigan

·       Isoobacunoic

·       Dictomnolide

 

 

Flavedo and albedo

 

 

 

 

 

 

Seeds, Pomace

 

 

Antioxidant,

Anti-inflammatory, Anticancer, Antibacterial, Anthelminthic activities

 

 

 

 

Immunomodulatory, Antioxidant,

Anti-inflammatory, Anticancer, Antibacterial, Antigenotoxic activities

 

 

·       Preventative measures
for colon cancer

·       Breast tumors caused
by estrogen exhibit
cytotoxic effects.

 

 

 

·       Balance in bone
metabolism on
bone health

·       Prevent pancreatic,
stomach, colon,
breast, and
skin cancers

8,24,32

1,8,24,32

Phytosterols

 

·       β-sitosterol

·       Campesterol

·       Daucosterol

Stigmasterol

Peel, Segment peel Antioxidant,

Anti-inflammatory, Anti-cancer, Anti-inflammatory activities

·       Bone health
depends on
a balanced bone
metabolismPrevention of
colon cancer
and skin
tumorigenesis
 

9,19,29

 

 

Carbohydrates ·       Phytol

·       Synephrine

·       Methyl antralinate

·       Fructose, Glucose, Sucrose, glucose, fructose, trace amounts of mannose, maltose, heptuloses, galactose

Peel, Juice, Pomace Antibacterial, Antifungal,

Antioxidant, Anti-inflammatory,

Anti-cancer, Antiallergic, Anti-epileptic, Anti-obesity, Anti-anxiety activities

·       Promotes
antioxidant
free radical
scavenger activity
·       Prevent the
spread of
pancreatic,
stomach, colon,
breast, and
skin cancers

30,31

 

Coumarins

·       5-geranyloxy-7-methoxycoumarin

·       Limettin

·       Isopimpinellin

·       Auraptene

·       7-isopentenyloxycoumarin

·       Isoauraptene

·       Meranzin

Peel, Segment peel Hypolipidemic, Hypoglycemic, Antimicrobial, Antioxidant,

Anti-inflammatory, Anti-cancer,

Anti-lipogenic

·       Reduction in the growth
of human
colon cancer cells·       Inhibits
microglia
activation·
 

 

 

 

29,33,35

 

 

Miscellaneous ·       α- tocopherol

·       Ascorbic acid

·       Chlorophylls

·       Decyl acetate

·       Malonic acid

·       Fumaric acid

·       Succinic acid

·       Citric acid

Peel, Juice, Segment peel, Pomace Hypoglycemic, Antimicrobial, Antioxidant,

Anti-inflammatory, Anti-cancer activities

·       Balance in bone metabolism on
bone health·       Prevent
pancreatic,
stomach, colon,
breast, and
skin cancers.

 

9,29,31

Health benefits of pomelo fruit

The wide range of lifestyles across the world, consumers’ attitudes toward herbal medications have changed. The demand for pomelo fruits has been increasing throughout the world because of their scientifically accepted health attributes and high antioxidant activity. The waste generated from pomelo fruit has a large number of value-added components and a defined variety of appreciated opportunities in the technological and health-improving provinces.47 The whole fruit of pomelo provides nutritional properties and reduces the risk of several diseases such as metabolic syndrome, cardiovascular issues, neurodegenerative disease, type 2 diabetes, and cancer. Figure 2. indicates the health benefits associated with different parts of pomelo fruits. The peel portion of pomelo also known as flavedo combats diseases such as diabetes mellitus, pulmonary disease, cancer, nephropathy, cardiovascular disease, and neurodegenerative disease.23,29 The flavedo portion of the pomelo fruit has anti-asthmatic activity, relaxing affection for the nervous system, and is used to treat headaches, diarrhea, vomiting, eye troubles, and problem of the abdomen.7,47 The fiber present in the peel region of pomelo reduces the risk of heart attacks if consumed daily in the diet. The limonene found in the peel portion is attributed to health benefits such as relief of toothache, overcoming poor digestion, and relieving headaches, and pain in different parts of the body. The fruit portion of pomelo acts as a cardiotonic and is utilized against diseases such as asthma, cough, hiccough, leprosy, epilepsy, and mental aberration.32 The fruit portion defined the anti-hyperlipidemic attributes, which causes a reduction in blood cholesterol and also triglyceride levels.48 The peel segment of pomelo fruit is used against diseases such as cholera, epilepsy, cough, and also in hemorrhage treatment. The juice has been acting as an appetizer, stomach tonic, cardiac stimulant, and also as a remedy for insomnia, sore throat, and fever. Juice is good against wounds, acne, osteoarthritis, and minor skin disorders. The seeds of pomelo are utilized as a sedative for nervous problems.9 The fruit skin has a high amount of active constituents and antioxidants. The active components present in pomelo fruit are directly or indirectly reliable for a wide range of health-enhancing effects. Despite pomelo being blessed with a diverse range of phytochemicals and other essential nutrients, this fruit is still considered an underutilized species in comparison to other species as it is composed of large-sized fruit, bitter juice, and thicker peels.15,48

Figure 2: Health benefits associated with pomelo fruit different parts             

Click here to view Figure

Applications of pomelo fruit in food industries

Pomelo processing in industries generates a lot of waste in the form of press cakes, including flavedo, albedo, juice vesicles, and seeds. Pomelo processing waste is being investigated for use in the creation of consumer products.9 The different products developed from pomelo fruit are squash, noodles, jam, bread, beverages, breakfast cereals, wine, nectar, cake, and parathas. Figure 3. represents the outlook of food and by-products of pomelo fruit and their applications. The production of a massive amount of waste in the fruit juice industry, as well as the need for natural components in foods made from fruit by-products, is becoming a trend in the creation of health products.29,49 The segment peel, and peel of pomelo are used to garnish the food. The pomelo juice is consumed in fresh form and as processed products, it is available in frozen, chilled, canned, blended, or concentrated form, cordials, syrups, and squash. The pomelo segment peel is added as a nutritional supplement to develop noodles. These noodles are for diabetic patients and have a good amount of fiber present.50 The peel of pomelo is incorporated in custard, curries, and gravies to improve the flavor and aroma. The flavedo portion of pomelo is enriched in antioxidants and polyphenols. Due to its distinctively bitter taste, the naringin chemical isolated from pomelo fruit is used to flavor beverages, desserts, and baked goods. The dry-cured sausages contain albedo fibers in varying amounts, whether they are cooked or uncooked.49 Pomelo seeds are generally regarded as useless and disposed of. Pomelo seeds are rich in protein and can be used for livestock feed. Seed can be used as flavoring agent, additive, and essence in different food products. Researchers evaluated that extruded snack products are generally high energy dense. The pomelo fruit peel was used by researchers to fabricate extruded snacks with high nutritional quality and health benefits.30 There is an increasing trend in the market for value-added products with high nutraceutical value. Pomelo fruit is considered a high-value fruit as it consists of a large number of phytochemicals and multiple uses in the food industry. To enhance consumer, demand the production of value-added products with high nutraceutical value is much needed in the food industry.29,49

The remaining residue after juice extraction of pomelo fruit is used as source material for the generation of valuable byproducts. Essential oils are a byproduct of pomelo fruit. Essential oils are aromatic compounds extracted from the flavedo portion of pomelo fruit and are well known due to their antimicrobial, antioxidant, and anti-inflammatory properties. Essential oil has a potential role in food industries when incorporated as ingredients in food additives and preservatives against spoilage.27,48 Another byproduct extracted from pomelo fruit is dietary fiber is utilized as an ingredient in various food processing industries to have health benefits. The albedo of the pomelo fruit, which provides a significant source of fiber, is the most neglected part of the fruit. Pectin is a heterogeneous polysaccharide extracted from the flavedo of pomelo fruit. It is utilized as a texturizer, emulsifier, thickener, and stabilizer in food. It is also used as a component in fillings, confectionary, and dietary supplements.47 The work on the edible coating, emulsion, packaging, and extension of shelf life of pomelo fruit is limited and needs to be explored to have better opportunities and utilization of pomelo fruit. The edible coating is used to maintain the postharvest fruit quality and shelf life by the incorporation of different plant extracts, essential oils, and other active constituents. The residue extracted from the pomelo fruit after extraction of high-value components such as peel and pomace which are rich in fiber content can be molded to have biodegradable packaging materials.51 Table 3 indicates the different food products from pomelo fruit and their processing approaches. To improve its industrial demand, the development of more value-added products needs attention. There is a lot of scope in the near future for the preparation of value-added products.

Figure 3. An outlook of food and by-products of pomelo fruit and their applications

Click here to view Figure

Table 3. Characterization of different food products from pomelo fruit and their processing approaches

Food products

Fruit part used for product development Processing method Health benefits of products prepared Parameters tested after processing of product Cited literature
Pomelo bread Fruit segments Fresh (0, 10, 20, 30%) and dried (0, 2.5, 5, 7.5%) pomelo fruit segment was mixed with 2% yeast, 1% vegetable fat, 1% salt, 2.5% sugar and water. All the ingredients are combined and the dough was prepared. Fermentation was done at 30 ℃, 75% RH (Relative humidity) for 90 min. after 90 min dough was molded, proofed, and baked for 25 min at 220 ℃. ·       Helping in preventing the risk of post-prandial hyperglycemia by inhibiting the action of enzymes involved in starch breakdown. Total phenolic content, Flavonoids, carotenoids, total starch, naringin content, resistant starch, glycemic index, total sugars, reducing sugars

52

Noodles

Fruit segments Fresh pomelo fruit (10, 20, 30%) and dried (5, 10, 15%) were mixed with semolina flour (100 g). The blend was mixed with water and rested for 10-15 min. The dough was cut into noodle rods with a noodles cutter. The noodles were dried in a tray drier at 55℃ for 2 hrs. and further packed for analysis. ·       Lowered the glycemic index in the body

 

Total sugars, reducing sugar, total phenolic content, flavonoids, carotenoids, naringin content, total starch, resistant starch,  glycemic index  

 

 

 

53

Jam, Ready to serve beverage (RTS)

 

 

 

 

Pomelo pulp The jam was prepared with pomelo alone and pomelo combined with 50% papaya pulp. RTS (ready-to-serve beverage) was prepared with pomelo alone and combined with orange (25, 50%) ·       Improves metabolism

·       Less cholesterol and fat

·       Reduces risk of heart attack

·       Decreases blood pressure

Total soluble solids (TSS), titratable acidity, pH, Ascorbic acid

54

Extruded breakfast cereals

Pomelo rind The peel was dried in the oven at 50 °C and mixed with brown rice (5, 10, 15%). The mixture was passed through a single screw extruder with a 30 cm length, 30 mm diameter, and 3 mm die. The screw speed was kept at 200 rpm with a feed rate of 9 kg/h while the die temperature was kept at 180 °C. To prepare the extruded goods for further testing, they were cooled and packaged in plastic bags ·       Health-improved breakfast cereal product

·       Improves metabolism of the body

Moisture, expansion ratio, color, texture analysis, antioxidant properties, total phenolic content, oxygen radical absorbance capacity assay

55

Pomelo juice concentrates

Juice Fresh juice was extracted by homogenizer at 8000 rpm for 3 min and centrifugation was done for 10 min at 9000 rpm. The juice was formulated at different concentrations 20, 30.4, 40.4, 53.4, and 60.4 ̊Brix by utilization of small laboratory vacuum evaporation at 60 rpm at 50 ℃. ·       Healthy drink for consumption

·       Enhances body metabolism

·       Reduces heart disorders

Moisture content, rheological characteristics, Antioxidant properties

56

Pomelo wine

Juice The wine was developed from fresh pomelo juice. The S. cerevisiae was used for fermentation of wine with the addition of yeast, and potassium metabisulfite. Further, after storage of wine antioxidant properties are studied. ·       Good antioxidants and refreshing drink for the body Total soluble solids, Titratable acidity, pH, Antioxidant properties  

57

Nectar Juice The fresh juice was extracted from pomelo, mango, and kokum fruit. The blend was prepared from these juices in the ratio of (65:30:5). The sugar syrup was added and the final volume was adjusted with water. The prepared product was stored in bottles for further use. ·       Refreshing, palatable, and nutritional product

·       Antioxidant-enriched drink

Total soluble solids, pH, Total sugars, Ascorbic acid, Titratable acidity

58

Blended beverage

Juice

The fresh juice was extracted from pomelo fruit and formulated with water in ratios (25:75) and (30:70). 1% citric acid and sodium benzoate was added to the blended beverage. The final product was pasteurized at 70 ℃ for 30 min. and stored for further analysis. ·       Refreshing and nutritional drink for the body Total soluble solids, Total sugars, Ascorbic acid, Titratable acidity

59

Pomelo enzyme beverage

Juice The fresh raw juice was combined with the enzyme Dictyophora indusiata (1:2 v/v) with the addition of 0.1% yeast, lime, 30% white sugar, and salt. ·       Natural nutrients rich drink

·       Improves body metabolism

Total soluble solids, Ascorbic acid, Total sugars,Titratable acidity,  Reducing and Non-reducing sugars

60

Pomelo cake

Fruit segments The fresh and dry fruit segments are used for the preparation of bioactive enriched pomelo cake. The 10, 20, 30% fresh, and 5, 10, 15% of dry fruit segments are used for pomelo cake production. The 30% fresh and 5% dry fruit segments enriched pomelo cake was considered acceptable for sensory. ·       Health-promoting and nutrients enriched cake Total phenolic content, Total flavonoid content, Carotenoids, Total fat, Protein, Ash

61

Pomelo Parathas

Fruit segments The parathas were prepared by incorporating fresh (10, 20, 30%) and dry (2.5, 5, 7.5%) peel segments of pomelo fruit with wheat flour. Ingredients including whole wheat flour, fruit segments, salt, oil, and water were combined and the dough was prepared. After 10 min dough was utilized for the preparation of parathas on the hotplate for 2 min. at 180 ℃. Parathas were cooled and packed in polypropylene bags for further evaluation. ·       Improves the nutritional and functional properties of parathas

·       Provides hypoglycemic effect

Total sugars, Reducing sugars, Total phenolic content, Flavonoid, Carotenoids, Total starch, Resistant starch, glycemic index

62

Future prospective and conclusion

Pomelo is an excellent source of nutrients, vitamins, and minerals. Pomelo is mainly consumed as fresh fruit because of its refreshing appeal and flavor. Pomelo fruit is utilized in food industries for the development of food products such as jam, jellies, beverages, bread, noodles, wine, and cake. Apart from food products pomelo has great potential for bioactive constituents available in different portions of fruit. The waste loaded in different portions including flavedo, albedo, segment peel, seeds, pomace, and juice of pomelo fruit has health functionalities and active constituents available. However, there is a wide gap and challenges related to the utilization of pomelo fruit for the fabrication of processed products with great nutraceutical potential. The edible coating production from pomelo fruit also needs concern from researchers and food industries to develop innovative coating by incorporating new additives with health-encouraging benefits. The therapeutic potential and nutritional value of pomelo fruit can be explored further for the production of healthy products which is a great benefit for pomelo growers for improving their income and also lowers postharvest losses.   

Acknowledgement

All individuals listed as authors have contributed substantially to the design, performance, analysis of literature for this review, and the authors are thankful to Punjab Technical University for providing infrastructure for making this research contribution possible

Authors Contribution

Simple Sharma: Conceptualization, methodology, investigation, resources, and writing (original draft, review, and editing). Barinderjit Singh: Writing (original draft, review, and editing). Gurwinder Kaur: Supervision and writing (review and editing). Yashi Srivastava: Writing (review and editing). Rubrinder Singh Sandhu: Writing (review and editing). All authors approved the final version of the manuscript.

Funding Sources

There is no funding Sources

Conflict of interest

The authors declare no conflict of interest, financial or otherwise.

Data Availability Statement

This statement does not apply to this article.

Ethics Approval Statement

This research did not request ethical approval

References

  1. Kumar D, Ladaniya MS, Gurjar M. Underutilized Citrus Sp. Pomelo (Citrus grandis) and Kachai lemon (Citrus jambhiri) exhale in phytochemicals and antioxidant potential. Journal of Food Science and Technology 2019;56(1):217-223. https://doi.org/10.1007/s13197-018-3477-3
    CrossRef
  2. Anmol RJ, Marium S, Hiew FT, Han WC, Kwan LK, Wong AKY, Khan F, Sarker MR, Chan SY, Kifli N, Ming LC. Phytochemical and Therapeutic Potential of Citrus grandis (L.) Osbeck: A Review. Journal of Evidence-Based Integrative Medicine 2021;26:1-20. https://doi.org/10.1177/2515690X211043741
    CrossRef
  3. Atreya PN, Shrestha J. Biodiversity of neglected and underutilized fruits of Nepal: a review. Fundamental and Applied Agriculture 2020;5(4):470-483. https://orcid.org/0000-0002-5099-677X
  4. Vijaylakshmi P, Radha R. An overview: Citrus maximaThe Journal of Phytopharmacology 2015;4(5):263-267.
    CrossRef
  5. Zhao Y, Yang X, Hu Y, Gu Q, Chen W, Li J, Guo X, Liu Y. Evaluation of carotenoids accumulation and biosynthesis in two genotypes of pomelo (Citrus maxima) during early fruit development. Molecules 2021;26(16):5054. https://doi.org/10.3390/molecules26165054
    CrossRef
  6. Sharma P, Vishvakarma R, Gautam K, Vimal A, Gaur VK, Farooqui A, Varjani S, Younis K. Valorization of citrus peel waste for the sustainable production of value-added products. Bioresource Technology 2022;351:127064. https://doi.org/10.1016/j.biortech.2022.127064
    CrossRef
  7. El-Otmani M, Ait-Oubahou A, Zacarías L. Citrus spp.: Orange, mandarin, tangerine, clementine, grapefruit, pomelo, lemon and lime. In Postharvest Biology and Technology of Tropical and Subtropical Fruits2011; (pp. 437-516). Woodhead Publishing. https://doi.org/10.1533/9780857092762.437
    CrossRef
  8. Tocmo R, Pena‐Fronteras J, Calumba KF, Mendoza M, Johnson JJ. Valorization of pomelo (Citrus grandis Osbeck) peel: A review of current utilization, photochemistry, bioactivities, and mechanisms of action. Comprehensive Reviews in Food Science and Food Safety 2020;19(4):1969-2012. https://doi.org/10.1111/1541-4337.12561
    CrossRef
  9. Gupta AK, Dhua S, Sahu PP, Abate G, Mishra P, Mastinu A. Variation in phytochemical, antioxidant and volatile composition of pomelo fruit (Citrus grandis (L.) osbeck) during seasonal growth and development. Plants2021;10(9):1941. https://doi.org/10.3390/plants10091941
    CrossRef
  10. Sapkota B, Devkota HP, Poudel P. Citrus maxima (Brum.) Merr. (Rutaceae): Bioactive Chemical Constituents and Pharmacological Activities. Evidence-Based Complementary and Alternative Medicine2022;1-16. https://doi.org/10.1155/2022/8741669
    CrossRef
  11. Khan NH, Qian CJ, Perveen N. Phytochemical screening, antimicrobial and antioxidant activity determination of citrus maxima peel. Pharmacy & Pharmacology International Journal 2018;6(4):279-285. http://doi: 10.15406/ppij.2018.06.00187
    CrossRef
  12. Singh J, Sharma V, Pandey K, Manveen AK, Singh Sidhu G. Horticultural classification of citrus cultivars. Citrus Research, Development and Biotechnology 2021;1-24.
    CrossRef
  13. Wu GA, Terol J, Ibanez V, López-García A, Pérez-Román E, Borredá C, Domingo C, Tadeo FR, Carbonell-Caballero J, Alonso R, Talon M. Genomics of the origin and evolution of Citrus. Nature 2018;554(7692):311-316. https://doi.org/10.1038/nature25447
    CrossRef
  14. Pan T, Ali MM, Gong J, She W, Pan D, Guo Z, Yu Y, Chen F. Fruit Physiology and Sugar-Acid Profile of 24 Pomelo (Citrus grandis (L.) Osbeck) Cultivars Grown in Subtropical Region of China. Agronomy 2021;11(12):2393. https://doi.org/10.3390/agronomy11122393
    CrossRef
  15. Mahato N, Sharma K, Sinha M, Cho MH. Citrus waste derived nutra-/pharmaceuticals for health benefits: Current trends and future perspectives. Journal of Functional Foods 2018;40:307-316. https://doi.org/10.1016/j.jff.2017.11.015
    CrossRef
  16. Singh SK, Singh A, Nath V, Parthasarathy VA, Sthapit B, Vinoth S. Pummelo in Homestead Garden: Conservation through Family Farming. Indian Journal of Plant Genetic Resources 2018;28(1):132-138. http://doi.10.5958/0976-1926.2015.00017.0
    CrossRef
  17. Salihah BN, Rosnah S, Norashikin AA. Mass modeling of Malaysian varieties pomelo fruit (Citrus grandis L. Osbeck) with some physical characteristics. International Food Research Journal 2015;22(2):488.
  18. Yu H, Yang X, Guo F, Jiang X, Deng X, Xu Q. Genetic diversity and population structure of pummelo (Citrus maxima) germplasm in China. Tree Genetics & Genomes 2017;13:1-10. https://doi.org/10.1007/s11295-017-1133-0
    CrossRef
  19. Nishad J, Singh SP, Singh S, Saha S, Dubey AK, Varghese E, Kaur C. Bioactive compounds and antioxidant activity of selected Indian pummelo (Citrus grandis L. Osbeck) germplasm. Scientia Horticulturae 2018;233:446-454. https://doi.org/10.1016/j.scienta.2018.01.024
    CrossRef
  20. Bhowmick N, Mani A, Paul P, Prasanna VSSV. Physiochemical properties of Pummelo [Citrus grandis (L.) Osbeck] grown under northern parts of west bengal. Journal of Plant Development Sciences 2017;9(9):897-900.
  21. Mahardika IBK, Rai IN, Mahendra MS, Dwiyani R. Genetic diversity and fruit quality of several Pomelo “JERUK BALI” (Citrus grandis L. Osbeck) cultivars in Bali. InternationalJournal Biosciences Biotechnology 2017;5(1):43-59. https://doi.org/10.24843/IJBB.2017.v05.i01.p04
    CrossRef
  22. Makkumarrai W, Huang Y, XU Q. Comparison of Pomelo (Citrus maxima) grown in China and Thailand. Frontiers of Agricultural Science and Engineering 2021;8(2):335-52. https://doi.org/10.15302/J-FASE-2021391
    CrossRef
  23. Pan T, Ali MM, Gong J, She W, Pan D, Guo Z, Yu Y, Chen F. Fruit Physiology and Sugar-Acid Profile of 24 Pomelo (Citrus grandis (L.) Osbeck) Cultivars Grown in Subtropical Region of China. Agronomy 2021;11(12):2393. https://doi.org/10.3390/agronomy11122393
    CrossRef
  24. Xiang N, Zhao Y, Zhang B, Gu Q, Chen W, Guo X. Volatiles Accumulation during Young Pomelo (Citrus maxima (Burm.) Merr.) Fruits Development. International Journal of Molecular Sciences 2022;23(10):5665. https://doi.org/10.3390/ijms23105665
    CrossRef
  25. Bhende SS, Pavithra S. Pummelo: Underexploited, Neglected but Largest Fruit of Citrus Group. Agriculture & Environment E-Newsletter 2020;1:89-93.
  26. Ani PN, Abel HC. Nutrient, phytochemical, and antinutrient composition of Citrus maxima fruit juice and peel extract. Food Science & Nutrition 2018;6(3):653-658. https://doi.org/10.1002/fsn3.604
    CrossRef
  27. Saini RK, Ranjit A, Sharma K, Prasad P, Shang X, Gowda KGM, Keum YS. Bioactive compounds of citrus fruits: A review of composition and health benefits of carotenoids, flavonoids, limonoids, and terpenes. Antioxidants 2022;11(2):239. https://doi.org/10.3390/antiox11020239
    CrossRef
  28. Liu Y, Heying E, Tanumihardjo SA. History, global distribution, and nutritional importance of citrus fruits. Comprehensive reviews in Food Science and Food safety 2012;11(6):530-545. https://doi.org/10.1111/j.1541-4337.2012.00201.x
    CrossRef
  29. Lin LY, Huang CY, Chen KC, Peng RY. Pomelo fruit wastes are potentially valuable antioxidants, anti-inflammatories, antihypertensives, and antihyperglycemics. Horticulture, Environment and Biotechnology 2021;62:377-395. https://doi.org/10.1007/s13580-020-00325-8
    CrossRef
  30. Visakh NU, Pathrose B, Narayanankutty A, Alfarhan A, Ramesh V. Utilization of Pomelo (Citrus maxima) Peel Waste into Bioactive Essential Oils: Chemical Composition and Insecticidal Properties. Insects 2022;13(5):480. https://doi.org/10.3390/insects13050480
    CrossRef
  31. Kongkachuichai R, Charoensiri RIN, Sungpuag P. Carotenoid, flavonoid profiles and dietary fiber contents of fruits commonly consumed in Thailand. International Journal of Food Science and Nutrition 2010;61(5):536-548. https://doi.org/10.3109/09637481003677308
    CrossRef
  32. Al‐Juhaimi FY, Ghafoor K, Mohamed Ahmed IA, Özcan MM, Uslu N, Babiker EE. The effect of different solvent concentrations on total phenol, antioxidant activity values, and phenolic compounds of pomelo (Citrus grandis L. Osbeck) fruits. Journal of Food Processing and Preservation 2021;45(10):15840. https://doi.org/10.1111/jfpp.15840
    CrossRef
  33. Xiao L, Ye F, Zhou Y, Zhao G. Utilization of pomelo peels to manufacture value-added products: A review. Food Chemistry 2021;351:129247. https://doi.org/10.1016/j.foodchem.2021.129247
    CrossRef
  34. Zhao YL, Yang XW, Wu BF, Shang JH, Liu YP, Zhi-Dai, Luo XD. Anti-inflammatory effect of pomelo peel and its bioactive coumarins. Journal of Agricultural and Food Chemistry 2019;67(32):8810-8818. https://doi.org/10.1021/acs.jafc.9b02511
    CrossRef
  35. Nhi TTY, Phat DT, Quyen NN, Cang MH, Truc TT, Bach LG, Muoi NV. Effects of vacuum concentration on color, polyphenol and flavonoid contents and antioxidant activity of pomelo citrus maxima (Burm. f.) Merr. Juice. In IOP Conference Series: Materials Science and Engineering 2020;(Vol. 991, No. 1, p. 012060). IOP Publishing. http://doi.10.1088/1757-899X/991/1/012060
    CrossRef
  36. Tran NYT, Le TD, Dao PT, Bach GL, Huynh PX, Tran QN. Evaluation of different extraction methods on the polyphenols yield, flavonoids yield, and antioxidant activity of the pomelo flavedo extract from Da Xanh (Citrus maxima [burm] merr.) variety. Food Science and Technology 2021;42:e97021. https://doi.org/10.1590/fst.97021
    CrossRef
  37. Zareiyan F, Khajehsharifi H. Bioactive compounds analysis in ethanolic extracts of Citrus maxima and Citrus sinensis exocarp and mesocarp. Natural Product Research 2022;36(17):4505-4508. https://doi.org/10.1080/14786419.2021.1986819
    CrossRef
  38. Xi W, Fang B, Zhao Q, Jiao B, Zhou Z. Flavonoid composition and antioxidant activities of Chinese local pummelo (Citrus grandis Osbeck.) varieties. Food chemistry 2014;161:230-238. https://doi.org/10.1016/j.foodchem.2014.04.001
    CrossRef
  39. Nguyen NHK, Duong HN, Long H, Nhi TTY, Phat DT. Effects of microwave extraction conditions on polyphenol content and antioxidant activity of pomelo extract (Citrus maxima (Burm.) Merr.). In IOP Conference Series: Materials Science and Engineering 2020;(Vol. 991, No. 1, p. 012035). IOP Publishing. http://doi.10.1088/1757-899X/991/1/012035
    CrossRef
  40. Manikyam HK, Tripathi P, Patil SB, Lamichhane J, Chaitanya M, Patil AR. Extraction, purification, and quantification of hesperidin from the immature Citrus grandis/maxima fruit Nepal cultivar. Asian Journal of Natural Product Biochemistry 2022;20(1). https://doi.org/10.13057/biofar/f200105
    CrossRef
  41. Zhang M, Duan C, Zang Y, Huang Z, Liu G. The flavonoid composition of flavedo and juice from the pummelo cultivar (Citrus grandis (L.) Osbeck) and the grapefruit cultivar (Citrus paradisi) from China. Food Chemistry 2011;129(4):1530-1536. https://doi.org/10.1016/j.foodchem.2011.05.136
    CrossRef
  42. Phuong TNQ, Van Hung P, Phi NTL. Extraction of flavonoids in pomelos’ peels using Box-Behnken response surface design and their biological activities. Vietnam Journal of Science Technology and Engineering 2021;63(2):52-57. https://doi.org/10.31276/VJSTE.63(2).52-57
    CrossRef
  43. Zhao XJ, Guo PM, Pang WH, Zhang YH, Zhao QY, Jiao BN, Kilmartin PA. A rapid UHPLC-QqQ-MS/MS method for the simultaneous qualitation and quantitation of coumarins, furocoumarins, flavonoids, phenolic acids in pummelo fruits. Food chemistry 2020;325:126835. https://doi.org/10.1016/j.foodchem.2020.126835
    CrossRef
  44. Jiang Q, Ye J, Zhu K, Wu F, Chai L, Xu Q, Deng X. Transcriptome and co-expression network analyses provide insights into fruit shading that enhances carotenoid accumulation in pomelo (Citrus grandis). Horticultural Plant Journal2022;8(4):423-434. https://doi.org/10.1016/j.hpj.2022.01.007
    CrossRef
  45. Huang S, Dong T, Xiong B, Qiu X, Sun G, Liao L, Fan N, Wang X, Deng H, He S, Wang Z. Variation in the content and composition of limonoids in fruits of four pomelo varieties during fruit development: The natural debittering process in pomelo fruits. Journal of Food Composition and Analysis 2021;100:103928. https://doi.org/10.1016/j.jfca.2021.103928
    CrossRef
  46. Xiang Y, Cao J, Luo F, Wang D, Chen W, Li X, Sun C, Chen K. Simultaneous purification of limonin, nomilin and isoobacunoic acid from pomelo fruit (Citrus grandis) segment membrane. Journal of Food Science 2014;79(10):1956-1963. https://doi.org/10.1111/1750-3841.12581
    CrossRef
  47. Ngan TTK, Tran TH, Minh LTN, Long HB, Le XT. Application of pomelo essential oil (Citrus Grandis L.) in effective scenting of diffused products. In E3S Web of Conferences2021; (Vol. 306). EDP Sciences. https://doi.org/10.1051/e3sconf/202130604020
    CrossRef
  48. Wedamulla NE, Fan M, Choi YJ, Kim EK. Citrus peel as a renewable bioresource: Transforming waste to food additives. Journal of Functional Foods 2022;95:105163. https://doi.org/10.1016/j.jff.2022.105163
    CrossRef
  49. Patra A, Abdullah S, Pradhan RC. Review on the extraction of bioactive compounds and characterization of fruit industry by-products. Bioresources and Bioprocessing. 2022;9(1):1-25. https://doi.org/10.1186/s40643-022-00498-3
    CrossRef
  50. Kandemir K, Piskin E, Xiao J, Tomas M, Capanoglu E. Fruit juice industry wastes as a source of bioactives. Journal of Agricultural and Food Chemistry 2022;70(23):6805-6832. https://doi.org/10.1021/acs.jafc.2c00756
    CrossRef
  51. Liu G, Hou T, Guo S, Lin H, Chen M, Miao J, Liu X, Huang Y, Cao Y, Lan Y, Song M. Comprehensive Utilization of Immature Honey Pomelo Fruit for the Production of Value-Added Compounds Using Novel Continuous Phase Transition Extraction Technology. Biology 2021;10(8):815. https://doi.org/10.3390/biology10080815
    CrossRef
  52. Reshmi SK, Sudha ML, Shashirekha MN. Starch digestibility and predicted glycemic index in the bread fortified with pomelo (Citrus maxima) fruit segments. Food chemistry 2017b;237:957-965. https://doi.org/10.1016/j.foodchem.2017.05.138
    CrossRef
  53. Reshmi SK, Sudha ML, Shashirekha MN. Noodles fortified with Citrus maxima (pomelo) fruit segments suiting the diabetic population. Bioactive Carbohydrates and Dietary Fibre 2020;22:100213. https://doi.org/10.1016/j.bcdf.2020.100213
    CrossRef
  54. Yadav PN, Ranganna B, Chandru R. Development of value added products from pomelo fruit and their storage. Mysore Journal of Agricultural Sciences 2009;43(2):249-254.
  55. Shi N, Narciso JO, Gou X, Brennan MA, Zeng XA, Brennan CS. Manipulation of antioxidant and glycaemic properties of extruded rice based breakfast cereal products using pomelo fruit by-product material. Quality Assurance and Safety of Crops & Foods 2017;9(4):489-495. https://doi.org/10.3920/QAS2017.1084
    CrossRef
  56. Keshani S, Chuah AL, Russly AR. Effect of temperature and concentration on rheological properties pomelo juice concentrates. International Food Research Journal 2012;19(2).
  57. Li-Ming Z, Jin-Duo H. Fermentation process and antioxidant effect of majia Pomelo wine. Journal of Southern Agriculture 2018;49(42):348-353.
  58. Bohra P, Srinivas KN. Development of nectar from pummelo (Citrus grandis), an underutilized fruit crop, by blending with kokum (Garcinia indica) and mango ginger (Curcuma amada). Journal of Andaman Science Association 2015;19(1):70-74.
  59. Bohra P, Sreenivas KN, Sreeramu BS. Development of a cost-effective, palatable and shelf-stable blended beverage of pummelo (Citrus grandis Linn.). Fruits 2012;67(4):249-256. https://doi.org/10.1051/fruits/2012018
    CrossRef
  60. Mu B, Lan Y, Zhou Y, Luo S. Processing technology of Dictyophora indusiata and honey pomelo compound enzyme beverage. Storage and Process 2018;18(4):61-72.
  61. Reshmi SK, Sudha ML, Shashirekha MN. Bioactive enriched cake supplemented with fruit segments of Pomelo. Journal of Microbiology, Biotechnology and Food Sciences 2022;12(2):3289. https://doi.org/10.55251/jmbfs.3289
    CrossRef
  62. Reshmi SK, Sudha ML, Shashirekha MN. Starch digestibility and glycemic index of Parathas supplemented with Citrus maxima (Burm.) Merr. fruit segments. Journal of Food Science and Technology 2017a;54:4370-4377. https://doi.org/10.1007/s13197-017-2909-9
    CrossRef


Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.