Moringa oleifera: An Unknown Crop in Developed Countries with Great Potential for Industry and Adapted to Climate Change

Moringa oleifera is originally a tropical crop with a fast development, little known in developed countries but cultivated since ancient times. It can adapt to regions affected by climate change, such as the Mediterranean basin, since it is a crop with a great resistance to high temperatures. In this study an in-depth bibliographical review was carried out by consulting different databases (Science Direct, FSTA, Scielo, Riunet, and Google Scholar) in order to find published scientific studies on the characteristics of this crop and its agronomic requirements. According to the information found, all parts of the Moringa oleifera, namely the leaves, pods, seeds, roots and flowers, can be used in different industrial sectors such as pharmaceutical, cosmetic, human food, animal feed, and water treatment since they have a nutritional profile rich in high biological value proteins, vitamins A and C, antioxidants, omega-3 fatty acids and minerals: calcium, iron, potassium, and phosphorous.


Introduction
The Moringa oleifera Lam. tree is a tropical tree that belongs to the Moringaceae family, which includes about 13 different species of trees [1]. However, the best known is M. oleifera. This crop comes from northern India and some areas of northern Europe although it is also grown in the Red Sea area and/or other parts of Asia and Africa, including Madagascar. However, this crop has been spread worldwide [2] (Asia, Africa, Central, and South America) and this fact has led to it being given different names, i.e., "benzolive tree, drumstick tree, horseradish tree, mulangay, moonga, saijhan, marango, sajna, mlonge, or Ben oil tree" [3].
The history of the M. oleifera tree dates back to 150 B.C. Historical evidence reveals that ancient kings and queens used M. oleifera leaves and fruits in their diet to maintain a state of mental alertness and healthy skin. Ancient Mauritanian warriors in India drank M. oleifera leaf extract on the war front and this drink was believed to be a kind of elixir that gave them extra energy and relieved them of the stress and pain suffered during the war. Eventually, these brave soldiers were the ones who defeated Alexander the Great [4].
The geographical areas where this plant was originally developed, such as the southern hemisphere, India, China and Brazil, among others, are the regions where there are currently problems of malnutrition. It is widely known that agricultural growth is particularly effective in reducing hunger and malnutrition. Thus, one harvest of a M. oleifera plantation's (705 trees) total estimated leaf biomass would yield a one-day proper calorie intake for 340 adult humans (irrespective of gender) [5]. In this regard, the rich nutritional of time because it would cause a decrease in growth [21]. It is an extremely fast growing tree; thanks to the high yield of the crop in just three months there is a substantial growth. Normally its growth varies from 5 to 10 m high [22].
In tropical areas with rainfall spread throughout the year, this plant has constant flowering, whereas in dry tropical areas, there are two pod harvests per year. Thus, in Spain, there is only one harvest of pods between August and September [23]. As for the harvesting of the leaves, due to the high production yield, 3 to 5 cuts may be made per season.
In areas where M. oleifera is not originally grown, this crop is beginning to be introduced since there is a growing interest in expanding the consumption of this vegetable due to its many possibilities of being included in a healthy diet and also because it could be considered a potential crop for combating the global climate change. In the particular case of Spain, these are the limiting factors for this crop according to some studies carried out by different researchers: -M. oleifera is especially sensitive to low temperatures. During the coldest months, it can withstand between −1 • C and 3 • C, tolerating short and low-intensity frosts. If the frost persists, the plant dies immediately. Consequently, low temperatures are considered to be the "exclusive" factor for the development of this plant. In the Iberian Peninsula and the Balearic Islands, December, January, and February are the months when the lowest temperatures are reached. The main mountain systems and most of the Douro Valley are unsuitable areas for the cultivation of the M. oleifera due to the low winter temperatures [24]. -It does not survive temperatures above 48 • C [20]. No area in Spain reaches this average temperature during the summer months (June, July, and August). -If the average temperature exceeds 8 • C, the risk of light frost is low, so the plant could survive, although it would not begin growing [25]. - The plant needs high daily average temperatures between 25-35 • C to have an optimal growth and a high production of pods and leaves, resulting in its most cost-effective cultivation [24]. -For isohyets, the limit values are 300 mm and 500 mm [24].
Furthermore, a Japanese research report [11] has shown that the carbon dioxide absorption rate (CO 2 ) of the M. oleifera tree is twenty times higher than that of vegetation in general. The M. oleifera tree has great potential not only to store carbon but also to improve the livelihoods of many smallholders. Therefore, as discussed above, planting this tree in different parts of the country could mitigate the effects of climate change [10].
To sum up, numerous researchers have concluded that the M. oleifera tree is a very versatile tree with rapid growth and good adaptation to adverse weather conditions. Therefore, this crop can be a good alternative to intensive cultivation to face the current battle against climate change.

Parts of the M. oleifera and Their Composition
M. oleifera has multiple uses because all parts of the tree are edible. In addition, the most surprising aspect is its exceptionally high nutritional value [26]. In Figure 1, their morphology and main characteristics are shown. Foods 2021, 10, x FOR PEER REVIEW 4 of 14 Figure 1. Parts of the plant and its main characteristics. (Sources: [15,[27][28][29]).
In the case of leaves, which have a high morphological similarity to ferns, according to Oyeyinka et al. [30], they contain the greatest amount of nutrients compared to other parts of M. oleifera, especially in terms of protein content (19-29%). In addition, they are excellent as a source of vitamin E, vitamin A (four times more than the content of a carrot), vitamin C (in fresh leaves, the amount is seven times higher than in an orange), and vitamin B. They are also one of the best vegetable sources of minerals since their calcium content is very high for a plant (more than four times the amount of milk) and the iron content is very interesting; it becomes very useful against anemia. It also has high amounts of potassium-three times the amount of a banana-as shown in Table 1. Except for vitamin C, the nutritional value of M. oleifera leaf powder is higher than that of fresh leaves. This can be interesting, as dried leaves can be stored so their use is guaranteed throughout the year [31]. In many cultures of poor countries, they are often the only source of additional proteins, minerals, and vitamins. In addition, its content of fats, carbohydrates, and phosphorus is very low, which makes it one of the best plant foods [32].
M. oleifera flowers also serve as a good source of a wide variety of nutrients, including proteins, potassium, calcium antioxidants (α and γ tocopherol), and polyunsaturated fatty acids, leading them to be ready food or tea and dietary supplement after processed [33]. Fried M. oleifera flowers taste like mushroom [22].
High content of nutrition in pods and seeds of M. oleifera have been reported in many studies. There is about 9.98-51.80 g crude protein, 17.26-20.00 g crude fiber, 3.36-18.00 g carbohydrate, 38.67-43.60 g fat, and 3.60-5.00 g ash per 100 g M. oleifera seeds [34]. Pods contain abundance of dietary fiber, low content of lipid, and a reasonable amount of unsaturated and essential fatty acids, especially oleic acid [35].

Uses of the Parts of the M. oleifera
As described above, one of the uses of this plant is human consumption, mainly because of its appreciated nutritional components. Its food uses range from the formation of a main course to its use in salads or sauces. There are many plants in nature that help to restore the body balance and maintain a good health. M. oleifera is among the best tropical perennial vegetables from a nutritional point of view [35], as shown in Figure 2. The uses of each plant part will be explained in more detail below.  [15,[27][28][29]).
In the case of leaves, which have a high morphological similarity to ferns, according to Oyeyinka et al. [30], they contain the greatest amount of nutrients compared to other parts of M. oleifera, especially in terms of protein content (19-29%). In addition, they are excellent as a source of vitamin E, vitamin A (four times more than the content of a carrot), vitamin C (in fresh leaves, the amount is seven times higher than in an orange), and vitamin B. They are also one of the best vegetable sources of minerals since their calcium content is very high for a plant (more than four times the amount of milk) and the iron content is very interesting; it becomes very useful against anemia. It also has high amounts of potassium-three times the amount of a banana-as shown in Table 1. Except for vitamin C, the nutritional value of M. oleifera leaf powder is higher than that of fresh leaves. This can be interesting, as dried leaves can be stored so their use is guaranteed throughout the year [31]. In many cultures of poor countries, they are often the only source of additional proteins, minerals, and vitamins. In addition, its content of fats, carbohydrates, and phosphorus is very low, which makes it one of the best plant foods [32].
M. oleifera flowers also serve as a good source of a wide variety of nutrients, including proteins, potassium, calcium antioxidants (α and γ tocopherol), and polyunsaturated fatty acids, leading them to be ready food or tea and dietary supplement after processed [33]. Fried M. oleifera flowers taste like mushroom [22].
High content of nutrition in pods and seeds of M. oleifera have been reported in many studies. There is about 9.98-51.80 g crude protein, 17.26-20.00 g crude fiber, 3.36-18.00 g carbohydrate, 38.67-43.60 g fat, and 3.60-5.00 g ash per 100 g M. oleifera seeds [34]. Pods contain abundance of dietary fiber, low content of lipid, and a reasonable amount of unsaturated and essential fatty acids, especially oleic acid [35].

Uses of the Parts of the M. oleifera
As described above, one of the uses of this plant is human consumption, mainly because of its appreciated nutritional components. Its food uses range from the formation of a main course to its use in salads or sauces. There are many plants in nature that help to restore the body balance and maintain a good health. M. oleifera is among the best tropical perennial vegetables from a nutritional point of view [35], as shown in Figure 2. The uses of each plant part will be explained in more detail below.

Seeds
The seed of this plant contains oil that can be used for cooking, in the cosmetics industry, or for medicinal purposes. The perfume extracted from the seed oil is highly appreciated by perfumers for its power to absorb and retain odors, mainly for the manufacture of deodorants [37]. The seeds also contain specific protein fractions for skin and hair care. Peptides from the M. oleifera seed protect the skin from environmental influences (anti-pollution) and combat premature skin aging. The seed extract is a globally accepted innovation and an active solution for hair [38]. Besides, seed flour cake is used to purify water, reducing the occurrence of waterborne diseases that cause numerous deaths in developing countries [39]. Some technological applications have been made in cookies and flour formulations for children, but the bitterness and toxicity caused by lectin (hemagglutinin) remain a limit for human consumption [40].
Furthermore, according to the literature, the oil from M. oleifera seeds (about 40%) has an excellent quality [41] and can be used as a raw material for the production of biodiesel [42].

Pods
Lobed flowers and pods are produced during the second year of growth. The pods are harvested when they are young, tender, and green, that is, as immature pods being the most valued and nutritious because they contain all the essential amino acids along with many vitamins and other nutrients [43]. The consumption of pods can be both human and animal. Immature pods can be eaten raw or prepared as peas or green beans and reported to taste like asparagus; while ripe pods are usually fried and taste like peanut. They also produce 38 to 40% of edible oil known as Ben Oil [44]. This oil is clear, sweet, and odorless-unlikely to alter the taste [22]. In general, its nutritional value resembles that of olive oil and it is worth noting that it has anti-inflammatory compounds that help relieve pain and swelling caused by arthritis, rheumatism, and gout [45].

Root and Bark
As for the roots, some studies [46] have shown that certain root extracts contain analgesics called Moringin and Moringinine that may play a role in their effectiveness against lumbago at appropriate doses. The roots also have a food use; they can be used as a condiment or in sauces as they have a flavor very similar to horseradish [43]. However, high consumption of roots, seeds, bark, and even leaves can be a health problem [36]. Depending on the dose and timing of consumption, alkaloids, especially those in the root and bark, can become toxic like spirochin and phytochemical bencil isothiocyanate [47]. The spirochin alkaloid can cause tachycardia at a dose of 35 mg/kg body weight and

Seeds
The seed of this plant contains oil that can be used for cooking, in the cosmetics industry, or for medicinal purposes. The perfume extracted from the seed oil is highly appreciated by perfumers for its power to absorb and retain odors, mainly for the manufacture of deodorants [37]. The seeds also contain specific protein fractions for skin and hair care. Peptides from the M. oleifera seed protect the skin from environmental influences (anti-pollution) and combat premature skin aging. The seed extract is a globally accepted innovation and an active solution for hair [38]. Besides, seed flour cake is used to purify water, reducing the occurrence of waterborne diseases that cause numerous deaths in developing countries [39]. Some technological applications have been made in cookies and flour formulations for children, but the bitterness and toxicity caused by lectin (hemagglutinin) remain a limit for human consumption [40].
Furthermore, according to the literature, the oil from M. oleifera seeds (about 40%) has an excellent quality [41] and can be used as a raw material for the production of biodiesel [42].

Pods
Lobed flowers and pods are produced during the second year of growth. The pods are harvested when they are young, tender, and green, that is, as immature pods being the most valued and nutritious because they contain all the essential amino acids along with many vitamins and other nutrients [43]. The consumption of pods can be both human and animal. Immature pods can be eaten raw or prepared as peas or green beans and reported to taste like asparagus; while ripe pods are usually fried and taste like peanut. They also produce 38 to 40% of edible oil known as Ben Oil [44]. This oil is clear, sweet, and odorless-unlikely to alter the taste [22]. In general, its nutritional value resembles that of olive oil and it is worth noting that it has anti-inflammatory compounds that help relieve pain and swelling caused by arthritis, rheumatism, and gout [45].

Root and Bark
As for the roots, some studies [46] have shown that certain root extracts contain analgesics called Moringin and Moringinine that may play a role in their effectiveness against lumbago at appropriate doses. The roots also have a food use; they can be used as a condiment or in sauces as they have a flavor very similar to horseradish [43]. However, high consumption of roots, seeds, bark, and even leaves can be a health problem [36]. Depending on the dose and timing of consumption, alkaloids, especially those in the root and bark, can become toxic like spirochin and phytochemical bencil isothiocyanate [47].
The spirochin alkaloid can cause tachycardia at a dose of 35 mg/kg body weight and cause kidney damage at periodic doses above 46 mg/kg body weight. On the other hand, it is an effective prophylactic and antiseptic against wound infections by gram-positive bacteria, especially Staphylococcus and Streptococcus. Fibers, dyes, and tannins can be obtained from the bark for skin tanning [43].
In addition to the above, the M. oleifera tree can be used as windbreak to prevent soil erosion and its wood is useful as a building element for its ability to maintain heat [48].

Leaves
The leaves can be eaten fresh in salads, in vegetable curry, or as a seasoning (contributing to nutritional improvement especially in areas with malnutrition). They can also be cooked in soups and stews [49] or have medicinal properties. For fresh consumption, they should be harvested early in the morning and sold on the same day.
Dried leaves are interesting for preparing nutritionally enhanced foods, mixing them with legumes and cereals to try to obtain a complete protein. Older leaves should be stripped of their hard, fibrous stems as they are more suitable for dry leaf powder [50]. This powder is used to enrich food and can be stored for many months at room temperature without losing its nutritional value [51]. Its protein content (22-24%) is similar to that of soybean. Other uses would be the use of leaves as seasoning, spices, flavorings, in infusions or with medicinal functions [7].
In animal feed, the fresh leaves of M. oleifera have a positive effect, being as they stimulate the increase in the level of efficiency in the use of metabolizable energy by increasing microbial activity as well as a greater efficiency in the use of energy from pastures [52]. There are several experiences of including fresh M. oleifera fodder in the feed of different animal species such as goats, sheep, cows, birds, and pigs [34,[52][53][54]. Positive effects are reported on the productive behavior of goats and sheep, increases in the quality of cow's milk, a greater contribution of protein in pigs, and an improvement in the weight gain of sheep.
The leaves are the anatomical part of the plant, whose consumption of large doses over a long period of time means less risk to health. Specifically, it presents a lethal dose for 50% of the population (DL50) at 17.8 g/kg body weight and 15.9 g/kg body weight for the aqueous extract, which can lead to an alteration of hematological parameters and spleen hypertrophy and thymus [36]. However, no adverse effects were reported in a human study conducted with whole leaf powder at up to a single dose of 50 g or in a study using 8 g per day dose for 40 days [55].

Stems, Shoots, and Flowers
The dried flowers are infused for tea and have been proved to be rich in potassium and calcium [32] although they can also be consumed raw or cooked. The seeds, leaves, and especially flowers have insecticidal, larvicidal, and ovicidal activity against the vectors of the Anopheles stephensi and Aedes aegypti species [49].
Stem pulp is used for newspaper manufacturing and in textile industries [56]. The stems and shoots are used for animal feed and have medicinal effects.

Nutritional Aspects of Fresh and Dry Leaves of M. oleifera
In this section, a deep approach has been done by comparing the nutritional aspects of M. oleifera fresh and dry leaves with other foods (Table 1). Table 1. Nutritional value of fresh and dried M. oleifera leaves compared to other foods (Sources: [31,46]). It should be noted that M. oleifera leaves are a very rich source of essential amino acids, which are often lacking in many vegetables [46]. Table 2 shows the main amino acids found in the dried leaves of M. oleifera compared to the amino acids contained in soybeans and beef. It is not usual for a vegetable to contain all these amino acids, and M. oleifera contains them in a good proportion, these being very useful for our body. Therefore, M. oleifera leaves can be of great help to people who do not get protein from milk such as vegans or vegetarians. It even contains arginine and histidine, two amino acids especially important for newborns. Most children in sub-Saharan Africa are protein-deficient and M. oleifera could be an extremely valuable source of food for treating malnutrition in poor countries. M. oleifera has been found to have a higher content of amino acids than soybeans and beef in almost all the amino acids analyzed, except for lysine, methionine, and isoleucine, where beef has a higher content. M. oleifera is also a mineral reserve. Compared to mineral-rich vegetables that are usually consumed fresh such as spinach, or dried such as chia seeds, the differences in the content of these minerals can be seen in Table 3. As can be seen, spinach only exceeds the fresh M. oleifera leaf in terms of iron and potassium. As for the dried M. oleifera leaf, it far exceeds chia, especially in the content of calcium and potassium. However, chia has more phosphorus. Finally, given the high content of fatty acids in M. oleifera, it has been compared with other products rich in these components that are consumed fresh (avocado) or dried (nuts) ( Table 4). It should be noted that the dried leaves of M. oleifera far outweigh the avocado and walnut in terms of total omega-3 and the total content of polyunsaturated fatty acids (PUFA).

Content in (mg/100 g) Fresh M. oleifera Leaves Dry M. oleifera Leaves Other Foods
According to the WHO [60], total dietary fat should be between 15-30% of the total energy, of which less than 10% must be saturated fatty acids (SFA), between 6-10% must be polyunsaturated fatty acids (PUFA), and 15% must be monounsaturated fatty acids (MUFA). The ideal balance of SFA: MUFA: PUFA would be approximately 1:1.3:1 [61]. Within PUFAs, the most important are omega-6 and omega-3 fatty acids, with an omega-6 percentage of about 5-8% of the total dietary energy and between 1-2% of omega-3. Interest in omega-3 PUFAs has increased in recent years due to their various roles in promoting health and reducing the risk of cardiovascular disease and diabetes. These fatty acids are present in certain vegetables and soybeans and other plants have been genetically modified to contain higher levels of PUFA [62]. The most appropriate omega-6/omega-3 ratio is between 4/1 and 2/1, which favors a lower mortality rate in certain diseases [63]. If this ratio is exceeded, it can lead to health problems. Therefore, the challenge of today's diet is to obtain, through consumption of food, lower ratios between these fatty acids [64]. However, it is not desirable to reduce the supply of omega-6 fatty acids because it would cause an imbalance in that proportion, but it is much more desirable to increase the supply of omega-3 fatty acids [63].
The dried leaf of M. oleifera, as shown in Table 4, has a high proportion of omega-3 fatty acids, which could be an alternative to enrich the food matrices in this component. The composition of macronutrients and vitamins of groups B, A, C, and E in dried and fresh M. oleifera leaves is shown below in Table 5. As aforementioned, M. oleifera leaves contain nutritious compounds, highlighting the crude protein content of the dried leaf, which means that it is a good potential source of supplementary protein [59]. Calories, proteins, fats, carbohydrates, but especially vitamins and fiber, are greatly concentrated when drying M. oleifera leaves. Micronutrients are essential for human life. However, our body only requires minimal amounts of each to function properly. Contrary to what one might think, meeting each of the requirements of these micronutrients sometimes becomes complicated because of malnutrition problems, unbalanced diets, lack of education in food issues, and because they are in low doses in each of the foods [67]. Table 5. Composition of macronutrients and vitamins of group B, A, C, and E in dried and fresh leaves of M. oleifera (Sources: [31,48,67,68] The recommended daily amounts of vitamins are: 800 g for vitamin A, 12 mg for vitamin E, 80 mg for vitamin C, and 0.42 mg/1000 kcal for B vitamins [69]. In this regard, an intake of 11. Although fiber consumption is related to health benefits, its consumption in many countries is below the recommended amount (25 g/day in adults), since there is a greater supply and purchase of refined products. The food industry has a great opportunity to develop and to introduce in the market products with high content of fiber, which could also suppose a saving in the treatment of diseases [70]. However, the European Food Safety Authority (EFSA) recognized that higher than recommended amounts reduce the risk of coronary heart disease and type 2 diabetes and improve body weight maintenance [69]. In this case, 2777.78 g of fresh M. oleifera leaf or 207.47 g of dried M. oleifera leaf should be consumed to achieve the recommended daily allowance of fiber.
For all of the above, it is interesting to introduce M. oleifera in the food matrices in order to fortify their levels of some micronutrients to prevent deficiencies without modifying population eating habits [67].
M. oleifera has approximately 46 antioxidants, that is, it is one of the most powerful sources of natural antioxidants that help cells neutralize the effect of free radicals [71]. M. oleifera leaves are rich in flavonoids and also contain essential micronutrients with antioxidant activity or are directly related to this process, such as selenium or zinc [59].
The main present antioxidants are: quercetin, kaempferol, beta-sitosterol, caffeoylquinic acid, and zeatin [72]. It should be noted that the antioxidant power plays an important role in controlling the symptoms of the aging process and improving cardiovascular health. In addition, vitamin C and vitamin E present in M. oleifera also function as antioxidants [61]. In this sense, daily intake of M. oleifera will also be a contribution of antioxidants.
Scientists at the Asian Vegetable Research and Development Center (AVRDC) observed that boiled M. oleifera leaves or leaf powder provided at least three times more bioavailable iron than fresh M. oleifera leaves. Boiling also increased the antioxidant activity of the leaves. Furthermore, evidence of a higher nutrient content was recorded in mature leaves compared to young leaves although young shoots were preferred for consumption.
Regarding vitamin A, it was higher during the warm and humid season. In contrast, iron and vitamin C were higher during the cold, dry season [32].

Medicinal Properties
Since time immemorial, humans have sought and known medicinal plants, since in addition to being used for the prevention of pathologies, they were easily accessible to the population, less aggressive for health, and with fewer side-effects. Therefore, they are considered an important tool for comprehensive health care.
M. oleifera is a plant with an important source of natural phytochemicals, which constitutes a basis for future research. Currently, there is a growing international interest in this tree, both in the field of food and in medicine and cosmetics [73].
All parts of M. oleifera (leaves and roots, seeds, bark, fruits, flowers, and immature pods) act as cardiac and circulatory stimulants. In addition, they have antitumor, antiulcer, antispasmodic, anti-inflammatory, and antidiabetic effects, helping to maintain normal blood sugar levels as they have a high content of ascorbic acid that aids in insulin secretion) [74]. Table 6 shows the main medicinal properties according to the organ of the plant consumed.
Several bioactive compounds present in M. oleifera leaves such as nitrile, mustard oil glycosides, and thiocarbamate glycosides have a direct effect on blood pressure regulation. It is being used to treat different conditions in indigenous medicine, particularly in South Asia [26]. M. oleifera leaves contain sitosterol, a bioactive Phyto constitutive with a cholesterol-lowering effect [80]. The phenolic compounds present in the leaves give it a free radical scavenging property [80]. Leaf extracts have been shown to have antiproliferative effects, so they can inhibit the growth of cancer cells [22]. Moreover, these aqueous extracts regulate the hormone roid and can be used to treat hyperthyroidism and have an antioxidant effect [79]. Studies indicate that M. oleifera root has antiurolytic activity. One study also revealed an antilithic property of aqueous and alcoholic extracts from the root cortex. In fact, both extracts significantly reduced levels of urinary excretion and renal retention of oxalate, calcium, and phosphate [78].

Conclusions
To sum up, the cultivation of M. oleifera could be an alternative in places where climate change is preventing the development of traditional crops. Furthermore, as all parts of M. oleifera are edible (leaves, roots, flowers, pods, and seeds), they can be included in different food matrices, and therefore enrich their nutritional profile due to their high levels of proteins, fiber, vitamins, and antioxidants. It also has important nutritional properties such as anti-inflammatory, anti-asthmatic, cholesterol-lowering effect, antibacterial, and analgesic, among others. Its particular high value of omega 3 may help to formulate products with a recommended balance of omega-6/omega-3 ratio. M. oleifera also have many other possibilities to be used in the field of cosmetics, water purification, animal feed, fiber extraction for building material, and shell for biofuel.
Finally, as this plant is little known in developed countries, more information should be spread in order to enhance this crop and ensure different industrial sectors profit from all its parts, paving the way for a circular economy in a more sustainable way.

Conflicts of Interest:
The authors declare no conflict of interest.