Nelumbo nucifera

Nelumbo nucifera, also known as Sacred lotus, Indian lotus,[1] or simply lotus, is one of two extant species of aquatic plant in the family Nelumbonaceae. It is sometimes colloquially called a water lily, though this more often refers to members of the family Nymphaeaceae.[2]

Nelumbo nucifera
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Order: Proteales
Family: Nelumbonaceae
Genus: Nelumbo
Species:
N. nucifera
Binomial name
Nelumbo nucifera
Synonyms
  • Nelumbium speciosum Willd.
  • Nelumbo komarovii Grossh.
  • Nymphaea nelumbo
drawing of the east Indian lotus, gouache on oriental paper
British 19th Century, East Indian Lotus (Nelumbo nucifera), late 19th century, National Gallery of Art, NGA 52325

Lotus plants are adapted to grow in the flood plains of slow-moving rivers and delta areas. Stands of lotus drop hundreds of thousands of seeds every year to the bottom of the pond. While some sprout immediately, and most are eaten by wildlife, the remaining seeds can remain dormant for an extensive period of time as the pond silts in and dries out. During flood conditions, sediments containing these seeds are broken open, and the dormant seeds rehydrate and begin a new lotus colony.

Under favorable circumstances, the seeds of this aquatic perennial may remain viable for many years, with the oldest recorded lotus germination being from seeds 1,300 years old recovered from a dry lakebed in northeastern China.[3] Therefore, the Chinese regard the plant as a symbol of longevity.

It has a very wide native distribution, ranging from central and northern India (at altitudes up to 1,400 m or 4,600 ft in the southern Himalayas[4]), through northern Indochina and East Asia (north to the Amur region; the Russian populations have sometimes been referred to as "Nelumbo komarovii"), with isolated locations at the Caspian Sea.[5] Today, the species also occurs in southern India, Sri Lanka, virtually all of Southeast Asia, New Guinea, and northern and eastern Australia, but this is probably the result of human translocations.[5] It has a very long history (c. 3,000 years) of being cultivated for its edible seeds[5] and is commonly cultivated in water gardens.[4] It is the national flower of India and Vietnam.

Names

Nelumbo nucifera is also known as Egyptian bean.[6][7]

Classification

The lotus is often confused with the true water lilies of the genus Nymphaea, in particular N. caerulea, the "blue lotus." In fact, several older systems, such as the Bentham & Hooker system (which is widely used in the Indian subcontinent), refer to the lotus by its old synonym, Nymphaea nelumbo.

While all modern plant taxonomy systems agree that this species belongs in the genus Nelumbo, the systems disagree as to which family Nelumbo should be placed in or whether the genus should belong in its own unique family and order. According to the APG IV system, N. nucifera, N. lutea, and their extinct relatives belong in Proteales with the protea flowers[8] due to genetic comparisons. Older systems, such as the Cronquist system, place N. nucifera and its relatives in the order Nymphaeles based on anatomical similarities.[9] According to the APG IV classification, the closest relatives of Nelumbo include the sycamores (Platanaceae).

Botany

Lotus plant

The lotus roots are planted in pond or river bottom soil, while the leaves float on the water's surface or are held well above it. The leaf stalks (petioles) can be up to 200 cm (6 ft 7 in) long, allowing the plant to grow in water to that depth,[10] The peltate leaf blade or lamina can have a horizontal spread of 1 m (3 ft 3 in).[11][12] The leaves may be as large as 80 cm (31 in) in diameter.[13]

Flower

The flowers are usually found on thick stems rising several centimeters above the leaves. They are showy and grow up to 30 cm (12 in) in diameter,[13] but fourteen inches (35 centimeters) has been frequently reported.[14][15][16]

Some cultivated varieties have extraordinary numbers of petals. For example, the Chinese variety qian ban lian ("thousand petals lotus") can have between 3000 and 4000 petals in a single blossom [17] and the Japanese variety ohmi myoren ("strange lotus") can have between 2000 and 5000 petals,[18] the greatest number recorded for any species of plant.

Researchers report that the lotus has the remarkable ability to regulate the temperature of its flowers within a narrow range, just as humans and other warm-blooded animals do.[19] Roger S. Seymour and Paul Schultze-Motel, physiologists at the University of Adelaide in Australia, found that lotus flowers blooming in the Adelaide Botanic Gardens maintained a temperature of 30–35 °C (86–95 °F), even when the air temperature dropped to 10 °C (50 °F). They suspect the flowers may be doing this to attract cold-blooded insect pollinators. Studies published in the journals Nature and Philosophical Transactions: Biological Sciences in 1996 and 1998 were important contributions in the field of thermoregulation in plants. Two other species known to be able to regulate their temperature include Symplocarpus foetidus[20] and Philodendron selloum.

Seed

A fertilized lotus flower bears fruit that contains a cluster of 10 to 30 seeds. Each seed is ovoid 1–2.5 cm wide by 1–1.5 cm long with a brownish coat.[21]:132 Lotus seeds can remain viable after long periods of dormancy. In 1994, a seed from a sacred lotus, dated at roughly 1,300 years old ± 270 years, was successfully germinated.[22][23]

The traditional sacred lotus is only distantly related to Nymphaea caerulea, but possesses similar chemistry. Both Nymphaea caerulea and Nelumbo nucifera contain the alkaloids nuciferine and aporphine.

The genome of the sacred lotus was sequenced in May 2013.[24][25][26]

Cultivation

The sacred lotus grows in water up to 2.5 m (8 ft) deep. The minimum water depth is about 30 cm (12 in). In colder climates, having a deeper water level protects the tubers more effectively, and overall is helpful for better growth and flowering. The sacred lotus germinates at temperatures above 13 °C (55 °F).[27] Most varieties are not naturally cold-hardy, but may readily adapt to living outdoors year-round in USDA hardiness zones 6 through 11 (with some growers having success in zones as low as 4 or 5); the higher the zone's number, the greater the adaptability of the plants.[28] In the growing season, from April to September (in the northern hemisphere), the average daytime temperature needed is 23 to 27 °C (73 to 81 °F).[29] In regions with low light levels in winter, the sacred lotus has a period of dormancy. The tubers are not cold-resistant, if removed from water, and exposed to the air; when kept underwater in soil, the energy-rich tubers can overwinter temperatures below 0 °C (32 °F).[30] If the plants are taken out of the water for wintertime storage (mostly in exceptionally cold climates), the tubers and roots must be stored in a stable, frost-free location, such as a garage, preferably in a cardboard box or container filled completely with vermiculite or perlite. Care must be taken to fully insulate the tubers.[31][32]

Planting

The sacred lotus requires a nutrient-rich and loamy soil.[28] In the beginning of the summer period (from March until May in the northern hemisphere),[33] a small part of rhizome with at least one eye is either planted in ponds[34] or directly into a flooded field.[35][36] There are several other propagation ways via seeds or buds.[30] Furthermore, tissue culture is a promising propagation method for the future to produce high volumes of uniform, true-to-type, disease-free materials.[37]

The first step of the cultivation is to plough the dry field. One round of manure is applied after ten days, before flooding the field. To support a quick initial growth, the water level is relatively low[36] and increases when plants grow. Then a maximum of approximately 4,000 per hectare (1,600/acre) with grid spacing of 1.2 by 2 metres (3 ft 11 in × 6 ft 7 in)[37] are used to plant directly into the mud 10–15 cm (3+785+78 in) below the soil surface.[38]

Harvest

Lotus bud
Lotus bud in advanced stage of bloom

The stolon is ready to harvest two to three months after planting. It must be harvested before flowering. Harvesting the stolon is done by manual labor. For this step, the field is not drained. The stolon is pulled out of the water by pulling and shaking the young leaves in the shallow water.[36]

The first leaves and flowers can be harvested three months after planting. Flowers can be picked every two days during summer and every three days during the colder season. Four months after planting, the production of flowers has its climax. The harvest of flowers is usually done by hand for three to four months.[36]

Seeds and seed pods can be harvested when they turn black four to eight months after planting. After sun drying for two to three days, they are processed by mechanical tools to separate seed coats and embryos.[36][30]

The rhizomes mature to a suitable stage for eating in approximately six to nine months.[38] Early varieties are harvested in July until September and late varieties from October until March, after the ponds or fields are drained.[30][31][36][38][39] The large, starch-rich rhizomes are easy to dig out of the drained soil.[36] In small-scale production, they are harvested by hand using fork-like tools.[30] In Japan and on bigger farms, manual labour harvesting is fully replaced by machines.[27]

Varieties and cultivars

Lotus varieties have been classified according to their use into three types: rhizome lotus, seed lotus, and flower lotus. Varieties that show more than one of these characteristics are classified by the strongest feature.[37] Regarding production area in China, rhizome lotus has the largest area with 200,000 ha (490,000 acres), followed by seed lotus with 20,000 ha (49,000 acres).[40]

Rhizome lotus

Rhizome lotus cultivars produce a higher yield and higher quality rhizomes than seed or flower lotus cultivars. Furthermore, this group grows tall and produces few to no flowers.[40][37]

Cultivars can be classified by harvest time or by the depth of rhizomes into these types:

  • Pre-mature (early) cultivars are harvested before the end of July, serotinous (late) cultivars from September on, and mid-serotinous or mid-matutinal cultivars are in between these harvest times. Using pre-mature cultivars, rhizomes can be harvested earlier and sold for a higher price.[40]
  • Adlittoral, deep, and intermediate cultivars are distinguished according to the depth in which the rhizomes grow underground. Adlittoral cultivars range from 10 to 20 cm (3.9 to 7.9 in) depth and are often premature. They develop faster due to higher temperatures in surface soil layers. When harvested in July, adlittorals have higher yields than deeper-growing cultivars, but not necessarily when harvested in September. Rhizomes of adlittoral cultivars are crisp and good for frying purposes. Deep cultivars grow more than 40 cm (16 in) deep. They are often serotinous and can harvest high yields. Their rhizomes are starch-rich.[40]

The main popular Nelumbo nucifera cultivars in China are Elian 1, Elian 4, Elian 5, 9217, Xin 1, and 00–01. The average yield of these cultivars is 7.5–15 t/ha (3.3-6.7 tons/acre) of harvest in July and 30–45 t/ha (13-20 tons/acre) of harvest in September.[40] In Australia, the cultivar grown for the fresh rhizome market in Guangdong and Japan, the common rhizome cultivars are Tenno and Bitchu.[37]

Seed lotus

Nelumbo nucifera seed head

The characteristics of seed lotus cultivars are a large number of carpels and seed sets as well as large seeds with better nutritional properties. Roots of these varieties are thin, fibrous, and do not form good rhizomes.[37] The main popular cultivars for seed production in China are Cunsanlian, Xianglian 1, Zilian 2, Jianlian, Ganlian 62, and Taikong 36. The average yield of these cultivars in China is 1.05–1.9 t/ha (0.5–0.8 tons/acre) of dry seeds and weight of thousand seeds between 1,020 and 1,800 g (36 and 63 oz).[40] Green Jade and Vietnam-Red are recommended cultivars for seed production in Australia.[37]

Flower lotus

Flower lotus cultivars are used exclusively for ornamental purpose, producing many flowers and the lowest plant height.[40]

The seed production of flower lotus is typically poor regarding yield and quality. Flower types differ in the number of petals (single petals, double petals, or multi-petals) and their colours range from single colour in white, yellow, pink, and red to bi-colour, most often of white petals with pink tips or highlights.[37]

The flowers are capable of producing ink used by artists such as Morrison Polkinghorne to produce abstract images of the landscapes of southern Asia.[41]

One example of a flower lotus is Wanlian. Also known as bowl lotus, wanlians are any miniature cultivars of N. nucifera sized between 5 and 8 centimetres (2.0 and 3.1 in). Bowl lotuses come in various colours and numbers of petals, and they bloom longer than other species of lotus. But together with the rhizome, their seeds are often too small or too hard to be eatable.[42]

The sacred lotus may be crossed with the yellow lotus to produce interspecific hybrids. A few varieties have been produced with differing appearances.[43]

Farming

About 70% of lotus for human consumption is produced in China. In 2005, the cultivation area in China was estimated at 300,000 hectares (740,000 acres).[30] A majority of lotus production takes place in managed farming systems in ponds or flooded fields like rice.[40]

The most widely used system is crop rotation with rice and vegetables. This system is applicable if the propagule (small piece of rhizome) can be planted early in the year. The rhizomes are harvested in July, after which rice can be planted in the same field. Rice is then harvested in October. From November until March, the field stays either free or terricolous vegetables, such as cabbage or spinach, are planted. Alternatively, the vegetable can also be planted after the harvest of the lotus.[40]

Another alternative way is not to harvest the lotus rhizome, although it is ripe. A terricolous vegetable is planted between the rhizomes into the drained field. The rhizomes are then harvested next March.[40]

A third way is to plant lotus in ponds or fields and raise aquatic animals such as fish, shrimp, or crab in the same field.[40] A more efficient use of the water for both, the aquatic animal and the lotus production has been identified with this planting pattern.[44]

Use

Lotus effect on nelumbo nucifera hybrid

Culinary

Rhizomes

Lotus rhizomes
Boiled, sliced lotus roots used in various Asian cuisines

The rhizomes of lotus (Chinese: 蓮藕; pinyin: lián-ǒu, Japanese: 蓮根, romanized: renkon, Hindi: कमल ककड़ी, romanized: kamal kakdi) are consumed as a vegetable in Asian countries, extensively in China, Japan, and India, sold whole or in cut pieces, fresh, frozen, or canned. They are fried or cooked mostly in soups, soaked in syrup or pickled in vinegar (with sugar, chili and garlic).[45][46] Lotus rhizomes have a crunchy texture and are a classic dish at many banquets, where they are deep-fried, stir-fried, or stuffed with meats or preserved fruits.[45] Salads with prawns, sesame oil or coriander leaves are also popular. Fresh lotus root slices are limited by a fast browning rate.[47][48] Lotus root tea is consumed in Korea.

Lotus root is a popular vegetable in Sri Lanka, where it is often cooked in coconut milk gravy. In India, lotus root (also known as kamal kakdi) is cooked as a dry curry or sabzi.[49]

Japan is one of the primary users of the rhizomes, representing about 1% of all vegetables consumed. Japan grows its own lotus but still must import 18,000 tons of lotus rhizome each year, of which China provides 15,000 tons yearly.[50]

Rhizomes contain high amounts of starch (31.2%) without characteristic taste or odor. The texture is comparable to a raw potato.[51] The binding and disintegration properties of isolated Nelumbo starch have been compared with maize and potato starch; Nelumbo starch is shown to be superior as an adjuvant in the preparation of tablets.[52] When dried, N. nucifera is also made into flour, another popular use of this vegetable.[45][46]

Pips

Lotus pip tea is consumed in Korea.

Seeds

Fresh lotus seeds ready to eat

Fresh lotus seeds (simplified Chinese: 莲子; traditional Chinese: 蓮子; pinyin: liánzǐ; Cantonese Yale: lìhnjí) are nutritious but also vulnerable to microbial contamination, especially fungal infections. Therefore, mostly dry lotus seed-based products are found on the market. Traditional sun baking combined with charcoal processing dries the seeds but results in a loss of nutrients. Freeze-dried lotus seeds have a longer shelf life and maintain original nutrients, while no differences in flavour are found after rehydration compared to fresh lotus seeds.[53][54]

Dry stored lotus seeds are sensitive to moisture and mold infestation; researchers continue to explore new ways to preserve fresh lotus seeds, such as radiation processing.[55]

Lotus seeds can be processed into moon cake, lotus seed noodles and food in the forms of paste, fermented milk, rice wine, ice cream, popcorn (phool makhana), and others, with lotus seeds as the main raw material. Traditional Eastern medicine claims that fresh lotus seed wine has thirst-quenching, spleen-healing, and anti-diarrheal advantages after drinking, attributed to unspecified bioactive compounds.[56][57] Lotus seed tea is consumed in Korea, and lotus embryo tea is consumed in China and Vietnam.[57]

Stems

Young lotus stems are used as a salad ingredient in Vietnamese cuisine and as a vegetable ingredient for some soup and curry in Thailand, such as keang som sai bua (Thai: แกงส้มสายบัว, lotus stem sour soup) and keang kati sai bua (แกงกะทิสายบัว, lotus stem in coconut milk curry)

In northern and eastern regions of India, the stalk of the flower is used to prepare a soup, kamal gatte ki sabji (Hindi: कमल गट्टे की सब्जी) and an appetizet, kamal kakdi pakode (Hindi: कमल ककडी पकौडे). In South Indian states, the lotus stem is sliced, marinated with salt to dry, and the dried slices are fried and used as a side dish. In Kerala (Malayalam: "താമര") and Tamil Nadu, this end product is called thamara vathal.

Leaves

Vietnamese-style green young rice (cốm) wrapped in lotus leaves, traditionally consumed with ripe bananas and tea during autumn at the beginning of the rice harvest

In China and Korea, lotus leaf tea (Korean: 연잎차, romanized: yeon'ip-cha) is made from the leaves of the lotus. It is also used as a wrap for steaming rice and sticky rice and other steamed dishes in Southeast Asian cuisine, such as lo mai gai in Chinese cuisine or kao hor bai bua (Thai: ข้าวห่อใบบัว), fried rice wrapped in lotus leaf in Thai cuisine.

Vietnamese also use lotus leaves to wrap green young rice, cốm, which is eaten in autumn. The leaves impart a unique scent to the soft, moist rice.

Flowers

In Korea, lotus flower tea (연꽃차 yeon'kkot-cha) is made from the dried petals of the white lotus.

The stamens can be dried and made into a fragrant herbal tea (Chinese: 蓮花 ; pinyin: liánhuā cha; Cantonese Yale: lìhnfāa chah), or used to impart a scent to tea leaves (particularly in Vietnam). This Vietnamese lotus tea is called trà sen, chè sen, or chè ướp sen.

Risks

The petals, leaves, and rhizome can also all be eaten raw, but there is a risk of parasite transmission (e.g., Fasciolopsis buski): it is therefore recommended that they be cooked before eating.

Use in water treatment

Nelumbo nucifera shows high potential for usage in wastewater treatment removing polluting compounds[58] and heavy metals.[59][60][61] It is able to grow in variable water conditions[62] and in low light intensity.[58] Various studies show the successful use of N. nucifera to counteract water eutrophication.[58][63] The leaves of the floating lotus reduce sunlight reaching the lower part of the water. This suppresses algae growth in N. nucifera aquatic systems and thus, the oxygen content is up to 20% higher than in other aquatic plant systems.[58] Due to intense agricultural practices, nitrogen and phosphorus pollution are major problems in aquatic systems. N. nucifera is able to assimilate a higher content of phosphorus than aquatic plants currently used for water remediation (such as water hyacinth). It also assimilates nitrogen ("denitrification") and creates a habitat for bacterial growth in the water body.[58] Through rhizofiltration, heavy metals – including arsenic, copper, and cadmium – can be removed efficiently from the water.[59][60] The results observed are impressive showing 96% of copper and 85% cadmium metals removed after a seven-day incubation period.[60] The accumulation of heavy metals doesn't show morphological symptoms of metal toxicity;[61] however, the rhizome quality for human consumption needs further study.

Storage and commercialization

Currently, most rhizomes are consumed fresh, and it is not common to store them due to their poor shelf life performance.[64] This limits export possibilities for low-income production countries in Asia. Rhizomes quickly lose water, oxidation occurs and nutrient composition changes within a short time after harvest. Optimal storage temperatures range between 5 and 8 °C (41 and 46 °F).[64] There are three different approaches to storing rhizomes. By stacking the rhizomes, they are storable and remain fresh for about three weeks. Special stacking with silver sand and soil results in five to six layers that prevent water loss, thus, the rhizome stays fresh for up to two months.[64] However, the method is not suitable for commercialization but rather for home use. Hydrogen sulfide fumigation reduces enzymatic browning and therefore ensures rhizome quality.[60] Dipping the rhizomes in a salt solution prevents oxidation and bacterial reproduction, which allows storage for up to five months and greater export ability. This treatment is related to the high cost and inefficient cleaning process before eating the rhizomes.[64]

Use in bioengineering

Nelumbo nucifera contains some thermal-stable proteins that might be useful in protein bioengineering processes. The proteins are characterized by seed longevity used for cell protection and repair under stress.[65] There are also several indications that compounds of N. nucifera are used in drug fabrication in human health research for multiple purposes.[66]

Other uses

Lotus thread is used to weave a special robe for the Buddha at Inle Lake, Myanmar.

The distinctive dried seed heads, which resemble the spouts of watering cans, are widely sold throughout the world for decorative purposes and for dried flower arranging.

In Asia, the petals are sometimes used for garnish, while the large leaves are used as a wrap for food, not frequently eaten (for example, as a wrapper for zongzi).

A unique fabric called lotus silk, from the lotus plant fibers, is produced only at Inle Lake, Myanmar, and in Siem Reap, Cambodia. This thread is used for weaving special robes for Buddha images called kya thingan (lotus robe).

Chemical composition

The flavonol miquelianin, as well as the alkaloids (+)-(1R)-coclaurine and (−)-(1S)-norcoclaurine, can be found in the leaves of N. nucifera.[67] The plant also contains nuciferine, neferine, and many other benzylisoquinoline alkaloids with medicinal properties.[68][69]

Traditional medicine

Lotus root, cooked, no salt
Nutritional value per 100 g (3.5 oz)
Energy278 kJ (66 kcal)
16.02 g
Sugars0.50 g
Dietary fiber3.1 g
0.07 g
1.58 g
VitaminsQuantity
%DV
Thiamine (B1)
11%
0.127 mg
Riboflavin (B2)
1%
0.01 mg
Niacin (B3)
2%
0.3 mg
Pantothenic acid (B5)
6%
0.302 mg
Vitamin B6
17%
0.218 mg
Folate (B9)
2%
8 μg
Choline
5%
25.4 mg
Vitamin C
33%
27.4 mg
MineralsQuantity
%DV
Calcium
3%
26 mg
Iron
7%
0.9 mg
Magnesium
6%
22 mg
Manganese
10%
0.22 mg
Phosphorus
11%
78 mg
Potassium
8%
363 mg
Sodium
3%
45 mg
Zinc
3%
0.33 mg
Other constituentsQuantity
Water81.42 g

Percentages are roughly approximated using US recommendations for adults.
Source: USDA FoodData Central

All parts of Nelumbo nucifera are edible, with the rhizome and seeds being the main consumption parts. Traditionally rhizomes, leaves, and seeds have been used as folk medicines, Ayurveda, Chinese traditional medicine, and oriental medicine.[70][71] While leaves are used for hematemesis, epistaxis, and hematuria, the flowers are used for lowering blood sugar levels,[72] diarrhea, cholera, fever, and hyperdipsia.[70][71] Rhizomes have purported diuretic, antidiabetic, and anti-inflammatory properties.[70][71][73][74] In Chinese medicine, seeds are still used as Lian Zi Xin (蓮子心).[75]

Lotus rhizomes and seeds and their processing by-products are widely consumed in Asia, the Americas, and Oceania for high content of physiologically active substances.[74] Especially in China, lotus seeds are popular with a cultural history going back about 3000 years. As early as the Han Dynasty, lotus seeds were already recorded as sweet, astringent, nourishing the heart and kidney in "Shen Nong's Herbal Classic".[76] Nowadays there are 22 varieties for the four known Chinese lines, which are found particularly in Jianning (still called "the town of Jianlian lotus seeds in China") and Guangchang ("the town of white lotus seeds in China").[77]

These days the perennial aquatic herb is gaining popularity because of its nutraceutical and historical importance[74][57] It will be of economic value if the different parts of lotus can be developed as functional food.[71][57] Because of its special role in human health and richness in nutrients and bioactive substances, the Chinese Ministry of Health approved the use of N. nucifera as both "food and medicine."[78]

Rhizomes

The rhizomes are 60–14 cm (23.6–5.5 in) long, 0.5–2.5 cm (0.20–0.98 in) in diameter, yellowish white to yellowish brown, smooth, and with nodes and internodes.[79]

Lotus root is a moderate-calorie root vegetable (100 g of root stem provides about 74 calories) and is composed of several vitamins, minerals, and nutrients: 83.80% water, 0.11% fat, 1.56% reducing sugar, 0.41% sucrose, 2.70% crude protein, 9.25% starch, 0.80% fiber, 0.10% ash and 0.06% calcium.[80] 100 g of root provides 44 mg of vitamin C or 73% of daily recommended values (RDA).

Lotus rhizome and its extracts have shown diuretic, psychopharmacological, anti-diabetic, anti-obesity, hypoglycemic, antipyretic and antioxidant activities.[81][82][83][84][85]

Seeds

Lotus seeds are mostly oval or spherical, with sizes varying according to varieties. They are generally 1.2–1.8 cm long, with diameters ranging from 0.8 to 1.4 cm and a weight of 1.1–1.4 g. After lotus seeds have been decorticated and peeled, they are edible and rich in nutrients and can be dried for storage. Their nutritional values can differ due to culture environments and varieties.[86]

Not only do these seeds contain proteins of high quality and are rich in a variety of essential amino acids including high contents of albumin (42%) and globulin (27%), they also contain unsaturated fatty acids, carbohydrates, vitamins, calcium, iron, zinc, phosphorus and other trace elements.[87][88] They also provide water-soluble polysaccharides, alkaloids, flavonoids, superoxide dismutase, and other bioactive components.[89]

Lotus seeds also contain particularly large amounts of vitamins, including VB1, VB2, VB6 and Vitamin E.[90][91]

The functional components (polyphenols, protein, polysaccharides) in N. nucifera seeds can help combat high blood pressure, diabetes, and gallstones.[56]

After lotus seed germination, crude protein and fat levels in the endosperm significantly increase. It is therefore an important method to enhance its nutritional quality.[92][57]

Cultural and religious significance

An Indian lotus motif on a Hindu temple. Nelumbo nucifera is also the national flower of India.
Lotus symbol in Derafsh Kaviani, flag of the Sasanian Empire

Nelumbo nucifera is a lotus species with historical cultural and spiritual significance. It is a sacred flower in both Hinduism and Buddhism,[93] representing the path to spiritual awakening and enlightenment. In Christianity, the lotus flower is often associated with the apostle Thomas and his coming to India.[94] The lotus flower is also mentioned in the bible.[95]

In Asian art, a lotus throne is a stylized lotus flower used as the seat or base for a figure. It is the normal pedestal for divine figures in Buddhist art and Hindu art and is often seen in Jain art. Originating in Indian art, it followed Indian religions to East Asia in particular. Lotus flowers are also often held by figures.[96][97][98][99][100]

The Nelumbo nucifera, which is also called (Nilufar Abi in Persian), can be seen in many reliefs of the Achaemenid period (552 BC) such as the statue of Anahita in the Persepolis. The lotus flower was included in Kaveh the blacksmith's Derafsh and later as the flag of the Sasanian Empire Derafsh Kaviani. Today, it is the symbol of Iranians Solar Hijri calendar.

The lotus flower also holds cultural and religious significance in Ismaili Muslim and related South Asian traditions. For example, in South Asian Ismaili literature, the lotus is compared to the pure soul. A poem describes the lotus' beauty, describing how its delicate white petals remain pure and beautiful, despite its murky environment. Similarly, a pure soul is part of this world, yet is not of this world, much like the circumstances of the lotus. The poem further emphasizes the importance of true knowledge or gnosis, which is likened to the pure rainwater that allows the lotus to flourish. Ismaili belief holds that the true guide provides this true knowledge, without which the pure soul cannot survive. Just as the lotus flower would rather die than drink from a reeking swamp, the pure soul also seeks nourishment solely through true knowledge.[101]

See also

References

  1. "Sacred Lotus". Encyclopædia Britannica. 4 May 2023.
  2. Janice Glimn-Lacy, Peter B. Kaufman, Botany Illustrated: Introduction to Plants, Major Groups, Flowering Plant Families, p. 79, 2006, Springer, google books
  3. Shen-Miller, J.; Schopf, J. W.; Harbottle, G.; Cao, R.-j.; Ouyang, S.; Zhou, K.-s.; Southon, J. R.; Liu, G.-h. (2002). "Long-living lotus: Germination and soil -irradiation of centuries-old fruits, and cultivation, growth, and phenotypic abnormalities of offspring". American Journal of Botany. 89 (2): 236–47. doi:10.3732/ajb.89.2.236. PMID 21669732.
  4. Pulok K. Mukherjee; Debajyoti Mukherjee; Amal K. Maji; S. Rai; Michael Heinrich (2010). "The sacred lotus (Nelumbo nucifera)– phytochemical and therapeutic profile". Journal of Pharmacy and Pharmacology. 61 (4): 407–422. doi:10.1211/jpp.61.04.0001. PMID 19298686. S2CID 85342386.
  5. Yi Zhang; Xu Lu; Shaoxiao Zeng; Xuhui Huang; Zebin Guo; Yafeng Zheng; Yuting Tian; Baodong Zheng (2015). "Nutritional composition, physiological functions and processing of lotus (Nelumbo nucifera Gaertn.) seeds: a review". Phytochem Rev. 14 (3): 321–334. Bibcode:2015PChRv..14..321Z. doi:10.1007/s11101-015-9401-9. S2CID 16527010.
  6. Hémardinquer, Jean-Jacques (August 1974). "Hakon Hjelmqvist, « A find of Nelumbo nucifera from old Cyprus with some notes on the history of the species », reprint from Botaniska Notiser, Lund, vol. 125, 1972, pp. 383–388". Annales. Histoire, Sciences Sociales. 29 (4): 968. doi:10.1017/S0395264900165321. ISSN 0395-2649. S2CID 165461309.
  7. Coneè., Kiple, Kenneth F., 1939-2016. Ornelas, Kriemhild (2000). The Cambridge world history of food. Cambridge University Press. p. 277. ISBN 0-511-46868-7. OCLC 852391634.{{cite book}}: CS1 maint: multiple names: authors list (link)
  8. Angiosperm Phylogeny Group (2016). "An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants: APG IV". Botanical Journal of the Linnean Society. 181 (1): 1–20. doi:10.1111/boj.12385. ISSN 0024-4074.
  9. Texas A and M University Bioinformatics Working Group : Cronquist System
  10. "Nelumbo nucifera". Royal Botanic Gardens, Kew. Retrieved 11 June 2019.
  11. "Nelumbo nucifera - Gaertn". Plants for a Future. Retrieved 11 June 2019.
  12. Cook, Water Plants of the World (see below) loc. cit.
  13. "Nelumbo nucifera | sacred lotus". Royal Horticultural Society. 1999. Retrieved 11 June 2019.
  14. <not recorded> (January 13, 1934). "<not recorded>". Gardener's Chronicle. 95 (third series) (<not recorded>): 28–29.
  15. Cook, Christopher D. K. (1974). Water Plants of the World. The Hague, Netherlands: W. Junk Publisher. p. 332.
  16. Hurley, Captain Frank (1924). Pearls and Savages. New York: G.P. Putnam's Sons. p. 385 plus photo and caption p. 368.
  17. Nitasaka, Eiji (n.d.). "Thousand Petals". Retrieved September 1, 2021.
  18. <not stated> (July 25, 2007). "Ohmi-Myoren/ Rare Lotus- Flicker". Retrieved September 1, 2021.
  19. Yoon, Carol Kaesuk (1996-10-01). "Heat of Lotus Attracts Insects And Scientists". The New York Times. Retrieved 2012-11-14.
  20. Thorington, Katherine K. (April 1999). "Pollination and Fruiting Success in the Eastern Skunk Cabbage". The Journal of Biospheric Science. 1 (1).
  21. Ong, H.C. (1996). "Nelumbo nucifera Gaertner". In Flach, M.; Rumawas, F. (eds.). Plant Resources of South-East Asia. Leiden, Netherlands: Backhuys Publishers. pp. 131–133. ISBN 90-73348-51-X.
  22. Shen-Miller; Mudgett, M. B.; William Schopf, J.; Clarke, S.; Berger, R.; et al. (1995). "Exceptional seed longevity and robust growth: Ancient sacred lotus from China". American Journal of Botany. 82 (11): 1367–1380. doi:10.2307/2445863. JSTOR 2445863.
  23. Shen-Miller, J. (2002). "Long-living lotus: germination and soil gamma-irradiation of centuries-old fruits, and cultivation, growth, and phenotypic abnormalities of offspring". American Journal of Botany. 89 (2): 236–247. doi:10.3732/ajb.89.2.236. PMID 21669732. Sacred lotus (Nelumbo nucifera) has been cultivated as a crop in Asia for thousands of years. A ≈1300-year-old lotus fruit, recovered from an originally cultivated but now dry lakebed in northeastern China, is the oldest germinated and directly 14C-dated fruit known. In 1996, we traveled to the dry lake at Xipaozi Village, China, the source of the old viable fruits.
  24. Ming, Ray; VanBuren, Robert; Liu, Yanling; Yang, Mei; Han, Yuepeng; et al. (2013). "Genome of the long-living sacred lotus (Nelumbo nucifera Gaertn.)". Genome Biology. 14 (5): R41. doi:10.1186/gb-2013-14-5-r41. PMC 4053705. PMID 23663246.
  25. "Sacred Lotus Genome Sequence Enlightens Scientists". Science Daily. 10 May 2013. Retrieved 13 May 2013.
  26. Wolpert, Stuart (10 May 2013). "Scientists sequence genome of 'sacred lotus,' which likely holds anti-aging secrets". UCLA Newsroom. Retrieved 13 May 2013.
  27. Sou, S. Y.; Fujishige, N. (1995). "Cultivation comparison of lotus (Nelumbo nucifera) between China and Japan". Journal of Zhejiang Agricultural Sciences. 4: 187–189.
  28. Dictionary of Gardening. Huxley, Anthony, 1920-1992., Griffiths, Mark, 1963-, Royal Horticultural Society. London: Macmillan Press. 1992. ISBN 978-0-333-47494-5. OCLC 25202760.{{cite book}}: CS1 maint: others (link)
  29. Phillips, Roger (1995). Vegetables. Rix, Martyn. London: Macmillan. ISBN 978-0-333-62640-5. OCLC 32465255.
  30. Tian, Daike (2008). Container production and post-harvest handling of Lotus (Nelumbo) and Micropropagation of herbaceous Peony (Paeonia). Auburn: Auburn University.
  31. Masuda, Junichiro; Urakawa, Toshihiro; Ozaki, Yukio; Okubo, Hiroshi (2006-01-01). "Short Photoperiod Induces Dormancy in Lotus (Nelumbo nucifera)". Annals of Botany. 97 (1): 39–45. doi:10.1093/aob/mcj008. PMC 2000761. PMID 16287906.
  32. "Nelumbo nucifera Gaertn. | Plants of the World Online". Kew Science. Retrieved 2017-11-19.
  33. Tian, Daike; Tilt, Ken M.; Sibley, Jeff L.; Woods, Floyd M.; Dane, Fenny (2009-06-01). "Response of Lotus (Nelumbo nucifera Gaertn.) to Planting Time and Disbudding". HortScience. 44 (3): 656–659. doi:10.21273/HORTSCI.44.3.656.
  34. Kubitzki, Klaus; Rohwer, Jens G.; Bittrich, Volker (2011-01-28). Flowering plants, dicotyledons: magnoliid, hamamelid, and caryophyllid families. Kubitzki, Klaus, 1933-, Rohwer, J. G. (Jens G.), 1958-, Bittrich, V. (Volker), 1954-. Berlin. ISBN 978-3-642-08141-5. OCLC 861705944.{{cite book}}: CS1 maint: location missing publisher (link)
  35. Lim, T. K. (2016). "Nelumbo nucifera". Edible Medicinal and Non-Medicinal Plants. Springer, Cham. pp. 55–109. doi:10.1007/978-3-319-26062-4_5. ISBN 978-3-319-26061-7.
  36. La-ongsri, Woranuch; Trisonthi, Chusie; Balslev, Henrik (2009-08-01). "Management and use of Nelumbo nucifera Gaertn. in Thai wetlands". Wetlands Ecology and Management. 17 (4): 279–289. doi:10.1007/s11273-008-9106-6. ISSN 0923-4861. S2CID 25530088.
  37. Nguyen, Q.V.; Hicks, D.; Rural Industries Research and Development Corporation (Australia); Asian Foods Research and Development (2001). Exporting lotus to Asia : An agronomic and physiological study: a report for the Rural Industries Research and Development Corporation. Barton, A.C.T.: RIRDC. ISBN 978-0-642-58254-6. OCLC 52647644.
  38. Kay, Daisy E. (1987). Root crops (2nd ed.). London: Tropical Development and Research Institute. ISBN 978-0-85954-200-5. OCLC 19298279.
  39. Deni., Bown (1995). Encyclopedia of herbs & their uses. Herb Society of America. (1st American ed.). London: Dorling Kindersley. ISBN 978-0-7894-0184-7. OCLC 32166152.
  40. Guo, H. B. (2009-05-01). "Cultivation of lotus (Nelumbo nucifera Gaertn. ssp. nucifera) and its utilization in China". Genetic Resources and Crop Evolution. 56 (3): 323–330. doi:10.1007/s10722-008-9366-2. ISSN 0925-9864. S2CID 19718393.
  41. Pann Rethea (22 March 2020). "Aussie artist turning pagoda flowers into art". Phenon Penh Post.
  42. "碗莲_碗莲的养殖方法" (in Chinese). Retrieved 2021-09-07.
  43. Du, Fengfeng; Liu, Xiaojing; Chang, Yajun; Li, Naiwei; Ding, Yuesheng; Yao, Dongrui (2021). "'Jiang Luopao': A Nelumbo Cultivar with Deep Purple-red and Bowl-shaped Flowers". HortScience. 56 (7): 847–848. doi:10.21273/HORTSCI15757-21. S2CID 236278282.
  44. Assessing lotus for wastewater bioremediation. Seymour, Evizel., Rural Industries Research and Development Corporation (Australia). Canberra: Rural Industries Research and Development Corp. 2009. ISBN 978-1-74151-888-7. OCLC 682913738.{{cite book}}: CS1 maint: others (link)
  45. YU, Xin; et al. (2002). "Progress in the Research on Post-harvest Physiology and Storage Techniques of Nelumbo nucifera gaertn [J]". Guangzhou Food Science and Technology. 3: 019.
  46. Tian, N., et al. "Isolation and preparation of flavonoids from the leaves of Nelumbo nucifera Gaertn by preparative reversed-phase high-performance liquid chromatography." Se pu= Chinese journal of chromatography 25.1 (2007): 88-92.
  47. Su, X.; Jiang, Y.; Li, Y.; Lin, W. (2003). "Effects of 4-hexylresorcinol (4-HR) on browning and quality of fresh-cut lotus". Food Science. 24: 142–145.
  48. M.A. Rojas-Graüa, M.S. Tapiab, O. Martín-Bellosoa. Using polysaccharide-based edible coatings to maintain the quality of fresh-cut Fuji apples. LWT Food Science and Technology, 41 (2008), pp. 139-147
  49. "9 Nutritious Lotus Root Recipes To Try". Honest Food Talks. 12 December 2020.
  50. Tsuchiya, T.; Nohara, S. (1989). "Growth and life span of the leaves of Nelumbo nucifera Gaertn. in lake Kasumigaura, Japan". Aquatic Botany. 36 (1): 87–95. doi:10.1016/0304-3770(89)90094-6.
  51. Mukherjee PK. et al. Isolation, estimation and characterization of starch from rhizomes of Nelumbo nuciferaGaertn (Fam. Nymphaeaceae). Ind Drugs 1995; 32: 392–397.
  52. Mukherjee PK. et al. Pharmaceutical application of starch isolated from Nelumbo nucifera Gaertn. (Fam. Nymphaeaceae). Ind J Pharm Sci 1996; 58: 59–66.
  53. He, J; Cheng, W; Chen, X; Wen, S; Zhang, G; Xiong, G; Ye, L; Chen, Y (2006). "Study on the vacuum sublimation freezing-drying of lotus seeds". Hubei Agric Sci. 45: 240–244.
  54. Tian, Y; Zhang, Y; Zeng, S; Zheng, Y; Chen, F; Guo, Z; Lin, Y; Zheng, B (2012b). "Optimization of microwave vacuum drying of lotus (Nelumbo nucifera Gaertn.) seeds by response surface methodology". Food Sci Technol Int. 18 (5): 477–488. doi:10.1177/1082013211433071. PMID 23144241. S2CID 42335541.
  55. Bhat, R; Sridhar, KR; Karim, AA; Young, CC; Arun, AB (2009). "Influence of c-radiation on the nutritional and functional qualities of lotus seed flour". J Agric Food Chem. 57 (20): 9524–9531. doi:10.1021/jf902287e. PMID 19778060.
  56. Wu C, Xia Y, Tang X (2013) Optimization of the fermentation process for lotus rice-wine production by response surface methodology. Mod Food Sci Technol 29:1675–1679
  57. Zhang, Yi; Lu, Xu; Zeng, Shaoxiao; Huang, Xuhui; Guo, Zebin; Zheng, Yafeng; Tian, Yuting; Zheng, Baodong (2015). "Nutritional composition, physiological functions and processing of lotus (Nelumbo nucifera Gaertn.) seeds: A review". Phytochemistry Reviews. 14 (3): 321. Bibcode:2015PChRv..14..321Z. doi:10.1007/s11101-015-9401-9. S2CID 16527010.
  58. Thongchai Kanabkaew; Udomphon Puetpaiboon (2004). "Aquatic plants for domestic wastewater Treatment: Lotus (Nelumbo nucifera) and Hydrilla (Hydrilla verticillata) systems" (PDF). Songklanakarin J. Sci. Technol. 26.
  59. H.M. Anawar; A. Garcia-Sanchez; M. Tari Kul Alam; M. Majibur Rahman (2008). "Phytofiltration of water polluted with arsenic and heavy metals". International Journal of Environment and Pollution. 33. doi:10.1504/IJEP.2008.0194 (inactive 1 August 2023).{{cite journal}}: CS1 maint: DOI inactive as of August 2023 (link)
  60. Virendra Mishra (2009). "Accumulation of Cadmium and Copper from Aqueous Solutions using Indian Lotus (Nelumbo nucifera)". Ambio: A Journal of the Human Environment. 38 (2): 110–112. doi:10.1579/0044-7447-38.2.110. PMID 19431942. S2CID 43473128.
  61. Gallego, S. M.; M. P. Benavides; M. L. Tomaro (1996). "Effect of heavy metal ion excess on sunflower leaves: evidence for involvement of oxidative stress". Plant Science. 121 (2): 151–159. doi:10.1016/s0168-9452(96)04528-1.
  62. "Lotus care sheet". 16 December 2011.
  63. Liu, C.-Q. (December 2013). "Ecological restoration using Trapa bispinosa and Nelumbo nucifera on eutrophic water body in Baizangdian Lake". Wetland Science. 11 (4): 510–514.
  64. Guo, H.B. (2009). "Cultivation of Lotus (Nelumbo nucifera Gaertn. spp. nucifera) and ist utilization in China". Genet Resour Crop Evol. 56 (3): 323–330. doi:10.1007/s10722-008-9366-2. S2CID 19718393.
  65. Shen-Miller, J.; Lindner, Petra; Xie, Yongming; Villa, Sarah; Wooding, Kerry; Clarke, Steven G.; Loo, Rachel R. O.; Loo, Joseph A. (2013-09-01). "Thermal-stable proteins of fruit of long-living Sacred Lotus Nelumbo nucifera Gaertn var. China Antique". Tropical Plant Biology. 6 (2–3): 69. doi:10.1007/s12042-013-9124-2. ISSN 1935-9756. PMC 3869599. PMID 24363819.
  66. Zi Xi, Lian (2011). "Neferine inhibits cultured hepatic stellate cell activation and facilitates apoptosis: a possible molecular mechanism". Eur. J. Pharmacol. 650 (1): 163–169. doi:10.1016/j.ejphar.2010.10.025. PMID 20969858.
  67. Kashiwada, Y.; Aoshima, A.; Ikeshiro, Y.; Chen, Y. P.; Furukawa, H.; Itoigawa, M.; Fujioka, T.; Mihashi, K.; Cosentino, L. M.; Morris-Natschke, S. L.; Lee, K. H. (2005). "Anti-HIV benzylisoquinoline alkaloids and flavonoids from the leaves of Nelumbo nucifera, and structure–activity correlations with related alkaloids". Bioorganic & Medicinal Chemistry. 13 (2): 443–448. doi:10.1016/j.bmc.2004.10.020. PMID 15598565.
  68. Menéndez-Perdomo, Ivette M; Facchini, Peter J (November 2018). "Benzylisoquinoline Alkaloids Biosynthesis in Sacred Lotus". Molecules (Basel, Switzerland). 23 (11): E2899. doi:10.3390/molecules23112899. ISSN 1420-3049. PMC 6278464. PMID 30404216.
  69. Menendez-Perdomo, I. M. and P. J. Facchini (2020). "Isolation and characterization of two O-methyltransferases involved in benzylisoquinoline alkaloid biosynthesis in sacred lotus (Nelumbo nucifera)." J Biol Chem 295(6): 1598-1612 doi:10.1074/jbc.RA119.011547 PMID 31914404
  70. Khare CP. Indian Herbal Remedies: Rational Western Therapy, Ayurvedic, and Other Traditional Usage, Botany, 1st edn. USA: Springer, 2004: 326–327.
  71. Sridhar KR, Bhat R. Lotus: a potential nutraceutical source. J Agri Technol 2007; 3: 143–155.
  72. "Lotus: Uses, Side Effects, Interactions, Dosage, and Warning". www.webmd.com. Retrieved 2020-02-18.
  73. Mukherjee, Pulok K; Pal, M; Saha, Kakali; Saha, B. P; Das, J (1996). "Diuretic Activity of Extract of the Rhizomes of Nelumbo nucifera Gaertn. (Fam. Nymphaeaceae)". Phytotherapy Research. 10 (5): 424. doi:10.1002/(SICI)1099-1573(199608)10:5<424::AID-PTR857>3.0.CO;2-3. S2CID 83863739.
  74. Mukherjee, Pulok K; Mukherjee, Debajyoti; Maji, Amal K; Rai, S; Heinrich, Michael (2009). "The sacred lotus(Nelumbo nucifera)- phytochemical and therapeutic profile". Journal of Pharmacy and Pharmacology. 61 (4): 407–22. doi:10.1211/jpp.61.04.0001. PMID 19298686. S2CID 85342386.
  75. Ding, Hui; Shi, Jinghong; Wang, Ying; Guo, Jia; Zhao, Juhui; Dong, Lei (2011). "Neferine inhibits cultured hepatic stellate cell activation and facilitates apoptosis: A possible molecular mechanism". European Journal of Pharmacology. 650 (1): 163–169. doi:10.1016/j.ejphar.2010.10.025. PMID 20969858.
  76. Li, Z (2008). "Nutrient value and processing of lotus seed". Acad Period Agric Prod Process. 2008: 42–43.
  77. Zheng, B; Zheng, J; Zeng, S (2003). "Analysis of the nutritional compositionin chinese main lotus seed varieties". Acta Nutr Sin. 25: 153–156.
  78. Wu, J.; Zheng, Y.; Chen, T.; Yi, J.; Qin, L.; Rahman, K.; Lin, W. (2007). "Evaluation of the quality of lotus seed of Nelumbo nucifera Gaertn from outer space mutation". Food Chemistry. 105 (2): 540–547. doi:10.1016/j.foodchem.2007.04.011.
  79. Mukherjee, PK.; et al. (1998). "Pharmacognostical profiles of rhizomes of Nelumbo nucifera Gaertn". Ancient Sci Life. 17: 273–279.
  80. Mukherjee, PK; et al. (1996). "Antipyretic activity of Nelumbo nucifera rhizome extract". Ind J Exp Biol. 34 (3): 275–276. PMID 8781041.
  81. Mukherjee, PK; Das, J; Saha, K; Pal, M; Saha, BP (1996). "Diuretic activity of the rhizomes of Nelumbo nucifera Gaertn (Fam. Nymphaeaceae)". Phytother Res. 10 (5): 424–425. doi:10.1002/(sici)1099-1573(199608)10:5<424::aid-ptr857>3.3.co;2-v.
  82. Mukherjee, PK; Saha, K; Balasubramanian, R; Pal, M; Saha, BP (1996). "Studies on psychopharmacological effects of Nelumbo nucifera Gaertn. Rhizome extract". J Ethnopharmacol. 54 (2): 63–67. doi:10.1016/s0378-8741(96)01455-9. PMID 8953419.
  83. Mukherjee, K; Saha, K; Pal, M; Saha, B (1997). "Effect of Nelumbo nucifera rhizome extract on blood sugar level in rats". Journal of Ethnopharmacology. 58 (207–213): 207–13. doi:10.1016/s0378-8741(97)00107-4. PMID 9421256.
  84. Huralikuppi, JC; Christopher, AB; Stephen, P (1991). "Antidiabetic effect of Nelumbo nucifera (Gaertn): Part I Preliminary studies in rabbits". Phytother Res. 5 (2): 54–58. doi:10.1002/ptr.2650050203. S2CID 57700188.
  85. Mukherjee, P. K.; Das, J.; Saha, K.; Giri, S. N.; Pal, M.; Saha, B. P. (1996). "Antipyretic activity of Nelumbo nucifera rhizome extract". Indian Journal of Experimental Biology. 34 (3): 275–6. PMID 8781041.
  86. Wang, J; Zhang, G (2010). "The yield and chemical composition of lotus seed on different culture conditions". Hubei J TCM. 32: 75–76.
  87. Shad, MA; Nawaz, H; Siddique, F; Zahra, J; Mushtaq, A (2013). "Nutritional and functional characterization of seed kernel of lotus (Nelumbo nucifera): application of response surface methodology". Food Sci Technol Res. 19 (2): 163–172. doi:10.3136/fstr.19.163.
  88. Tang, P; Jiang, Z; Mei, C; Jiang, H (1998). "The composition, solubility and quality of lotus seed". J Beijing Norm Univ (Nat Sci). 34: 532–537.
  89. Zheng, B; Zheng, J; Zeng, C (2004). "Study on three functional components of Chinese main lotus seed varieties". Acta Nutr Sin. 26: 158–160.
  90. Zheng B, Zheng J, Zeng S (2003) Analysis of the nutritional composition in Chinese main lotus seed varieties. Acta Nutr Sin 25:153–156
  91. Wu J, Zheng Y, Chen T, Yi J, Qin L, Rahman K, Lin W (2007) Evaluation of the quality of lotus seed of Nelumbo nucifera Gaertn. from outer space mutation. Food Chem 105:540–547
  92. Xia Y (2012) Effect of germination on chemical and functional properties of lotus seeds. Food Sci 33:91–98
  93. "Nelumbo nucifera (sacred lotus)". Kew. Archived from the original on 30 May 2014. Retrieved 26 July 2015.
  94. The Encyclopedia of Christianity, Volume 5 by Erwin Fahlbusch. Wm. B. Eerdmans Publishing - 2008. p. 285. ISBN 978-0-8028-2417-2.
  95. "Bible Gateway passage: Job 40:21-22 - New International Version". Bible Gateway. Retrieved 2023-09-06.
  96. Jansen, Eva Rudy, The Book of Hindu Imagery: The Gods and their Symbols, p. 18, 1993, Binkey Kok Publications, ISBN 9074597076, 9789074597074, google books
  97. Krishan, Yuvrajmm, Tadikonda, Kalpana K., The Buddha Image: Its Origin and Development, pp. 65, 78, 1996, Bharatiya Vidya Bhavan, ISBN 8121505658, 9788121505659, google books
  98. Moore, Albert C., Klein, Charlotte, Iconography of Religions: An Introduction, p. 148, 1977, Chris Robertson, ISBN 0800604881, 9780800604882, google books
  99. Rodrigues, H, "The Sacred Lotus Symbol", Mahavidya, 2016
  100. Shakti, M. Gupta (1971). Plant Myths and Traditions in India. Netherlands: Brill Publishers. pp. 65–67.
  101. Virani, Shafique (2005-01-01). "Symphony of Gnosis: A Self-Definition of the Ismaili Ginan Literature". Reason and Inspiration in Islam: Theology, Philosophy and Mysticism in Muslim Thought: 507.
  • Getty, Alice, The gods of northern Buddhism : their history, iconography and progressive evolution through the northern Buddhist countries, 1914, Oxford, fully online
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.