Biology:Lupinus mutabilis
Lupinus mutabilis | |
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Pisac, Peru | |
Scientific classification | |
Kingdom: | Plantae |
Clade: | Tracheophytes |
Clade: | Angiosperms |
Clade: | Eudicots |
Clade: | Rosids |
Order: | Fabales |
Family: | Fabaceae |
Subfamily: | Faboideae |
Genus: | Lupinus |
Subgenus: | Lupinus subg. Platycarpos |
Species: | L. mutabilis
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Binomial name | |
Lupinus mutabilis Sweet
| |
Synonyms | |
Lupinus cruckshankii Hook[1] |
Lupinus mutabilis is a species of lupin grown in the Andes, mainly for its edible bean. Vernacular names include tarwi (in Quechua II,[2] pronounced tarhui), chocho, altramuz, Andean lupin, South American lupin, Peruvian field lupin, and pearl lupin.[3] Its nutrient-rich seeds are high in protein, as well as a good source for cooking oil. However, their bitter taste has made L. mutabilis relatively unknown outside the Andes, though modern technology makes it easier to remove the bitter alkaloids.[3] Like other species of lupin beans, it is expanding in use as a plant-based protein source.[4]
Origin and Dissemination
The origin of L. mutabilis has been identified in the Andean region of Ecuador, Peru and Bolivia.[5] In this area, the greatest genetic variability in the world was found. The plant has been domesticated for more than 1500 years, mostly because of its high protein content.[3]
Biology
L. mutabilis is an annual plant. The stem is hollow and highly branched. Plant height reaches from 0.5 to 2.8 metres (1 ft 8 in to 9 ft 2 in), depending on the environmental conditions and the genomic properties. Due to the high vegetative growth, species from northern South America are taller than species from the southern Andean region.[6] The genome contains 2n = 48 chromosomes and there is a high genomic variation, which leads to big differences in morphology. Several architectural types of L. mutabilis exist. Most common is the branching in V-form, this type has the highest biomass production. The basal branching type has the positive feature that its infructescence is at the same level. This species is preferably promoted because of its early ripening, stability and the homogeny seed quality.[6]
Morphology
The fruit is a 5 to 12 cm (2–5 in) long pod, depending on the amount of seed. One pod contains on average 2–3 seeds, but can have up to 9 seeds per pod. The thousand-seed weight (TSW) is around 200 g. Leaves are palmate and have a typical appearance: one leaf is divided in five to twelve leaflets, which have an oval or lanceolate form. The form is typical for Faboideaes. The corolla reaches 1 to 2 cm (3⁄8–3⁄4 in) and contains five petals. Variation in coloration is high and reaches from white to purple. The white coloration is recessive to purple. L. mutabilis has a strong taproot reaching 3 metres (3 yd) length. Like all Leguminosae secondary roots build nodules containing bacteria for nitrogen fixation.[6]
Development
The growing cycle varies from 150 to 360 days, depending on the genotype, altitude and environmental conditions. Phenological phases are: emergence, first true leaf, formation of the raceme on the central stem, flowering, podding, pod ripening, and physiological maturity.[6]
Use
Human consumption
The bone-white seed contains more than 40% protein and 20% fat and has been used as a food by Andean people since ancient times, especially in soups, stews, salads and by itself mixed with boiled maize. Like other legumes, its protein is rich in the essential amino acid lysine. The distribution of essential fatty acids is about 28% linoleic acid (omega-6) and 2% linolenic acid (omega-3). It has a soft seed coat that makes for easy cooking. It may not have been more widely used because of its bitter taste, due to the alkaloid content. It contains unusually high amounts of sparteine, which make up nearly half of its alkaloid content. However, the alkaloids are water-soluble and can be removed by soaking the seeds for some days in water.[5] QAs are heat-stable toxins; cooking alone does not remove the alkaloids.[7] Like other species of lupin beans, chocho beans are expanding in use as a plant-based protein source in the world marketplace.[4][8]
Compounds
L. mutabilis contains 42% of protein and 18% fat in average.[6] The high fat content has allowed commercial oil pressing. The protein digestibility and nutritional value are reportedly similar to those in soybeans.
Contents in the seed:[9]
Ingredient | Amount (%) | Range |
---|---|---|
Protein | 42.6 | 37.7 – 49.7 |
Oil | 18.7 | 12.8 – 22.2 |
Fibre | 6.27 | 4.29 – 7.51 |
Ash | 3.69 | 3.10 – 4.24 |
Carbohydrates | 27.3 | 23.7 – 29.9 |
Alkaloids | 3.26 | 2.56 – 4.14 |
As with all Lupinus spp., L. mutabilis produces compounds called Bandas de Lupinus albus doce (BLADs). Also as with the rest of the genus it produces oligomers called BLAD-containing oligomers (BCOs). BCOs have a fungicidal action[10] with multiple MoAs. BCOs were previously classified by the Fungicide Resistance Action Committee (FRAC) into group M 12, but are (As of 2021) in group BM 01 (short for "Biological, Multiple modes of action").[11]
Wild populations of L. mutabilis contain toxic, bitter quinolizidine alkaloids. Cultivars also contain QAs but in much lower levels thanks to breeding programs begun in Germany in the 1930s.[12]
Green manure and soil improver
L. mutabilis is able to fix nitrogen from the air. Therefore, succeeding cultures can profit from 60 to 140 kg (130 to 310 lb) of nitrogen per hectare. Incorporation in the flowering stage leads to a higher quantity of organic matter and to an improved soil structure.[5]
Agricultural aspects
Soil and climate requirements
L. mutabilis is a crop for cool climates and exists mainly in valleys at high altitudes, such as the Andes at tropical latitudes. The crop can be grown at an altitude that ranges from 800 to 3,000 metres (2,625 to 9,843 ft). The crop withstands exceptional levels of drought. Mature plants are resistant to frost, whereas seedlings are sensitive to low temperatures.[3]
Cultivation technique
Sowing
In traditional farming practices minimum tilling is done before sowing. 100 to 120 kg/ha (89–107 lb/acre) of unselected seeds is sown.
Improved cultivation practices:
It is recommended to apply 80 kg (180 lb) phosphorus and 60 kg (130 lb) of potassium as fertilization before sowing. The sowing of 90 kg (200 lb) selected seeds in a distance of 60 to 80 cm (24–31 in), either by hand or by seed drill, follows. Plants germinate fast due to the high fat content in the seeds.[3]
Crop rotation aspects
Early varieties of L. mutabilis, with a growing period of about 150 days, can be cultivated in rotation with potatoes and cereals. Nematode disease of potato can be controlled by alkaloids when cultivated after L. mutabilis.[3]
Harvest
In traditional farming practices harvest occurs when plants have reached full maturity and the water content of seeds is between 8-12%.[6] From peasant plots average yield is about 500 to 1,000 kg (1,100–2,200 lb) per hectare under suitable conditions yield reaches up to 3,500 kg (7,700 lb) per hectare.[5]
Disease control
Alkaloids can act as a pesticide but breeding goals aim for a low alkaloid content.[12] Therefore, other disease control methods must be applied. Since L. mutabilis is a low-input crop, disease control mainly is done by phytosanitary methods.[6] A reduction of soil born saprophytes can be reached by removing dry straw from the field. Instead of green manure the plant residues can be used as fuel. Seed borne diseases can be reduced by translocation of seed production and by the use of certificated seed.[6] If seed production is done by the cultivator, diseases can be controlled by reducing the number of infected seed and by a permanent control of diseases in the field. Another possibility is to treat seed with a fungicide prior to sowing.[6]
Breeding goals
Since species with low alkaloid content are already available[12] a further step would be to make them more stable and low alkaloid content is inherited. Other breeding goals are tolerance to diseases and insects, improvement in yield, early maturing and synchronous ripening. Higher resistance could be reached by breeding a variety with high alkaloid content in leaves but not in the seeds.[3]
References
- ↑ "Lupinus mutabilis - names". Encyclopedia of Life. https://eol.org/pages/703671/names.
- ↑ Teofilo Laime Ajacopa, Diccionario Bilingüe Iskay simipi yuyayk'ancha, La Paz, 2007 (Quechua-Spanish dictionary)
- ↑ 3.0 3.1 3.2 3.3 3.4 3.5 3.6 Lost crops of the Incas: little-known plants of the Andes with promise for worldwide cultivation. Washington, D.C.: National Academy Press. 1989. pp. 180–9. doi:10.17226/1398. ISBN 978-0-309-07461-2. http://www.nap.edu/openbook.php?record_id=1398&page=180.
- ↑ 4.0 4.1 Poinski, Megan (2021-02-25). "Why chocho may be the next big plant-based protein". https://www.fooddive.com/news/why-chocho-may-be-the-next-big-plant-based-protein/595683/.
- ↑ 5.0 5.1 5.2 5.3 Neglected crops: 1492 from a different perspective (1994). Ed.: J.E. Hernándo Bermejo and J. León; publ. in collab. with the Botanical Garden of Córdoba (Spain)
- ↑ 6.0 6.1 6.2 6.3 6.4 6.5 6.6 6.7 6.8 Rainer Gross (1982). El cultivo y la utilización del tarwi: Lupinus mutabilis sweet. Rome: Organización de las Naciones Unidas para la Agricultura y la Alimentación. ISBN 978-92-5-301197-1.
- ↑ "Invisible KILLERS :: Health Focus: Toxins from Plants". http://invisiblekillers.com/resources/articles/toxins-from-plants.php.
- ↑ "Strong Growth Predicted for Lupin Protein Market as Demand for Plant-Based Foods Increases". 2020-09-07. https://vegconomist.com/market-and-trends/strong-growth-predicted-for-lupin-protein-market-as-demand-for-plant-based-foods-increases/.
- ↑ 2.1.2. Composición química y valor nutricional de Lupinus mutabilis
- ↑ Gulisano, Agata; Alves, Sofia; Martins, João Neves; Trindade, Luisa M. (2019-10-30). "Genetics and Breeding of Lupinus mutabilis: An Emerging Protein Crop". Frontiers in Plant Science (Frontiers) 10: 1385. doi:10.3389/fpls.2019.01385. ISSN 1664-462X. PMID 31737013.
- ↑ FRAC (Fungicide Resistance Action Committee) (March 2021). "FRAC Code List ©*2021: Fungal control agents sorted by cross resistance pattern and mode of action (including coding for FRAC Groups on product labels)". pp. 1–17. http://www.frac.info/docs/default-source/publications/frac-code-list/frac-code-list-2021--final.pdf. p. 16
- ↑ 12.0 12.1 12.2 Kaiser, N.; Douches, D.; Dhingra, A.; Glenn, K.; Herzig, Philip Reed; Stowe, Evan C.; Swarup, S. (2020). "The role of conventional plant breeding in ensuring safe levels of naturally occurring toxins in food crops". Trends in Food Science & Technology 100: 51–66. doi:10.1016/j.tifs.2020.03.042. ISSN 0924-2244.
External links
- The ancient Ecuadorean legume being hailed as a new superfood – BBC
- Plants for a Future
- Lupins - geography, classification, genetic resources
- 'From the Andes: First Potato, Then Quinoa, Now Tarwi?' in The Natural Farmer, Fall 2004 (p. 40)
- 'Tarwi' chapter, in "Lost Crops of the Incas"
Wikidata ☰ Q490224 entry
Original source: https://en.wikipedia.org/wiki/Lupinus mutabilis.
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