Tropaeolum tuberosum

This plant is commonly called mashua in Peru and Ecuador, but other names include:

In Boyacá, Colombia, it is also named nabu

The plant thrives even in marginal soils and competes well with weeds. It is well-adapted to high-altitude subsistence agriculture and gives high yields; 30 tonnes per hectare are yielded at 3000 meters, but up to 70 tons per hectare have been produced under research conditions.[http://opensiuc.lib.siu.edu/cgi/viewcontent.cgi?article=1434&context=ebl Mashua Ethnobotanical Leaflet, Southern Illinois University] Its extraordinary resistance to insects, nematode and bacterial pests is attributed to high levels of isothiocyanates. Although mashua is fully domesticated, it can persist in wild vegetation because of its aggressive growth and robustness. In Colombia, it is planted as a companion crop to repel pests in potato fields. Mashua’s high natural resistance to pests has made it a good crop for its potential in pest management. Glucosinolates contained in the plant have been shown to harm aphid herbivory. (Lima, R., 2001, ‘Studies on the biology and biochemistry of Tropaeolum tuberosum (Mashua)’.) Spraying a crop with a mixture containing glucosinolates sourced from Masha can lead to up to 97% of aphid mortality. (Claros Cuadrado, J.L. et al. (2019) ‘Insecticidal Properties of Capsaicinoids and Glucosinolates Extracted from Capsicum chinense and Tropaeolum tuberosum’, Insects, 10(5), p. 132. Available at: https://doi.org/10.3390/insects10050132.) Molecules extracted from Mashua can be part of a viable, effective, and eco-friendly alternative to synthetic pesticides. Traits like these raise the potential for mashua to be used in agroecology.

file:Peruvian mashua cultivar Yawar Waqay (Llorando sangre).JPG

Raw mashua tuber is bitter due to glucosinolates, but the bitterness diminishes after cooking, freezing, or pounding.{{cite book |editor1-last=Prance |editor1-first=Ghillean |editor2-last=Nesbitt |editor2-first=Mark |last1=Sanderson |first1=Helen|date=2005 |title=The Cultural History of Plants |publisher=Routledge |page=63 |isbn=0415927463}}[http://www.sfgate.com/cgi-bin/article.cgi?f=/c/a/2007/11/24/HOFKT0IEM.DTL&hw=perennially&sc=237&sn=006 ten perennial veggies to grow, San Francisco Gate] The tubers comprise as much as 75 percent of the mature plants by dry weight.[http://www.peacediaries.org/2_community/gallery2B/1_Recipes/1R_PERU.html Peace Diaries Workspace] {{Webarchive|url=https://web.archive.org/web/20080123073107/http://www.peacediaries.org/2_community/gallery2B/1_Recipes/1R_PERU.html |date=2008-01-23 }}

Popularization of mashua may be limited by its intense flavor and reputation as an anaphrodisiac. Father Bernabé Cobo records that in the 16th century, the Inca used to give enormous amounts of mashua to their troops so that they would forget their wives.Grau et al. (2003): 27. However, mashua tubers roasted in traditional earthen field ovens, built at harvest, are considered a delicacy. Also, the raw tubers can be shredded thinly and added to salads to confer a spicy flavor and crunchy texture.

file:Flowering mashua Quito May 1990.tif

In its native range, mashua is mainly cultivated for its edible tubers. Still, it has ornamental value in the temperate zone because of its trailing habit and showy, bi-colored tubular flowers, which appear in summer and autumn. The sepals are orange-red, while the petals are bright yellow. In areas prone to frost, some protection is required in winter. The cultivar T. tuberosum var. lineamaculatum 'Ken Aslet' has gained the Royal Horticultural Society's Award of Garden Merit.{{cite web|title=RHS Plant Selector - Tropaeolum tuberosum var. lineamaculatum 'Ken Aslet' | url = https://www.rhs.org.uk/Plants/85985/Tropaeolum-tuberosum-var-lineomaculatum-Ken-Aslet/Details | publisher = RHS | access-date = 5 March 2021}}{{cite web | url = https://www.rhs.org.uk/plants/pdfs/agm-lists/agm-ornamentals.pdf | title = AGM Plants - Ornamental | date = July 2017 | page = 103 | publisher = Royal Horticultural Society | accessdate = 27 December 2018}}

Mashua has putative anaphrodisiac effects.{{cite journal |last1=Johns |first1=Timothy |last2=Kitts |first2=W.D. |last3=Newsome |first3=Frances |last4=Towers |first4=G.H.Neil |title=Anti-reproductive and other medicinal effects of Tropaeolum tuberos um |journal=Journal of Ethnopharmacology |date=March 1982 |volume=5 |issue=2 |pages=149–161 |doi=10.1016/0378-8741(82)90040-x |pmid=7057655 }} It has been recorded by the Spanish chronicler Cobo that mashua was fed to their armies by the Inca Emperors, "that they should forget their wives".[http://www.nap.edu/openbook.php?isbn=030904264X&page=66 Lost Crops of the Incas: Little-Known Plants of the Andes with Promise for Worldwide Cultivation, National Academies Press] Studies of male rats fed on mashua tubers have shown a 45% drop in testosterone levels due to the presence of isothiocyanates. Mashua contains Docosatetraenoylethanolamide, a cannabinoid structurally similar to Anandamide that also acts on the cannabinoid (CB₁) receptor among other structurally related compounds such as N–oleoyldopamine.{{cite journal |last1=Apaza T. |first1=Luis |last2=Tena Pérez |first2=Victor |last3=Serban |first3=Andreea Madalina |last4=Alonso Navarro |first4=Matías J. |last5=Rumbero |first5=Angel |title=Alkamides from Tropaeolum tuberosum inhibit inflammatory response induced by TNF–α and NF–κB |journal=Journal of Ethnopharmacology |date=10 May 2019 |volume=235 |pages=199–205 |doi=10.1016/j.jep.2019.02.015 |pmid=30753883 |s2cid=73420706 }}

Topical mashua in a 1% gel formulation has proven to increase the healing activities of open wounds in mice populations. Further studies are necessary to determine potential wound healing success for human application. Silva-Correa CR, Pazo-Medina GI, Villarreal-La Torre VE, Calderón-Peña AA, Aspajo-Villalaz CL, Cruzado-Razco JL, Rosario-Chávarri JD, González-Siccha AD, Guerrero-Espino LM, González-Blas MV, Sagástegui-Guarniz WA, Gamarra-Sánchez CD, Hilario-Vargas J (2022) Wound healing activity of Tropaeolum tuberosum-based topical formulations in mice, Veterinary World, 15(2): 390-396.

Mashua is a food item known for its exceptional nutritional properties. The protein content of the dry weight was reported to be about 6.9-15.7%.{{Cite journal |last1=King |first1=Steven R. |last2=Gershoff |first2=Stanley N. |date=1987 |title=Nutritional evaluation of three underexploited andean tubers:Oxalis tuberosa (Oxalidaceae),Ullucus tuberosus (Basellaceae), andTropaeolum tuberosum (Tropaeolaceae) |url=http://dx.doi.org/10.1007/bf02908144 |journal=Economic Botany |volume=41 |issue=4 |pages=503–511 |doi=10.1007/bf02908144 |s2cid=29635200 |issn=0013-0001}} It has a remarkable protein profile with a considerable abundance of essential amino acids in an ideal ratio, providing a high biological value.{{Cite journal |last1=Guevara-Freire |first1=Deysi Alexandra |last2=Valle-Velástegui |first2=Luciano |last3=Barros-Rodríguez |first3=M |last4=Vásquez |first4=Carlos |last5=Zurita-Vásquez |first5=Hernán |last6=Dobronski-Arcos |first6=Jorge |last7=Pomboza-Tamaquiza |first7=Pablo |date=2018 |title=NUTRITIONAL COMPOSITION AND BIOACTIVE COMPONENTS OF MASHUA (Tropaeolum tuberosum Ruiz and Pavón) |journal=Tropical and Subtropical Agroecosystems |volume=21 |issue=1 |doi=10.56369/tsaes.2561 |issn=1870-0462|doi-access=free }} The essential amino acids leucine, isoleucine, and valine are branched-chain amino acids (BCAA), which are essential in muscle metabolism.{{Citation |last1=Gorissen |first1=Stefan H. M. |title=Chapter 17 - Branched-Chain Amino Acids (Leucine, Isoleucine, and Valine) and Skeletal Muscle |date=2019 |url=https://www.sciencedirect.com/science/article/pii/B9780128104224000166 |work=Nutrition and Skeletal Muscle |pages=283–298 |editor-last=Walrand |editor-first=Stéphane |access-date=2023-11-10 |publisher=Academic Press |doi=10.1016/b978-0-12-810422-4.00016-6 |isbn=978-0-12-810422-4 |last2=Phillips |first2=Stuart M.|s2cid=92125857 }} The amount of free amino acids ranges from 2.763 to 6.826 mg/g dry matter. Variations occur depending on the region of cultivation and the specific mashua genotype. {{Cite journal |last1=Coloma |first1=Alejandro |last2=Flores-Mamani |first2=Emilio |last3=Quille-Calizaya |first3=German |last4=Zaira-Churata |first4=Arturo |last5=Apaza-Ticona |first5=Jorge |last6=Calsina-Ponce |first6=Wilber César |last7=Huata-Panca |first7=Percy |last8=Inquilla-Mamani |first8=Juan |last9=Huanca-Rojas |first9=Félix |date=2022 |title=Characterization of Nutritional and Bioactive Compound in Three Genotypes of Mashua (Tropaeolum tuberosum Ruiz and Pavón) from Different Agroecological Areas in Puno |journal=International Journal of Food Science |language=en |volume=2022 |pages= 1–13|doi=10.1155/2022/7550987 |issn=2356-7015 |pmc=8967561 |pmid=35368805 |doi-access=free }}

The fat content of the dry weight of mashua is between 0.1–0.4%. The investigation of the fatty acid composition of mashua flour by Ramallo (2004) showed a significant content of polyunsaturated fatty acids of 70.8%.{{Cite journal |last=Zamora |first=Rodrigo Ramallo |date=2004 |title=ANÁLISIS EXPLORATORIO DE LOS ÁCIDOS GRASOS DEL ISAÑO (Tropaeolum tuberosum) |url=https://www.upb.edu/revista-investigacion-desarrollo/index.php/id/article/view/125 |journal=Revista Investigación & Desarrollo |language=es |volume=1 |issue=4 |pages=69–74 |doi=10.23881/idupbo.004.1-9i |issn=2518-4431|doi-access=free }} The most abundant fatty acids are linoleic acid (48.7%), α-linolenic acid (22.13%), palmitic acid (21.2%) and oleic acid (3.96%). Ideally, the omega-6 to omega-3 fatty acid ratio should be between 1 and 4.{{Cite journal |last=Simopoulos |first=A. P |date=2002 |title=The importance of the ratio of omega-6/omega-3 essential fatty acids |url=https://www.sciencedirect.com/science/article/pii/S0753332202002536 |journal=Biomedicine & Pharmacotherapy |volume=56 |issue=8 |pages=365–379 |doi=10.1016/S0753-3322(02)00253-6 |pmid=12442909 |issn=0753-3322}} For mashua the ratio between linoleic acid (omega-6) and the α-linolenic acid (omega-3) is 2.2 and therefore in the optimum range.

Mashua is considered a good source of carbohydrates. The carbohydrate content of the dry weight of mashua is between 69.7 - 79.5%, depending on factors like growing conditions and variety of mashua species. It primarily comprises starch, which manifests in the form of grains. These starch grains comprise 27% amylose and 73% amylopectin, contributing to the overall carbohydrate profile. Approximately 85% of the starch content is readily digestible, while 15% remains indigestible within the gastrointestinal tract. {{Cite journal |last1=Villacrés |first1=Elena |last2=Espín |first2=Susana |date=1999 |title=Evaluación del rendimiento, características y propiedades delalmidón de algunas raíces y tubérculos andinos |s2cid=130491537 }}

The tubers of the mashua are a good source of dietary fiber. Mashua tubers contain approximately 5 to 7 g of fiber per 100 g of dry matter, depending on factors like growing conditions and the variety of mashua species. Dietary fiber content is supposed to have beneficial health effects and help relieve functional constipation, a common gastrointestinal problem in children.{{Cite journal |last1=Vandenplas |first1=Yvan |last2=Hegar |first2=Badriul |last3=Munasir |first3=Zakiudin |last4=Astawan |first4=Made |last5=Juffrie |first5=Mohammad |last6=Bardosono |first6=Saptawati |last7=Sekartini |first7=Rini |last8=Basrowi |first8=Ray Wagiu |last9=Wasito |first9=Erika |date=2021 |title=The role of soy plant-based formula supplemented with dietary fiber to support children's growth and development: An expert opinion |journal=Nutrition |volume=90 |pages=111278 |doi=10.1016/j.nut.2021.111278 |pmid=34004412 |issn=0899-9007|doi-access=free }}

Mashua contains substantial levels of vitamin C, as well as β-carotene, which can be converted into vitamin A.{{Cite journal |last1=Grune |first1=Tilman |last2=Lietz |first2=Georg |last3=Palou |first3=Andreu |last4=Ross |first4=A. Catharine |last5=Stahl |first5=Wilhelm |last6=Tang |first6=Guangweng |last7=Thurnham |first7=David |last8=Yin |first8=Shi-an |last9=Biesalski |first9=Hans K. |date=2010 |title=β-Carotene Is an Important Vitamin A Source for Humans |journal=The Journal of Nutrition |language=en |volume=140 |issue=12 |pages=2268S–2285S |doi=10.3945/jn.109.119024|pmid=20980645 |pmc=3139236 |doi-access=free }} The levels of vitamin C in mashua are influenced by both the geographical area where it is grown and its genetic profile. A study conducted by Coloma et al. in 2022 found that the vitamin C levels in yellow mashua tubers range from 0.53 to 1.54 mg/g dry matter. The tubers that display both yellow and purple hues demonstrate a considerably higher vitamin C concentration, with a range of 0.9 to 3.36 mg/g dry matter. In comparison, potatoes, a more commonly known tuber, have a lower vitamin C content, with a range of 0.27 to 0.87 mg/g dry matter.{{Cite journal |last1=Wu |first1=Yu |last2=Hu |first2=Honghai |last3=Dai |first3=Xiaofeng |last4=Zhang |first4=Hong |last5=Xu |first5=Fen |last6=Hu |first6=Hanmin |last7=Guo |first7=Zhiqian |date=2020 |title=Comparative Study of the Nutritional Properties of 67 Potato Cultivars (Solanum tuberosum L.) Grown in China Using the Nutrient-Rich Foods (NRF11.3) Index |url=https://doi.org/10.1007/s11130-020-00795-2 |journal=Plant Foods for Human Nutrition |language=en |volume=75 |issue=2 |pages=169–176 |doi=10.1007/s11130-020-00795-2 |pmid=32124165 |s2cid=211730110 |issn=1573-9104}} This indicates that mashua can contain approximately two to four times more vitamin C than potatoes.

Like vitamin C, the levels of β-carotene in tubers also fluctuate according to the cultivation location and the plant's genotype. For yellow tubers, β-carotene content ranges from 18.10 to 715.95 μg/g dry matter. The concentration spans from 6.91 to 336.33 μg/g dry matter in tubers with a yellow-purple hue. Conversely, purple tubers exhibit a β-carotene content significantly lower, varying from 1.21 to 4.46 μg/g dry matter.

An important aspect of mashua’s appeal lies in its rich mineral composition, which, as the vitamin content, also varies according to the cultivation site and genotype.

The table delineates the mineral content corresponding to each genotype. Notably, there is a pronounced disparity among the genotypes. Specifically, purple tubers exhibit calcium levels that are 3 to 4 times higher and iron levels that exceed those of other varieties by more than a factor of 200. Conversely, these tubers possess only negligible quantities of potassium and phosphorus, and their zinc levels are comparatively lower. This marked differentiation underscores the impact of genetic variation on the nutritional makeup of mashua tubers. Regarding calcium content, mashua exhibits a lower concentration than potatoes, with the latter containing approximately 13,100 mg/100 g dry matter. In contrast, the phosphorus content of mashua is considerably higher than that of potatoes, which have a mere 0.23 mg/100 g dry matter. While potatoes present a significant amount of potassium at 500 mg/100 g dry matter, which surpasses the levels found in purple mashua tubers, they still hold merely a third of the potassium content when contrasted with yellow and yellow-purple mashua varieties.{{Cite journal |last1=Lombardo |first1=Sara |last2=Pandino |first2=Gaetano |last3=Mauromicale |first3=Giovanni |date=2014 |title=The mineral profile in organically and conventionally grown "early" crop potato tubers |url=https://www.sciencedirect.com/science/article/pii/S0304423814000107 |journal=Scientia Horticulturae |volume=167 |pages=169–173 |doi=10.1016/j.scienta.2014.01.006 |issn=0304-4238|doi-access=free }}

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tuberosum

Category:Root vegetables

Category:Perennial vegetables

Category:Crops originating from the Americas

Category:Crops originating from Peru

Category:Anaphrodisia

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Category:Crops originating from Colombia

Category:Crops originating from Ecuador

Category:Plants described in 1802

Category:Taxa named by José Antonio Pavón Jiménez

Category:Taxa named by Hipólito Ruiz López