Thanks for your patience during our recent outage at scalar.usc.edu. While Scalar content is loading normally now, saving is still slow, and Scalar's 'additional metadata' features have been disabled, which may interfere with features like timelines and maps that depend on metadata. This also means that saving a page or media item will remove its additional metadata. If this occurs, you can use the 'All versions' link at the bottom of the page to restore the earlier version. We are continuing to troubleshoot, and will provide further updates as needed. Note that this only affects Scalar projects at scalar.usc.edu, and not those hosted elsewhere.
Plants & People: The Intersection of Botany and Human Experience
Main Menu
Project Pages
Lens: Project Pages
Catherine Nordstrom
eee5469f13f5b22449d345efe7a91438d420b603
Quinn Schwabauer
c956296b3a71313515a7b42080b7c21898a4e1b3
Jasmine White
5e6d9f39f5dca14a5efcc5b40c2233506f634d6e
Sarah Simpson
2cca5d1758ce821e43339c83d4af59d20561387f
Lysol Patino
fa4807587d439da7c652621d767462e8ddabe5bd
Ramses Cuellar
227d1101a6fc55c106a63da6f97fd9077c07d488
Giselle Correa
82a42a0fc272e6d9366f0c6a05623feb08490e90
Julianna Filice
de86fbc4c9fb4c37c7274aeb009eb12d157a6011
Amanda Lin
351a984f2f13af36387e431ad4c1bf4e2fe6442b
Jessica Manriquez
7a01046c42e42f088710b11e860bb302d9a1bc26
Amanda Bueno-Kling
6d5abc610c22a22e4d47af8113c6196fb76ced5c
Max Kwon
0e62f91ad2fccb5c1911b7cabfc2d67ad395c959
Tim Sisneros
a58829fb647d6ce7b9c40b457c686ddadf0f976f
Kyi Ther Min
bef3cb2bbf8d42cec3ceb3caaabd48943c6d0417
Edward Teng
f1c21e0ed6f73d48ad0b0ca737e4b208c441e39d
Mary Van Dyke
9e2c668c35f9c3e476eadfb42d2f33a996fe5cd3
Justin Haggard
d800073ab461eadee6e6715b98fe04a489d36a98
Holland James Smith
c6215e764616f18dc2ac54f79e800a56549a5a16
Jose Ismael Rodriguez
6d4715e7163f85d38025c4a74929b048c7f737eb
George Vetushko
28ffcc03954a96f0b0b9a57b40c5655eb929accc
Amanda Leyel
98935a5c087672934aee16f680afaf9132e76e30
Joshua Matsuda
2247a3d39cdfe957bbca6416ea46416c22545c46
Ian Morris
6ca94b2f17490b954dfe25231aee4c855ce98f06
Nikhitha Nair
923aa7cd2dc492bc285737def672e1e6cee8d689
Hojae Lee
d95326a339fcf3784c5d38537656c27fcd473cf6
Roberto Vindel
74869cdc6e4cbcab144ffdb6954169b7bacc0c5d
Shiva Nia
962b67344644b964eda3a1efd9dedb861983a57c
Pauline Le
90aae91f63664363b4dc493ff97073aaec561d82
Lauren Guevara
d3ab8c0eaac1066e5e591b0e15c4cfbc6d85e4ed
Ariela Navasartian
b706ff98a2718db176cb67e8d717a47ed8c4b6c0
Paria Maghsoudi
2fd8384def30ded736cc804c59ed30f65fb62a49
Jacqueline Duong
7ba49d8122d8595d23dae05feddc88d987a1bee5
Mellanie Gamero
145cdb416835ae5f2fd6057c64393ce87cb5016c
Karla Gonzalez
fd342cd724627c829347d847ef85f655430c8149
Phan Tran
91148bf3d7cb14e6d6590491bc9e3a572e4e737a
Kokonow Kinney
5aa005b7f097866e68b336839c60b92e3e3b90aa
Megan Chen
437c81235577cd34d86d461fc36d5c2cd1ba0d0a
Jin Zhu
524dd4acaf9b36b0629d5254b578a44a3e94b6c5
Natalie Nartz
c4f6efb33eae9bd143719d1b52bb9491171fc166
Matthew Nguyen
003d1825ac8b425d4322c4506166393d268a368c
Nicole Phelan
459bb3eb397625fc848ea954cd01858178296d64
Sarah Hoffman
9400350df5c9ca76e2405e77876e5f0e0edb5138
Skylar Yee
e2f87f03792b2a81afe11fe605107460a4f71f08
Chloe Fuson
ace0df69849f7f6ca276190dc0c1fd86c005df18
Brian Estarella-Murphy
831eaad1e3a4865984bec7368e88a589ef996e0a
Akshay Chellappa
76da17495df94c6c8bc0710f8fd207dfb8b5b6e1
Lester Squier
50c34f270c5c2e0ed0fafde1cc193434a4febd9c
Angelica Mae Rosete Soriano
e0e91b2960a04f4646d27c495705afaf132bce38
Julia Lindner
919433bcb6a91cbb9416833698e8012976f442c5
Joanne Kwak
035f00d5f05f3c560601b008cd0ae71d45b78461
Natalie Keung
bedcfd8b1a434b29988469c6e3224b2c3a94f2c8
Anthony Baniaga
3cc160e5607a280512d77ceff4259deb08abb3df
Mankai plant powder
1 media/IMG_3330_thumb.PNG 2022-05-20T09:55:44-07:00 Brian Estarella-Murphy 831eaad1e3a4865984bec7368e88a589ef996e0a 40688 1 Mankai turned into a powder for consumption as a super food additive. plain 2022-05-20T09:55:44-07:00 Brian Estarella-Murphy 831eaad1e3a4865984bec7368e88a589ef996e0aThis page is referenced by:
-
1
2022-05-11T11:25:35-07:00
Mankai: The Super Small Superfood
37
By Akshay Chellappa, Brian Estarella-Murphy, #Mankai
plain
2022-05-29T15:11:44-07:00
Nomenclatural History
Wolffia globosa (Roxburgh) Hartog & Plas, commonly known as mankai, Asian watermeal, and duckweed, is an aquatic flowering plant. William Roxburgh originally named the specimen Lemna globosa in 1832. However, den Hartog and van der Plas transferred it to the genus Wolffia in 1970. Long before it was assigned a binomial name, mankai was referred to as “Khai nam” by the indigenous people of Thailand (Armstrong, 2021). According to Elias Landholt, the original type specimen seen by Roxburgh could not be found in any of the five herbaria where specimens discovered by Roxburgh are predominantly located (Landholt, 2022). Samples of Wolffia globosa were subsequently collected in West Bengal, where it is believed that Roxburgh collected the original specimen, and studied as a neotype for this reason (Landholt, 2022).Evolutionary History
Clade Auctor eu augue ut lectus arcu. Integer malesuada nunc vel risus commodo viverra maecenas. Eleifend donec pretium vulputate sapien nec sagittis aliquam malesuada bibendum. Proin sagittis nisl rhoncus mattis rhoncus urna neque. Purus gravida quis blandit turpis cursus in. A erat nam at lectus urna duis convallis. Duis tristique sollicitudin nibh sit. Est velit egestas dui id ornare arcu odio ut sem. Nisl nunc mi ipsum faucibus vitae aliquet nec. Sed enim ut sem viverra aliquet eget. Erat pellentesque adipiscing commodo elit at imperdiet dui accumsan. In nisl nisi scelerisque eu ultrices vitae auctor. Laoreet suspendisse interdum consectetur libero id faucibus nisl tincidunt. Venenatis lectus magna fringilla urna porttitor. Semper quis lectus nulla at volutpat diam ut venenatis tellus. In fermentum posuere urna nec tincidunt. Sed tempus urna et pharetra.Ecology and Life History
Auctor eu augue ut lectus arcu. Integer malesuada nunc vel risus commodo viverra maecenas. Eleifend donec pretium vulputate sapien nec sagittis aliquam malesuada bibendum. Proin sagittis nisl rhoncus mattis rhoncus urna neque. Purus gravida quis blandit turpis cursus in. A erat nam at lectus urna duis convallis. Duis tristique sollicitudin nibh sit. Est velit egestas dui id ornare arcu odio ut sem. Nisl nunc mi ipsum faucibus vitae aliquet nec. Sed enim ut sem viverra aliquet eget. Erat pellentesque adipiscing commodo elit at imperdiet dui accumsan. In nisl nisi scelerisque eu ultrices vitae auctor. Laoreet suspendisse interdum consectetur libero id faucibus nisl tincidunt. Venenatis lectus magna fringilla urna porttitor. Semper quis lectus nulla at volutpat diam ut venenatis tellus. In fermentum posuere urna nec tincidunt. Sed tempus urna et pharetra.Morphological Description of Vegetative Attributes
Auctor eu augue ut lectus arcu. Integer malesuada nunc vel risus commodo viverra maecenas. Eleifend donec pretium vulputate sapien nec sagittis aliquam malesuada bibendum. Proin sagittis nisl rhoncus mattis rhoncus urna neque. Purus gravida quis blandit turpis cursus in. A erat nam at lectus urna duis convallis. Duis tristique sollicitudin nibh sit. Est velit egestas dui id ornare arcu odio ut sem. Nisl nunc mi ipsum faucibus vitae aliquet nec. Sed enim ut sem viverra aliquet eget. Erat pellentesque adipiscing commodo elit at imperdiet dui accumsan. In nisl nisi scelerisque eu ultrices vitae auctor. Laoreet suspendisse interdum consectetur libero id faucibus nisl tincidunt. Venenatis lectus magna fringilla urna porttitor. Semper quis lectus nulla at volutpat diam ut venenatis tellus. In fermentum posuere urna nec tincidunt. Sed tempus urna et pharetra.Morphological Description of Reproductive Attributes
While Mankai have undergone a simplification of their vegetative attributes from Spirodela to Wolffia, their reproductive attributes have stayed relatively the same, only changing in size to accommodate the smaller plant. Mankai propagate through vegetative reproduction, which is a type of asexual reproduction. As mankai are autogamous, the parent plant contains both a stigma and a stamen. The parent also contains a basal reproductive pouch where daughter fronds will grow upon fertilization (Armstrong, 2021). Parent plants reproduce exponentially through budding, and, under optimal conditions, are able to double their mass in roughly 48 hours (Yang et al., 2021). As mankai reproduce from November to July, their rapid growth rate and overall hardiness suggest that they could potentially be a sustainable form of plant-based protein that could be used to combat food insecurity (European Food Safety Authority, 2021).Historical Accounts
Libero nunc consequat interdum varius sit amet mattis vulputate. Fringilla est ullamcorper eget nulla. Convallis convallis tellus id interdum. Mauris pharetra et ultrices neque ornare. Nunc vel risus commodo viverra maecenas accumsan lacus vel facilisis. Sit amet mauris commodo quis imperdiet massa tincidunt nunc pulvinar. A erat nam at lectus urna duis convallis convallis. Pharetra massa massa ultricies mi quis hendrerit dolor magna. Adipiscing enim eu turpis egestas pretium aenean pharetra magna ac. Facilisi etiam dignissim diam quis. Libero id faucibus nisl tincidunt eget nullam.Domestication History
Ante in nibh mauris cursus mattis molestie. Ullamcorper malesuada proin libero nunc. Mauris a diam maecenas sed enim ut sem. Interdum velit euismod in pellentesque massa placerat duis ultricies lacus. Leo duis ut diam quam. Orci dapibus ultrices in iaculis nunc sed augue lacus. Etiam non quam lacus suspendisse faucibus interdum. Habitant morbi tristique senectus et netus et malesuada fames. Neque egestas congue quisque egestas diam. Lectus nulla at volutpat diam. In hac habitasse platea dictumst quisque sagittis purus sit amet. Velit scelerisque in dictum non consectetur a erat. At consectetur lorem donec massa sapien faucibus et molestie.Cultivation Practices
Mankai grows on the surface of calm freshwater bodies of water such as ponds, lakes, and marshes. It is native many countries throughout Asia, including Thailand, Laos, India, China, Indonesia, and Myanmar. It can also be found growing natively in Hawaii and California, where it was discovered by W.P. Armstrong, nicknamed “Mr. Wolffia,” in 1984. Due to its rapid growth rate, Mankai is only harvested, not cultivated, by indigenous peoples living in the aforementioned Asian countries. The yearly harvest takes place twice a week from November to July (European Food Safety Authority, 2021). Nets are typically used to collect the mankai from the surface of the water. The recent commercialization of mankai has led to the utilization of aquatic farms and vertical farming, both of which utilize fertilizer, to cultivate mankai on a larger scale. According to the European Food Safety Authority (EFSA), the composition of mankai grown through vertical farming actually does differ from the composition of mankai in natural ponds. However, the EFSA concluded that these slight differences in nutritional value do not raise safety concerns regarding human consumption of mankai that is cultivated through vertical farming (European Food Safety Authority, 2021).Nutritional Value
Mankai has recently become popular in the western world due to its nutritional benefits. The entire plant is consumed. Although it can be eaten raw, it is traditionally cooked before consumption. According to a study on the protein bioavailability of mankai conducted by Kaplan et al. in 2019, Mankai contains all nine essential amino acids, namely histidine, isoleucine, leucine, lysine, methionine, phenylalanine, threonine, tryptophan, and valine, dietary fibers, polyphenols, which help to manage blood pressure levels, iron, zinc, and vitamin B12, which is important for keeping blood and nerve cells healthy (Kaplan et al., 2019). Furthermore, as mankai is more than 45% protein, when measuring by dry weight, it is currently emerging as a new substitute to animal-based protein sources (Kaplan et al., 2019).Human Experience
Auctor eu augue ut lectus arcu. Integer malesuada nunc vel risus commodo viverra maecenas. Eleifend donec pretium vulputate sapien nec sagittis aliquam malesuada bibendum. Proin sagittis nisl rhoncus mattis rhoncus urna neque. Purus gravida quis blandit turpis cursus in. A erat nam at lectus urna duis convallis. Duis tristique sollicitudin nibh sit. Est velit egestas dui id ornare arcu odio ut sem. Nisl nunc mi ipsum faucibus vitae aliquet nec. Sed enim ut sem viverra aliquet eget. Erat pellentesque adipiscing commodo elit at imperdiet dui accumsan. In nisl nisi scelerisque eu ultrices vitae auctor. Laoreet suspendisse interdum consectetur libero id faucibus nisl tincidunt. Venenatis lectus magna fringilla urna porttitor. Semper quis lectus nulla at volutpat diam ut venenatis tellus. In fermentum posuere urna nec tincidunt. Sed tempus urna et pharetra.References
Armstrong, W. P. (2021, July 4). Wayne Armstrong’s Treatment of the Lemnaceae. Palomar College. Retrieved May 26, 2022, from https://www2.palomar.edu/users/warmstrong/1wayindx.htm
Bog, M., Appenroth, K. J., & Sree, K. S. (2019). Duckweed (Lemnaceae): Its Molecular
Taxonomy. Frontiers in Sustainable Food Systems, 3. https://doi.org/10.3389/fsufs.2019.00117
Klaus, J. A., Nikolai, B., & Eric, L. (2013). Telling Duckweed Apart: Genotyping Technologies for the Lemnaceae. Chinese Journal of Applied Environmental Biology, 19(1), 1–10. https://doi.org/10.3724/sp.j.1145.2013.00001
Pagliuso, D. (2018, July 20). Correlation of Apiose Levels and Growth Rates in Duckweeds. Frontiers. Retrieved May 25, 2022, from https://www.frontiersin.org/articles/10.3389/fchem.2018.00291/full
Technical Report on the notification of fresh plants of Wolffia arrhiza and Wolffia globosa as a traditional food from a third country pursuant to Article 14 of Regulation (EU) 2015/2283. (2021). EFSA Supporting Publications, 18(6). https://doi.org/10.2903/sp.efsa.2021.en-6658
Wang, W., Kerstetter, R. A., & Michael, T. P. (2011). Evolution of Genome Size in Duckweeds (Lemnaceae). Journal of Botany, 2011, 1–9. https://doi.org/10.1155/2011/570319
Yang, J., Hu, S., Li, G., Khan, S., Kumar, S., Yao, L., Duan, P., & Hou, H. (2020). Transformation Development in Duckweeds. The Duckweed Genomes, 143–155. https://doi.org/10.1007/978-3-030- 11045-1_15
Yang, J., Zhao, X., Li, G., Hu, S., & Hou, H. (2021). Frond architecture of the rootless duckweed Wolffia globosa. BMC Plant Biology, 21(1). https://doi.org/10.1186/s12870-021-03165-5
