The genus Zanthoxylum (family Rutaceae) contains a fascinating group of plants found around the world from the tropics to temperate zones. With over 200 species, ranging from small shrubs to large trees, Zanthoxylum spp. are characterized by sharp thorns on either the stem or leaves. Various Zanthoxylum spp. are well recognized as Asian spices, including Sichuan pepper or hua jiao in China, sansho in Japan and chopi and sancho in Korea (Austin and Felger 2008). In South and Southeast Asia, various parts of Zanthoxylum plants are used as a spice in stews, marinades and soups.
Recent literature shows that the anaesthetizing effect of alpha-hydroxysanshool, a compound produced by Zanthoxylum, has potential as a commercial product to reduce skin irritation. This same compound also induces the numbing sensation experienced by eating certain (central to western) Chinese cuisines containing Sichuan pepper. In South Asia and Africa, Zanthoxylum is used in traditional remedies for toothaches, malaria and diarrhoea. A scan of scholarly publications indicates that some scientists are also interested in investigating Zanthoxylum spp. as a source of medicinal compounds to be used against major diseases including malaria and diarrhoea.
Two recent studies in northern Thailand have piqued EC HO Asia's interest, since Zanthoxylum is an important genus in community-level agroforestry with potential as an under-utilized food source and as an income generator.
|Z. bungeaum, Z.
|Sichuan pepper, sansho,
|Thailand||Z. rhetsa||Kamchat ton, luuk ra maat,
|Z. nitidum||Kamchat nuai, nguu hao|
|Z. armatum||Mak kak|
|Laos||Z. rhetsa or
|Ma khaen (Indian ivy-rue)|
A brief survey of Zanthoxlum's food uses in Asia
Zanthoxylum is well-known as a spice in Asia; people in China, Japan and Korea consume vast amounts. Dominant Zanthoxylum species of commerce are native to these countries. According to a 2002 FAO study, China produced 31,000 million tonnes of Z. bungeaum fruit for both national consumption and international export. In cases where Zanthoxylum fruit is used as a spice, the pericarp or outer casing (in which the shiny black seed is contained) contains the essential oils that provide the intense numbing effect loved by millions.
Hua jiao or Sichuan pepper gives the mouth a characteristic numbing (ma) effect that is essential to the sacred duo of ma la (numb and hot), found in the fiery stews and soups of Sichuan cuisine in western China. Without the ma effect, connoisseurs would consider such food lifeless and flat. As a condiment, Hua jiao is mixed with salt to make a spicy dip called hua jiao yan and is a mandatory ingredient in the famous "Chinese five spice mixture" found in stores and restaurants (Landis, 2004).
Although called Sichuan pepper, studies indicate that this particular species (Zanthoxylum piperitum) may actually be grown only in Japan and Korea rather than China. Of 41 types of Zanthoxylum found in China, it appears that Z. bungeaum is the only species being used as a condiment.
In Southeast Asia, the predominant Zanthoxylum species used for spice are Z. armatum (synonym Z. alatum, Z. planispinum), Z. nitidum, Z. rhetsa (synonym Z. limonella), Z. avicennae and Z. acanthopodium. Consumption habits vary between China, Japan and Korea, but the dried pericarp is still used for flavouring stews, soups and meats.
Joshi Tuisum is on the staff of NEIC ORD, a relief and development organization that works among various ethnic groups in northeast India. He has observed that Zanthoxylum products are used throughout that region to spice food. Not only is the ground pericarp used to flavour curries, Zanthoxlyum leaves are also cooked with fermented fish and pork. Having seen these products collected in the wild, grown in kitchen gardens and sold in local markets, Joshi reports that depending on the season, bundles of fresh leaves sell for 10 to 30 Indian rupees ($1.00 US currently equals 45 INR).
Zanthoxylum is a ubiquitous spice in Thailand's north, but not as well known in central or southern regions. In northern Thailand, products are used to flavour curries and other dishes, such as laab khua, a meat dish. Young shoots, green fruit and dried fruits of Z. rhetsa (ma kwaen
in the Northern Thai dialect) are added to food to impart a sweet, lemonlike taste (Chiramongkolgarn and Paisooksantivana 2002). Compared to
hua jiao, ma kwaen doesn't have the same fiery taste. It imparts a smooth citrus flavour to prepared foods, rather than numbing the palate.
Several Northern Thai women interviewed at local markets mentioned that 30 years ago, ma kwaen was shared freely among neighbours until farmers began selling the product in the market for 1 baht per kg.Vendors in Chiang Mai's sprawling Gat Mueang Mai, a wholesale market supplying local restaurants, state that ma kwaen currently sells from 100 to 160 baht per kg in the city, indicating that its economic value has risen considerably. Meanwhile, in the Mae Ai district, three hours north of Chiang Mai city, the spice sells from 60 to 100 baht per kg.
Several Northern Thai women interviewed at local markets mentioned that 30 years ago, ma kwaen was shared freely among neighbours until farmers began selling the product in the market for 1 baht per kg. Vendors in Chiang Mai's sprawling Gat Mueang Mai, a wholesale market supplying local restaurants, state that ma kwaen currently sells from 100 to 160 baht per kg in the city, indicating that its economic value has risen considerably. Meanwhile, in the Mae Ai district, three hours north of Chiang Mai city, the spice sells from 60 to 100 baht per kg.
In Laos, Zanthoxylum is known as ma khaen. It is primarily harvested by women and is a source of cash. As in northern Thailand, the product is used as a spice to flavour meats and soups. A 2001 FAO study stated that ma khaen was the fifth most important non-wood forest product gathered in a region
northwest of Luang Prabang. However, the reported harvesting method of Zanthoxylum in Laos threatens the long term availability of the product, because whole trees are felled to gather the seed pods. The farm gate price (i.e. price of the product at the farm) of dried ma khaen is 800 Lao kip per kg ($1.00 US is currently 8060 LAK). The average tree first bears fruit at around 5 to 6 years of age, and yields 5 kg of seeds (FAO, 2001).
Medicinal uses of Zanthoxylum spp.
Paresthesia is the mouth-numbing effect believed to be caused by hydroxyl-alpha-sanshool, an alkylamide found in Zanthoxylum spp. Anyone who has bitten into a Sichuan pepper can attest to the unique sensation of mild electric shock or "pins and needles" in their mouth. Researchers have likened this experience to that of "touching their tongue to the terminals of a 9-volt battery", which is quite different from the burning pain of chilli peppers or the punch of fresh wasabi.
The numbing and analgesic effects of Zanthoxylum have been exploited for centuries as a natural remedy to alleviate acute and chronic pain. In Nigeria, the roots are used as a chewing stick to give a warm and numbing effect. This use is believed to be beneficial to the elderly and to those with sore gums and other oral disease conditions. Zanthoxylum americanum is commonly known as toothache tree in North America and can be found in the eastern US as well as Ontario and Quebec in Canada.
Zanthoxylum spp. have traditionally been administered for a variety of maladies in addition to oral diseases. In India, the leaf is used against fever, dyspepsia and bronchitis. In Manipur, India, the seed oil is applied against baldness and bark powder is used to treat toothache (Singh and Singh 2004). In a 2008 report titled "Indigenous Vegetables of India with a Potential for Improving Livelihoods," ML Chadha from the ARVDC Regional Center for South Asia reports that Z. hamiltonianum is used as both a vegetable and a remedy; dried, tender leaves are eaten as a vegetable and powdered fruits are consumed to increase the appetite. The young stems are employed as a toothbrush in cases of toothache and bleeding gums, whereas the roots and bark are used to cure malaria. Though generally eaten as a vegetable, the leaves of Z. rhetsa are also consumed to kill tapeworms and reduce infection
Scientific studies are validating the traditional medical role of various Zanthoxylum products. Research has demonstrated the potential of Z. rhetsa leaf extract as a de-worming remedy; it has been found to have a pronounced effect against larval eggs, comparable to a commercial drug (Yadav and Tangpu 2009). Bark extract from Z. rhetsa has been shown to lessen abdominal contractions and diarrhoea in mice (Rahman 2002). Other potential pharmaceutical applications include cancer treatment and anti-oxidant, anti-coagulant and anti-bacterial agents.
At the industrial level, Z. armatum has been shown to contain high amounts of linalool (Jain et al. 2001), a compound used commercially as a precursor to vitamin E production and also in soaps, detergents and insecticides. Clearly, Zanthoxylum spp. have potential beyond traditional uses as spices and folk medicine.
A valuable agroforestry component
In addition to its food and medicinal uses, Zanthoxylum has great potential for reforestation (Hau and C orlette 2003, C ondit et al 1993) and for intensifying shifting cultivation (Hoare et al 1997).
Zanthoxylum is adapted to a wide range of conditions and can grow in areas as high as 2100 metres (6594 ft.). Boer et al. (2004) state that Z. rhetsa can grow in ranges up to 500 m (1640 ft.) and can be planted in the open or in shade, although below 400 m (1312 ft.) shade planting is recommended. In northern Thailand, Gardner et al (2000) state that the range of Z. rhetsa is 800 m (2625 ft.) and higher.
Case study in Nan province, northern Thailand
In 1997, Peter Hoare (then a project coordinator for the Upper Nan Watershed Management Project in Northern Thailand) investigated the potential of ma kwaen in intensifying shifting cultivation in priority watershed areas where the Thai government retains land tenure rights but allows the harvest and sale of minor forest products. Nan province, bordering Laos, is one of Thailand's most important river basins. Natural forest destruction in the watershed area has been driven by shifting agriculture, logging and uncontrolled forest fires. Local communities number about 20,000 people among 28 villages. Hoare and his investigators wanted to involve these people in the rehabilitation and protection of forests. One livelihood option for involving locals in forest conservation was through ma kwaen cultivation.
Prior to the 1997 study, there was a steady increase in the market price of fresh ma kwaen, from $0.10 US per kg to $2.00. The market for miang, a local fermented tea, was in decline, and farmers were looking to diversify their agricultural production in other ways. Extended cultivation of ma kwaen offered one such alternative. The main benefits from intensified management of fallow land using ma kwaen include increased farmer income (especially as ma kwaen's market price increases) and improved fire management in watershed areas. Fire control was expected to improve, because highly valued ma kwaen trees are very susceptible to fire damage (p. 616).
|Age of Trees
per tree (kg
|Average return per
tree at USD$2/kg
According to Hoare and team, in communities where ma kwaen has been planted, fire management has improved since trees are highly susceptible to fire damage; radiant heat from just a few metres away is lethal. In many villages where ma kwaen has been planted, heavy fines have been imposed on farmers who lit fires that damaged trees. One community levies a fine of $4,000 US for every 13 trees killed by fire (p.617).
Zanthoxylum propagation and establishment challenges
In the past, ma kwaen propagation was simple. Farmers merely gathered seedlings underneath parent trees. Hoare et al. observed another common method of establishing ma kwaen gardens with a large number of trees: many parent trees were planted at the top of a slope so that seeds were spread down slope by birds and soil movement. Seedlings would be established naturally in the slash-and-burn fields below.
They also described attempts to improve the system by burning straw under mature trees, to scarify hard seed coats and to accelerate the usual two-month-long germination period. However, despite efforts to scarify seeds, farmers reportedly experienced losses of young seedlings as high as 60 percent due to heavy rains.
Challenges related to germinating Zanthoxylum seeds and establishing seedlings are widely reported. For instance, as the genus is dioecious (meaning that individual plants are either male or female), both male and female trees must be in close proximity to each other to allow for pollination. Seed production is also challenged if trees are located in shaded areas (Popp and Reinartz, 1988).
Hoare et al. (1997, p. 618) reported that immature seed is often planted, because ma kwaen fruit are harvested when the seed coat is still green. However, germination with immature seeds gives poor results.
In 2005, the Upland Holistic Development Project (UHDP) interviewed farmers in northern Thailand, including ethnic Lahus, Karen and Northern Thais. Farmers reported that ma kwaen germination takes place over a 45-day to 3-month period, during which germinating seeds are subject to predation by ants. One farmer remedied this issue by sowing seeds in tubs and surrounding the basins with rags soaked in diesel fuel to form a barrier against ants.
Young seedlings are also susceptible to fungal damping off diseases. It is important to control soil moisture during this period in order to avoid high losses of seedlings. Small seedlings are usually transplanted at the two-leaf stage, about a week after germination, using a spoon. At this point, Zanthoxylum roots are very fragile and susceptible to damage, often resulting in high losses (Hoare, et al. p. 618).
Young transplants are also intolerant of extended periods of high moisture in the field. According to Hoare and team, farmers reported losses of up
to 60 percent when seedlings were transplanted in fields during the heavy rains in July and August. In Chiang Mai's Mae Ai district, a woman selling
ma kwaen in the local market said that for every 10 seedlings planted, only one will survive.
Evidence suggests that losses can be reduced by starting the nursery as early as February and having the seedlings well established before the
heavy rains begin [Ed: Regular watering would be required until the rains begin.] Alternatively, seedlings can be transplanted into the field at the end of the wet season and watered during the dry season from November to March (Hoare et al. p. 619).
Propagation and transplant trials at the Upland Holistic Development Project
Upland Holistic Development Project (UHDP) partnered with Plant with Purpose (http://www.plantwithpurpose.org/) during 2005-2008 to investigate the challenges of intensively propagating ma kwaen. The investigation took place at UHDP's Agroforestry and Small Farm Resource Center in Chiang Mai's Mae Ai district. Implementing agriculture and community development work in villages along the Thai-Burma border, UHDP includes a wide range of indigenous non-timber forest product species in its agrofoestry programming.
Z. rhetsa is a native plant grown in northern Thailand, and as such is recognized by UHDP as a natural agroforestry component. Many local ethnic groups use the fruit as a spice in cooking (personal communication, Jamlong Pawkam).
The first set of experimental trials, conducted in 2005-2006, evaluated germination differences of ma kwaen seeds harvested at different times. It also looked at the effectiveness of various seed germination treatments and transplantation methods. During 2007-2008, additional trials evaluated the effect of water application and soil moisture on young seedlings in a nursery setting. For each trial, seeds were collected from ma kwaen farmers who harvested them from trees over four years of age.
Several key observations were made from the experimental trials:
1. The best germination rates came from fully mature seeds that were freshly harvested in the same season the trials were conducted. In northern Thailand, the ma kwaen harvest usually takes place between October and December when less-mature fruit (with stillgreen pericarps) are collected. The less-mature fruit are more palatable (and marketable) as they have a stronger, more desirable scent of lemon. More mature seeds are not as aromatic.
From the 2005-2006 trial, the UHDP nursery staff noted that:
- The best germination of seeds (almost 100%) was from fresh post-marketable seeds harvested and propagated between December and January.
- Seeds purchased from the market and/or obtained directly from producers at a marketable stage in November had a much lower germination rate (estimated at less than 70%).
- Seeds kept over from previous years (i.e. 2004) had little or no germination.
2. Seeds soaked in soapy water for 2 hours had better germination rates than seeds soaked in soapy water and then rinsed, or seeds soaked only in water. Our literature searches have encountered references to the use of soapy water to prepare Zanthoxylum seeds for germination. However, thus far, we have not come across any plausible scientific explanation that explains why exposure to soapy water effectively improves germination rates.
3. Proper timing and careful handling is needed to maintain the viability of very young Zanthoxylum seedlings being transplanted into seedling bags. During the 2006 trial, ma kwaen germination rates were so high that only a small portion of seedlings were transplanted, due to time and labour constraints. But during that time, we learned that the optimal period for transplanting new seedlings is when the young plants develop their first true leaves. This occurs about 15 to 30 days after germination, while the seedling root systems are not yet highly developed.
During the trial, 90 percent of seedlings transplanted with two to four true leaves survived 40 days after transplanting, whereas 40 percent of seedlings transplanted with only cotyledons survived. (Cotyledons provide stored energy to seedlings until the first true leaves appear, which have the photosynthetic ability to start producing food for the plant.)
Take care not to destroy delicate roots when removing seedlings from the germination medium and transferring them into nursery bags. Sand is good ma kwaen germination medium, because it allows for the easy removal of germinated seedlings. Transplant carefully but quickly; roots exposed to air for too long during movement into nursery bags will dehydrate, thereby reducing seedling viability.
4. To better ensure Zanthoxylum seedling survival and vigor, take steps to protect seedling root systems from excessive moisture. During the 2007-2008 trial, Zanthoxylum seedlings were transplanted into nursery bags in April (during the hot and dry season) and observed through the rainy season until October, when the rains started to diminish. Seedlings with the best survival rate and tallest average height were those that were placed above ground on a wire mesh platform, hand-watered, and protected from the rain (by clear plastic sheets placed overhead to divert rain water).
After seven months of observation, 51% of these seedlings (with an average height of 24.1 cm) had survived, compared to only 5% of seedlings (average height 12.9 cm) that were placed on the nursery floor but otherwise treated the same. The soil mix of the seedlings that were allowed to sit on the nursery floor drained poorly. Ma kwaen is known not to like "wet feet," and the seedlings in contact with the wet nursery floor could not tolerate the near-waterlogged conditions.
Similarly, seedlings that were watered by natural rainfall were subjected to more frequent waterlogged conditions during the rainy season and did
not survive past four months after transplanting into nursery bags.
The quality of potting soil is another critical factor to consider. During the trial, the research technician was unable to fill all nursery bags with the same potting soil mix. Some bags were filled with higher proportions of rice husks than others. The healthiest seedlings were found in bags containing soil mix with larger amounts of rice husks, but greater incidence of stunting occurred among seedlings in bags with more clayish soil. Ultimately, a higher proportion of rice husks in the soil mix enabled improved water drainage and healthier Zanthoxylum seedlings.
Zanthoxylum spp. is a widely distributed and well-documented genus of plants, with an extensive array of uses and cultural practices throughout the world. Zanthoxylum is a popular spice and table condiment in China, Japan and Korea, with dominant native species used for commercial production. In Southeast Asia, the growth of ma kwaen markets in northern Thailand and Laos are evidence of the potential of Zanthoxylum to be developed as a cash crop. In Africa, the Indian sub-continent and the Americas, interest continues in Zanthoxylum's potential as a source of medicinally important compounds found in all parts of the plant. Few technical documents on specific nursery propagation and field production methods are available. Continued exploration and documentation of intensive Zanthoxylum propagation and other cultural practices will enable better employment of this underutilized species as a source of food and income.
Adesina, S.K. 2005. The Nigerian Zanthoxylum: C hemical and biological values. African Journal of Traditional, Complementary and Alternative
Medicines 2(3): 282-301.
Austin, D.F. and Felger, R.S. 2008. Sichuan pepper and etymology of fagara. Economic Botany 62 (4): 567-573.
Bryant, B.P. and Mezine, I. 1999. Aklylamides that produce tingling paresthesia activate tactile and thermal trigerminal neurons.
Brain Research 842: 452-460.
Chadha, M.L. 2008. Indigenous vegetables in India with the potential for Improving Livelihoods. ARVDC C enter for South Asia.
Engeu, O.P. et al., 2008. Repeat-dose effects of Zanthoxylum chalybeum root bark extract: A traditional medicinal plant used for
various diseases in Uganda. African Journal of Pharmacy and Pharmacology 2 (6): 101-105.
Food and Agriculture Organization. 2001. Monograph on Benzoin (balsamic resin from Styrax species). Edited by Kashio, M. and Johnson, D. http://www.fao.org/docrep/005/ac776e/ac776e09.htm.
Food and Agriculture Organization. 2002. Non-wood forest products in 15 countries of tropical Asia: An overview. Edited by Vantomme, P. Markkula, A. and Leslie, R. ftp://ftp.fao.org/docrep/fao/005/AB598E/AB598E00.pdf
Hoare, P. , Maneeratana, B., and Songwadhana, W. A. 2007. Jungle Spice used in Swidden Intensification in Northern Thailand. Voices from the Forest: Integrating Indigenous Knowledge into sustainable upland farming. Resources for the Future Press: 614-619.
Jullian, V., et al. 2006. Validation of use of a traditional antimalarial remedy from French Guiana, Zanthoxylum rhoifolium. Journal of Ethnopharmacology. 106: 348-352.
Indena. Zanthalene product brochure.www.indena.com/pdf/zanthalene.pdf.
Kala, C .P., Farooquee, N.A., and Dhar, U. 2005. Traditional uses and conservation of Timur (Zanthoxylum armatum DC ) through social institutions in Uttaranchal Himalaya, India. Conservation and Society. 3 (1):224-230.
Katzer, G. Peppers and others (Zanthoxylum piperitum, simulans, bungeaum, rhetsa, acanthapodium). http://www.unigraz. at/~katzer/engl/Zant_pip.html
Landis, D. Sichuan's signature fire is going out. Or is it? New York Times article, published February 4, 2004. Accessed December 18, 2010. http://query.nytimes.com/gst/fullpage.html? res=9501EFD6143BF937A35751C 0A9629C 8B63.
Morikawa, B. and R. Burnette, 2006. Zanthoxylum propagation study in Northern Thailand. Plant with Purpose and Upland Holistic Development Project.
Olila D et al. 2002. Screening of extracts of Zanthoxylum chalybeum and Warburgia ugandensis for activity against measles virus (Swartz and Edmonston strains) in vitro. African Health Sciences 2(1): 2-10
Rahman MT et al. 2002. Anti-nociceptive and anti-diarrheal activity of Zanthoxylum rhetsa. Fitoterapia 73: 340-342..
Singh, H.B., and T.B. Singh. 2005. Plants used for making traditional rosaries in Manipur. Indian Journal of Traditional Knowledge 4 (1): 15-20.
Sompankisor, K. and R.Tshin, 2009. Zanthoxylum rhetsa (ma kwaen) propagation in a nursery setting, comparing factors affecting water intake and soil moisture. A final report written for Plant with Purpose and Upland Holistic Development Project research partnership.
Sugai, E., Morimutsu, Y., and Kubota, K. 2005. Quantitative analysis of sanshool compounds in Japanese pepper (Zanthoxylum piperitum DC )
and their pungent characteristics. Biosci Biotechnology Biochemistry 69: 1958-1962.
Tshin, R (2009) Observation trial: Effect of number of true leaves and root branching/length of transplantation success for Zanthoxylum rhetsa. A report written for Plant with Purpose and Upland Holistic Development Project research partnership.
Vigneron M et al (2005) Antimalarial remedies in French Guiana: A Knowledge attitudes and practices study. Journal of Ethnopharmacology. 98: 351-360.