Difference between revisions of "Category:DMT Containing Plants"

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{{botanics_info|image:NoImage.png|Acacia obtusifolia|
 
{{botanics_info|image:NoImage.png|Acacia obtusifolia|
* 0.4 to 0.5 % DMT in the dried bark (Csiro 1990)
+
* 0.4 to 0.5 % DMT/NMT in the dried bark (Csiro 1990)
* Varying reports of N,N-Dimethyltryptamine found ranging from 0.4% - 0.6% in dried bark with 0.06% reported in young phyllodes. Considered a weed, Acacia Obtusifolia is found in woodlands on Australia's eastern border from south eastern Queensland, through eastern New South Wales and scattered slightly in north eastern Victoria.
+
*0.15-0.6% DMT,NMT(2:1)plus trace betacarboline in bark, 0.06-0.2% leaves (Southern Cross University comissioned test 2001)
 +
*5-MeoDMT & bufotenine in some loctations (E., Entheogen Review 1995-6) Is not fast growing in the wild and is under threat of serious overharvesting.Is NOT considered a weed as previously stated here.
 
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Revision as of 15:59, 28 June 2011

Note error.png Note: This page is to remain in accordance with the Botanical Transclusion Project, in which only a partial transclusion of each plant's individual page is to be included her in the form of an info box. The proper procedure to create a page for each plant is to transfer its info box from this page to its own page in the following manner:
Format for Initial Page Creation Information.png

{{Botanical Transclusion Header}}
<onlyinclude>
{{botanics_info|Plant Image|Plant Name| * Alkaloid Content w/ Reference |Optional Nickname }}
</onlyinclude>
{{Wikipedia}}
== Reference ==
{{Page Footer}}

The Wikipedia transclusion may be replaced if personal authorship is desirable.

Note error.png Note: This page is a work in progress -- its content throughout is not yet complete.


DMT Containing plants

The following is a list of plants known to contain tryptamines.

Acacia

Acacia acuminata.jpg
Acacia acuminata Wikipedia.png Plant-icon.png
Up to 1.8% alkaloids, mainly consisting of dimethyltryptamine in bark (Jeremy EGA conference, Australia 2009, used successfully in S.Australia since c.2008); up to 1.2% DMT phyllode (leaf) (DMT-Nexus); tryptamine in leaf (White et al 1951)



Acacia alpina.jpg
Acacia alpina Wikipedia.png Plant-icon.png
Active principles (mainly DMT) in leaf (M.Bock)



NoImage.png
Acacia angustifolia Wikipedia.png Plant-icon.png
Psychoactive Tryptamines (Rätsch 2004)



Acacia angustissima.png
Acacia angustissima Wikipedia.png Plant-icon.png
β-methyl-phenethylamine (Glasby 1991)NMT and DMT in leaf, 1.2-2.8 ppm (McSweeney et al. 2005)



Acacia Auriculiformis.jpeg
Acacia auriculiformis Wikipedia.png Plant-icon.png
5-MeO-DMT in stem bark (Lycaeum)



Acacia baileyana.jpg
Acacia baileyana Wikipedia.png Plant-icon.png
  • 0.02% tryptamine and β-carbolines, in the leaf, Tetrahydroharman (Ott)



Acacia berlandieri branch.jpg
Acacia berlandieri Wikipedia.png Plant-icon.png
  • Amphetamine, Methamphetamine, N,N-Dimethylamphetamine, 4-Methoxyamphetamine, 4-Hydroxyamphetamine (Shulgin 2001)
  • DMT and others (Phytochem. 199



300px-Koeh-003.jpg
Acacia catechu Wikipedia.png Plant-icon.png
  • DMT and other tryptamines in leaf, bark (Trout's Notes)



Acacia caven.jpg
Acacia caven Wikipedia.png Plant-icon.png
  • Psychoactive



[[Acacia colei var colei copy.png|center|100x100px]] Acacia colei Wikipedia.png Plant-icon.png
DMT (Dr. Karl and abc.net.au 2005) 1%+ in bark (different net reports)

</onlyinclude>


General Plant Info

Acacia colei is a perennial bush or tree native to Australia and southern Asia. A common name for it is Cole's Wattle. It grows to a height of up to 9 m. Acacia colei blooms from June through July and the flowers are bright yellow.[1]


Consists of 2 variants:

Acacia colei var. colei

Acacia colei var. ileocarpa

Geographic distribution

Colei-map.jpg

Identification

Phyllodes are 10-19 cm long and 20-55 mm wide, usually with three prominent longitudinal nerves. A dense covering of short hairs on the phyllodes gives the plant a characteristic silvery-blue appearance.

Alkaloid content

Claimed to contain 1.8% or more DMT in bark [2] [3], 0.2-0.6% in leaf. Needs further research.

Other uses

Its uses include environmental management, forage and wood. The seeds are good-tasting[4] and are potentially useful as food for humans. The results of tests in Nigeria for the feasibility of raising the tree as a drought-resistant food crop came out very positively.[5]

Extraction

Cultivation

Suppliers

Links

References

  1. Australian Biological Resources Study
  2. Dr. Karl Kruszelnicki ABC Radio
  3. Seldom/nen888 DMT Nexus
  4. ECHO Education Concerns for Hunger Organization
  5. World Wide Wattle


NoImage.png
Acacia complanata Wikipedia.png Plant-icon.png
  • 0.3% alkaloids in leaf and stem, N-methyl-tetrahydroharman with traces of tetrahydroharman (Johns et al. 1966)



Acacia constricta flower.jpg
Acacia constricta Wikipedia.png Plant-icon.png
  • β-methyl-phenethylamine[12]



Acacia confusa.jpg
Acacia confusa Wikipedia.png Plant-icon.png
  • N-methyltryptamine, N,N-dimethyltryptamine, and N,N-dimethyltryptamine-N-oxide (Buchanan MS, Carroll AR, Pass D, Quinn RJ. NMR spectral assignments of a new chlorotryptamine alkaloid and its analogues from Acacia confusa, Magn Reson Chem. 2007 Apr; 45(4):359-61, online text)



Acacia cornigera.jpg
Acacia cornigera Wikipedia.png Plant-icon.png
  • Presence of DMT in bark indicated but details lacking, needs confirmation (Ratsch 1998 ref. Trout's Notes)



Acacia cultriformis leaves.jpg
Acacia cultriformis Wikipedia.png Plant-icon.png
  • Tryptamine in the leaf and stem (Trout's Notes)



300px-Acaciafarnesiana1web.jpg
Acacia farnesiana Wikipedia.png Plant-icon.png
  • Tryptamines and phenethylamines (Lyceaum)
  • N-Methyl-Beta-Phenethylamine (Duke 1992)



NoImage.png
Acacia filiciana Wikipedia.png Plant-icon.png
  • Psychoactive



Acacia floribunda.jpg
Acacia floribunda Wikipedia.png Plant-icon.png
  • 0.3-0.8% DMT, NMT, tryptamine, harman (S. Voogenbreinder; numerous net reports and bioassays)
  • DMT 0.3% (Corroboree Forum, Shaman Australis)


NoImage.png
Acacia georginae Wikipedia.png Plant-icon.png
  • Psychoactive,[8] plus deadly toxins


NoImage.png
Acacia greggii Wikipedia.png Plant-icon.png
  • N-methyl-β-phenethylamine,[12] phenethylamine[36]


NoImage.png
Acacia harpophylla Wikipedia.png Plant-icon.png
  • Phenethylamine, hordenine at a ratio of 2:3 in dried leaves, 0.6% total[6]


NoImage.png
Acacia holoserica Wikipedia.png Plant-icon.png
  • Hordenine, 1.2% in bark[6]


NoImage.png
Acacia horrida Wikipedia.png Plant-icon.png
  • Psychoactive


NoImage.png
Acacia implexa Wikipedia.png Plant-icon.png
  • Psychoactive


NoImage.png
Acacia karroo Wikipedia.png Plant-icon.png
  • Psychoactive


NoImage.png
Acacia kempeana Wikipedia.png Plant-icon.png
  • Psychoactive


NoImage.png
Acacia kettlewelliae Wikipedia.png Plant-icon.png
  • 1.5[6]–1.88%[38] alkaloids, 92% consisting of phenylethylamine.[6] 0.9% N-methyl-2-phenylethylamine found a different time


NoImage.png
Acacia laeta Wikipedia.png Plant-icon.png
  • DMT in the leaf (Trout's Notes)


NoImage.png
Acacia lingulata Wikipedia.png Plant-icon.png
  • Psychoactive


NoImage.png
Acacia longifolia Wikipedia.png Plant-icon.png
  • 0.2% tryptamine in bark, leaves, some in flowers, phenylethylamine in flowers (Hegnauer 1994)
  • DMT in plant (Lyceaum)


NoImage.png
Acacia macradenia Wikipedia.png Plant-icon.png
  • Tryptamine


NoImage.png
Acacia maidenii Wikipedia.png Plant-icon.png
  • Bark of A. maidenii contains 0.6% of N-methyltryptamine and DMT in the proportions approx. 2:3 (Fitzgerald & Sioumis 1965)


NoImage.png
Acacia mangium Wikipedia.png Plant-icon.png
  • Psychoactive


NoImage.png
Acacia melanoxylon Wikipedia.png Plant-icon.png
  • DMT in the bark and leaf, less than 0.02% total alkaloids (Hegnauer 1994)


NoImage.png
Acacia mellifera Wikipedia.png Plant-icon.png
  • DMT in the leaf (Trout's Notes)


NoImage.png
Acacia nilotica Wikipedia.png Plant-icon.png
  • DMT in the leaf (Trout's Notes)


NoImage.png
Acacia obtusifolia Wikipedia.png Plant-icon.png
  • 0.4 to 0.5 % DMT/NMT in the dried bark (Csiro 1990)
  • 0.15-0.6% DMT,NMT(2:1)plus trace betacarboline in bark, 0.06-0.2% leaves (Southern Cross University comissioned test 2001)
  • 5-MeoDMT & bufotenine in some loctations (E., Entheogen Review 1995-6) Is not fast growing in the wild and is under threat of serious overharvesting.Is NOT considered a weed as previously stated here.


NoImage.png
Acacia oerfota Wikipedia.png Plant-icon.png
  • Less than 0.1% DMT in leaf (Ott)


NoImage.png
Acacia penninervis Wikipedia.png Plant-icon.png
  • Psychoactive


NoImage.png
Acacia phlebophylla Wikipedia.png Plant-icon.png
  • 0.3% DMT in leaf, NMT (Trout's Notes)


NoImage.png
Acacia platensis Wikipedia.png Plant-icon.png
  • Psychoactive


NoImage.png
Acacia podalyriaefolia Wikipedia.png Plant-icon.png
  • Tryptamine in the leaf (Trout's Notes)
  • 0.5% to 2% DMT in fresh bark, phenethylamine trace amounts (Hegnauer 1994)


NoImage.png
Acacia polyacantha Wikipedia.png Plant-icon.png
  • DMT in leaf (Trout's Notes)


NoImage.png
Acacia pycantha Wikipedia.png Plant-icon.png
  • Psychoactive,[8] but less than 0.02% total alkaloids


NoImage.png
Acacia retinodes Wikipedia.png Plant-icon.png
  • DMT and MMT (www.factorey.ch/Eins.htm)
  • Less than 0.02% total alkaloids found (Hegnauer 1994)


NoImage.png
Acacia roemeriana Wikipedia.png Plant-icon.png
  • β-methyl-phenethylamine


NoImage.png
Acacia rigidula Wikipedia.png Plant-icon.png
  • DMT, NMT, tryptamine, amphetamines, mescaline, nicotine and others (Phytochem. 199


NoImage.png
Acacia salicina Wikipedia.png Plant-icon.png
  • Psychoactive[8][9] Ash used in Pituri.


NoImage.png
Acacia sassa Wikipedia.png Plant-icon.png
  • Psychoactive


NoImage.png
Acacia schaffneri Wikipedia.png Plant-icon.png
  • β-methyl-phenethylamine, Phenethylamine[36] Amphetamines and mescaline also found


NoImage.png
Acacia schottii Wikipedia.png Plant-icon.png
  • β-methyl-phenethylamine


NoImage.png
Acacia senegal Wikipedia.png Plant-icon.png
  • DMT, in the leaf


NoImage.png
Acacia simplex Wikipedia.png Plant-icon.png
  • DMT and NMT, in the leaf, stem and trunk bark, 0.81% DMT in bark, MMT


NoImage.png
Acacia taxensis Wikipedia.png Plant-icon.png
  • β-methyl-phenethylamine


NoImage.png
Acacia tenuifolia Wikipedia.png Plant-icon.png
  • Psychoactive


290px-Eat267.jpg
Acacia tortilis Wikipedia.png Plant-icon.png
  • DMT, NMT, and other tryptamines


NoImage.png
Acacia sieberiana Wikipedia.png Plant-icon.png
  • DMT in the leaf (Trout's Notes)


NoImage.png
Acacia verek Wikipedia.png Plant-icon.png
  • Psychoactive (Rätsch 2004)


NoImage.png
Acacia vestita Wikipedia.png Plant-icon.png
  • Tryptamine, in the leaf and stem (Trout's Notes)
  • Less than 0.02% total alkaloids (Hegnauer 1994)


Anadenanthera

Anadenanthera colubrina.jpg
Anadenanthera colubrina Wikipedia.png Plant-icon.png
  • Seed pods contain dimethyltryptamine and the seeds bufotenin, bufotenin oxide, and oxide of dimethyltryptamine (GRANIER-DOYEUX 1965)
  • Leaves, Bark, and Seeds contain DMT, 5-MeO-DMT and related compounds (Schultes 1977)


NoImage.png
Anadenanthera macrocarpa Wikipedia.png Plant-icon.png
  • Seed pods contain dimethyltryptamine and the seeds bufotenin, bufotenin oxide, and oxide of dimethyltryptamine (GRANIER-DOYEUX 1965)


Anadenanthera peregrina flowers.jpg
Anadenanthera peregrina Wikipedia.png Plant-icon.png
Tryptamines known to be present in A. peregrina [1] Bufotenine (seeds)Bufotenine N-oxide (seeds)N,N-Dimethyltryptamine N-oxide (seeds)N,N-Dimethyltryptamine (bark)(pods)(seeds)5-Methoxy-N-methyltryptamine (bark)O-Methylbufotenine (bark) (seeds)N-Methyltryptamine (bark)


Common Reed

Arundo donax.jpg
Arundo donax Wikipedia.png Plant-icon.png
Entire Plant contains 5-MeO-DMT (Shulgin, TIHKAL)Flowers contain DMT, 5-MeO-DMT, and 5-MeO-NMT (Shulgin, TIHKAL)Roots contain DMT, 5-MeO-DMT, 5-MeO-NMT, Bufotenine, bufotenidine, dehydrobufotenidine (Shulgin, TIHKAL)


Desmanthus.jpg
Desmanthus illinoensis Wikipedia.png Plant-icon.png
Root contains DMT - 0.200% (Ott)Root Bark contains DMT - 0.340% (Ott)


Phalaris arund.jpg
Phalaris arundinacea (Reed Canary Grass) Wikipedia.png Plant-icon.png
Leaves contain DMT, 5-MeO-DMT, and related compounds (Smith 1977) 0.0004-0.121% Total Alkaloids (Dried) Lycaeum (DMT, Life and the Universe)


Phalaris aquatica.jpg
Phalaris tuberosa Wikipedia.png Plant-icon.png
Leaves and seedlings contain DMT, 5-MeO-DMT, and related compounds (Smith 1977)DMT - 0.100% (erowid)5-MeO-DMT - 0.022% (erowid)5-OH-DMT - 0.005% (erowid)


Phragmites australis.jpg
Phragmites australis (Common Reed) Wikipedia.png Plant-icon.png
DMT in roots (Ott)


Delosperma

Delosperma acuminatum2.jpg
Delosperma acuminatum Wikipedia.png Plant-icon.png
DMT, 5-MEO-DMT (Trout's Notes)


Delosperma acuminatum.jpg
Delosperma cooperi Wikipedia.png Plant-icon.png
DMT, 5-MEO-DMT (Trout's Notes)


Iceplantbrighteyes-may.jpg
Delosperma ecklonis Wikipedia.png Plant-icon.png
DMT (Trout's Notes)


Delosperma esterhuyseniae.jpg
Delosperma esterhuyseniae Wikipedia.png Plant-icon.png
DMT (Trout's Notes)


NoImage.png
Delosperma hallii Wikipedia.png Plant-icon.png
5-MEO-DMT (Trout's Notes)


NoImage.png
Delosperma harazianum Wikipedia.png Plant-icon.png
DMT, 5-MEO-DMT (Trout's Notes)


NoImage.png
Delosperma hirtum Wikipedia.png Plant-icon.png
DMT (Trout's Notes)


DelospermaLydenbergense.jpg
Delosperma lydenbergense Wikipedia.png Plant-icon.png
DMT, 5-MEO-DMT (Trout's Notes)


NoImage.png
Delosperma nubigenum Wikipedia.png Plant-icon.png
5-MEO-DMT (Trout's Notes)


NoImage.png
Delosperma pageanum Wikipedia.png Plant-icon.png
DMT, 5-MEO-DMT (Trout's Notes)


NoImage.png
Delosperma pergamentaceum Wikipedia.png Plant-icon.png
Traces of DMT (Trout's Notes)


180px-Delosperma tradescantioides leafs IMGP0042.jpg
Delosperma tradescantioides Wikipedia.png Plant-icon.png
DMT (Trout's Notes)


Desmodium

NoImage.png
Desmodium caudatum Wikipedia.png Plant-icon.png
  • Roots: 0.087% DMT, Bufotenine-N-oxide 0.03% (Trout's Notes)


NoImage.png
Desmodium gangeticum Wikipedia.png Plant-icon.png
  • DMT, 5-MEO-DMT, whole plant, roots, stems, leaves (Ott)


NoImage.png
Desmodium gyrans Wikipedia.png Plant-icon.png
  • DMT, 5-MEO-DMT, leaves, roots (Ott)


NoImage.png
Desmodium pulchellum Wikipedia.png Plant-icon.png
  • DMT, 5-MEO-DMT, whole plant, roots, stems, leaves, flowers (Ott)


NoImage.png
Desmodium racemosum Wikipedia.png Plant-icon.png
  • 5-MEO-DMT (Ott)


NoImage.png
Desmodium triflorum Wikipedia.png Plant-icon.png
  • DMT-N-oxide, roots (Ott)


NoImage.png
Lespedeza bicolor Wikipedia.png Plant-icon.png
var. japonica
  • DMT, 5-MEO-DMT in leaves and root bark (Ott)


Petalostylis

Petalostylis cassioides.jpg
Petalostylis cassioides Wikipedia.png Plant-icon.png
0.4-0.5% tryptamine, DMT, etc. in leaves and stems (Johns et al 1966)


Mimosa

Mimosa hostilis
Mimosa hostilis seed pod
Mimosa hostilis flower



General Plant Info

Mimosa hostilis is the former scientific name for Mimosa tenuiflora, and the two names are synonymous [2][3]. The older name is still widely know due to its presence in the literature and as distributers of botanical products still use the older term. M. tenuiflora is an entheogen known as Jurema, Jurema Preta, Black Jurema, and Vinho de Jurema. Dried Mexican Mimosa Hostilis root bark has been recently shown to have a DMT content of about 1%. The stem bark has about 0.03% DMT.

To date no β-carbolines such as harmala alkaloids have been detected in Mimosa tenuiflora decoctions, however the isolation of a new compound called "Yuremamine" from Mimosa tenuiflora as reported in 2005 represents a new class of phyto-indoles [4]. This may explain the reported oral activity of DMT in Jurema without the addition of an MAOI. Imported MHRB typically requires the addition of an MAOI in the preparation of ayahuasca.


Identification

Alkaloid content

  • Root Bark contains DMT - 0.31% to 0.57% (Schultes 1977)
  • Inner root bark contains up to 2% active alkaloids (Extractions from DMT-Nexus and others)
  • 3% of the total alkaloids (or 0.04% of rootbark) is NMT and 2-Methyl-1,2,3,4-Tetrahydro-Beta-Carboline (Analysis of jungle spice, Analysis of red/yellow/white spices

Extraction teks

For extracting DMT , any of the extraction teks described here will work.

Yuremamine is sensitive to heat and pH changes so only cold water (or alcoholic) soak will retrieve it.

Cultivation

Growing: Mimosas aren´t cold proof. For outdoor growing they deserve a sunny place with leachy middle nutrient soil. Throughout the vegetation are copiously watered, in winter the watering is tied down on to the minimum. They are breeding with the seeds, but can be breeded with the cutting also.

Refinery for the Purpose of Extraction

Mimosa Hostilis Root Bark can be acquired in different stages of preparation. Usually it is sold as whole, shredded or pre-powdered root-bark, but one may have access to the whole root—usually when harvested directly.

  • The whole root must cleaned and stripped of its inner root-bark while discarding the rest of the root.
  • The whole root-bark must generally be torn by hand, cut, or smashed with a blunt object prior to shredding.
  • The shredded should be further broken down as much as possible by peeling/cutting/blending to increase surface area for alkaloids to be extracted.
  • The pre-powdered can always be used "as-is".

Below details how to break it from whole root

The Root

Note error.png Note: Only the Inner Root Bark is necessary for extraction, the core and outer parts are to be discarded!


Root preparation Cog.png

Pictured below is its original after being harvested from the plant. Notice the middle core is quite distinct from the root-bark, the outer bark is much more brown:

MHR.jpg
Dsc0138largehu6.jpg
Dsc0158largeux3.jpg
Dsc0136largedg2.jpg


Cleaning the root

Cleaning The Root Cog.png

The first step in refinery is to brush the outside to remove the dirt. Then the outer bark must be lightly scraped with a good knife. It is preferable to remove at least some of the outermost layer to uncover the more blackish and purplish layer underneath:

Dsc0145largemx8.jpg
Dsc0126largevu7.jpg
Dsc0125largegc6.jpg


Peeling the Inner Root Bark

Peeling the Inner Root Bark Cog.png

Once the outermost part has been removed, peel off the Inner Root Bark to separate it from the core. This can easily be accomplished immediately by hand, though the use of a knife may be helpful.

Dsc0128largeys9.jpg
Dsc0130largezp0.jpg
Dsc0149largewh7.jpg
Dsc0147largeuc0.jpg

Here's the inner core which is to be discarded:

Dsc0133largera8.jpg


Result of root preparation

Result of root preparation Cog.png

The peeled inner root-bark now needs to dry. This may be accomplished by simply leaving it in the sun. Here's how it should look:

Dsc0160largehd1.jpg
Dsc0150largesq4.jpg


Breaking the rootbark up

Breaking the rootbark up Cog.png

The pieces/strips of inner root-bark require further refinery to expose a larger surface area and increase the availability of the alkaloids for extraction. If storage is desired, then the whole pieces are preferable, as the alkaloids are less exposed and thus better protected.

First strip the pieces further into thinner layers with the hands, then cut it up with good scissors into smaller squares, then break it down in small amounts and short/medium bursts with a blender or coffee grinder (to prevent breaking of blender/grinder)


References

  1. Southon et al. 1994. Phytochemical Dictionary of the Leguminosae. CRC Press. p. 71.
  2. USDA, ARS, National Genetic Resources Program. Germplasm Resources Information Network - (GRIN) [Online Database]. National Germplasm Resources Laboratory, Beltsville, Maryland. URL: http://www.ars-grin.gov/cgi-bin/npgs/html/taxon.pl?24430
  3. Lewis, G.P. (1987) Royal Botanic Gardens, Kew 369 pp Legumes of Bahia.
  4. Vepsäläinen, Jouko J.; Auriola, Seppo; Tukiainen, Mikko; Ropponen, Nina & Callaway, J.C. (2005). "Isolation and characterization of yuremamine, a new phytoindole". Planta Medica, 71: 1053-1057. URL: http://www.ncbi.nlm.nih.gov/pubmed/16320208

Links


Mimosa ophthalmocentra.jpeg
Mimosa ophthalmocentra (Red Jurema ) Wikipedia.png Plant-icon.png

1,6% DMT in the inner rootbark [1]


NoImage.png
Mimosa scabrella Wikipedia.png Plant-icon.png
  • DMT in bark (Ott)


250px-Mimosa verrucosa01.jpg
Mimosa verrucosa Wikipedia.png Plant-icon.png
  • DMT (Schultes 1969)


NoImage.png
Mucuna pruriens Wikipedia.png Plant-icon.png
  • Leaves, seeds, stems and roots contain L-Dopa, Serotonin, 5-HTP, and Nicotine, as well as N,N-DMT, Bufotenine, and 5-MeO-DMT (Erowid)


NoImage.png
Petalostylis labicheoides Wikipedia.png Plant-icon.png
var. casseoides
  • DMT in leaves and stems (Ott)


Diplopterys cabrerana.jpg
Diplopterys cabrerana (Chaliponga ) Wikipedia.png Plant-icon.png
  • 1.3% DMT (Shulgin, TIHKAL)
  • Contains DMT (Ott)
  • Contains 5-MEO-DMT (Web Gossip)


NoImage.png
Horsfieldia superba Wikipedia.png Plant-icon.png
  • 5-MeO-DMT and beta-carbolines (Jossang et al. 1991)


NoImage.png
Iryanthera ulei Wikipedia.png Plant-icon.png
  • 5-MEO-DMT in bark (Ott)


NoImage.png
Osteophloem platyspermum Wikipedia.png Plant-icon.png
  • DMT, 5-MEO-DMT in bark (Ott)


Virola

NoImage.png
Virola calophylla Wikipedia.png Plant-icon.png
  • Leaves 0.149% DMT (Ott)


NoImage.png
Virola carinata Wikipedia.png Plant-icon.png
  • DMT in leaves (Ott)


NoImage.png
Virola divergens Wikipedia.png Plant-icon.png
  • DMT in leaves (Ott)


NoImage.png
Virola elongata Wikipedia.png Plant-icon.png
  • DMT, 5-MEO-DMT in bark and leaves (Ott)


NoImage.png
Virola melinonii Wikipedia.png Plant-icon.png
  • DMT in bark (Ott)


NoImage.png
Virola multinervia Wikipedia.png Plant-icon.png
  • DMT, 5-MEO-DMT in bark and leaves (Ott)


NoImage.png
Virola pavonis Wikipedia.png Plant-icon.png
  • DMT in leaves (Ott)


NoImage.png
Virola peruviana Wikipedia.png Plant-icon.png
  • DMT, 5-MEO-DMT in bark (Ott)


NoImage.png
Virola rufuta Wikipedia.png Plant-icon.png
  • Alkaloids in bark and root, 95% of which is 5-MeO-DMT (Shulgin, TIHKAL)


NoImage.png
Virola sebifera Wikipedia.png Plant-icon.png
  • DMT in bark (Ott)


NoImage.png
Virola theiodora Wikipedia.png Plant-icon.png
  • DMT, 5-MEO-DMT in bark, roots, leaves and flowers (Ott)


NoImage.png
Virola venosa Wikipedia.png Plant-icon.png
  • DMT, 5-MEO-DMT in roots and leaves (Ott)


NoImage.png
Psychotria carthaginensis Wikipedia.png Plant-icon.png
  • 0.2% average DMT in dried leaves (Ott)


Psychotria viridis.jpg
Psychotria viridis (Chacruna ) Wikipedia.png Plant-icon.png
  • Leaves contain DMT - 0.10% to 0.66% (McKenna)


Sources

  1. L. M. Batista; R. N. Almeida; E. V. L. da-Cunha; M. S. da-Silva; J. M. Barbosa-Filho. Isolation and Identification of Putative Hallucinogenic Constituents from the Roots of Mimosa ophthalmocentra. In: Pharmaceutical Biology, Volume 37, Issue 1 January 1999