Triploid Female

whatwasthat

New Member
does anyone know much about triploid plants.
i purchased NL seeds from goldenseed.com.uk,all healthy and great producers of quality bud.i threw in 50 seeds and got my first triploid.
i was talking to a guy who told me 9 out of 10 of them will throw to male.this one was female so i crossed her with a nice cheesewreck male i also purchased from goldenseed.com.uk.
does anyone know much about these freaky plants and wether or not they are likely to throw more triploid plants,because this girl was a great weight producer with quality bud.:hump:
 

canadian

Well-Known Member
They are fairly rare and if you cross breed with another plant, then that rare gene has been crossed into the seeds produced. This is good since you have a better chance at produce more triploids, which i've heard is a good thing since triploids overall produce more bed (something to do with more spots for light to hit the buds or something).

It's definetly a good thing and you should keep breeding the triploids.
 

whatwasthat

New Member
i do,somewhere in this fkn computer,if i find them i will post.just got the pc back and the bloke has backed all my shit up on different disks,dont know if i will ever see them again!!
 

whiteflour

Well-Known Member
Yes I'm curious to see what this looks like. I remember this book my dad has, Cultivators Handbook of Marijuana by Bill Drake (great book by the way), was first thing I ever read about weed. Anyway it talked about polyploid plants and the use of colchicine (sp?) to create super potent pot. The treatment was supposed haphazard and possibly lethal but apparently cutting edge stuff in the 1970's.

Anyway I can't find much about the stuff today.... well that is anything except for some science journal on it's use with alfalfa. Oddly enough that journal mentioned some polyploid cell changed and the cell was named like K/G-13. Could this be the myth of the G-13 strain?

I'll have to see if I can get a hold of that book again.
 

whatwasthat

New Member
i dont know the genuinity of this but ive but ive been told the horse gout tablets purchased at your local rural suppliers shop contains the chemical to produce triploids??
i thought it sounded like shit but who knows.i will leave that to you white flour,you sound like a science wizz.i am mearly a butcher!! LOL
i talked to gene from goldenseed and he assured me there was no treatment on these seeds but he did have a triploid mother there.
goldenseed.com.uk
 

jimmy130380

Well-Known Member
Here are a couple random excerpts from forums i found as well dealing with polyploid marijuana ( jimmy did not the dude who went to all this trouble did)

Normal cannabis is diploid, meaning that it has two sets of chromosomes - one from each parent - in each cell.

Polyploid cannabis is sometimes referred to in breeding literature, and used to be thought of as a bit of a Holy Grail amongst plants - I guess due to the hope that interesting new mutations might occur when polyploid cannabis was flowered or used in breeding (or maybe just the idea that 'more genes iz better').
AFAIK, there were never any interesting results from breeding with polyploid plants (though the legends do persist).

NB - It's important to note that whorled phylotaxy (plants growing three or four leaves/branches per internode) is not the same as polyploidy. The two terms are often confused - such as in the original version of this post.
One reason for the confusion of the two ideas is that both refer to a 'doubling' of cannabis plants - genes in one case, foliage in the other. It's also interesting that both polyploidy and whorled phyllotaxy were pursued as big breeding breakthroughs, and both came to nothing AFAIK.


I've not heard the term tetraploid before, but since the 'tetra' refers to 'four', I'm guessing it's an update on the less-specific 'polyploid'.
I don't know of any seed strains that have been bred to produce polyploid plants.
From the fact that it was thought of as a desired trait in breeding circles, but was never successfully introduced into a seed line suggests that it's either a random mutation that's not reliably passed on to offspring, or that it proved to be not such a desirable trait after all.

What makes you think you have a tetraploid? Just because a plant exhibits tri-foliate or tetra-foliate leaf patterns, also known as whorled phylotoxy, I beleive, does not mean it is a polyploid. Polyploidism can only be confirmed through genetic mapping.


Here is a nice little read on polyploidism in cannabis, notice some key points I have highlighted for you.

Marijuana Botany, Robert Connel Clark, pub. 1981
Polyploidy

Polyploidy is the condition of multiple sets of chromosomes within one cell. Cannabis has 20 chromosomes in the vegetative diploid (2n) condition. Triploid (3n) and tetraploid (4n) individuals have three or four sets of chromosomes and are termed polyploids. It is believed that the haploid condition of 10 chromosomes was likely derived by reduction from a higher (polyploid) ancestral number (Lewis, W. H. 1980). Polyploidy has not been shown to occur naturally in Cannabis; however, it may be induced artificially with colchicine treatments. Colchicine is a poisonous compound extracted from the roots of certain Colchicum species; it inhibits chromosome segregation to daughter cells and cell wall formation, resulting in larger than average daughter cells with multiple chromosome sets. The studies of H. E. Warmke et al. (1942-1944) seem to indicate that colchicine raised drug levels in Cannabis. It is unfortunate that Warmke was unaware of the actual psychoactive ingredients of Cannabis and was therefore unable to extract THC. His crude acetone extract and archaic techniques of bioassay using killifish and small freshwater crustaceans are far from conclusive. He was, however, able to produce both triploid and tetraploid strains of Cannabis with up to twice the potency of dip bid strains (in their ability to kill small aquatic organisms). The aim of his research was to "produce a strain of hemp with materially reduced marijuana content" and his results indicated that polyploidy raised the potency of Cannabis without any apparent increase in fiber quality or yield.

Warmke's work with polyploids shed light on the nature of sexual determination in Cannabis. He also illustrated that potency is genetically determined by creating a lower potency strain of hemp through selective breeding with low potency parents.

More recent research by A. I. Zhatov (1979) with fiber Cannabis showed that some economically valuable traits such as fiber quantity may be improved through polyploidy. Polyploids require more water and are usually more sensitive to changes in environment. Vegetative growth cycles are extended by up to 30-40% in polyploids. An extended vegetative period could delay the flowering of polyploid drug strains and interfere with the formation of floral clusters. It would be difficult to determine if cannabinoid levels had been raised by polyploidy if polyploid plants were not able to mature fully in the favorable part of the season when cannabinoid production is promoted by plentiful light and warm temperatures. Greenhouses and artificial lighting can be used to extend the season and test polyploid strains.

The height of tetraploid (4n) Cannabis in these experiments often exceeded the height of the original diploid plants by 25-30%. Tetraploids were intensely colored, with dark green leaves and stems and a well developed gross phenotype. Increased height and vigorous growth, as a rule, vanish in subsequent generations. Tetraploid plants often revert back to the diploid condition, making it difficult to support tetraploid populations. Frequent tests are performed to determine if ploidy is changing.

Triploid (3n) strains were formed with great difficulty by crossing artificially created tetraploids (4n) with dip bids (2n). Triploids proved to be inferior to both diploids and tetraploids in many cases.

De Pasquale et al. (1979) conducted experiments with Cannabis which was treated with 0.25% and 0.50% solutions of colchicine at the primary meristem seven days after generation. Treated plants were slightly taller and possessed slightly larger leaves than the controls, Anomalies in leaf growth occurred in 20% and 39%, respectively, of the surviving treated plants. In the first group (0.25%) cannabinoid levels were highest in the plants without anomalies, and in the second group (0.50%) cannabinoid levels were highest in plants with anomalies, Overall, treated plants showed a 166-250% increase in THC with respect to controls and a decrease of CBD (30-33%) and CBN (39-65%). CBD (cannabidiol) and CBN (cannabinol) are cannabinoids involved in the biosynthesis and degradation of THC. THC levels in the control plants were very low (less than 1%). Possibly colchicine or the resulting polyploidy interferes with cannabinoid biogenesis to favor THC. In treated plants with deformed leaf lamina, 90% of the cells are tetraploid (4n 40) and 10% diploid (2n 20). In treated plants without deformed lamina a few cells are tetraploid and the remainder are triploid or diploid.

The transformation of diploid plants to the tetraploid level inevitably results in the formation of a few plants with an unbalanced set of chromosomes (2n + 1, 2n - 1, etc.). These plants are called aneuploids. Aneuploids are inferior to polyploids in every economic respect. Aneuploid Cannabis is characterized by extremely small seeds. The weight of 1,000 seeds ranges from 7 to 9 grams (1/4 to 1/3 ounce). Under natural conditions diploid plants do not have such small seeds and average 14-19 grams (1/2-2/3 ounce) per 1,000 (Zhatov 1979).

Once again, little emphasis has been placed on the relationship between flower or resin production and polyploidy. Further research to determine the effect of polyploidy on these and other economically valuable traits of Cannabis is needed.

Colchicine is sold by laboratory supply houses, and breeders have used it to induce polyploidy in Cannabis. However, colchicine is poisonous, so special care is exercised by the breeder in any use of it. Many clandestine cultivators have started polyploid strains with colchicine. Except for changes in leaf shape and phyllotaxy, no out standing characteristics have developed in these strains and potency seems unaffected. However, none of the strains have been examined to determine if they are actually polyploid or if they were merely treated with colchicine to no effect. Seed treatment is the most effective and safest way to apply colchicine. * In this way, the entire plant growing from a colchicine-treated seed could be polyploid and if any colchicine exists at the end of the growing season the amount would be infinitesimal. Colchicine is nearly always lethal to Cannabis seeds, and in the treatment there is a very fine line between polyploidy and death. In other words, if 100 viable seeds are treated with colchicine and 40 of them germinate it is unlikely that the treatment induced polyploidy in any of the survivors. On the other hand, if 1,000 viable treated seeds give rise to 3 seedlings, the chances are better that they are polyploid since the treatment killed all of the seeds but those three. It is still necessary to determine if the offspring are actually polyploid by microscopic examination.

The work of Menzel (1964) presents us with a crude map of the chromosomes of Cannabis, Chromosomes 2-6 and 9 are distinguished by the length of each arm. Chromosome 1 is distinguished by a large knob on one end and a dark chromomere 1 micron from the knob. Chromosome 7 is extremely short and dense, and chromosome 8 is assumed to be the sex chromosome. In the future, chromosome *The word "safest" is used here as a relative term. Coichicine has received recent media attention as a dangerous poison and while these accounts are probably a bit too lurid, the real dangers of exposure to coichicine have not been fully researched. The possibility of bodily harm exists and this is multiplied when breeders inexperienced in handling toxins use colchicine. Seed treatment might be safer than spraying a grown plant but the safest method of all is to not use colchicine. mapping will enable us to picture the location of the genes influencing the phenotype of Cannabis. This will enable geneticists to determine and manipulate the important characteristics contained in the gene pool. For each trait the number of genes in control will be known, which chromosomes carry them, and where they are located along those chromosomes.

And here is a link to the original thread on ICMag where this clipping was taken from.
http://www.icmag.com/ic/showthread.p...ight=polyploid

and one last clip out of the growers bible on the subject

http://books.google.com/books?id=fERzFsZhdxYC&pg=PA458&lpg=PA458&dq=polyploid+marijuana+jorge+cervantes&source=bl&ots=t0RAcvPGVr&sig=WP72dcbIkfrhKMqoB5cu-lCOUjY&hl=en&ei=czV7SuDRIpK4NcSBzdkC&sa=X&oi=book_result&ct=result&resnum=4#v=onepage&q=&f=false
 

whiteflour

Well-Known Member
That article seems a bit more in depth than the Cultivators book, but it is hitting on the same points. I remember it stating that first generation of was possibly toxic and shouldn't be consumed. Of course at that time colchicine wasn't used to treat gout, so maybe it's not quite as dangerous as they had presumed. I found another website that mentions colchicine is used to create seedless watermelons.

The one key thing that stuck in my mind now was it was said that the plant become reproductively sterile. What I can't understand is if the plant is sterile, how it would be used in a breeding program, and how you could obtain the second "safe" generation. I'm assuming since polyploid plants are unstable with possiblity to revert each successive clone generation would increase that chance.

Anyway I called my dad and he said the book mentions the treatment coming up during government experimentation. But in their quest to find a stronger hemp fiber, they ended up with cannabis with a higher THC content. Sounds almost too much like the G13 story... might be a pipe dream for real.
 

amsterdammer

Well-Known Member
Hi yall...

Just to let you know that the Cheesewreck from goldenseeds are actually fake
Seedism seeds CheeseWreck is not sold as males through this company and they actually stole my pictures to promote their seeds.

They might be good seeds but they are not the CheeseWreck...

Good luck anyway..

Amsterdammer
 

luvtogrow

Well-Known Member
My triploids have always produced more. Seem to get one about every 30 females. Never tried to breed one, but have read they do not pass on the trait.
 

Airwave

Well-Known Member
I have a seedling that's split into two tops, without actually being topped. Figure that one out.
 

bud nugbong

Well-Known Member
master hemp, nice tri-pod ive been looking for ppl who have them and i am interested in trying to breed it into a plants genetics.

and airwave, ive had that happen to clones of mine, i heard it was a reaction to the stress. it will just "drop its top" i guess. i dont know about seedlings but maybe stress could be why it happend without a pinch.
 
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