In tetraploid cannabis (4n), the stem often expresses a compressed internodal architecture, where four distinct nodes initiate within the vertical space normally occupied by a single internode in diploid plants.
π¬ What is actually happening structurally
- Internode compression
Instead of elongating between nodes, the internode remains short, causing multiple node initiation events to occur at nearly the same vertical position on the stem. - Four discrete node origins
Each βstackedβ node is a true node, not a split or mutation:- Each has its own axillary meristem
- Each can produce its own lateral branch, leaf set, and floral site
- Nodes may be radially offset (not perfectly opposite)
- Shared vascular convergence
All four nodes connect into a thickened vascular ring, which is why tetraploid stems often show:- Pronounced vertical ribbing
- Increased stem diameter
- Enhanced nutrient and water flow capacity
πΏ How this differs from a diploid node
| Diploid (2n) | Tetraploid (4n) |
|---|---|
| One node per side | Four nodes clustered |
| Clear internode spacing | Internode compressed |
| Two axillary meristems | Four axillary meristems |
| Predictable branching | Dense, stacked branching |
| Smooth stem | Ribbed, reinforced stem |
πΌ Reproductive implications
Because each stacked node contains a fully functional meristem, tetraploids often show:
- πΈ Multiple floral initiation points at the same height
- πΌ Clustered anther or pistil emergence
- 𧬠Larger floral organs
- π§ͺ Larger pollen grains (often reduced total count)
This is why tetraploids are often described as βnode-denseβ rather than βfast-growing.β
π§ Breeder interpretation (plain language)
Instead of spacing nodes vertically, the plant stacks four growth points into the same spot, creating a dense, reinforced junction capable of supporting more growth and larger reproductive structures.
π·οΈ fo-SHO-style one-liner
Tetraploid structure compresses four true nodes into a single internode, stacking multiple meristems at one growth point and producing dense, reinforced architecture.
See more @Β Tetraploid Cannabis Plants β Cannabis Seeds β Colorado β Raven Stone Genetics
π± Cannabis Node Architecture Comparison β Cannabis Seeds β Colorado β Raven Stone Genetics
𧬠Diploid Γ Tetraploid Crosses (2n Γ 4n) β What Changes & Why It Matters β Cannabis Seeds β Colorado β Raven Stone Genetics
π¬ Tetraploid Cannabis Plant Gallery β Cannabis Seeds β Colorado β Raven Stone Genetics
π¬ Tetraploid Cannabis Plant from above β Cannabis Seeds β Colorado β Raven Stone Genetics
TETRAPLOID CANNABIS PLANT SECRETS
π§ββοΈ MAKE YOUR OWN TETRAPLOID CANNABIS PLANTS
Learn From the Wizard Himself β Unlock Next-Level Cannabis Genetics
π± Product Description
Step beyond conventional cultivation and enter the realm of advanced cannabis genetics. This guide and workshop experience reveals the science and strategy behind tetraploid cannabis plants β where chromosome doubling unlocks structural power, increased biomass, and amplified expression.
In stock
