@hempy
The Haze Whisperer
In plants, apical dominance prevents the development of lateral shoots. It can be overwhelmed by apical bud defoliation, allowing numerous lateral buds to develop into more lateral branches carrying more fruits and possibly increasing seed yield. This study tested this hypothesis on five hemp (Cannabis sativa L.) cultivars in a 2-year field experiment. In comparison to the intact ones, the defoliated plants developed several lateral shoots. The hemp seed yield was significantly influenced by the year of production, the apical bud removal, and the cultivar. The average two-year seed yield of the defoliated plants (715 ± 47 kg/ha) was significantly higher than the yield of the intact plants (568 ± 35 kg/ha). Absolutely the greatest effect of apical bud removal on the seed yield was observed for the cultivar ‘Novosadska konoplja’, where increase was 225 kg/ha (25%); a slightly smaller difference occurred for the cultivar ‘Uniko-B’ (183 kg; 30%), followed by ‘Juso-11’ (140 kg/ha; 27%) and ‘Bialobrzeskie’ (128 kg/ha; 29). Cultivar ‘Beniko’ presented the smallest difference with apical bud removal – 58 kg/ha (15%) yield increase We maintain that hemp producers can achieve a larger seed yield not only by selecting an appropriate cultivar and row distance but also by removing apical buds.
https://www.researchgate.net/publica...nabis_sativa_L
Effects of Defoliation in Grain HempKadie E. Britt and Thomas P. Kuhar
Virginia Polytechnic Institute and State University, Blacksburg, Virginia, USA
Chewing insects such as caterpillars, beetles, and grasshoppers are sometimes present in great densities on hemp plants
and can often consume a considerable amount of foliar material. Very little is known about the impact of defoliation on
hemp. In 2018 and 2019, an experiment was conducted to simulate insect defoliation on grain variety hemp plants (‘Felina
32,’ a dual-purpose grain/fiber variety) to determine whether a loss of foliar area could impact yield. This experiment was
conducted at Virginia Tech’s Kentland Research Farm in Whitethorne, VA. Hemp plants were manually defoliated with
shears to remove varying levels of leaf material from plants at varying times throughout the season. Plants were defoliated
at 20, 40, and 60 days post planting (to simulate early, mid, and late season insect infestations) at levels of 0%, 25%, 50%,
and 75% (to simulate damage at no, low, medium, and high levels of insect infestation). ‘Felina 32’ variety hemp plants
typically have a ~90 day growing season in the field. Seeding rate both years was 30 pounds of seed per acre. Planting dates
for this study were 8 June 2018 and 30 May 2019. The results from both years of this experiment showed that average seed
weight per hemp plant was not significantly affected by timing or amount of foliar area removed from plants. These results
confirm the popular belief that hemp is an extremely durable and tolerant crop. However, it is possible that actual insect
feeding injury rather than manual defoliation using shears could potentially elicit a different plant response. However,
similar experimental methods have been conducted in many other crops using manual defoliation and showed that plant
yield was significantly negatively affected. Also, although this experiment revealed that grain yield was not affected, it does
not provide any information as to whether chemical production of THC (tetrahydrocannabinol) or CBD (cannabidiol) is
altered. Future directions will explore potential chemical content alteration within grain and CBD variety hemp plants.
https://plantpathology.ca.uky.edu/files/sr112.pdf
Defoliation is simply the act of cutting leaves off a cannabis plant for the purpose of pruning. It is backed by scientific research that shows that older plant leaves do not contribute as much to plant growth as new, smaller leaves, but instead, they become detrimental.
According to research, as plants grow, so does the size of their leaves. Older leaves become larger, thereby taking up even more water, sunlight and other nutrients even though their ability to support photosynthesis and other necessary processes is more limited. Defoliation aims to eliminate these older leaves and rejuvenate the cannabis plant.
Larger yields
Defoliation has been proven to boost the yields you can get from your cannabis garden. There are two angles to this: the first revolves around the plant hormone ethylene, which is known to lower yields because of its ability to trigger aging processes within plant cells.
Per nature’s design, ethylene is found in higher concentrations in older leaves and flowers, such as those at the lower ends of the cannabis plant. Defoliation effectively nips these leaves and flowers, triggering higher yields for the plant.
The second angle revolves around defoliation’s ability to increase the exposure of leaves to sunlight and air, which directly stimulates more photosynthesis, better growth and larger yields by harvest time.
Efficient light absorption
https://greenrushpackaging.com/canna...wing-cannabis/
But then we'd all argue about the definition of "normal pruning"
