When growing marijuana, you may be wondering, “Do Feminized Seeds Produce Seeds?” This question is a complex one. It involves choosing parents and making sure they share certain desirable traits. In order to grow fem seeds, the male parents of the cannabis plant must have the same desired traits as the female. There are a few key factors that breeders consider when choosing fem seeds: yield, potency, psychoactive effects, size, odor, taste, consistency, and resistance to fungi and bacteria.
Colloidal silver inhibits female flowering hormones
Plants sprayed with colloidal silver had fewer female flowers than those sprayed with a control solution. The difference was statistically significant. Female flowers from plants treated with colloidal silver produced significantly fewer male flowers. In addition, plants treated with colloidal silver had less than a half-percent male flowering rate. In a further experiment, STS was sprayed onto plants before flowering.
A colloidal silver solution contains fine particles of silver suspended in water. Colloidal silver inhibits female flowering hormones in cannabis. Female flowering hormones are dominated by male hormones, so sprinkling colloidal silver on a cannabis plant’s branches before 12/12 can produce male flowers. Colloidal silver should be applied at a concentration of at least 30 ppm, since less will inhibit the female flowering hormone.
The mechanism by which colloidal silver inhibits female flowering hormones is not completely understood. However, it does involve reorganization of cell junctions and the cytoskeleton. The reorganized cytoskeleton is responsible for cell migration. The effect of colloidal silver is observed in both in vitro and in vivo studies. Using the same methodology, we report the results of two independent studies.
The antibacterial and antifungal properties of colloidal silver are also responsible for the increased reproductive success in women. However, these findings are still controversial. The only way to know for sure whether colloidal silver is safe is to conduct a scientific study. Besides inhibiting the female flowering hormones, it may also prevent the reproductive cycle and promote fertility. But the question remains, will it work or not?
Hermaphroditism in cannabis
When growing cannabis, it is imperative that you understand the basics of hermaphroditism. Hermaphrodite plants produce seeds, which can be used to make feminized cannabis. In addition to the seeds, hermaphrodite plants have male organs as well. You can tell if your cannabis plant is hermaphroditic by examining its calyxes. A banana-shaped calyx is an indication of hermaphroditism. In addition, a plant with this organ will divert most of its energy toward producing seeds.
Cannabis plants can suffer from hermaphroditism due to over-ripening. The over-ripe cannabis plants produce male flowers to self-pollinate and keep the lineage going. The over-ripe plant perceives its death is near and produces hermaphrodite flowers. Often, it is genetics that causes hermaphroditism in cannabis. Some cultivars are more susceptible to hermaphroditism than others, such as Thai sativas.
Other causes of hermaphroditism in cannabis include environmental stressors such as improper nutrients, incorrect grow medium, or light cycles. Regardless of the reason, this problem can ruin your crops. Proper nutrition, proper pruning, and monitoring cannabis plants daily will help prevent hermaphroditism. Then, you’ll need to know how to identify and treat hermaphrodite plants.
Despite the fact that hermaphroditism is a common weed plant disorder, the feminization process used to produce the seeds is unnatural and can cause hermaphroditism. Although feminization ensures the presence of a high percentage of female cannabis plants in seed products, the process can cause hermaphroditism as well. Cannabis is a natural plant and it seeks a suitable environment.
Hermaphroditism in cannabis strains
Hermaphroditism is a phenomenon in which a plant exhibits characteristics of both sexes. This can be a result of a condition or a genetic predisposition. To avoid hermies in your plants, be diligent during the pre-flowering period. In addition to caring for your plants properly, hermaphrodite traits can also be caused by factors like drought.
When a female plant develops male trichomes and produces pollen, it is likely to kill the entire harvest. On the other hand, hermaphrodite plants are capable of releasing pollen into the grow room, which can fertilize the female cannabis plant. As a result, hermaphrodites will focus their energy on resinous buds and seeds instead of producing a full cannabis crop. Hermaphroditism in cannabis strains can be prevented by controlling the seeds and environmental conditions.
In order to determine if hermaphroditism occurs in cannabis strains, researchers first studied the flowers of three different marijuana strains. Their female inflorescences were analyzed visually at weekly intervals. The female plants were found to have many anthers, which appeared as clusters and single anthers in bract tissues adjacent to the stigmas. The anthers remained visible until harvest, proving that the feminized plants are capable of producing large numbers of anthers. Then, seeds were harvested.
While most cannabis strains are hermaphrodites, some are more susceptible than others to this condition. To minimize the effect of hermaphroditism in cannabis strains, grow only those that are genetically hermaphrodites. The most effective way to prevent hermaphroditism in cannabis strains is to monitor them and remove any male flowers – but do this with extreme caution.
Female inflorescence at full flowering
Cymes are flat-topped inflorescences with two flowering axes: a central one and two lateral ones. The flower in the middle of a cyme is called a dichasium. In the case of wood stichwort, the female flower is at the center of an indeterminate inflorescence, which can be a raceme, cyme-like structure, or a spike.
A syconium is a hollow, fleshy structure lined with minute unisexual flowers. Male flowers have one to five stamens, whereas female flowers have a single pistil and a long or short style. A female wasp enters through a pore or ostiole on the top of the syconium to pollinate the flowers. This process is known as multiple flowering.
During the first year of flowering, inflorescences start to develop. In April, new shoots begin to form from the leaf axil. In the following two months, the vegetative shoot meristem transforms into an inflorescence, a secondary or quaternary inflorescence. In July, the flower primordium differentiates into central and terminal flowers, followed by lateral flowers. The female inflorescence then begins to degenerate.
A female inflorescence at full flowering is formed when a male inflorescence is initiated in the spring prior to pollen shed. The inflorescence has two catkin groups, one in the center and one on each side. These are opposite the first two and are at right angles to the second pair. A separate outer bud scale surrounds the entire compound bud, which consists of lateral catkin groups and a shoot bud.
The distribution of male and female inflorescences and the meristem state in Xanthium strumarium L. plants were grown in long days with a 16-hour dark period, and compared for size, shape, and sex expression. Both male and female inflorescences were scored according to a scoring system. The timing of the floral stimulus and the application of high temperature were similar. Moreover, the strongest photoperiodic induction favored female sex expression while exogenous gibberellic acid improved maleness.
Male inflorescence at full flowering
The male inflorescence of cannabis marijuana is a distinct structure. While the proportion of hermaphrodite flowers is unknown, the frequency of seed formation is increased for hermaphrodite flowers during indoor production. Pollen dispersed from male plants is required by female flowers to produce seeds. Pollen from individual anthers travels a few meters from the male plant in an indoor cultivation facility. In outdoor fields, pollen can travel up to 3-5 km from the male plant.
In the female plant, the male inflorescence looks very different from that of the male plant. It is rounder and resembles a ball at the end of a stick. When the male pre-flower grows bigger, it is referred to as a “spade.” The staminate develops into a long hanging sack containing baby bananas. This structure is also called a pollen sac.
In a light microscope, the stigmas and anther walls are visible. The stigmatic hairs coiled around the central core of the anther are most receptive to pollination. In addition, the subtending bracts and style tissues contain red or purple pigmentation. The inflorescence matures during weeks 5 and six of the flowering period, when the stigmas curl and the carpels swell.
The female plant produces buds before flowering. These buds are lower in quality and contain fewer THC, but will still grow to a reasonable size. The seeds will eventually be produced by unpollinated female plants. Unpollinated female cannabis plants will continue to swell and grow more trichomes. They will also become more resinous. They are trying to catch pollen carried by the wind.https://www.youtube.com/embed/fyJ6xqi7sp4