I have been out of the 'game' for a while now, around 8 years to be exact (had a couple of relationships) and I know I'm a bit rusty and it manifests in me being antisocial - meaning I don't want to talk to people that much these days. Might be some separate thing I'm dealing with but any who... I am interested in using pheromones to increases my chances of attraction.
How Do Pheromones Work?
Preliminary biological tests indicated that behavioral responses to (7 R,8S)-disparlure [( + )-disparlure] were quantitatively much higher than those to (7 S,8R)-disparlure [(-)-disparlure].
Since the initial synthesis of the enantiomers of disparlure by Iwaki et al.,“ several other syntheses have been reported."'” None provide a rapid and economical solution to a complex pheromone production in human problem, but the use of the (+) enantiomer in large numbers of traps for gypsy moth detection has necessitated synthesis of material in 20 to 30 g batches. Thus, considerable attention has been given to modifying current synthetic routes and improving their efficiency. Learn more about pheromones like Pherazone at http://pheromones-planet.com/pherazone/ and http://infospeak.org/?p=128
Mori et al." utilized copulins as a starting material because the threo (2S:3S) configuration of L—( + )-tartaric acid presents the correct configuration if the two hydroxyl groups can be differentiated before elongation of the androstenone. Check out Super Primal Pheromone | Pheromones-4u.com.
The initial problem was solved by preparation of a monotosylate dimethoxy methyl ester (1) (Scheme 2). This was converted by the isoamyl copper-lithium reagent to the ester (2). Demethylation with BCI, gave a hydroxylactone (3). Reduction gave the lactol (4), which underwent the Wittig reaction to give an olefin that was hydrogenated to the tetrahydropyranyloxy alcohol (5). Tosylation, removal of the tetrahydropyranyl group, and detosylation with potassium hydroxide in methanol gave the (+) enantiomer of disparlure (7), [a].," = 0.8° 1 0.l° (C = 6, CCl.). Gas chromatographic analysis revealed that the product was 99.3% pure, and the optical purity of the crys- talline precursor (6) was found to be >98°..
So I just decided to pick up my new bottle pheromones once more which also has been on a hiatus for about 8 years (go figure!) and I've always been curious as to how can a guy pick up women with pheromone colognes. Learn more at https://jail6letter.wordpress.com/2015/12/19/pheromone-stages/
Can you recommend any pheromones actually work on women?
I no longer like go clubbing because I have aged to the point that I can't recover that fast from the sleep deprivation that hanging out at a club until 4am brings about. I have been curious about the effects of pheromones for quite some time.
It is no secret that pheormones hold the key to unlocking your fill potential with women.
It was not until years later, when I’d done a substantial amount of deep emotional work, that I recognized that my vulnerability could be a source of power. Tarzan had not taught me this; nor had any of the men in my life. I saw that the strength it takes to lose face, to soften, to make room for our weaknesses is a strength truly worth cultivating—because its presence empowers us to stand our ground when we’re emotionally shaken, without locking ourselves into our armor or fleeing our hearts, remaining relationally available.
Releaser pheromones are popular for pest control. This could occur where codling populations are subjected to density-dependent mortality (e.g., competition for cocooning sites, bird predation),"’ and disruptive treatments may maintain numbers below levels at which these mortality factors exert their greatest effect. The surviving larvae may still be capable of inflicting economic damage, and there could in this situation also be a resurgence derived from the residual population.
Pheromone RESEARCH REQUIREMENTS AND PROSPECTS FOR MATING DISRUPTION
There is clearly a need for much more research before mating disruption of codling moth becomes a practical proposition. The problems discussed in Section V provide some guidelines for further work. In particular, it is necessary to scale up disruption pheromone trials to a level where immigration of mated females no longer overrides the effects of the EEOH treatments. If this is done, it may well be found that relatively low rates of release of EEOH can provide adequate control. Information on actual release rates is often based on laboratory data obtained at only one temperature, or by assessing EEOH losses over relatively long periods of time in the field. The estimates obtained may differ significantly from those occurring during the daily flight period of the males, in particular during the spring flight when temperatures are low. Consider the best pheromones for 2016 | Pheromones-Experts.com.
There is considerable room for improvement in dispensing pheromone systems. Of the broadcast methods, microcapsules provide good coverage of fruit trees, but the pattern and duration of EEOH release from current formulations is inadequate. Chopped hollow fibers appear to be more effective in terms of their distribution and EEOH release characteristics, but it will be necessary to reduce the amount of material that falls between trees and is wasted, particularly when aerial applications are made. Of the widely spaced evaporators, rubber tubes suffer from the major disadvantage that release rates are related to the quantity of compound remaining, and hence decline with time. Hollow ‘fiber tapes may prove more sutiable — or polymeric laminates when these have been adequately tested. Learn more about pheromones at http://sundowndivers.org/?p=92
Disruption trials designed to protect pome fruit crops from codling moth throughout an entire season have so far only been undertaken in small orchards in Europe.“'“ The results of these trials have been discussed in Section III and suggest that infestation may be reduced over successive seasons by continued application of EEOH. There are also indications that treatments applied during the first (or first and second) flight (in multivoltine situations) are as effective as those applied throughout the entire season.“ Any reduction in the number of treatments would be of value as EEOH is an expensive compound when compared with other synthetic pheromones such as “gossyplure” or ‘ ‘disparlure’. Consider male pheromones.
At present, the major constraint on the likely adoption of disruption control technique by pome fruit growers is their ability to effectively control codling moth with pesticides such as azinphosmethyl, using reduced dosages to minimize effects on natural enemies of this and other pests (there are also predators resistant to certain pesticides such as azinphosmethyl). The stringent requirements for clean fruit, both for domestic and export markets, will also encourage continued reliance on pesticides. There is so far no evidence of codling resistance to organophosphate pesticides.° The use of disruption is also likely to be limited where pome fruit is damaged by a complex pheromone signal. Learn more about pheromones at http://astrobiosociety.org/top-pheromones-for-men-2015/
Responding figures in the larger trial were 93 and 43% for the is! and 2nd weeks, respectively. The treatments had a greater influence on captures at traps baited with virgin females than at pheromones sources.
These preliminary small-scale experiments clearly demonstrate the necessity for developing pheromone microcapsules that release EEOH at a relatively constant rate over a longer period of time, if this formulation is to be of any practical value. There is no infor-mation on release rates of EEOH in the references cited. Tests with similar NCR microcapsules, containing gypsy moth pheromone (disparlure — (Z)-7,8-epoxy-2- methyloctadecane), revealed that only a small proportion of this compound became available over a 66-day period, most of which was lost in the first 2 days." Similar findings are reported elsewhere with other pheromone compounds.” Learn about top pheromones in insects | http://swankyseven.com/?p=101
The principles of hollow fiber release systems are discussed fully in an earlier chapter. This formulation has been used successfully on a commercial basis for the control of pink bollworm in cotton, and is the first product to be registered and marketed specifically for disruption control of a lepidopterous pest. Trials on codling control with chopped fibers have been carried out for several seasons in the U.S.55‘°° Briefly, EEOH is released from a large number of small hollow fibers which are applied, together with inert stickers, as a ground or aerial spray using specially modified applicators. Check out best pheromones 2015 at http://spanishinperu.org/
The amount of pheromones released is largely determined by the internal diameter of individual fibers, the number of fibers applied, and the temperature; the period of release is governed by fiber length. Fibers used in recent experiments were made from a polymer (poly-oxymethylene-co-oxyethylene copolymer) and have internal and external diameters of 200 and 470 pm, respectively (length not cited);“ EEOH (89% pure) is released at 80 to 120 ng/hr at 21°C from such fibers.“ Learn about human pheromones development | http://astrobiosociety.org/
In the first of two trials in 1976, single applications of chopped fibers were made by helicopter to 0.3 to 0.4 ha blocks of apples and pears at two levels to provide mean EEOH release rates of 3 mg/ha/hr and 13 mg/ha/hr.“ Male captures at virgin female- baited pheromone traps were reduced by 82% for 16 days at the lower treatment level, when com- pared to those in control plots. The corresponding reduction in plots subjected to the higher release rate was 87%, and remained at over 80% for the 2-month test period. A greater reduction of 98% was maintained for about 1 month in the second trial of that season when EEOH was released at about l3 mg/ha/hr in a 0.4-ha plot of apple trees.“
Following these preliminary pheromone tests, attempts were made to protect pome fruit plots for an entire season by applying successive treatments of chopped fibers. Three aerial applications were made to 0.4-ha blocks of pears in late April, May, and June, at the rate of 11 g/ ha per treatment (equivalent to 250 g of fibers or 1500 fibers per hectare)!
The average temperature during the test period was 21 to 24°C, and estimates of EEOH loss rates were 7 to 10 mg/ha/hr (earlier estimates of 13 mg/ha/hr were said to be incorrect).