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The significant correlations obtained by plotting the results with distances from the UE epicenter, suggest that the "thing" that happened globally elicited biochemical effects as a reciprocal function of the distance from the source. It is noteworthy that in some cases, such as for glucose, a d-2 dependent relation was evidenced, consistent with a radiative energy emission. |
Some apparent exceptions did occur for various carbohydrates and amino acids, but a more detailed algebraic study revealed that they were quite consistent with typical cases of biphasic dose/effect pharmacological or toxicological relations, including chemical but even physical (electromagnetic) sources of stresses (Sornjen et al., 1982). This confirmed that the "thing" that happened did generate a distance-dependent energetic source of stress. |
In a last step, it was clearly emphasized that dramatic changes from the natural features of functional relationships occurred in the samples that were the most exposed to the unknown event. Here, two phases were clearly distinguished; in the first one (D + 4), the metabolism of the most exposed samples was shifted to the most extreme parts of the normal equations, whereas in the second one it was situated on the extreme points of reversed equations. This indicates very deep, delayed physiological effects. Since chemical sources could hardly explain such a strong remaining effect after almost two months, the hypothesis of a wavy radiative source remains the more likely, since electromagnetic impulses are able to generate delayed responses (Gorczynska et al.,1982). From a series of comparisons with known sources of stress (Bounias, 1972; 1973; 1975; 1976; 1979; 1980a; 1980b; 1983a; 1983b; 1983c), it could be suggested that the observed effects of D + 4 might reflect a stress of the same type as would have caused a dim light shock, whereas at D + 40, the symptoms are partly-but only partly-consistent with an alteration of the oxidative phosphorylation mechanisms. None |
| TABLE 13 | ||||||||
pH of the soil as determined according to the delay after solubilization in the clod-earth of D + 40 and D + 730 samples and in control soil samples treated with cement powder (P), cement supernatant (S) and liquid mortar (M), by comparison with controls | ||||||||
| pH at | pH After | pH After | pH After | |||||
| Time Zero | 2 Hours | 6 Hours | 24 Hours | |||||
| Controls | 9.10 | 9.07 | ||||||
| C | 8.78 | 8.31 | 8.09 | 7.94 | ||||
| D | 8.93 | 8.48 | 8.09 | 8.05 | ||||
| F | 8.86 | 8.39 | 8.23 | 8.10 | ||||
| G | 8.43 | 8.02 | 7.93 | 7.66 | ||||
| H | 9.10 | 8.58 | 7.94 | 7.62 | ||||
| I | 9.15 | 8.42 | 7.79 | 7.56 | ||||
| J | 9.16 | 8.65 | 8.12 | 7.77 | ||||
| K | 8.75 | 8.20 | 7.88 | 7.67 | ||||
| L | 8.92 | 8.45 | 8.07 | 7.65 | ||||
| P | 10.91 | 11.22 | -- | -- | ||||
| S | 11.03 | 11.14 | -- | 12.80 | ||||
| M | 10.15 | 10.67 | -- | 12.70 | ||||
