Belen Kox Bedroom / Sterling Collection
A Comprehensive Exploration of Trapping Devices and Their Impact on Animal Behavior
Over the course of 23 years, I have conducted extensive research and field testing on a wide range of trapping devices, including body grip traps, snares, and foothold traps, as well as cage traps with various designs and trigger mechanisms. This work has involved the capture of over 18,000 animals in the wild, with more than 60,000 sets made across more than 100,000 acres and 400 locations per year during a 13-year period.
My findings, based on in-field testing, observation, real-time video, research periodicals, scientific studies, and the experiences of seasoned trappers, have led me to a deeper understanding of the factors that influence the effectiveness and animal response to these trapping devices. A key aspect of this research has been the use of a magnetometer, which has provided valuable insights into the relationship between magnetic field intensity and animal behavior in response to set traps and hunting/trapping devices.
One of the most significant discoveries from this research is the finding that the "most effective traps" share a common characteristic: a decrease in magnetic field intensity. Additionally, these traps have shown a higher rate of adult animal capture with fewer refusals. This observation has challenged the beliefs and experiences of respected professionals in the field, who have often expressed doubts about my findings.
The implications of these findings extend beyond the realm of trapping and have potential applications in the human sphere as well. Specifically, the insights gained from this research may shed light on the ongoing cases against Bayer-RoundUp, which have seen increasing scrutiny and calls for exoneration.
By understanding the role of magnetic field intensity and its impact on animal behavior, we may be able to better understand the potential effects of certain chemicals and environmental factors on human health and well-being. This could have far-reaching implications for the evaluation of such cases and the development of more effective and sustainable approaches to environmental management and public health.
The comprehensive nature of this research, spanning multiple decades and involving the capture of tens of thousands of animals, provides a valuable foundation for further exploration and application in a variety of fields, from wildlife management and conservation to environmental policy and human health. The findings presented here offer a unique perspective on the complex interactions between natural phenomena, technological advancements, and their impact on living organisms, both in the wild and in the human realm.
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