Plants engage in the photosynthesis of carbon dioxide, water, and light. In a series of experiments, Professor Dr. Olaf Kruse and his team cultivated the microscopically small green alga species Chlamydomonas reinhardtii and observed that when faced with a shortage of energy, these single-cell plants can draw energy from neighbouring vegetable cellulose instead. The alga secretes enzymes (so-called cellulose enzymes) that ‘digest’ the cellulose, breaking it down into smaller sugar components.
These are then transported into the cells and transformed into a source of energy: the alga can continue to grow. ‘This is the first time that such a behaviour has been confirmed in a vegetable organism’, says Professor Kruse. ‘That algae can digest cellulose contradicts every previous textbook. To a certain extent, what we are seeing is plants eating plants’. Currently, the scientists are studying whether this mechanism can also be found in other types of alga. Preliminary findings indicate that this is the case.
“When energy studies become more advanced in the coming years, we will eventually see this translated to human beings as well,” stated Bader-Lee. “The human organism is very much like a plant, it draws needed energy to feed emotional states and this can essentially energize cells or cause increases in cortisol and catabolize cells depending on the emotional trigger.”
Bader-Lee suggests that the field of bioenergy is now ever evolving and that studies on the plant and animal world will soon translate and demonstrate what energy metaphysicians have known all along — that humans can heal each other simply through energy transfer just as plants do. “Human can absorb and heal through other humans, animals, and any part of nature. That’s why being around nature is often uplifting and energizing for so many people,” she concluded.