Fermentation + Macrobiotic Principles =
Eat “Local & Seasonal Microbes”
by Cynthia Briscoe
Macrobiotic guidelines are founded upon natural order. One such guideline is to eat local and seasonal foods. The premise is that food produced in the area in which you live is inherently synchronized with the climate zone, weather patterns and soil matrix. By ingesting local foods, we align our health with these particulars. To me, there is additional unsung benefit of eating locally and seasonally grown foods: We also partake of the indigenous microbes of the region.
The majority of food consumed is a jumble of cross-country products shipped east to west, north to south, and from different hemispheres. The modern profit-drive food industry entices everyone to join in the grab-bag chaos of processed convenience foods, mass produced sterile foods, fragments from whole foods, and even so-called “frankenfood” chemically constructed in laboratories. Unwittingly, people are constructing their cells, tissue and organs from this food removed from its natural origins. From these deconstructed foods, we attempt to put back the missing pieces with supplements and repair the damage with pharmaceuticals. Also damaged within the chain of modern food supply are health-giving microbes.
Within the last 15 years, technological advancements in DNA sequencing have exploded microbe identification and the mapping of the human microbiome (the composition, diversity, and ecology of microbes in and on the human body) previously not possible. The relationship of our health to the health of our human microbiome is unfolding as this unseen world is now being observed. Microbiologists believe that of the 100 trillion cells that compose our body, only 10% of those cells are human. The rest is all microbes! It only seems logical that that the healthy ecology of our personal microbes would benefit our individual health.
Who are we really if 90% of our DNA is microbial DNA? How does the health and diversity of our microbe community affect our health? This is certainly an interesting question. The microbe mapping is well underway, but the relationship of the human microbiome to human health is yet in the frontier stage of data collection and interpretation. Down the road, science hopes to connect the dots between diet and a healthy human microbiome. In the future, scientists predict that when we go for a medical checkup, instead of drawing blood, we will have our microbiome analyzed and adjusted.
Regardless of where you live, what nationality, or occupation, if you compare yourself to another human, you share 99.9% of your human genetic DNA. However, if you compare yourself to another human in terms of your microbiome, you share only 10% of your microbes respectively. As individual members of the human race, we are practically identical in our DNA composition. However, perhaps our unique individual identity lies within the composition of microbes that we host. Respectively that composition is greatly influenced by what kinds of food we choose to eat and how and where that food was produced.
Family members that live together and eat together share greater commonality in their microbiome. The air in our home, touching the food while preparing it, and even our pets contribute to the unique collective microbial ecology that family members share. By cooking together and eating together we may be sharing a whole lot more than conversation.
One significant way to increase your microbe health and diversity is to prepare your own fermented foods, in your own kitchen, from local organic produce. How much more “local and seasonal” can that be? Regular consumption of these naturally fermented foods, paired with a whole food diet can reverse a plethora of current health patterns such as inflammation, gluten sensitivity, heart disease, diabetes, depression, arthritis, diabetes…the list goes on and on.
Watch for the new online version of our “Make Your Own Fermented Foods Course” coming soon! If you’d like to be notified when this online course is available, email us at email@example.com.