Humans and germs: An ecosystem analysis
The novel coronavirus pandemics has been around for some time. Most of the time, we deal with the viruses in an ad hoc manner. We would like to study the interactions between human societies and germs from the perspective of the whole ecosystem. This is help us understand the long term consequences of our responses to germs.
The economy of RNA life
Novel coronavirus, as well as HIV, flu viruses, have caused havoc to human societies. These viruses are all RNA viruses. Are RNA viruses very strong? On the contrary, they’re very weak. If so, how can they cause so much damage?
Many of us, as babies or parents of babies, have read Three Little Pigs. In that story, the first little pig built a straw house, the second little pig built a stick house, the last little pig built a brick house. RNA viruses are the straw house. DNA organisms are the brick house. Our immune systems can destroy RNA viruses easily, just like a wolf can destroy a straw house easily. So why RNA viruses can cause so much trouble?
It is much easier to build a straw house than a brick house. It takes a lot of time, effort and especially cost to build a brick house. When the last little pig struggled to build his brick house, the first little pig had already settled down in his straw house, raising many young piglets with his wife. Those piglets in turn build many new straw houses and raise many new babies.
RNA viruses are the same. Comparing with DNA life, RNA viruses are very cheap to make. RNA viruses can multiply very quickly in our bodies, although most of them are quickly destroyed by our immune systems.
Brick houses need some design standards. The shapes of doors, windows have to follow specific designs. Straw houses, on the other hand, are much more flexible. There is really no need for a building code for straw houses. Similarly, the structures of RNA viruses are more flexible than more complex DNA life. RNA viruses are very unstable and mutate very fast. This makes it much harder for immune systems to develop specialized antibodies to efficiently eliminate RNA viruses.
Many people expect the arrival of vaccines will eliminate coronavirus soon. However, the record of developing vaccines against RNA viruses is mixed. We have not been able to develop HIV vaccine, despite tremendous efforts. Flu vaccines are not very effective, because flu viruses, as RNA viruses, mutate very fast. DNA pathogens, such as smallpox viruses, are more stable. It is easier to develop vaccines against DNA pathogens in general. It may not be easy to find vaccines that will be effective over long time.
RNA viruses can mutate very fast. It is very easy for RNA viruses inhabiting non human hosts to acquire segments of viruses that inhabiting human hosts. It is relatively easy for RNA viruses to evolve the ability to inhabit human hosts. Even if vaccines against novel coronavirus turns out to be successful, new RNA viruses may emerge to host human species. RNA viruses can jump from species to species easily. We will face constant threat of new RNA virus pandemic, giving the high density and high mobility of human population.
If RNA viruses are so successful, maybe we can learn something from them. The key of RNA viruses’ success is their low cost and simplicity. Our modern society is too expensive to maintain. As a result, our families couldn’t afford to have two children on average. With less and less young people, our population ages. This makes our society very vulnerable to any disturbances.
We demand heavier and heavier armor to protect our aging society. But the heavy armor also wears us down. When the nimble viruses break through our containment, we are utterly exposed and helpless. To revive our aging society, we have to abandon the heavy and restrictive armor. We need to reduce our burden. We need to light ourselves up. We need to rejuvenate our society with more babies and juveniles.
RNA life are more ancient than DNA life. RNA life are simple, agile and versatile. RNA viruses have weathered all attempts to eliminate them by large and complex DNA life. The complex and clumsy machineries of human society will never eliminate the eternally young RNA life. We have to be humble, to live with them, to accept discipline from them and to learn from them.
Human beings as part of the ecosystem
We humans tend to regard ourselves as the masters of the world. But we are simply part of the ecosystem. There are more bacteria cells in and on our bodies than human cells. There are enormous amount of virus in and on our bodies as well.
We treat microbes as harmful in general. That is why we actively sterilize our environment. But most microbes around us are beneficial to us overall. Bacteria help us digest. Many viruses eat bacteria, preventing those bacteria from multiplying exponentially inside humans. The most potent antibiotics are produced by fungi. If antibiotics kill too many bacteria, fungi will overrun human bodies, for harmful fungi are no more checked by bacteria. Different kinds of microbes, by constraining each other, keep humans healthy most of the time.
Some bacteria do more harm than good tohumans. We try very hard to eliminate them or reduce their presence. We are more successful in developing vaccines or treatments against DNA based organisms, which are more stable and easier to target. But RNA viruses mutate very fast. It is more elusive to target the ever changing RNA viruses accurately. Many recent epidemics, such as HIV, influenza, and coronaviruses, are caused by RNA viruses.
When we suppress one type of microbes, we celebrate our success. But from the ecological perspective, we open a rich ecological niche, human bodies, for new hosts. This is why superbugs flourish in hospitals, where most known microbes are suppressed. When we eliminate one type of bacteria, it makes it easier for those weaker and less competitive pathogens to invade us. RNA viruses mutate very often. They make many mistake in reproduction. It is very difficult for them to compete with more stable, more powerful DNA organisms. But when humans eliminate DNA organisms, RNA viruses face less competition. It is we ourselves who make RNA viruses so successful invaders.
From the ecosystem perspective, our war against microbes is futile over long term. But microbes are not our biggest threat. Any society with below replacement fertility is doomed. The biggest threat to our society is the below replacement fertility. What is the cause for such a low fertility? There can be several reasons. One could be the overdrive of our immune systems in a sterile environment. When our immune systems face less external invaders, they often turn to our own cells. This could be the reason more auto immune diseases occur in clean environment. Women’s immune systems could also attack the cells of fetuses. There are evidences that the existence of some parasites is correlated to higher fertility rate. In a society which could not reproduce itself, measures curbing the spread of microbes may further depress fertility rate. This will further deteriorate demographic structure of a society.
Demographics and Pandemics
Novel coronavirus pandemics has spread all over the world. While few communities are spared of this scourge, communities with aging demographics are hardest hit. Younger communities are less devastated by the advance of this disease. Why demographics makes such a great difference in the face of pandemics?
The existence of microbes is not the sole reason for pandemics. Microbes have existed for billions of years. Sometimes they cause pandemics. Sometimes they don’t. They may cause pandemics in some populations. They may not cause pandemics in other populations. The occurrence and spread of pandemics are the result of interactions of the whole ecosystem. Specifically, there can be several reasons.
First, older people generally have weaker immune systems. In a population with higher percentage of older people, more people are likely to get sick from the spread of microbes.
Second, with the aging of general population, the work force is aging as well. Many people work to the age of sixty five and beyond. The advent of any disturbance will stress the senior work force more and compromise their ability to carry on the routines.
Third, the medical system and other service systems are already stretched thin even in normal times in an aging society. There is little spare capacity to cushion the extra burden. Furthermore, the arrival of a pandemics often significantly reduces the capacity of the social system. The impact of microbe invasion, or other disturbances, are much more pronounced in an aging society than in a young society.
In most of the Western societies, the birthrate has dropped below the replacement rate for several decades. Yet the policymakers pay scant attention to this vital indicator. To them, the financial markets are the leading indicator of the society. They take many measures to pop up the financial market, most of which further depress the birthrate. In Canada, pension deduction rate has been increasing continuously over time. This infuses more money into the financial market but reduces the amount of money to support young families at their most fertile period. In US, low interest rate and quantitative easing fuels the longest bull market in history. The same policies also dilute the resources to ordinary families. The birthrate in US has dropped to the lowest level in record.
Our society is not supported by the stock market. Our society is supported by food, electricity and fuels. Our society is supported by grocery stores cashiers and stockers, farmers and workers. This becomes plain and simple during crisis. We need more people, more young people with strong immune systems, more young people who can work effectively under stress. To achieve a younger demographics, we can’t keep our eyes glued to the financial indicators. We have to pay attention to birthrate and other vital biophysical indicators. This is the first step we need to take.
Natural vaccines
In times of pandemics, many of us look for vaccines to keep us safe again. What are the properties of vaccines? Vaccines should be similar enough to original pathogens. They should induce our bodies to generate immune responses that are effective on original pathogens. Vaccines should be dissimilar enough to original pathogens. They should not be as pathogenic as the original pathogens.
Researchers work hard in their labs to mutate the original pathogens in a proper way, with proper amount to generate the desired vaccines. Nature is a gigantic lab. Mutations occur everywhere, all the time. Every pathogen has many siblings, cousins and offspring. They are the natural candidates for vaccines. The very first vaccine, a cow vaccine for smallpox, was a natural vaccine from cows.
Even new vaccines are often speed up natural vaccines. Researchers inject pathogens into chicken bodies, hoping to induce the desired mutations from the interactions between pathogens and chickens.
Do we really have to wait for the lab vaccine? Among people never exposed to novel coronavirus, 40% to 60% have the same kind of T cells (a type of immune cells) as those exposed to novel coronaviruses. Coronaviruses are a big family with many cousins. Some common cold are caused by coronaviruses. Probably many of us already got vaccinated by those cousin coronaviruses.
Those natural vaccines may not be effective enough. That may be true. But artificial vaccines may not be effective enough either. There is no guarantee that artificial vaccines are more effective than natural vaccines. There is guarantee that natural vaccines offer broader spectrum protection than artificial vaccines.
To gain broad natural vaccine, it is important not to over sterilize our environment. Nature is not our enemy. Nature is our sanctuary, spiritually and physically. It gives us vaccines. It gives us vitality.
Is it healthy to sterilize our environment too much?
About one thousand years ago, there was a dynasty in China, called Song Dynasty. It was the most prosperous dynasty in Chinese history. China was the most prosperous country in the world at that time.
Like any other prosperous society, Song Dynasty faced constant threats of looting and other disturbances from its poorer neighbors. Being a prosperous dynasty, it can muster enough resources to defeat looters. But looters won’t go away. For people living close to wealthy societies, looting is their best strategy. In the end, Song Dynasty paid regular tributes to its northern neighbor, Liao, in exchange for peace. The peace had lasted for about one hundred years, with only occasional skirmishes.
Later, the northern neighbor’s further northern neighbor, Jin, rose in power. Song Dynasty saw an opportunity to revenge for the earlier humiliation. Song Dynasty made an alliance with the deep north state to destroy the state in the middle. They succeeded in eliminating the middle state, Liao. But the buffer zone in the middle is gone. The very next year, the capital city of Song Dynasty was captured by the rising state, Jin.
We might laugh at the stupidity of Song Dynasty. Liao has been the neighbor of Song for more than one hundred years. Each is quite adapted to the existence of the other. Why take an extraordinary effort to eliminate your old neighbor to expose yourself to unpredictable and aggressive newcomers?
We are all surrounded by germs, on our hands, on our skin, inside our bodies. Most of these germs are our old neighbors. They eke out a living from our bodies. Our immune systems are very familiar with them. Whenever their numbers increase rapidly, our immune systems can react rapidly to curb their growth. At the same time, these germs are our best defenders against other new and unknown germs. To these old germs, any newcomers are trespassers who should be eliminated actively. In fact, most antibiotics are produced by germs in fighting against other germs. For example, penicillin, the most important antibiotics, is originally produced by Penicillium, a type of fungi.
When we take extraordinary effort to sterilize our environment, we eliminate most of our old neighbors around us. Few old germs are left to defend against new germs our immune systems are not familiar with. We are often unprepared for these new invaders and overwhelmed by them.
We are advised to wash our hands often and sterilize our environment often. Sterilization kills most of the old germs. But it also destroys the buffer zone that keeps most of the new germs away. Is it healthy to sterilize our environment a lot?
Medical professionals work in an environment with a lot of patients, a lot of germs. It makes sense for them to seek additional protection from generous dose of antiseptics. But for ordinary people, is it a good idea to replace a layer of natural and versatile antiseptics with artificial antiseptics?
Concluding remarks
When the novel coronaviruses were spreading rapidly, it is natural to take hasty steps to stop their advance. With time, we should sit back to access the real danger. Over long term, the demographic trend in our societies pose far greater threat. Population aging is caused by the structure of our financial and social systems. The danger of an aging society becomes very clear during pandemics. This may provide us an opportunity to reflect on and reform our financial and social systems, which is very difficult in other time.
