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Over the last few decades, bees have seen an invasion of very dangerous foes. Parasites straight out of a horror movie, like a carapace woody, microscopic mites that infect the trachea (that's the breathing tubes) of bees. Here, they lay their eggs and feed on the fluids of their victims, weakening them considerably and spending their whole life inside the bees. Or Varroa destructor, a fitting name because they can only reproduce in honeybee hives and are one of the bees' greatest enemies. The female mite enters a honey bee brood cell and lays eggs on the bee lava before it's about to pupate and before the hive bees cover the cell with a wax capping. The eggs hatch and the young mites and their mother feed on the developing bee in the safety of the capped cell. The bee is not normally killed at this stage, just weakened, so it still has enough strength to chew its way through the wax capping and release itself from the cell. As it does, it releases the mother mite and her new offspring from the cell, and these are free to spread across the hive, starting the process over again in a cycle of about 10 days. Their numbers grow exponentially, and after a few months, this can lead to the collapse of the entire beehive. Once outside of the cell, adult mites also suck the bodily fluids of bees and weaken them considerably. To make things worse, they also transmit viruses that harm the bees even more and can lead to birth defects like useless wings. But there are other threats too, such as viruses and fungi. Under normal circumstances, these phenomena should be manageable and are not enough to explain the horrendous amount of dying going on in bees.
Over recent years new insecticides have been introduced that are deadly to bees. Neonicotinoids, a chemical family similar to nicotine, was approved in the early 1990s as an alternative to chemicals like DDT. They attack insects by harming their nervous systems. Today, they are the most widely used insecticides in the world. Globally, they saw sales of 1.5 billion euros in 2008, representing 24 percent of the global market for insecticides. In 2013, neonicotinoids were used in the U.S. on about 95 percent of corn and canola crops, and also on the vast majority of fruit and vegetables, like apples, cherries, peaches, oranges, berries, leafy greens, tomatoes, potatoes, cereal grains, rice, nuts, grapes and many more.
Bees come into contact with the toxin while collecting pollen or via contaminated water, often bringing material into the hive, where it can accumulate and slowly kill the whole colony. The toxins harm bees in a variety of horrible ways. In high enough doses, it quickly leads to convulsions, paralysis, and death. But even in small doses, it can be fatal. It may lead to bees forgetting how to navigate the world, so bees fly into the wild, get lost, and die alone, separated from their hives. If this happens often enough, a hive can lose its ability to sustain itself. We know that neonicotinoids are harmful to bees and that we urgently need an alternative to it, but there are billions of dollars to be made in delaying this.
Studies sponsored by the chemical industry magically appear to prove much lower toxicity to bees, compared to those produced by independent scientists. There are even more factors contributing to the demise of bees, like too much genetic uniformity, crop monocultures, poor nutrition due to overcrowding, stress because of human activities, and other pesticides. Each of those factors on its own is a major problem for bees, but together, they probably account for colony collapse disorder. With parasites upping their game in recent decades, the honeybees are now fighting for survival. It would be a catastrophe if they lost this fight. This is a conundrum we have to solve if we want to continue living with a relative abundance and diversity of food. Humanity is deeply interconnected with the earth and the other life forms on it, even if we pretend that we're not. We have to take better care of our surroundings, if not to preserve the beauty of nature, then at least to ensure our own survival.
The information I provided in this blog is for educational purposes only and does not substitute for professional medical advice. You should never use content in my writing as a substitute for direct medical advice from your doctor or another qualified clinician. Please consult a medical professional or healthcare provider if indicated for medical advice, diagnoses, or treatment. I am not liable for risks or issues associated with using or acting upon the information in this blog. Thank you.