Human beings are obsessed with size. We want bigger cars and bigger houses, and, of course, men want bigger you-know-whats.

But big isn't everything. A tiny insect about the size of a grain of rice, the mountain pine beetle, has devastated British Columbia's interior pine forests, threatening enormous social, economic, and ecological upheaval. The infestation, which is expected to kill close to 80% of B.C.'s mature pine forests, was caused in large part by global warming and is now contributing to climate change in its own way.

How can something so seemingly insignificant cause so much damage? The mountain pine beetle (Dendroctonus ponderosae) starts its attack when a female uses its senses to find a pine tree (usually lodgepole) that is at least 80 years old. On finding a mature tree, she bores into it while releasing a pheromone that attracts male beetles. When the sex-crazed males arrive, they secrete pheromones that attract more females. The tree responds by secreting a toxic resin that beats back a few beetles. But the beetles have another trick up their sleeves - or rather, in their mouths. They carry spores of a blue-stained fungus, which are released as they bore into the tree. The fungus puts a stop to the spread of resin and allows the beetles to keep tunnelling.

The symbiotic relationship between the beetles and fungus doesn't end there. The beetles lay eggs under the tree's bark, and when the larvae hatch, they feed on the blue fungus until they are mature enough to leave the now-dead tree, carrying the fungus in their mouths.

Under normal conditions, with fewer beetles, many trees could successfully defend themselves. But industrial forest-management practices and global warming have helped the beetles thrive. Forest-fire suppression created a huge supply of the mature lodgepole that the beetles find so appetizing. While the spread of beetles was once held back by cold winters that kill them, warmer temperatures due to global warming have allowed the insects to survive and proliferate, and to spread to areas that were once too cold for them.

The devastation caused by the beetles could exacerbate the unnatural warming that is already occurring. Normally, forests are carbon sinks; they absorb carbon dioxide, a major greenhouse gas, from the atmosphere through photosynthesis and store it in plant biomass and soils below ground. When the trees die, they stop absorbing carbon dioxide, and as they decompose, they release some of the stored carbon back into the atmosphere. In attempting to stop the beetles' spread, the B.C. government has encouraged forestry companies to clear-cut large areas of pine forest, even though there are still surviving trees of other species in the infected stands. However, the hyper pace, scale, and intensity of this logging threatens to increase greenhouse gas emissions, as CO2 is released when trees are cut down and carbon-rich forest soils are mechanically disturbed.

Instead of cutting down the infected forests, the B.C. government must ensure that the response to the crisis doesn't make a bad problem worse. Non-pine species shouldn't be killed, and large areas need to be set aside to protect the habitat of species that are vulnerable to logging, and to preserve sensitive sites such as wetlands, lakes, and rivers.

We should also learn everything we can from this epidemic, as it likely won't be the last. The mountain pine beetle outbreak is a clear example of how our actions can create ripple effects throughout the environment. We must also see this as a wake-up call about the dangers of climate change and the need for industry, citizens, and governments at all levels to do everything possible to address the problem. Just because the beetles are small doesn't mean they are insignificant.

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