Zombie-like microbes could impact climate change
As Jay Lennon from Michigan State University explains in his latest paper, “Microbial seed banks: the ecological and evolutionary implications of dormancy” in Nature Reviews: Microbiology, when the going gets rough, microbes can just check out and wait for better times.
“There’s this transition region between life and death and maybe this is how it relates to undead and zombie- like organisms,” Lennon says in a video about his work.
Microbes are the undead of the living world, as they tend to exist in this in-between state for a good part of the time. In soils, about 90 percent of the microbes are dormant, and nearly half the species, Lennon points out.
Though they’re not active, the microbes still add to the genetic pool and are available as a population boost when necessary, contributing to what Lennon calls “microbial seed banks.” These dormant species can revive in new conditions, lending to the adaptability of microbes in a changing world.
Lennon points out that there is a cost to be a zombie-like. They need special genes and functions to enter into and out of the undead, and in dormancy they still require some energy to keep molecules in a good state of repair so that DNA doesn’t degrade. But all in all, microbes seem to do well by the strategy.
Lennon says these dormant microbes may have an important role to play in climate change, since microbes in general can impact the release of carbon in to the atmosphere through metabolizing elements in the soil.
“When we think about climate change, microbes are pretty integral to the whole process and understanding what’s going to happen under climate change scenarios,” he says.
Lennon adds, “This fundamentally changes the way we think about the contribution of microorganisms to global bio-geo-chemical cycles and potentially how systems would change under shifting climate regimes.”
More research is needed to understand the exact impacts. Here’s a video of Lennon talking about his research into microbes.
Invasive species can trigger mass extinction
Invasive species are becoming more rampant today as a result of climate change and other factors. Changes in precipitation and temperature patterns often favor invasives, which have an uncanny ability to adapt and spread in stressed ecosystems.
During the Devonian, sea levels rose and two continents, Euramerica and Gondwana, closed in to form the single land mass of Pangea. In the process, certain species gained access to new ecosystems, thriving in ways that out-competed the natives.
Stigall claims that the extinction rate during the late Devonian was actually not all that different than background levels. Instead, she looks at the loss of species from the standpoint of speciation. In other words, the creation of new species through subdivisions in populations and dispersals to new territories.
Examining the lifeline (or clade) of three types of shelled invertebrates and a predatory crustacean, she found that the creation of new species through subdivisions in the population — called vicariance — was almost non-existent during this time period. This is unusual compared to other geologic periods and points to the invasion of certain species as the cause for biodiversity loss in the Devonian, she claims. As species went extinct, no daughter species filled the ecological niches left open.
Stigall writes that modern day extinctions may be the result of a similar situation as human-induced invasive species take over ecosystems leaving few opportunities for natives to adapt.