Plymouth (UK): Some ant species are struggling to follow trails, as warming temperatures cause a certain pheromone they use to communicate to decay. The water fleas Daphnia are finding it harder to evade predators as CO2 levels rise in the water. And in coral reefs, the colourful and pretty damselfish are losing their ability to learn who their predators are. All have been caused in some way by arguably the biggest change of all: climate change.
Saha and her colleagues have led research which has shown that climate change is also changing chemical communication in marine, freshwater and land-based species, with far-reaching implications for our planet's future and human well-being. Chemical communication plays an essential role in well-functioning ecosystems. This language of life regulates interactions between organisms and is essential to the environment, and ultimately, all life on Earth.
Interactions through so-called info chemicals are perhaps the oldest and most widespread form of communication on the planet. Infochemicals provide the basis for the vast majority of ecological processes across the tree of life, in both land and water, by serving as cues or signals that are present on the surface of organisms themselves or released into the surrounding environment. They also help shape natural ecosystems by maintaining their equilibrium and, in doing so, support the provision of many things that are of great importance to humans, including food and clean water.
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Info-chemicals influence a broad range of functions and behaviour such as the relationship between predator and prey. For example, sharks use these chemicals to sniff out their prey over mind-boggling distances. Bear in mind that any chemical you can smell is probably an info chemical, often intended for a different species. For instance, the smell of a pine forest that is, the presence of certain chemicals signals something different to a human, a bear or an ant. These chemicals can affect foraging and feeding too. For example, info chemicals are released by some plant species to attract pollinators but repel those that may cause harm. In some cases, a plant under attack may even tell its neighbours of impending doom so they can respond accordingly.
Infochemicals can influence habitat selection. They're how barnacle larvae select a suitable surface on which to attach. For example, info chemicals are also used by species to recognise potential mates and boost their chances of reproducing. For example, some bat species can sniff out a mate with the greatest genetic diversity.