As any six-year-old can tell you, toucans are named Sam, speak English, and push mini fruit doughnuts like they’re going out of style. As any ornithologist can tell you, toucans are jungle birds playing a vital role in helping spread the seeds in their favourite fruits far from the parent plant. As any geocacher can tell you a good GPS unit can save you a lot of crawling on your belly through the underbrush. Recently a group of scientists combined the latter two nuggets of wisdom to develop tools for studying avian roles in forest dynamics. Turns out you can learn a lot more from Toucans than what passes as part of a complete breakfast.
Like all other forms of life, plants employ a wide variety of strategies to ensure the success of the next generation and the propagation of their own genes. Whereas human parents tend to perform two am feedings and invest in high quality car seats, members of the plant community are more limited in their ability to nurture their descendants. Indeed, the extent of plant “parenting” is often limited to giving their seeds the best possible chance of settling on a great growing location. Unlike human infants, the best place for young plants tends not to be under the watchful leaf of their parent plant but much further afield. There are several reasons that a little more separation is often the right answer for a seedling plant. Firstly, competition for resources like light, water, and soil nutrients is often higher around the base of their parent plant. There are also plant parasites like insects and fungi that tend to congregate around the older plants.
In order to give young plants the autonomy so desperately desired by myriad human teenagers, plants produce seeds with built-in travel mechanisms. Some seeds have sails or propellers for dispersal by wind, some float for water dispersal, and still more have hooks to catch on the fur of animals or the socks of hikers and be carried away. By far the most delicious solution, however, is encasing seeds within fruits. In this case animals are able to eat the fruit and unwittingly scatter the tougher seeds as they travel, often with a batch of home-made fertilizer. This is the strategy used by the tropical Virola nobilis tree, the fruits of which are frequent breakfast choices for toucans.
While seed dispersal is an important key to understanding forest ecosystems, studying how animals and birds disperse seeds by tracing either party can be difficult or even impossible. To get around the technical limitations inherent in clumsy, flightless humans trying to follow swift, winged toucans, a group of scientists employed some pretty slick technology. This group attached mini-backpacks equipped with GPS and 3D accelerometer units to wild toucans to study the feeding habits and movements of the toucans. The clumsy humans, instead of swinging through the trees, used the accelerometer readings to determine when the birds were eating, used the GPS readings to determine when and where they were traveling, and used zoo-dwelling toucans snacking on the same food to determine how long after eating they generally regurgitated the seeds. Using these methods, researchers can study how bird populations contribute to the overall makeup of the forest.
Ecosystems, like forests, are truly a community effort. Every plant, animal, bacterium, fungus, and forgotten grad student plays a specific role in the maintenance of that ecosystem and the survival of all the other species. It’s no breakfast cereal cash cow, but through seed dispersal, real toucans are a vital piece of the forest ecosystem puzzle.
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