In BriefResearchers from Oregon State University have obtained a tick preserved in amber from 20 - 30 million years ago. The tick was engorged with primate blood and leaked it into the sap.
Paging John Hammond
The tick was fat with blood before it died, having just feasted on a monkey. But searching fingers likely found the bug nestled in its host’s fur during a grooming ritual.
Primates bond by picking at each other to look for parasites. That practice is good for the health of a monkey community, but it was very bad for the ancient tick that ended up flung aside and caught in tree sap.
Engorged with blood and strained from being plucked roughly from its host, the bug’s body burst. As it died, two small holes in its back leaked monkey blood into the sticky grave.
That bit of tree sap hardened into amber over the next 20 to 30 million years, and recently emerged from a mine in the Dominican Republic. It has now made its way to a laboratory at Oregon State University.
Under a microscope, those squirts of blood were found to be the first fossilized red blood cells from a mammal ever discovered — and they give key insights into life in the ancient Hispaniolan forest.
Ancient Monkey Blood
The biologist George Poinar Jr. examined the fossil, filing down the amber down so that the ancient arachnid was just five-hundredths of a millimeter from the surface. The blood that leaked from those two holes on its back was spread out and naturally stained in the congealed sap, almost as if prepared for examination in a lab. Poinar could tell the blood came from a monkey based on the shape and diameter of the cells.
But mixed into the blood was another parasite even smaller than the tick: Babesia microti, a protozoan parasite that’s still around today.
B. microti still travels in ticks, and infects primates when its host sucks their blood. In humans, it causes a malaria-like disease called babesiosis.
When Poinar cracked the tick fossil open after thoroughly studying the intact bug, he found b. microti at all of its several life stages in the tick’s gut.
The discovery of this ancient b. microti, beautifully preserved in amber, gives researchers a new minimum earliest date for the emergence of the parasite. And the whole fossil, tiny as it is, therefore tells a complex story about the life cycles of creatures living in the Caribbean islands millions of years ago.