Reproduction Mating is often assumed to occur in the vicinity of nesting beaches, but
copulating pairs have been reported over 1,000 km from the nearest beach. Research from Costa Rica revealed the number of copulating pairs observed near the beach could not be responsible for the fertilization of the tens of thousands of
gravid females, so a significant amount of mating is believed to have occurred elsewhere at other times of the year. Beach
fidelity is common, but not absolute. Nesting events are usually nocturnal, but diurnal nesting has been reported, especially during large
arribadas. Additionally, consumption of jellyfish and both adult fish (e.g.
Sphoeroides) and fish eggs may be indicative of pelagic (open ocean) feeding. On land, nesting females may be attacked by
jaguars. Notably, the jaguar is the only cat with a strong enough bite to penetrate a sea turtle's shell, thought to be an evolutionary adaption from the
Holocene extinction event. In observations of jaguar attacks, the cats consumed the neck muscles of the turtle and occasionally the flippers, but left the remainder of the turtle carcass for scavengers as most likely, despite the strength of its jaws, a jaguar still cannot easily penetrate an adult turtle's shell to reach the internal organs or other muscles. In recent years, increased predation on turtles by jaguars has been noted, perhaps due to habitat loss and fewer alternative food sources. Sea turtles are comparatively defenseless in this situation, as they cannot pull their heads into their shells like freshwater and terrestrial turtles. Females are often plagued by
mosquitos during nesting. Humans are still listed as the leading threat to
L. olivacea, responsible for unsustainable egg collection, slaughtering nesting females on the beach, and direct harvesting adults at sea for commercial sale of both the meat and hides. In addition, entanglement and ingestion of
marine debris is listed as a major threat for this species. Coastal development, natural disasters,
climate change, and other sources of
beach erosion have also been cited as potential threats to nesting grounds. Hatchlings which use light cues to orient themselves to the sea are now misled into moving towards land, and die from dehydration or exhaustion, or are killed on roads. The greatest single cause of olive ridley egg loss, though, results from
arribadas, in which the density of nesting females is so high, previously laid nests are inadvertently dug up and destroyed by other nesting females. In some cases, nests become cross-contaminated by
bacteria or pathogens of rotting nests. For example, in Playa Nancite, Costa Rica, only 0.2% of the 11.5
million eggs produced in a single
arribada successfully hatched. Although some of this loss resulted from
predation and high tides, the majority was attributed to
conspecifics unintentionally destroying existing nests. The extent to which
arribadas contribute to the population status of olive ridleys has created debate among scientists. Many believe the massive reproductive output of these nesting events is critical to maintaining populations, while others maintain the traditional
arribada beaches fall far short of their reproductive potential and are most likely not sustaining population levels. In some areas, this debate eventually led to legalizing egg collection. ==Economic importance==