Cretaceous resinous interval
The Cretaceous resinous interval was a period of time where there was a high rate of resin production creating large deposits of amber. It occurred during the Cretaceous period for about 54 million years from the Barremian to the Campanian ages. The cause was a mix of both living and environmental factors. High temperatures from volcanic activity and increased Carbon dioxide levels fueling large storms and wildfires caused ice to be absent from the poles and favored the growth of resin-producing forest at high latitudes.
While there is a preservation bias for amber deposits to be more preserved in the northern hemisphere, it is suspected that this was a global phenomenon. The overrepresentation of amber deposits in the northern Hemisphere compared to the southern Hemisphere makes amber deposits found in the southern hemisphere during this time valuable for reconstructing the palaeobiology and biodiversity of forest on Gondwana.
Cause
The cause of the Cretaceous resinous interval was complex involving both abiotic and biotic factors. It is still being studied to the extent each of these factors had in the cause of this time period and likely requires a multidisciplinary approach. The environment played a large role for during the Cretaceous period. The global average temperature during the Cretaceous was higher due to an increased volcanic activity and Carbon dioxide levels, causing ice to be absent on the poles. This allowed for the development of forests to occur at higher latitudes. Heavy rainfall also favored the development of forest at higher altitudes with higher rates of resin production. Increased rates of wildfires, storms, and hurricanes causing damage to trees increase the amount of resin too.Biotic factors played a large role during this time too. The high temperatures and humidity during this time caused pathogenic activity. Damage to the plants cause by arthropod species were a major factor in the production of resin. Resin also produces insect-attracting compounds which may explain the large amount of bioinclusions.