A MULTIPROXY INVESTIGATION OF LATE-GLACIAL CLIMATE AND VEGETATION CHANGE AT PINE-RIDGE POND, SOUTHWEST NEW-BRUNSWICK, CANADA

Pollen, plant macrofossil, chironomid, and lithological analyses of la te-glacial sediment from Pine Ridge Pond all indicate that the warming following deglaciation was punctuated on two separate occasions by a return to colder dimes; initially by a brief and moderate cold episode (the Killarney Oscillation), followed shortly by the Younger Dryas. T he Killarney Oscillation, AMS C-14 dated at between 11,290 and 10,960 yr B.P., is characterized by abrupt and simultaneous increases in Betu la (birch) pollen and Betula glandulosa (dwarf birch) macrofossils and a decline in tree pollen. The Younger Dryas is distinguished by the r eversion of a short-lived closed Picea (spruce) forest to a prolonged forest-tundra stage(ca. 10,820 to 9500 (?) yr B.P.), during which macr ofossils of arctic/alpine plants such as Salix herbacea, Cassiope hypn oides, Armeria maritima, and Thalictrum alpinum make their sole late-g lacial appearance. Chironomid-inferred summer surface-water temperatur es indicate a cooling of approximately 8 and 12 degrees C during the K illarney Oscillation and Younger Dryas, respectively, and coarse-sand analysis indicates increased erosion on the landscape during these sam e intervals. (C) 1994 University of Washington.