PAL
Palmer LTER: Long-Term Ecological Research on the Antarctic Marine Ecosystem: Looking Back in Time Through Marine Ecosystem Space.
Poster Number: 129 Presenter/Primary Author: Hugh Ducklow The Palmer Station region on the western shore of the Antarctic Peninsula, site of Palmer LTER, is one of the most rapidly warming regions on Earth, especially in winter.
Physical forcing of a Western Antarctic Peninsula ecosystem: observations from a coastal ocean observing network at Palmer Station.
Poster Number: 122 Presenter/Primary Author: Travis Miles Local polar marine food webs are undergoing large shifts in composition and structure along the Western Antarctic Peninsula (WAP).
Transport of Warm Upper Circumpolar Deep Water onto the Western Antarctic Peninsula Continental Shelf
Poster Number: 90 Presenter/Primary Author: Doug Martinson Five thermistor-moorings were placed on the continental shelf of the western Antarctic Peninsula (between 2007 and 2010) in an effort to identify the mechanism(s) responsible for delivering warm Up
Evaluation of Southern Ocean O2/Ar-based Net Community Production (NCP) Measurements
Poster Number: 87 Presenter/Primary Author: Scott Doney Sea-air biological O2 flux assessed from measurements of surface O2 supersaturation in excess of that of Ar is used commonly to constrain net community production (NCP) in the
Carbon fluxes and pelagic ecosystem dynamics around two western Antarctic Peninsula Adélie penguin colonies: an inverse model approach.
Poster Number: 71 Presenter/Primary Author: Sevrine Sailley Using Palmer LTER data from annual summer sampling cruises, a food-web inverse model for the Western Antarctic Peninsula (WAP) pelagic food web was constrained, and model solutions were generated f
