Site Science
Evaluating and Exploring Patterns of Satellite-predicted Forest Phenology in the Southern Appalachians
Poster Number: 267 Presenter/Primary Author: Jeff Hepinstall-C... Current research indicates that warming global temperatures are capable of altering phenological cycles in deciduous forests. Potential climate inducted changes to deciduous forest phenology
Seasonal changes in open water area in the vicinity of penguin colonies near Palmer Station, northwestern Antarctic Peninsula
Poster Number: 266 Presenter/Primary Author: Sharon Stammerjohn The sea ice season in the western Antarctic Peninsula (WAP) region shows some of the fastest rates of change observed globally since 1979. The Palmer Long-Term Ecological Research (PAL LTER)
Aboveground and Belowground Responses to Nutrient Additions and Herbivore Exclusion in Arctic Tundra Ecosystems in Northern Alaska
Poster Number: 265 Presenter/Primary Author: John Moore The Exploitation Ecosystem Hypothesis (EEH) describes how food chains develop along aboveground net primary productivity (ANPP) gradients.
The impact of climate forcing on the phenology of ecological processes in the North Temperate Lakes
Poster Number: 264 Presenter/Primary Author: Jacob Walsh Recent studies have shown that physical processes and biological communities are impacted to varying degrees by global climate change.
The DIRT on Q10: Differential temperature response of soils depleted of labile inputs
Poster Number: 262 Presenter/Primary Author: Lorien Reynolds The decomposition of soil organic carbon (SOC) is expected to increase with global warming. SOC decomposition has been commonly described by kinetic models with at least two pools with slow a