HelioWebHaverford College, Pennsylvania
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I[Haverford College, Pennsylvania]
PI["Parent Institutions (0)"]
CI["Child Institutions (0)"]
AW["Affiliated Works (15)"]
CA["Linked Collaborating Authors (0)"]
I== skos:broader ==>PI
CI== skos:broader ==>I
AW== affil ==>I
AW== author ==>CA
click PI "#parent-institutions"
click CI "#child-institutions"
click AW "#affiliated-works"
click CA "#collaborating-authors"
Parent Institutions [?]
Child Institutions [?]
Affiliated Works
sorted by decreasing year, and then by display-name
- Guiding Science and Policy Through the Global Climate Change Debate
- Hydrocarbon Observations as a Function of Meteorological Regime
- The Northern Kolbeinsey Ridge, North Atlantic: Excess volcanism and ridge relocations close to Jan Mayen
- Polar Ice Sheets Drive Paleohydroclimate Affecting Terrestrial Plant Distribution and CO<SUB>2</SUB> Exchange Potential during the Upper Carboniferous
- A geochemical record of polycyclic aromatic hydrocarbons (PAHs) during the late Paleozoic Ice Age: The relationship between atmospheric pCO<SUB>2</SUB>, climate and fire.
- Biomarkers and their stable isotopes in Cenozoic sediments above the Chicxulub impact crater
- The Fossil Atmospheres Project: A novel approach for simultaneously refining the Ginkgo paleo-pCO<SUB>2</SUB> barometer & educating citizens about climate change
- Emergence of a cryptic nitrogen cycle in the co-evolution of Prochlorococcus and sympatric heterotrophs
- Forecasted changes in tundra ecosystem productivity along a north-south environmental gradient in northern Alaska
- The Fossil Atmospheres Project: A novel approach for refining the Ginkgo paleo-<SUB>p</SUB>CO<SUB>2</SUB> barometer
- Evaluating the Effect of 100s of ppm CO<SUB>2</SUB> on Carbon Isotope Discrimination in Ginkgo
- Physiological functioning of seasonally dry-adapted floras in response to changes in late Paleozoic atmospheric composition and aridity.
- The physiological landscape of the Carboniferous: Freezing, Vegetation, and Earth System Processes
- Nonlocal rheology of dense granular flows
- Using Passive Acoustics to Monitor Impending Failure in a Sheared Granular Material