Keyphrases
Tephra Deposition
48%
Mount Mazama
48%
Diatoms
27%
Mid-Holocene
27%
Washington
26%
Oregon
20%
Multiple Cores
20%
Holocene Eruptions
20%
North Cascades
20%
Tephrochronology
20%
Disturbance Regime
20%
Forest Environment
20%
Tephra
19%
High-resolution
19%
Aquatic Ecosystems
15%
High-resolution Studies
13%
Pollen Assemblages
13%
Impact Regimes
13%
Local Effects
13%
Diatom Analysis
13%
Diatom Assemblages
13%
Long-term Trends
13%
Holocene Environmental Change
13%
Pollution
13%
Bayesian Modeling
13%
Tephra Impact
13%
Pacific Northwest
13%
Mazama Tephra
13%
Glacier Peak
13%
Aquatic Macrophytes
12%
Tephra Deposits
12%
Environmental Change
12%
Partial Redundancy Analysis
12%
Oceanic Teleconnection
10%
Impact Disturbance
6%
Palaeolimnology
6%
Cryptotephra
6%
Multiple Proxies
6%
Holocene Record
6%
Circulation Patterns
6%
Tephra Fall
6%
Isotope Analysis
6%
Distal Tephra
6%
Developmental Changes
6%
Isolated Basins
6%
Pediastrum
6%
Hydrological Change
6%
Tephra Geochemistry
6%
Equisetum
6%
Myriophyllum Spicatum
6%
Earth and Planetary Sciences
Tephra
100%
Holocene
84%
Diatom
69%
United States of America
46%
Oregon
41%
Climate Change
36%
Washington
30%
North America
27%
Volcanic Eruption
20%
Plinian Eruption
20%
Postglacial
20%
Tephrochronology
19%
Teleconnection
15%
Planetary Atmosphere
15%
Environmental Change
14%
Microfossil
13%
Ice Core
13%
Late Pleistocene
12%
Aquatic Ecosystem
12%
Water Column
10%
Deep Water
8%
Greenland
6%
Environmental Consequence
6%
Taphonomy
6%
Canada
6%
United States
6%
Paleoecology
6%
Stratigraphy
6%
Aquatic Macrophytes
6%
Atmospherics
5%
Regional Climate
5%
Climate Condition
5%
Climate Cycle
5%
Data Lake
5%
El Nino-Southern Oscillation
5%
Spectrum Analysis
5%
Pacific Region
5%
Trade Wind
5%
Wavelet Analysis
5%
