To assess the influence of global climate change at the regional scale, we examine past and future changes in key climate, hydrological, and biophysical indicators across the US Northeast (NE). We first consider the extent to which simulations of twentieth century climate from nine atmosphere-ocean general circulation models (AOGCMs) are able to reproduce observed changes in these indicators. We then evaluate projected future trends in primary climate characteristics and indicators of change, including seasonal temperatures, rainfall and drought, snow cover, soil moisture, streamflow, and changes in biometeorological indicators that depend on threshold or accumulated temperatures such as growing season, frost days, and Spring Indices (SI). ...
The objective of this dissertation research is to better understand the hydrological impacts of clim...
Shifting climatic regimes can increase or decrease the frequency of extreme hydrologic events (e.g.,...
Future changes to the hydrological cycle are projected in a warming world, and any shifts in drought...
To assess the influence of global climate change at the regional scale, we examine past and future c...
Study region: Northeast and Midwest, United States. Study focus: Assessing the climate change impac...
Given the coarse scales of coupled atmosphere-ocean global climate models, regional climate models (...
Climate projections at relevant temporal and spatial scales are essential to assess potential future...
Climate projections at relevant temporal and spatial scales are essential to assess potential future...
Study region: Northeast and Midwest, United States. Study focus: Assessing the climate change impact...
A high resolution regional climate model (RCM) is used to simulate climate of the recent past and to...
Abstract Potential changes in summertime hydroclimatology over the northeastern (NE) region of the U...
Climate variability at the regional scale poses a challenge to short-term adap- tation and mitigatio...
Hydrology is embedded in climate. The water potentially available for human use and management, Q, i...
The northeastern United States is one of the most variable climates in the world, and how climate ex...
Abstract As the most severe drought over the Northeastern United States (NEUS) in the past century, ...
The objective of this dissertation research is to better understand the hydrological impacts of clim...
Shifting climatic regimes can increase or decrease the frequency of extreme hydrologic events (e.g.,...
Future changes to the hydrological cycle are projected in a warming world, and any shifts in drought...
To assess the influence of global climate change at the regional scale, we examine past and future c...
Study region: Northeast and Midwest, United States. Study focus: Assessing the climate change impac...
Given the coarse scales of coupled atmosphere-ocean global climate models, regional climate models (...
Climate projections at relevant temporal and spatial scales are essential to assess potential future...
Climate projections at relevant temporal and spatial scales are essential to assess potential future...
Study region: Northeast and Midwest, United States. Study focus: Assessing the climate change impact...
A high resolution regional climate model (RCM) is used to simulate climate of the recent past and to...
Abstract Potential changes in summertime hydroclimatology over the northeastern (NE) region of the U...
Climate variability at the regional scale poses a challenge to short-term adap- tation and mitigatio...
Hydrology is embedded in climate. The water potentially available for human use and management, Q, i...
The northeastern United States is one of the most variable climates in the world, and how climate ex...
Abstract As the most severe drought over the Northeastern United States (NEUS) in the past century, ...
The objective of this dissertation research is to better understand the hydrological impacts of clim...
Shifting climatic regimes can increase or decrease the frequency of extreme hydrologic events (e.g.,...
Future changes to the hydrological cycle are projected in a warming world, and any shifts in drought...