Add to ORKGABSTRACT. Long-term ice records (1823-1994) from six sites in different parts of the Laurentian Great Lakes region were used to show the type and general timing of climatic changes throughout the region. The general timing of both freeze-up and ice loss varies and is driven by local air temperatures, adjacent water bodies and mixing, and site morphometry. Grand Traverse Bay and Buffalo Harbor represent deeper-water environments affected by mixing of off-shore waters; Chequamegon Bay, Menominee, Lake Mendota, and Toronto Harbor represent relatively shallow-water, protected environments. Freeze-up dates gradually became later and ice-loss dates gradually earlier from the start of records to the 1890s in both environments, marking the end of t...
In recent decades, lakes have experienced unprecedented ice loss with widespread ramifications for w...
Calculated upon the basis of Bruckner climatological cycle of 33 years, the retreat of the Des Moine...
Lake ice loss has been detected worldwide due to recent climate warming, yet spatially and temporall...
Several studies have shown that long series of lake ice observations can serve as a proxy climate re...
Lake ice phenology (timing of ice breakup and freeze up) is a sensitive indicator of climate. We acq...
Long-term lake ice phenological records from around the Northern Hemisphere provide unique sensitive...
One of the most notable ways the Laurentian Great Lakes impact the region’s climate is by augmenting...
The influence of the Laurentian Great Lakes on the climate of surrounding regions is significant, es...
Formation of lake ice is common in lakes located in mid and high latitudes. Lake ice plays a vital r...
Various studies have shown that changes over time in spring ice-out dates can be used as indicators ...
This dissertation presents a statistical analysis of climatic variability around the Great Lakes reg...
We examined spatial patterns of trends in ice phenology and duration for 65 waterbodies across the G...
A 39-winter (1963–2001) record of annual maximum ice concentration (AMIC), the maximum fraction of l...
Abstract. Lake ice phenology parameters (dates of ice onset and thaw) provide an integrative climati...
Ice-out dates have become signifi-cantly earlier in New England since the 1800’s. Ice-out dates chan...
In recent decades, lakes have experienced unprecedented ice loss with widespread ramifications for w...
Calculated upon the basis of Bruckner climatological cycle of 33 years, the retreat of the Des Moine...
Lake ice loss has been detected worldwide due to recent climate warming, yet spatially and temporall...
Several studies have shown that long series of lake ice observations can serve as a proxy climate re...
Lake ice phenology (timing of ice breakup and freeze up) is a sensitive indicator of climate. We acq...
Long-term lake ice phenological records from around the Northern Hemisphere provide unique sensitive...
One of the most notable ways the Laurentian Great Lakes impact the region’s climate is by augmenting...
The influence of the Laurentian Great Lakes on the climate of surrounding regions is significant, es...
Formation of lake ice is common in lakes located in mid and high latitudes. Lake ice plays a vital r...
Various studies have shown that changes over time in spring ice-out dates can be used as indicators ...
This dissertation presents a statistical analysis of climatic variability around the Great Lakes reg...
We examined spatial patterns of trends in ice phenology and duration for 65 waterbodies across the G...
A 39-winter (1963–2001) record of annual maximum ice concentration (AMIC), the maximum fraction of l...
Abstract. Lake ice phenology parameters (dates of ice onset and thaw) provide an integrative climati...
Ice-out dates have become signifi-cantly earlier in New England since the 1800’s. Ice-out dates chan...
In recent decades, lakes have experienced unprecedented ice loss with widespread ramifications for w...
Calculated upon the basis of Bruckner climatological cycle of 33 years, the retreat of the Des Moine...
Lake ice loss has been detected worldwide due to recent climate warming, yet spatially and temporall...