Historical trends in lake and river ice cover in the Northern Hemisphere
JJ Magnuson, DM Robertson, BJ Benson, RH Wynne… - Science, 2000 - science.org
JJ Magnuson, DM Robertson, BJ Benson, RH Wynne, DM Livingstone, T Arai, RA Assel…
Science, 2000•science.orgFreeze and breakup dates of ice on lakes and rivers provide consistent evidence of later
freezing and earlier breakup around the Northern Hemisphere from 1846 to 1995. Over
these 150 years, changes in freeze dates averaged 5.8 days per 100 years later, and
changes in breakup dates averaged 6.5 days per 100 years earlier; these translate to
increasing air temperatures of about 1.2° C per 100 years. Interannual variability in both
freeze and breakup dates has increased since 1950. A few longer time series reveal …
freezing and earlier breakup around the Northern Hemisphere from 1846 to 1995. Over
these 150 years, changes in freeze dates averaged 5.8 days per 100 years later, and
changes in breakup dates averaged 6.5 days per 100 years earlier; these translate to
increasing air temperatures of about 1.2° C per 100 years. Interannual variability in both
freeze and breakup dates has increased since 1950. A few longer time series reveal …
Freeze and breakup dates of ice on lakes and rivers provide consistent evidence of later freezing and earlier breakup around the Northern Hemisphere from 1846 to 1995. Over these 150 years, changes in freeze dates averaged 5.8 days per 100 years later, and changes in breakup dates averaged 6.5 days per 100 years earlier; these translate to increasing air temperatures of about 1.2°C per 100 years. Interannual variability in both freeze and breakup dates has increased since 1950. A few longer time series reveal reduced ice cover (a warming trend) beginning as early as the 16th century, with increasing rates of change after about 1850.
AAAS以上显示的是最相近的搜索结果。 查看全部搜索结果