Resolving the Beaufort Sea High using synoptic climatological methods

Abstract: Melt season frequencies of the Beaufort Sea High (BSH) have a profound effect on western Arctic climate, making the interannual spatial and temporal monitoring of this polar anticyclone important. This manuscript presents two automated synoptic climatological analyses using a two-step cluster procedure to classify daily mean sea level pressure (MSLP) over 180-120°W and 70-85°N with an emphasis on identifying BSH patterns. Separate raw and anomaly MSLP circulation pattern (CP) classifications are compared in … Show more

“…Positive GPH anomalies are found across the entire domain, unsurprisingly, but the highest values are located along the northern periphery where negative sea‐ice anomalies are observed (Figure (c)). It is also within this area of summer ice loss where Beaufort high pressure patterns tend to traverse, acting to advect near‐coastal ice cover towards the Central Arctic Ocean and enhance melting along the ice edge through the ice‐albedo feedback (Ballinger and Sheridan, ; Ballinger et al ., ). Positive, southeasterly 500 hPa vector wind, heat flux (i.e.…”

Assessing the climatic and environmental impacts of mid‐tropospheric anticyclones over Alaska

“…Positive GPH anomalies are found across the entire domain, unsurprisingly, but the highest values are located along the northern periphery where negative sea‐ice anomalies are observed (Figure (c)). It is also within this area of summer ice loss where Beaufort high pressure patterns tend to traverse, acting to advect near‐coastal ice cover towards the Central Arctic Ocean and enhance melting along the ice edge through the ice‐albedo feedback (Ballinger and Sheridan, ; Ballinger et al ., ). Positive, southeasterly 500 hPa vector wind, heat flux (i.e.…”

Assessing the climatic and environmental impacts of mid‐tropospheric anticyclones over Alaska

“…During the period 1996-2010, a predominantly anti-cyclonic sea ice circulation pattern was identified by Galley et al (2013), but a strengthening of the Beaufort Sea High over 2007-2012 during the melt season (up to þ 4 hPa sea level pressure situated between 70-85°N and 155°-135°W) induced anomalous ice/ocean circulation features across the region (Moore 2012;Ballinger et al, 2014). This amplification of the Beaufort Sea High has overall promoted an increase in easterly wind frequencies, an acceleration of the Beaufort Gyre, and an increased likelihood of the coastal Table 1 for detailed information on mooring positions, deployment periods and instrumentation.…”

Physical forcings and intense shelf–slope fluxes of particulate matter in the halocline waters of the Canadian Beaufort Sea during winter

“…Recent boreal summers have also been characterized by a changing Arctic atmospheric circulation, with increased anticyclonic flow over the Arctic (Ogi and Wallace 2012) and a more persistent negative Arctic Dipole (Overland et al 2012) associated with increased Greenland blocking and a strengthened Beaufort Sea high pressure region (Moore 2012;Wu et al 2014;Ballinger et al 2014). These have resulted in a southward displacement of the PFJ, leading to cooler wetter summers in Europe, while other areas such as North America have experienced heatwaves and droughts.…”

Drivers and potential predictability of summer time North Atlantic polar front jet variability