John C. King scite author profile

The climate of the Western Antarctic Peninsula (WAP) is the most rapidly changing in the Southern Hemisphere, with a rise in atmospheric temperature of nearly 3°C since 1951 and associated cryospheric impacts. We demonstrate here, for the first time, that the adjacent ocean showed profound coincident changes, with surface summer temperatures rising more than 1°C and a strong upper‐layer salinification. Initially driven by atmospheric warming and reduced rates of sea ice production, these changes constitute positive feedbacks that will contribute significantly to the continued climate change. Marine species in this region have extreme sensitivities to their environment, with population and species removal predicted in response to very small increases in ocean temperature. The WAP region is an important breeding and nursery ground for Antarctic krill, a key species in the Southern Ocean foodweb with a known dependence on the physical environment. The changes observed thus have significant ecological implications.

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Absence of 21st century warming on Antarctic Peninsula consistent with natural variability

Turner

White

et al. 2016

Nature

626

494

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While global mean surface air temperature (SAT) has increased over recent decades, the rate 28 of regional warming has varied markedly 10 , with some of the most rapid SAT increases 29 recorded in the polar regions [11][12][13] . In Antarctica, the largest SAT increases have been 30 observed in the Antarctic Peninsula (AP) and especially on its west coast 1 : in particular, 31Vernadsky (formerly Faraday) station (Fig. 1) experienced an increase in annual mean SAT 32 of 2. 8° C between 1951 and 2000. 33 The AP is a challenging area for the attribution of the causes of climate change 34 because of the shortness of the in-situ records, the large inter-annual circulation variability 14 35 and the sensitivity to local interactions between the atmosphere, ocean and ice. In addition, 36 the atmospheric circulation of the AP and South Pacific are quite different between summer 37 (December -February) and the remainder of the year. 38Since the late 1970s the springtime loss of stratospheric ozone has contributed to the 39 warming of the AP, particularly during summer 7 . However, during the extended winter 40 period of March -September, when teleconnections between the tropics and high southern 41 latitudes are strongest 15 , tropical sea surface temperature (SST) anomalies in the Pacific and 42Atlantic Oceans 16 can strongly modulate the climate of the AP. The teleconnections are 43 further affected by the mid-latitude jet, which influences regional cyclonic activity and AP 44SATs. While the jet is strong for most of the year, during the summer it is weaker, there are 45 fewer cyclones, and tropical forcing plays little part in AP climate variability. 46The annual mean SAT records from six coastal stations located in the northern AP 47 (Fig. 1) show a warming through the second half of the Twentieth Century, followed by little 48 change or a decrease during the first part of the Twenty First Century 17 . We investigate the 49 3 differences in high and low latitude forcing on the climate of the AP during what we 50 henceforth term the 'warming' and 'cooling' periods, focussing particularly on the period 51 since 1979, since this marks the start of the availability of reliable, gridded atmospheric 52 analyses and fields of sea ice concentration (SIC). We use a stacked and normalized SAT 53 anomaly record (Fig. 2a) response to stratospheric ozone depletion and increasing greenhouse gas concentrations 5,18 . 68The trend in the SAM led to a greater flow of mild, north-westerly air onto the AP (Extended 69 Data Fig. 2a), with SAT on the northeastern side increasing most because of amplification 70 through the foehn effect 7 . This atmospheric circulation trend contributed to the large decrease 71 in SIC in summer (Extended Data Fig. 3a) and for the year as a whole (Fig. 3a). However, 72there was no significant trend in annual mean sea level pressure (SLP) across the AP during 73 4 the warming period (Fig. 3b). During the summer, tropical climate variability had little 74 influence on the AP SATs 15 and the trend in the...

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The Impact of a Changing Southern Hemisphere Annular Mode on Antarctic Peninsula Summer Temperatures

et al. 2006

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Since the mid-1960s, rapid regional summer warming has occurred on the east coast of the northern Antarctic Peninsula, with near-surface temperatures increasing by more than 2°C. This warming has contributed significantly to the collapse of the northern sections of the Larsen Ice Shelf. Coincident with this warming, the summer Southern Hemisphere Annular Mode (SAM) has exhibited a marked trend, suggested by modeling studies to be predominantly a response to anthropogenic forcing, resulting in increased westerlies across the northern peninsula.Observations and reanalysis data are utilized to demonstrate that the changing SAM has played a key role in driving this local summer warming. It is proposed that the stronger summer westerly winds reduce the blocking effect of the Antarctic Peninsula and lead to a higher frequency of air masses being advected eastward over the orographic barrier of the northern Antarctic Peninsula. When this occurs, a combination of a climatological temperature gradient across the barrier and the formation of a föhn wind on the lee side typically results in a summer near-surface temperature sensitivity to the SAM that is 3 times greater on the eastern side of the peninsula than on the west. SAM variability is also shown to play a less important role in determining summer temperatures at stations west of the barrier in the northern peninsula (ϳ62°S), both at the surface and throughout the troposphere. This is in contrast to a station farther south (ϳ65°S) where the SAM exerts little influence.

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John C. King

Rapid climate change in the ocean west of the Antarctic Peninsula during the second half of the 20th century

Absence of 21st century warming on Antarctic Peninsula consistent with natural variability

The Impact of a Changing Southern Hemisphere Annular Mode on Antarctic Peninsula Summer Temperatures

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