Global
Climate on Verge of Multi-Decadal Change
A new study, by scientists from theUniversity of Southampton
University of Southampton
A new study, by scientists from the
The change to the new set of
climatic conditions is associated with a cooling of the Atlantic, and is likely
to bring drier summers in Britain
and Ireland , accelerated
sea-level rise along the northeast coast of the United
States , and drought in the developing countries of the Sahel region. Since this new climatic phase could be half
a degree cooler, it may well offer a brief reprise from the rise of global
temperatures, as well as resulting in fewer hurricanes hitting the United States
The study, published in Nature, proves that ocean circulation is
the link between weather and decadal scale climatic change. It is based on
observational evidence of the link between ocean circulation and the decadal
variability of sea surface temperatures in the Atlantic
Ocean .
Lead author Dr Gerard McCarthy,
from the NOC, said: “Sea-surface temperatures in the Atlantic
vary between warm and cold over time-scales of many decades. These variations
have been shown to influence temperature, rainfall, drought and even the
frequency of hurricanes in many regions of the world. This decadal variability,
called the Atlantic Multi-decadal Oscillation (AMO), is a notable feature of
the Atlantic Ocean and the climate of the
regions it influences.”
These climatic phases, referred to
as positive or negative AMO’s, are the result of the movement of heat
northwards by a system of ocean currents. This movement of heat changes the
temperature of the sea surface, which has a profound impact on climate on
timescales of 20-30 years. The strength of these currents is determined by the
same atmospheric conditions that control the position of the jet stream.
Negative AMO’s occur when the currents are weaker and so less heat is carried
northwards towards Europe from the tropics.
The strength of ocean currents has
been measured by a network of sensors, called the RAPID array, which have been
collecting data on the flow rate of the Atlantic meridonal overturning
circulation (AMOC) for a decade.
Dr David Smeed, from the NOC and
lead scientist of the RAPID project, adds: “The observations of AMOC from the
RAPID array, over the past ten years, show that it is declining. As a result,
we expect the AMO is moving to a negative phase, which will result in cooler surface
waters. This is consistent with observations of temperature in the North Atlantic .”
Since the RAPID array has only
been collecting data for last ten years, a longer data set was needed to prove
the link between ocean circulation and slow climate variations. Therefore this
study instead used 100 years of sea level data, maintained by the National
Oceanography Centre’s permanent service for mean sea level. Models of ocean
currents based on this data were used to predict how much heat would be
transported around the ocean, and the impact this would have on the sea surface
temperature in key locations.
Co-author Dr Ivan Haigh, lecturer in coastal oceanography
at the University
of Southampton
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