In Search of Fingerprints of the Recent Intensification of the Ocean Water Cycle

Unprecedented changes in Earth’s water budget and a recent boom in salinity observations prompted the use of long-term salinity trends to fingerprint the amount of freshwater entering and leaving the oceans (the ocean water cycle). Here changes in the ocean water cycle in the past two decades are ex...

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Bibliographic Details
Published in:Journal of climate 2017-07, Vol.30 (14), p.5513
Main Authors: Vinogradova, Nadya T, Ponte, Rui M
Format: Article
Language:English
Subjects:
Amplification
Anthropogenic factors
Atmospheric precipitations
Boom
Circulation
Climate
Climate change
Climate variability
Earth
Estimates
Evaporation
Fingerprinting
Fingerprints
Fluxes
Frameworks
Freshwater
General circulation models
Gyres
Hemispheres
Hydrologic cycle
Hydrological cycle
Hydrology
Inland water environment
Ocean circulation
Ocean currents
Oceans
Precipitation
Rain
Rain gauges
Regional variations
Saline water
Salinity
Salinity effects
Salinity measurements
Surface salinity
Surface water
Time
Trends
Tropical climate
Variability
Water
Water budget
Water circulation
Water resources
Water shortages
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Summary:Unprecedented changes in Earth’s water budget and a recent boom in salinity observations prompted the use of long-term salinity trends to fingerprint the amount of freshwater entering and leaving the oceans (the ocean water cycle). Here changes in the ocean water cycle in the past two decades are examined to evaluate whether the rain-gauge notion can be extended to shorter time scales. Using a novel framework it is demonstrated that there have been persistent changes (defined as significant trends) in both salinity and the ocean water cycle in many ocean regions, including the subtropical gyres in both hemispheres, low latitudes of the tropical Pacific, the North Atlantic Subpolar Gyre, and the Arctic Ocean. On average, the ocean water cycle has amplified by approximately 5% since 1993, but strong regional variations exist (as well as dependency on the surface freshwater flux products chosen). Despite an intensified ocean water cycle in the last two decades, changes in surface salinity do not follow expected patterns of amplified salinity contrasts, challenging the perception that if it rains more the seas always get fresher and if it evaporates more the seas always get saltier. These findings imply a time of emergence of anthropogenic hydrological signals shorter in surface freshwater fluxes than in surface salinity and point to the importance of ocean circulation, salt transports, and natural climate variability in shaping patterns of decadal change in surface salinity. Therefore, the use of salinity measurements in conjunction with ocean salt fluxes can provide a more meaningful way of fingerprinting changes in the global water cycle on decadal time scales.
ISSN:0894-8755
1520-0442
DOI:10.1175/JCLI-D-16-0626.1">