Tropical Marine Ecology. Daniel M. Alongi
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Название: Tropical Marine Ecology

Автор: Daniel M. Alongi

Издательство: John Wiley & Sons Limited

Жанр: Биология

Серия:

isbn: 9781119568926

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СКАЧАТЬ storage at low latitudes. Tropical warming results from the interplay between increased stratification and equatorward heat transport by the subtropical gyres, which redistributes heat from the subtropics to the tropics (Dias et al. 2020).

      Projections (Bindoff et al. 2019) are that by 2100 the ocean is very likely to warm by 2–4 times as much for low emissions (IPCC scenario RCP2.6) and 5–7 times as much for the IPCC's ‘business‐as‐usual’ scenario (RCP8.5) compared with the observed changes since 1970. The top 200 m of the upper ocean will continue to stratify to 2100 in the very likely range of 1–9% and 12–30% for scenarios RCP2.6 and RCP8.5, respectively.

      Source: Church et al. (2013), Collins et al. (2013), Bindoff et al. (2019) and Oppenheimer et al. (2019). © John Wiley & Sons.

Region Salinity a Precipitation b Sea‐level rise c
N. South America 0 to 5 ↑ −10 to 40% ↓ 0.22 to 0.24 m
E. South America 0 to 5 ↑ 0 to 10% ↑ 0.18 to 0.20 m
Caribbean and W. Central America 0.5 to 1.0 ↑ −20 to 10% ↓ 0.18 to 0.20 m
Central West Africa 0 to 1.5 ↓ 10 to 20% ↑ 0.20 to 0.24 m
Central East Africa 0 to 2.0 ↓ 10 to 50% ↑ 0.20 to 0.24 m
Red Sea/Arabian Peninsula No change −10 to 10% ↔ 0.22 to 0.24 m
South Asia 0 to 5 ↑ −40 to 10% ↓ 0.18 to 0.24 m
SE Asia 0 to 1.0 ↓ 0 to 20% ↑ 0.18 to 0.20 m
N. Australia No change 0 to 10% ↓ 0.18 to 0.20 m
E. Australia No change −10 to 0% ↓ 0.18 to 0.20 m
Oceania No change 0 to 10% ↑ 0.18 to 0.22 m

      a Range of projected sea surface salinity changes for 2081–2100 relative to the 1986–2005 reference period.

      b Range of projected changes in December to February precipitation for 2081–2100 relative to 1986–2005. Data from Collins et al. (2013).

      c Range of ensemble mean projections of the time‐averaged dynamic and steric sea‐level changes for the period 2081–2100 relative to 1986–2005. Data from Church et al. (2013) and Oppenheimer et al. (2019).

      2.7.4 Changes in Ocean Circulation

      Increasing ocean heat is resulting in changes in ocean circulation. Models of ocean heat content (OHC) indicate that the poleward OHC substantially reduce (increase) in the Northern (Southern) Hemisphere, with circulation changes varying among subtropical gyres and among western and eastern boundary currents (Dias et al. 2020). In the North Atlantic Current, ocean heat transport (OHT) weakens at all depths, whereas it strengthens at the surface and weakens at mid‐depth in the subtropical gyre. The Gulf Stream has weakened but the Canary and North Equatorial Currents have increased. Changes in the North Atlantic subtropical gyre and associated OHT reduction suggest that heat moving poleward with the Gulf Stream/North Atlantic Current has reduced, and the extra heat, stored passively in the gyres, transported equatorward via eastern boundary currents, and equatorial currents. Similar changes have also been observed in the Pacific and Indian Ocean. The intensification of the equatorial currents should transport extra heat both westward and eastward via the complex system of equatorial currents and counter currents. OHT associated with the Brazil Current should intensify, contributing to the poleward OHT in the Southern Hemisphere. In the South Atlantic, a shift from equatorward OHT to poleward is predicted to result in an intensification of the Brazil Current.

      Whether there is an emerging trend of global ocean circulation is not yet clear, but there is a significant increasing trend in the globally integrated, ocean kinetic energy since the early 1990s, indicating a substantial acceleration of global mean ocean circulation (Hu et al. 2020). This increase in kinetic energy is especially prominent in the global tropical ocean, reaching depths of several thousand meters, and induced by a planetary intensification of surface winds. However, regional trends are diverse; the Agulhas Current has not intensified, but shallow cells in the Pacific Ocean have accelerated in response to intensified trade winds since the early 2000s, contributing to a recent warming hiatus and leading to an increased leakage СКАЧАТЬ