Warming of Baltic Sea water masses since 1850

Dutheil, Cyril; Meier, H. E. Markus; Gröger, Matthias; Börgel, Florian

doi:10.1007/s00382-022-06628-z

Cited by 11 publications

(4 citation statements)

References 60 publications

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“…As described in Section 1, the exceptionally strong bottom water warming in the Bornholm Basin could have been (partly) caused by increased summer inflows and reduced winter inflows (Dutheil et al., 2022b; Kniebusch, Meier, Neumann, & Börgel, 2019). Figure 4 compares June– October (JJASO) salt import, that is, the whole “warm” inflow season, with the annual sub‐thermocline vertical temperature maximum in the Bornholm Basin.…”

Section: Resultsmentioning

confidence: 99%

“…An exceptionally strong bottom water warming compared to other basins of the Baltic Sea was detected in the Bornholm Basin (western Baltic Sea, Figure 1) (Dutheil et al., 2022b; Mohrholz et al., 2006). Mohrholz et al.…”

Section: Introductionmentioning

confidence: 99%

“…An exceptionally strong bottom water warming compared to other basins of the Baltic Sea was detected in the Bornholm Basin (western Baltic Sea, Figure 1) (Dutheil et al, 2022b;Mohrholz et al, 2006). Mohrholz et al (2006) linked it to increased summer and early autumn saltwater inflows (in the following labeled "summer inflows") which transport warm surface water from the Baltic Sea entrance area to deep layers of the western and central Baltic Sea.…”

mentioning

confidence: 99%

“…Thus, lateral advection of heat plays a major role for the warming of the deep basins in the western and central Baltic Sea (Meier et al, 2022). An exceptionally strong bottom water warming compared to other basins of the Baltic Sea was detected in the Bornholm Basin (western Baltic Sea, Figure 1) (Dutheil et al, 2022b;Mohrholz et al, 2006). Mohrholz et al (2006) linked it to increased summer and early autumn saltwater inflows (in the following labeled "summer inflows") which transport warm surface water from the Baltic Sea entrance area to deep layers of the western and central Baltic Sea.In general, the inflow of saline North Sea water into the Baltic Sea is hampered by shallow sills in the Danish straits, namely the Darss Sill (19 m) and the Drogden Sill (8 m, see Figure 1) (Mohrholz, 2018b).…”

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confidence: 99%

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Changes in Seasonality of Saltwater Inflows Caused Exceptional Warming Trends in the Western Baltic Sea

Barghorn,

Meier,

Radtke

2023

Geophysical Research Letters

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According to the Sixth Assessment Report by the Intergovernmental Panel on Climate Change (IPCC), the global mean sea surface temperature has increased by about 0.9°C since 1900 (IPCC, 2021). One of the fastest warming seas is the shallow, semi-enclosed Baltic Sea (Belkin, 2009) with an increase in sea surface temperature of about 0.3-0.6°C per decade since 1980 (Liblik & Lips, 2019;Meier et al., 2022). The surface warming is mainly driven by increasing air temperatures (Dutheil et al., 2022a; Kniebusch, Meier, Neumann, & Börgel, 2019). Since the Baltic Sea is strongly stratified, vertical exchange between the well-mixed surface layer and deep water below the permanent halocline in 50-80 m depth (Väli et al., 2013) is rather limited. Thus, lateral advection of heat plays a major role for the warming of the deep basins in the western and central Baltic Sea (Meier et al., 2022).An exceptionally strong bottom water warming compared to other basins of the Baltic Sea was detected in the Bornholm Basin (western Baltic Sea, Figure 1) (Dutheil et al., 2022b;Mohrholz et al., 2006). Mohrholz et al. (2006) linked it to increased summer and early autumn saltwater inflows (in the following labeled "summer inflows") which transport warm surface water from the Baltic Sea entrance area to deep layers of the western and central Baltic Sea.In general, the inflow of saline North Sea water into the Baltic Sea is hampered by shallow sills in the Danish straits, namely the Darss Sill (19 m) and the Drogden Sill (8 m, see Figure 1) (Mohrholz, 2018b). Very large so-called Major Baltic Inflows (MBIs) can only happen if, first, easterly winds push water out of the Baltic Sea for about 3 weeks and, second, westerly winds of a comparable duration push large amounts of saline water back over the sills (Lass & Matthäus, 1996). Such wind patterns occur roughly once per year between autumn and early spring (Matthäus & Franck, 1992;Mohrholz, 2018b). In contrast to that, small-to medium-sized inflows happen throughout the year (Mohrholz, 2018b). Unlike MBIs, they cannot reach the deepest parts of the central Baltic Sea and supply them with fresh oxygen but they mainly interleave in or below the halocline (Elken, 1996;

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

mentioning

confidence: 99%

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confidence: 99%

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Changes in Seasonality of Saltwater Inflows Caused Exceptional Warming Trends in the Western Baltic Sea

Barghorn,

Meier,

Radtke

2023

Geophysical Research Letters

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Drivers of marine heatwaves in a stratified marginal sea

Gröger,

Dutheil,

Börgel

et al. 2024

Clim Dyn

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Marine heatwaves (MHWs) can cause devastating impacts in coastal marine ecosystems, particularly in shallow marginal seas, thereby making the understanding of the drivers of these events of paramount importance. Here, drivers for summer and winter MHWs are explored for the period 1980–2016 in the Baltic Sea, a mid-latitude marginal sea with a permanent haline water-column stratification located on the northwestern European shelf. It was found that summer MHWs are mainly forced by local meteorological conditions over the open water. They are caused by a dominant blocking over Scandinavia promoting anomalous strong shortwave downflux, calm winds, and low vertical mixing with colder sub-thermocline waters. Wintertime MHWs are linked to the advection of warm and moist air originating from the North Atlantic. These air masses lower the oceanic net heat loss at the sea surface primarily in the form of reduced latent and sensible heat losses. Vertical ocean dynamics are also affected during winter MHWs. This study finds a strengthened coastal up- and downwelling due to anomalous strong westerly winds during the time before MHWs culminate in their maximal surface extension.

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Warm saltwater inflows strengthen oxygen depletion in the western Baltic Sea

Barghorn,

Meier,

Radtke

et al. 2024

Clim Dyn

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Hypoxia is a major environmental threat for coastal seas, including the strongly-stratified Baltic Sea in northern Europe. There, a pronounced increase in nutrient loads since the 1950s led to the development of one of the largest hypoxic areas worldwide. So far, other drives of hypoxia, like the increase in water temperatures due to global warming, have been considered minor compared to eutrophication. We show, by analyzing 159-years long hindcast simulations of three different Baltic Sea models, that exceptional warming trends in deep water layers of the western Baltic Sea deteriorated the local oxygen conditions. The above-average warming is only to a small extent attributed directly to global warming, but mainly to a shift in the seasonality of saltwater inflows from the North Sea towards more warm summer and early autumn inflows. Hence, we identify a so far unknown driver of oxygen depletion in the western Baltic Sea with potentially serious ecological consequences.

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Warming of Baltic Sea water masses since 1850

Cited by 11 publications

References 60 publications

Changes in Seasonality of Saltwater Inflows Caused Exceptional Warming Trends in the Western Baltic Sea

Changes in Seasonality of Saltwater Inflows Caused Exceptional Warming Trends in the Western Baltic Sea

Drivers of marine heatwaves in a stratified marginal sea

Warm saltwater inflows strengthen oxygen depletion in the western Baltic Sea

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