Regime shift and changes in sediment morphology driven by sea level rise affect abundance of migratory waders

Laursen, Karsten; Bregnballe, Thomas; Kleefstra, Romke; Frikke, John; Günther, Klaus; Hornman, Menno; Pedersen, Claus L.; Blew, Jan; Møller, Anders Pape

doi:10.1007/s10336-023-02056-w

Cited by 4 publications

(2 citation statements)

References 15 publications

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“…Two estimates of bird numbers were made: (a) the number of individuals for each species, tidal basins and year were estimated to analyse temporal changes, and (b) the slope of trend lines in 1987-2019 were estimated for each species and tidal basins to analysis spatial changes (see Laursen et al 2023).…”

Section: Waterbird Numbersmentioning

confidence: 99%

Climate and de-eutrophication affect abundance of benthos-feeding waterbirds in the Wadden Sea during stop-over

Laursen,

Beusekom,

Bregnballe

et al. 2024

Preprint

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Habitat quality such as food availability and physical structures impact abundance of bird species. During 1987–2019 we studied long-term changes in the quality of the habitat of 13 waterbird species in the Wadden Sea, an important stop-over site on the East Atlantic Flyway between arctic breeding areas and wintering grounds in West Europe and Africa. Monitoring of waterbirds revealed that several species feeding on macrozoobenthos increased or remained stable in the northern and southern sections of the Wadden Sea, while their abundance mainly decreased in the central areas. The Wadden Sea is influenced by freshwater discharge from rivers draining a large part of central Europe, by geomorphological dynamics driven by the tides, and by sea level rise and climate. We hypothesised that the abundance of waterbirds that are dependent on intertidal flats for feeding is influenced by (a) regime shifts in the southern North Sea, (b) climate affecting riverine discharge (the amount of nutrients) from rivers in the Wadden Sea area and breeding conditions at arctic and boreal breeding grounds, (c) changes in geomorphology, (d) sea level rise and (e) biomass of macrozoobenthos. The results reveal that abundance of staging waterbirds is affected by (a) the North Atlantic Oscillation index (NAO) and regime shifts, (b) annual discharge of nutrients (N and P have both positive and negative effects) and (c) biomass of macrozoobenthos. Accretion or erosion of intertidal flats and sea level rise caused local displacements of waterbirds. In a broader context we found that waterbirds in the Wadden Sea are influenced by an array of variables including de-eutrophication due to improved waste water treatment and a reduced use of fertilizer in central Europe, regime shifts in the southern North Sea including the Wadden Sea (partly driven by the Gulf Stream) and changes in climate conditions, which may affect breeding conditions of waterbirds in Northern Europe as well as precipitation in Central Europe.

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Section: Waterbird Numbersmentioning

confidence: 99%

Climate and de-eutrophication affect abundance of benthos-feeding waterbirds in the Wadden Sea during stop-over

Laursen,

Beusekom,

Bregnballe

et al. 2024

Preprint

Self Cite

View full text Add to dashboard Cite

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“…Intertidal areas also provide habitat for benthic communities and higher trophic levels, acting as e.g., fish nurseries [61] and feeding ground for birds [62]. Their disappearance would lead to large-scale loss in biodiversity [63]. Moreover, intertidal flats exhibit a large potential for carbon storage [24,64].…”

Section: Fine Sediments As a Resourcementioning

confidence: 99%

A cross-border mud budget for future sediment management

Alonso,

Maren,

Albert

et al. 2023

Preprint

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The world’s coasts and deltas are progressively threatened by climate change and human activities. The degree at which coastlines can adapt to these changes, especially Sea Level Rise (SLR), strongly depends on the availability of sediments. But despite its importance for coastal adaptation, the availability of muddy sediments is poorly known. This study aims at developing the first mud budget for the world’s largest uninterrupted system of barrier islands and tidal flats: the Wadden Sea. The resulting mud balance is nearly closed: ~12 million (M) ton/year enters the system on its western end, ~1.5 M ton/year is added by local rivers, while we estimate ~12 M ton annually deposits or is extracted by anthropogenic activities. Our data suggests that a mud deficit already exists in the downdrift areas, which will only become more pronounced with increased SLR rates. Mud is thus a finite resource similar to sand, and should be treated as such in sediment management strategies. Resolving future challenges related to climate change therefore requires a cross-border perspective on sediment management.

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Sediment dynamics and geomorphology in coastal areas affect long-term abundance of waders

Laursen,

Frikke,

Thorup

et al. 2024

Estuarine, Coastal and Shelf Science

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Regime shift and changes in sediment morphology driven by sea level rise affect abundance of migratory waders

Cited by 4 publications

References 15 publications

Climate and de-eutrophication affect abundance of benthos-feeding waterbirds in the Wadden Sea during stop-over

Climate and de-eutrophication affect abundance of benthos-feeding waterbirds in the Wadden Sea during stop-over

A cross-border mud budget for future sediment management

Sediment dynamics and geomorphology in coastal areas affect long-term abundance of waders

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