Sophie Ward scite author profile

The Holocene vegetation history of the Arabian Peninsula is poorly understood, with few palaeobotanical studies to date. At Awafi, Ras al-Khaimah, UAE, a 3.3 m lake sediment sequence records the vegetation development for the period 8500 cal. yr BP to $ 3000 cal. yr BP. 13 C isotope, pollen and phytolith analyses indicate that C3 Pooid grassland with a strong woody element existed during the early Holocene (between 8500 and 6000 cal. yr BP) and became replaced by mixed C3 and C4 grasses with a strong C4 Panicoid tall grass element between 5900 and 5400 cal. yr BP. An intense, arid event occurred at 4100 cal. yr BP when the lake desiccated and was infilled by Aeolian sand. From 4100 cal. yr BP the vegetation was dominated by C4 Chloridoid types and Cyperaceae, suggesting an incomplete vegetation cover and Aeolian dune reactivation owing to increased regional aridity. These data outline the ecosystem dynamics and carbon cycling in response to palaeomonsoon and north-westerly variability during the Holocene.

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Modelling tides and sea-level rise: To flood or not to flood

Pelling

2013

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Characterising the spatial and temporal variability of the tidal-stream energy resource over the northwest European shelf seas

et al. 2015

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Tides, sea-level rise and tidal power extraction on the European shelf

2012

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An established numerical tidal model has been used to investigate the impact of various sea-level rise (SLR) scenarios, as well as SLR in combination with large-scale tidal power plants on European shelf tidal dynamics. Even moderate and realistic levels of future SLR are shown to have significant impacts on the tidal dynamics of the area. These changes are further enhanced when SLR and tidal power plants are considered in combination, resulting in changes to tidal amplitudes, currents and associated tidal dissipation and bed shear stresses. Sea-level rise is the dominant influence on any far-field impacts, whereas tidal power plants are shown to have the prevailing influence over any changes close to the point of energy extraction. The spatial extent of the impacts of energy extraction is shown to be affected by the sea level when more than one tidal power plant in the Irish Sea was considered. Different ways to implement SLR in the model are also discussed and shown to be of great significance for the response of the tides.

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Tidal range energy resource and optimization – Past perspectives and future challenges

et al. 2018

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Sophie Ward

Holocene vegetation dynamics in the northeastern Rub' al‐Khali desert, Arabian Peninsula: a phytolith, pollen and carbon isotope study

Modelling tides and sea-level rise: To flood or not to flood

Characterising the spatial and temporal variability of the tidal-stream energy resource over the northwest European shelf seas

Tides, sea-level rise and tidal power extraction on the European shelf

Tidal range energy resource and optimization – Past perspectives and future challenges

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