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- ...analysis of the NAO index annual time series for the period 1860-2005. The global spectrum is determined by integrating the time dependent DOG<sub>14</sub> w ...ncy variability in the North Atlantic has significant implications for the global climate, particularly for the climate of the Northern Hemisphere<ref>Greatb8 KB (1,246 words) - 20:12, 26 May 2023
- ...s on processes on smaller scales (e.g. [[sea level rise]] due to [[climate change]]). Techniques for scale interactions are reasonably well established in [[ ...tidal flats and coastal dunes. In: Geomorphology and Global Environmental Change (eds. O. Slaymaker, T. Spencer and C. Embleton-Hamann). Cambridge Univ. Pre6 KB (900 words) - 22:24, 1 July 2020
- ...janovic, T. 2016. Coastal Management and Governance. In: North Sea Climate Change Assessment (Editors F. Colijn, M. Quante), Springer Verlag: 475-488</ref>. ...aschi, L., M. I. Vousdoukas, E. Voukouvalas, A. Dosio, and Feyen, L. 2017. Global changes of extreme coastal wave energy fluxes triggered by intensified tele24 KB (3,512 words) - 16:18, 10 May 2024
- ...ent planners. The U.S. Agency for International Development Global Climate Change Team Washington, DC, USA. https://www.crc.uri.edu/download/CoastalAdaptatio1 KB (147 words) - 22:44, 22 February 2019
- In order to reach this goals, theme 4 wishes to create a global understanding of the underlying physical and chemical processes related to ...her scientific-related topics of the Encora project (adaptation to climate change, restoration of biodiversity in coastal zones, effects of development on co27 KB (4,006 words) - 18:23, 23 February 2019
- ...enolle and Temmerman 2019<ref>Van Coppenolle, R, and Temmerman, S. 2019. A global exploration of tidal wetland creation for nature-based flood risk mitigatio ...grass ecosystems''. New York, Dekker. pp 89-121.</ref>), with an estimated global coverage of over 177,000 km2. Many seagrass species are similar in appearan69 KB (10,397 words) - 17:04, 17 April 2024
- ...ems EUROLIMPACS] --- '''Integrated project to evaluate impacts of global change on European freshwater ecosystems'''.4 KB (521 words) - 17:47, 8 July 2020
- ...ites, in-situ (direct ocean sampling), and numerical models that cover the global ocean. ...ning data of the Argo Ocean Profiling Network assembled by the U.S. GODAE (Global Ocean Data Assimilation Experiment) Argo server and the French IFREMER (Ins25 KB (3,541 words) - 22:36, 5 November 2021
- ...re: Eutrophication, Fisheries, Invasions and the Effects of Global Climate Change. *[[Effects of global climate change on European marine biodiversity ]]12 KB (1,809 words) - 17:32, 2 March 2024
- ...ncreased incidence and severity of storms. The [[Effects of global climate change on European marine biodiversity|effects on the marine environment]] include ...able exploitation and more recently the recognition of the implications of global warming, management and restoration of the zone have become more and more i8 KB (1,167 words) - 19:01, 21 February 2024
- ...relevant for two points of policy importance: characterizing the state and change in natural capital and its damage from urban sprawl in the coastal regions. ...idate the assessment tools at regional and local scales to understand both global and cumulative local trends and how they interact in specific coastal and m27 KB (3,989 words) - 16:53, 26 December 2020
- ...tems. The physics, chemistry, and the living organisms of the oceans drive global climate. '''A comprehensive knowledge of marine life is essential for susta ...cs) are reported in new habitats. The genome is a repository of historical change and hence a source for predicting future developments. Marine ecosystems ar9 KB (1,283 words) - 15:58, 10 September 2020
- ...for understanding the problems that managers face because of the constant change taking place within coastal systems. ...y in which natural variation is influenced by issues relating to [[climate change]], water catchments and human activity is also discussed.28 KB (4,152 words) - 12:34, 6 March 2022
- ...most productive natural ecosystems on earth and play an important role in global biogeochemical cycles. Tidal areas not only provide a habitat for many spec ...E).]]The dynamic processes that formed the tidal flats, and continue to change them, are exceedingly complex. A key unresolved question at the outset of t22 KB (3,418 words) - 22:48, 2 July 2023
- ...efit appraisal of coastal managed realignment policy. Global environmental change-human and policy dimensions. 17(3-4): 397-407. DOI: 10.1016/j.gloenvcha.20014 KB (2,089 words) - 19:14, 7 March 2023
- Measures to enable the necessary transformative change.<br> Measures to tackle the global biodiversity challenge.<br>21 KB (3,017 words) - 20:10, 8 October 2021
- ...h-frequency sea-level analysis: Global distributions. Global and Planetary Change 210, 103775</ref>. In some cases they are also capable of generating strong11 KB (1,711 words) - 20:36, 16 June 2024
- ...rd, J., Huxham, M., Macreadie, P.I. and Ross, F. 2022. Capitalizing on the global financial interest in blue carbon. PLOS Clim 1(8): e0000061</ref>. [[Category:Climate change, impacts and adaptation]]15 KB (2,228 words) - 12:39, 21 April 2024
- ...021. Seaweeds and microalgae: an overview for unlocking their potential in global aquaculture development. FAO Fisheries and Aquaculture Circular No. 1229. R ...solution for sustainable biofuel production. Mitig. Adapt. Strateg. Glob. Change 18: 27–46</ref>. In 2019, brown seaweeds accounted for 47.3 percent of wo35 KB (5,044 words) - 17:21, 16 February 2024
- ...C., Andrew, R.M., Friedlingstein, P., Sitch, S., Pongratz, J. et al. 2018. Global carbon budget 2017. Earth Syst. Sci. Data 10: 405–48</ref>. ==Global carbon stocks==12 KB (1,798 words) - 22:09, 23 April 2024