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- ...cosystems. New Phytol. 225: 1447–1454</ref>. There is also evidence that global warming increases fish herbivory which can lead to the deforestation of tem [[File:KelpGlobalDistribution.jpg|thumb|center|600px|Fig. 2. Global distribution of kelp species. From Kelp Restoration Guidebook 2022<ref name8 KB (1,235 words) - 18:37, 18 February 2024
- ...asses, shrubs and herbs. The flora is locally rather species poor, but the global species diversity is high, with over 500 saltmarsh plant species known<ref ...ith, D., Kingston, N., Martin, C.S., Spalding, M. and Fletcher, S. 2017. A global map of saltmarshes (v6.1). Biodiversity Data Journal 5: e11764. Paper DOI:28 KB (4,120 words) - 21:17, 24 April 2024
- ...World Ocean Assessment, Chapter 42. Cold-Water Corals. Regular Process for Global Reporting and Assessment of the State of the Marine Environment. UN</ref>). ...octopus (Fig. 9e) is one of the most formidable predators. It can rapidly change its color in response to its background (camouflage) and has very sharp eye27 KB (4,098 words) - 22:25, 5 April 2024
- ...urrents not only distribute heat, but they also play a crucial role in the global ecosystem by storing <math>CO_2</math> and recycling nutrients. ===Global wind field===17 KB (2,486 words) - 15:39, 3 May 2021
- ...litical dimensions of global sustainability research. Global Environmental Change 52: 248–258</ref>. The normative stance entails the risk of losing scient ...ence of multiple competing hypotheses, collective learning and incremental change. Adaptive management therefore can more easily cope with the continuing flo24 KB (3,360 words) - 13:16, 2 February 2023
- ...rmohaline Circulation alter the global ocean heat transport and affect the global climate.(Broecker, W., 1991<ref>Broecker, W., 1991. The great ocean conveyo ...it once more undergoes evaporative cooling, thereby creating a continuous global thermohaline circulation.23 KB (3,524 words) - 17:38, 22 December 2020
- * [[Climate change]] and sea level rise 687–690</ref>. From the 1980s to 2018, the global cruise fleet grew from 79 to 369 vessels operating worldwide, and the avera26 KB (3,689 words) - 17:28, 5 May 2023
- * [[Kyoto Protocol|Kyoto Protocol on Climate change]] * [[United Nations Framework Convention on Climate Change]]2 KB (292 words) - 17:40, 11 July 2020
- ...on Climate Change provide strong evidence that an ongoing global [[climate change]] will cause increased storminess and [[sea level rise]] in coastal zones.25 KB (3,734 words) - 11:46, 17 February 2024
- ...s of global climate change on European marine biodiversity |Global climate change ]]2 KB (268 words) - 23:14, 27 December 2020
- ...cologically and/or economically harmful. Invasive species can dramatically change the structure and function of marine ecosystems by changing biodiversity an ...ecies communities with different types of interactions contributing to the global richness of [[biodiversity]]. Indigenous, or native species are those livin27 KB (3,914 words) - 12:54, 21 February 2024
- ...]], [https://en.wikipedia.org/wiki/Biocoenosis biocoenosis]] and [[climate change]]. Only such an approach can lead, on the long-term (20 – 50 years), to t ==Global estuary restoration plan==23 KB (3,205 words) - 17:00, 2 March 2023
- ...eshwater sources include: rivers (Arctic Ocean receives around 11 % of the global river runoff discharge), precipitation and ice melt. Low-[[salinity]] wate ...of light limitation after the disappearance of sea ice cover) and possible change of timing of the blooms – that can affect the pelago-benthic coupling pro14 KB (2,150 words) - 23:23, 22 February 2024
- ...ighly dynamic environments against a changing baseline due to e.g. climate change. This complexity and uncertainty means that the significance of effects is ...Wadden Sea while at the same time water tempature is rising due to climate change or the competition for habitat and food is increasing due to the invasion o11 KB (1,721 words) - 12:53, 6 March 2022
- ...eds.) 2019. Climate change and ecosystems. Procs. Sackler Forum on Climate Change and Ecosystems, Washington, DC, November 8-9, 2018, organized by the Nation ...system to remain within a stability domain when subjected to environmental change, while continually changing and adapting yet remaining within critical thre27 KB (3,924 words) - 20:34, 18 September 2023
- This article deals with the potential impact of climate change on cities that are located on the coast and therefore vulnerable to sea lev == Vulnerability to climate change and sea level rise==51 KB (7,528 words) - 12:22, 22 January 2024
- ...microevolutionary processes, natural selection leads adaptive evolutionary change. ...ccount for the diversity of life. Natural selection enables populations to change, thereby adapting to different environments and different ways of life.20 KB (2,963 words) - 22:03, 2 March 2022
- ...become Earth's dominant large animal and the cause of global environmental change. ==Past global species extinctions==25 KB (3,716 words) - 18:44, 23 February 2024
- ...P.A., Phillips, O.L. and Williams, S.E. 2004. Extinction risk from climate change. Nature 427: 145–148</ref>), there is an 18 to 35% risk of species-level ...dict, for example, how communities and ecosystems respond to environmental change (Bengtsson, 1998<ref name=Beng/>) and on understanding how declining divers24 KB (3,402 words) - 16:25, 1 November 2020
- Marine ecosystems are an important regulator of the global CO<sub>2</sub>/O<sub>2</sub> (carbon dioxide/oxygen) balance. The biogeoche ...o-chemical mechanisms govern phytoplankton emissions of dimethylsulfide in global surface waters. National Science Review 8: nwaa140</ref>.9 KB (1,289 words) - 11:38, 14 May 2024
