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Each year from January to June, hundreds of scientists from around the world crunch the numbers on the previous year's climate, reviewing and cataloging everything from the humidity of the atmosphere, to the number and strength of hurricanes in every part of the ocean, to the size of the Arctic sea ice pack. But add to this problem a future sea-level rise wrought by climate change, and islanders who today experience deluges of tidal flooding once every month or two could see their homes unfit for human habitation within the coming decades.” Reference: The Marshall Islands are Disappearing (2015). ref=earth&_r=1 Resource type: Report Description: Global phenomena, such as sea level rise, affect local land use decisions, especially over longer time horizons. Thus, coastal vulnerability, impact, and adaptation assessments require an understanding of the long-term, global and regional drivers of environmental change. • About the Indicator: A description of the data source and how the indicator was developed. The indicators are divided into six chapters: Greenhouse Gases, Weather and Climate, Oceans, Snow and Ice, Health and Society, and Ecosystems. , is to consider the vulnerability and exposure of human and natural systems, the observed impacts and future risks of climate change, and the potential for and limits to adaptation. Reference: Description: This chapter describes key findings on impacts, vulnerabilities, projections, and adaptation responses relevant to specific North American sectors: ecosystems, water, agriculture, human health, urban and rural settlements, infrastructure and the economy. Additional geographic detail is presented in the regional chapters of this report. She states that while some of these organisms do appear to have a degree of adaptive ability, this capacity is limited and increasing ocean acidity could push these creatures past a tipping point where they would be unable to construct shells. Chapter 2 presents an introduction to the carbon biogeochemical system in the Arctic Ocean: processes that influence the carbon system; processes sensitive to ocean acidification; present sources and sinks of carbon in the Arctic Ocean; current features of ocean acidification in the different Arctic seas; and a discussion of future scenarios.
The Arctic and Antarctic respond differently through time and are reported in separate chapters (5 and 6, respectively). : This report covers the physical science basis of climate change, including: analysis of greenhouse gas emissions and their atmospheric concentrations, as well as the global carbon cycle; coverage of the atmosphere, the land-surface, the oceans, and all of the major components of the cryosphere (land-ice, glaciers, ice shelves, sea-ice and permafrost); paleoclimate, extreme events, sea level, future projections, abrupt climate change and tipping points; and explanations of some of the common misconceptions surrounding climate change science. In this study, CERI is applied to RI two communities; Charlestown representing a typical coastal barrier system directly exposed to ocean waves and high erosion rates, with predominantly low density single family residences and Warwick located within Narragansett Bay, with more limited wave exposure, lower erosion rates, and higher residential housing density.
Chapter 7 provides a regional perspective authored largely by local government climate specialists. Ultimately, these scientists hope to determine which species might win and which might lose in a more acidic ocean.
Sidebars included in each chapter are intended to provide background information on a significant climate event from 2014, a developing technology, or emerging dataset germane to the chapter’s content. Reference: Resource type: Research article Description: The increasing acidification of the world’s oceans caused by rising concentrations of atmospheric carbon dioxide not only poses a threat to marine creatures, but also could lead to an intensification of planetary warming, according to a new study. S., British, and German researchers conducted experiments in seawater enclosures, known as mesocosms, showing that the increasing acidification of the ocean leads to a drop in production of an important sulfur compound, dimethylsulphide, or DMS.
Chapter 7 provides a regional perspective authored largely by local government climate specialists. The report has been written for policy-makers, stakeholders, the media and the broader public. Results of these applications are highlighted herein.
Sidebars included in each chapter are intended to provide background information on a significant climate event from 2013, a developing technology, or emerging dataset germane to the chapter’s content. Each section begins with a set of key points that summarizes the main findings. Reference: Authors: Malcolm Spaulding, Annette Grilli, Chris Damon, Teresa Crean, Grover Fugate, Bryan Oakley, Peter Stempel (2016).
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A list of relevant datasets and their sources for all chapters is provided as an Appendix. Gregory, Svetlana Jevrejeva, Anders Levermann, Mark A. The science contained in the report is based on the most credible and significant peer-reviewed literature available at the time of publication. STORMTOOLS: Coastal Environmental Risk Index (CERI). Journal of Marine Science and Engineering; 4(3): 54.