Interactive Climate Change Map To Visualize Climate Impact
Interactive Climate Change Map To Visualize Climate Impact ->>> https://ssurll.com/2tj4vO
The methodology for estimating the mortality costs of future climate change is described in full in Carleton et al. (2022). This study uses comprehensive historical mortality records to quantify how death rates across the globe have been affected by observed climate changes.
Carleton et al. (2020) compile the largest sub-national vital statistics database in the world, detailing 399 million deaths across 41 countries accounting for 55 percent of the global population. By combining these records with decades of detailed daily and local temperature observations, the authors discover that extreme cold and extreme heat have important effects on death rates. These relationships are modified by the climate and income levels of the affected population. Carleton et al. (2020) use these results to model how adaptation affects the sensitivity of a population to extreme temperatures.
Estimates of the mortality-temperature relationship are used to generate projections of the future impacts of climate change on mortality rates for areas across the globe, dividing the world into 24,378 distinct regions (each containing roughly 300,000 people, about the size of a U.S. county). Using a revealed preference technique to measure the total cost of adaptive behaviors and technologies, these projections capture the full mortality risk of climate change, accounting for both adaptation benefits and costs, in addition to direct mortality impacts.
These estimates are based upon emissions scenario RCP 4.5 or RCP 8.5, socioeconomic scenario SSP3 (from the IIASA Shared Socioeconomic Pathways database), and are climate model-weighted means over 33 climate models and 1,000 Monte Carlo simulation runs, allowing for an assessment of the uncertainty surrounding any particular projection. The full estimates also reflect statistical uncertainty related to the underlying economic and health data.
By combining these records with decades of detailed daily and local temperature observations, the authors discover that extreme cold and extreme heat have important effects on energy consumption. These relationships differ by energy type (electricity, other fuels) and are modified by the income levels and climate of the affected population. The study uses these results to model how income growth and adaptation affect the sensitivity of energy consumption to extreme temperatures.
These estimates are based upon emissions scenario RCP 4.5 or RCP 8.5, socioeconomic scenario SSP3 (from the IIASA Shared Socioeconomic Pathways database), and are climate model-weighted means over 33 climate models and 1,000 Monte Carlo simulation runs, allowing for an assessment of the uncertainty surrounding any particular projection. The full estimates also reflect statistical uncertainty related to the underlying data.
In this \"Climate Time Machine,\" we show how some of the key indicators of climate change - such as temperature, sea ice extent and carbon dioxide concentrations - have changed in Earth's recent history.
Today, the Biden-Harris Administration is launching a website that, for the first time, provides a live dashboard to help communities see extreme weather and other hazards from climate change they are facing, while also providing maps projecting how each community could be impacted in the future. The new Climate Mapping for Resilience and Adaptation portal will help state, local, Tribal, and territorial governments and leaders better track real-time impacts and access federal resources for long-term planning.
The Climate Mapping for Resilience and Adaptation portal is a first-of-its kind hub that will help communities, federal agencies, and other levels of government better understand current exposure to climate risks to strengthen their resilience plans. The portal, which will continue to evolve to meet community needs, includes:
According to new data from the Rhodium Group analyzed by ProPublica and The New York Times Magazine, warming temperatures and changing rainfall will drive agriculture and temperate climates northward, while sea level rise will consume coastlines and dangerous levels of humidity will swamp the Mississippi River valley.
Taken with other recent research showing that the most habitable climate in North America will shift northward and the incidence of large fires will increase across the country, this suggests that the climate crisis will profoundly interrupt the way we live and farm in the United States. See how the North American places where humans have lived for thousands of years will shift and what changes are in store for your county.
By the 2080s, the climate of North American urban areas will feel substantially different, and, in many cases, completely unlike contemporary climates found anywhere in the western hemisphere north of the equator. If emissions continue unabated throughout the 21st century,the climate of North American urban areas will become, on average, most like the contemporary climate of locations about 500 miles away and mainly to the south.
The study also mapped climate differences under two emission trajectories: unmitigated emissions (RCP8.5), the scenario most in line with what might be expected given current policies and the speed of global action, and mitigated emissions (RCP4.5), which assumes policies are put in place to limit emissions, such as the Paris Agreement.
Historical temperature data is presented, along with three time periods: the next 20 years, mid-century and end of century. We average out the annual variations in weather across two-decade time spans to show how climate change will make extremely hot temperatures more frequent.
Scientists agree that climate change has been driving a rise in global sea level, and the rise will accelerate, leading to ocean intrusion on land and aggravated coastal flood risk. Over 1,000 global tide gauges shown on the map, illustrated by bulls-eyes, give downloadable local projections for sea level rise through the year 2200, based on two recent peer-reviewed research papers (Kopp et al. 2014; Kopp et al. 2017) building off of global projections from the IPCC and, in the latter case, new research on the potential instability of Antarctic ice sheets (DeConto and Pollard 2016).
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The NASA Earth Exchange (NEX) scientific collaboration platform has made available downscaled CMIP5 climate projections for the conterminous United States with a spatial grid resolution of 800 meters. The EnviroAtlas team has converted these large complex files into a geospatial format and has made them available through two tools in the EnviroAtlas Interactive Map. Each tool includes four RCP scenarios (2.6, 4.5, 6.0, and 8.5) and four climate variables (minimum temperature, maximum temperature, precipitation, and evapotranspiration).
Many different aspects of the climate crisis will destabilize food production, such as dropping levels of groundwater and shrinking snowpacks, another critical source of irrigation, in places such as the Himalayas. Crop yields decline the hotter it gets, while more extreme floods and storms risk ruining vast tracts of farmland. 153554b96e