![]() Model graphics and additional data analysis by Matthew Conlen.Īdditional design and development by Jacky Myint and Shannon Lin.This study explores the effects of the implementation of a community service-learning component in a foreign language teaching methodology course. ![]() Projections based on research by The New York Times Magazine and ProPublica, with support from the Pulitzer Center. ![]() A cube-root scale was used to compress the largest peaks. Maps in Central America graphics sequence show total population shift under the SSP5 / RCP 8.5 and SSP3 / RCP 8.5 scenarios used by the U.N.’s Intergovernmental Panel on Climate Change, and it is calculated on a 15-kilometer grid. Graphic by Bryan Christie Design/Joe Lertola. Lenton, Jens-Christian Svenning and Marten Scheffer, from Proceedings of the National Academy of Sciences. Reporting and translation were contributed by Pedro Pablo Solares in Guatemala and El Salvador, and Louisa Reynolds and Juan de Dios García Davish in Mexico.ĭata for opening globe graphic from “Future of the Human Climate Niche,” by Chi Xu, Timothy A. Her recent assignments include photographing migration and childbirth in Venezuela, antigovernment protests in Haiti and the killing of women in Guatemala. Meridith Kohut is an award-winning photojournalist based in Caracas, Venezuela, who has documented global health and humanitarian crises in Latin America for The New York Times for more than a decade. ![]() His 2015 series examining the causes of water scarcity in the American West, “Killing the Colorado,” was a finalist for the 2016 Pulitzer Prize for national reporting. Read Part 2 and Part 3, and more about the data project that underlies the reporting.Ībrahm Lustgarten is a senior environmental reporter at ProPublica. This article, the first in a series on global climate migration, is a partnership between ProPublica and The New York Times Magazine, with support from the Pulitzer Center. The resulting report, published in early 2018, involved six European and American institutions and took nearly two years to complete. The idea was to build on the Oppenheimer-style measure of response to the environment with other methods of analysis, including a “gravity” model, which assesses the relative attractiveness of destinations with the hope of mathematically anticipating where migrants might end up. A few years ago, climate geographers from Columbia University and the City University of New York began working with the World Bank to build a next-generation tool to establish plausible migration scenarios for the future. ![]() Now, though, new research on both fronts has created an opportunity to improve the models tremendously. Through all the research, rough predictions have emerged about the scale of total global climate migration - they range from 50 million to 300 million people displaced - but the global data is limited, and uncertainty remained about how to apply patterns of behavior to specific people in specific places. A 2017 study in Science Advances found that by 2100, temperatures could rise to the point that just going outside for a few hours in some places, including parts of India and Eastern China, “will result in death even for the fittest of humans.” Many will dig in, suffering through heat, hunger and political chaos, but others will be forced to move on. By 2070, the kind of extremely hot zones, like in the Sahara, that now cover less than 1 percent of the earth’s land surface could cover nearly a fifth of the land, potentially placing one of every three people alive outside the climate niche where humans have thrived for thousands of years. According to a pathbreaking recent study in the journal Proceedings of the National Academy of Sciences, the planet could see a greater temperature increase in the next 50 years than it did in the last 6,000 years combined. But as the planet warms, that band is suddenly shifting north. For most of human history, people have lived within a surprisingly narrow range of temperatures, in the places where the climate supported abundant food production. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |