{"id":3253,"date":"2019-04-08T12:47:44","date_gmt":"2019-04-08T03:47:44","guid":{"rendered":"http:\/\/163.180.4.222\/lab\/?p=3253"},"modified":"2019-04-08T12:47:44","modified_gmt":"2019-04-08T03:47:44","slug":"science-during-crisis","status":"publish","type":"post","link":"https:\/\/biochemistry.khu.ac.kr\/lab\/?p=3253","title":{"rendered":"Science during crisis"},"content":{"rendered":"<p>&nbsp;<\/p>\n<p>&nbsp;<\/p>\n<p>In April 1902, on the Caribbean island of Martinique,\u00a0<em>La Commission sur le Vulcan<\/em>\u00a0convened to make a fateful decision. Mt. Pel\u00e9e was sending smoke aloft and spreading ash across the capital city of Saint-Pierre. Comprising physicians, pharmacists, and science teachers, the commission debated the danger of an eruption and the burden of evacuation, and judged the safety of the city&#8217;s population to be \u201cabsolutely assured.\u201d Weeks later, Mt. Pel\u00e9e erupted and approximately 30,000 residents died within minutes, leaving only two survivors.<\/p>\n<p>Environmental crises require pivotal decisions, and such decisions need timely, credible scientific information and science-based advice. This requirement is the focus of a report released last month by the American Academy of Arts and Sciences<a id=\"xref-fn-1-1\" class=\"xref-fn\" href=\"http:\/\/science.sciencemag.org\/content\/364\/6435\/5?rss=1#fn-1\">*<\/a>, calling attention to improvements in the operation and delivery of science during crises.<\/p>\n<p>&nbsp;<\/p>\n<figure id=\"F1\" class=\"fig pos-anchor type-figure nonresearch-content odd figure\">\n<div class=\"figure__head highwire-figure\">\n<div class=\"fig-inline\"><a class=\"fragment-images colorbox-load highwireFiguresMarkupProcessor-processed cboxElement\" style=\"box-sizing: inherit; background-color: transparent; color: #37588a; text-decoration: none; font-weight: bold;\" title=\"\" href=\"http:\/\/science.sciencemag.org\/content\/sci\/364\/6435\/5\/F1.large.jpg?width=800&amp;height=600&amp;carousel=1\" rel=\"gallery-fragment-images-618905401\" data-figure-caption=\"&lt;div class=&quot;highwire-markup&quot;&gt;&lt;q class=&quot;attrib&quot; id=&quot;attrib-1&quot;&gt;PHOTO: TALLANDIER\/BRIDGEMAN IMAGES&lt;\/q&gt;&lt;div class=&quot;sb-div caption-clear&quot;\/&gt;&lt;\/div&gt;\" data-icon-position=\"\" data-hide-link-title=\"0\"><span class=\"hw-responsive-img\"><img decoding=\"async\" class=\"fragment-image  lazyloaded\" src=\"http:\/\/science.sciencemag.org\/content\/sci\/364\/6435\/5\/F1.medium.gif\" aria-describedby=\"F1-caption\" data-src=\"http:\/\/science.sciencemag.org\/content\/sci\/364\/6435\/5\/F1.medium.gif\" \/><\/span><\/a><\/div>\n<div class=\"figure__options\">\n<ul class=\"highwire-figure-links\">\n<li class=\"0 first last\"><a class=\"highwire-figure-link highwire-figure-link-newtab link-icon\" href=\"http:\/\/science.sciencemag.org\/content\/sci\/364\/6435\/5\/F1.large.jpg\" target=\"_blank\" rel=\"noopener noreferrer\"><i class=\"fa fa-external-link\"><\/i>\u00a0<span class=\"title\">Open in new tab<\/span><\/a><\/li>\n<\/ul>\n<\/div>\n<\/div><figcaption id=\"F1-caption\" class=\"fig-caption attrib\"><q id=\"attrib-1\" class=\"attrib\">PHOTO: TALLANDIER\/BRIDGEMAN IMAGES<\/q><\/p>\n<div class=\"sb-div caption-clear\">\n<p>&nbsp;<\/p>\n<\/div>\n<\/figcaption><\/figure>\n<blockquote id=\"disp-quote-1\" class=\"disp-quote\">\n<p id=\"p-4\"><strong><em>\u201c\u2026science will play a critical role\u2026guiding decisions governing disaster response and recovery.\u201d<\/em><\/strong><\/p>\n<\/blockquote>\n<p>&nbsp;<\/p>\n<p id=\"p-5\">Science has provided essential data and insight during disaster responses in the United States, including the World Trade Center attack (2001), Deepwater Horizon oil spill (2010), Hurricane Sandy (2012), and the Zika virus epidemic (2016). The context of scientific work done during such major disasters differs from that of routine science in several ways. Conditions change rapidly\u2014wildfires spread swiftly, hurricanes intensify within hours, and aftershocks render buildings unsafe. In such scenarios, scientists must respond within tightly constrained time frames to collect data, do analyses, and provide findings that normally would involve months or years of work. Decision-makers need actionable information (such as risk assessments or mitigation techniques), yet scientific information is only one of many inputs to disaster response. Because communication networks may be severely disrupted, as occurred in Puerto Rico during Hurricane Maria (2017), delivery of science becomes even more difficult.<\/p>\n<p id=\"p-6\">Thus, science during crisis involves specialized actions such as heightened attention to coupled human-natural systems and cascading consequences. Important responses include rapid establishment of interdisciplinary scientific teams, local knowledge quickly integrated into scientific work, clear and compelling visualization of results, and concise communication to decision-makers, disaster-response specialists, and the public.<\/p>\n<p id=\"p-7\">The Academy report, based on the findings of a workshop that involved a range of experts, provides specific recommendations for best practices in the United States. Because analyses must be done immediately and often under hazardous conditions, quickly accessible funding (such as the RAPID program of the U.S. National Science Foundation) at the federal, state, and local levels could ensure that ephemeral data will be collected and findings delivered to decision-makers as needed. During a crisis, a central, curated clearing-house for data and scientific information can improve scientific collaboration, speed up analyses, and build public trust. Because first responders and scientists often bring very different perspectives, vocabularies, and needs to a disaster event, expanded joint training would allow these communities to work more effectively together.<\/p>\n<p id=\"p-8\">The report recommends several policy reforms. State governments should appoint chief scientific officers to coordinate state-sponsored scientific activity and liaison with federal scientists and emergency response agencies. Modest modification of the Federal Advisory Committee Act would allow teams of federal and nonfederal scientists to collaborate more effectively during a crisis, while maintaining transparency and accountability.<\/p>\n<p id=\"p-9\">In 2018, the United States experienced 14 weather and climate disasters with losses exceeding $1 billion each and a total of 247 lives lost. The summer wildfire season in the American West will soon again begin, followed by the start of the 2019 hurricane season in the Atlantic Ocean. There will be new disasters and science will play a critical role, informing and guiding decisions governing disaster response and recovery. Science during a crisis must be as effective as possible. The academy report is a call to action.<\/p>\n<div id=\"fn-group-1\" class=\"section fn-group\">\n<ul>\n<li id=\"fn-1\" class=\"fn-other\">\n<p id=\"p-10\"><a class=\"rev-xref\" href=\"http:\/\/science.sciencemag.org\/content\/364\/6435\/5?rss=1#xref-fn-1-1\">\u21b5<\/a><span class=\"fn-label\">*<\/span>\u00a0R.R.C. and G.E.M. chaired the committee of the American Academy of Arts and Sciences that released the report \u201cScience During Crisis: Best Practices, Research Needs, and Policy Priorities\u201d (2019).<\/p>\n<\/li>\n<\/ul>\n<\/div>\n<p>&nbsp;<\/p>\n<p>(\uc6d0\ubb38: <a href=\"http:\/\/science.sciencemag.org\/content\/364\/6435\/5?rss=1\">\uc5ec\uae30<\/a>\ub97c \ud074\ub9ad\ud558\uc138\uc694~)<\/p>\n<p>&nbsp;<\/p>\n<p>&nbsp;<\/p>\n<p>&nbsp;<\/p>\n","protected":false},"excerpt":{"rendered":"<p>&nbsp; &nbsp; In April 1902, on the Caribbean island of Martinique,\u00a0La Commission sur le Vulcan\u00a0convened to make a fateful decision. Mt. Pel\u00e9e was sending smoke<a href=\"https:\/\/biochemistry.khu.ac.kr\/lab\/?p=3253\" class=\"more-link\">(more&#8230;)<\/a><\/p>\n","protected":false},"author":1,"featured_media":0,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"_monsterinsights_skip_tracking":false,"_monsterinsights_sitenote_active":false,"_monsterinsights_sitenote_note":"","_monsterinsights_sitenote_category":0,"jetpack_post_was_ever_published":false,"_jetpack_newsletter_access":"","_jetpack_dont_email_post_to_subs":false,"_jetpack_newsletter_tier_id":0,"_jetpack_memberships_contains_paywalled_content":false,"_jetpack_memberships_contains_paid_content":false,"footnotes":"","jetpack_publicize_message":"","jetpack_publicize_feature_enabled":true,"jetpack_social_post_already_shared":true,"jetpack_social_options":{"image_generator_settings":{"template":"highway","default_image_id":0,"font":"","enabled":false},"version":2}},"categories":[32,29],"tags":[],"class_list":["post-3253","post","type-post","status-publish","format-standard","hentry","category-essays-on-science","category-lets-do-science"],"aioseo_notices":[],"jetpack_publicize_connections":[],"jetpack_featured_media_url":"","jetpack-related-posts":[{"id":886,"url":"https:\/\/biochemistry.khu.ac.kr\/lab\/?p=886","url_meta":{"origin":3253,"position":0},"title":"&#8220;\uc138\uacc4 \ucd5c\ub300 CO\u2082 \ubc30\ucd9c \ub3c4\uc2dc\ub294 \uc11c\uc6b8&#8221;","author":"biochemistry","date":"June 13, 2018","format":false,"excerpt":"\u00a0 \u00a0 (\uc6d0\ubb38) \u00a0 \u00a0 [\uadf8\ub798\ud53d] \"\uc138\uacc4 \ucd5c\ub300\u00a0CO\u2082\ubc30\ucd9c \ub3c4\uc2dc\ub294 \uc11c\uc6b8\"[\ub178\ub974\uc6e8\uc774 \uc5f0\uad6c\ud300] \u00a0 \u00a0 \uc804\uc138\uacc4 1\ub9cc3\ucc9c\uac1c \ub3c4\uc2dc \ubd84\uc11d\u20262\u00b73\uc704\ub294 \uad11\uc800\uc6b0\u00b7\ub274\uc695 (\uc11c\uc6b8=\uc5f0\ud569\ub274\uc2a4) \uc774\uc8fc\uc601 \uae30\uc790 = \uc804 \uc138\uacc4 1\ub9cc3\ucc9c\uc5ec \ub3c4\uc2dc\uc9c0\uc5ed\uc758 \uc774\uc0b0\ud654\ud0c4\uc18c(CO\u2082) \ubc30\ucd9c\ub7c9(carbon\u00a0footprint)\uc744 \uc778\uad6c\uc640 \uc18c\ub4dd \ub4f1 \uc790\ub8cc\ub97c \uc801\uc6a9\ud574 \ubd84\uc11d\ud55c \uacb0\uacfc \uac00\uc7a5 \ub9ce\uc740\u00a0CO\u2082\ub97c \ubc30\ucd9c\ud558\ub294 \ub3c4\uc2dc\ub294 \uc11c\uc6b8\uc774\ub77c\ub294 \uc5f0\uad6c \uacb0\uacfc\uac00 \ub098\uc654\ub2e4. \ub178\ub974\uc6e8\uc774 \uacfc\ud559\uae30\uc220\ub300(NTNU) \ub300\ub2c8\uc5bc \ubaa8\ub7f0 \ubc15\uc0ac\ud300\uc740 10\uc77c \uc138\uacc4\u2026","rel":"","context":"In &quot;Let's Do Chemistry!&quot;","block_context":{"text":"Let's Do Chemistry!","link":"https:\/\/biochemistry.khu.ac.kr\/lab\/?cat=34"},"img":{"alt_text":"","src":"","width":0,"height":0},"classes":[]},{"id":1593,"url":"https:\/\/biochemistry.khu.ac.kr\/lab\/?p=1593","url_meta":{"origin":3253,"position":1},"title":"New voices, at last","author":"biochemistry","date":"September 9, 2018","format":false,"excerpt":"\u00a0 \u00a0 (\uc6d0\ubb38: \uc5ec\uae30\ub97c \ud074\ub9ad\ud558\uc138\uc694~) \u00a0 \u00a0 Science\u00a0\u00a007 Sep 2018: Vol. 361, Issue 6406, pp. 953 DOI: 10.1126\/science.aav2338 \u00a0 Science academies are well placed to help strengthen national systems of research and innovation, drawing upon the knowledge of experienced scientists across fields. But what about the voices of early-career scientists\u2026","rel":"","context":"In &quot;Essays on Science&quot;","block_context":{"text":"Essays on Science","link":"https:\/\/biochemistry.khu.ac.kr\/lab\/?cat=32"},"img":{"alt_text":"","src":"","width":0,"height":0},"classes":[]},{"id":1499,"url":"https:\/\/biochemistry.khu.ac.kr\/lab\/?p=1499","url_meta":{"origin":3253,"position":2},"title":"Ways\ufeff to promote and foster collaborative research in your lab","author":"biochemistry","date":"August 30, 2018","format":false,"excerpt":"\u00a0 \u00a0 (\uc6d0\ubb38) \u00a0 \u00a0 Top tips for principal investigators to help junior scientists navigate the travails of teamwork. \u00a0 \u00a0 Adapted from Getty \u00a0 \u00a0 Two of our PhD students were in a bind. They had collaborated on a research project that merged their interests and, as counselled by\u2026","rel":"","context":"In &quot;Essays on Science&quot;","block_context":{"text":"Essays on Science","link":"https:\/\/biochemistry.khu.ac.kr\/lab\/?cat=32"},"img":{"alt_text":"","src":"","width":0,"height":0},"classes":[]},{"id":3493,"url":"https:\/\/biochemistry.khu.ac.kr\/lab\/?p=3493","url_meta":{"origin":3253,"position":3},"title":"Brazilian biomedical science faces reproducibility test","author":"biochemistry","date":"May 10, 2019","format":false,"excerpt":"\u00a0 \u00a0 Researchers at more than 60 Brazilian labs will assess the replicability of research by their country\u2019s scientists. \u00a0 An ambitious project to test the reproducibility of biomedical experiments by Brazilian scientists is about to get under way. The Brazilian Reproducibility Initiative was launched last year by researchers at\u2026","rel":"","context":"In &quot;Let's Do Biology!&quot;","block_context":{"text":"Let's Do Biology!","link":"https:\/\/biochemistry.khu.ac.kr\/lab\/?cat=33"},"img":{"alt_text":"","src":"","width":0,"height":0},"classes":[]},{"id":1369,"url":"https:\/\/biochemistry.khu.ac.kr\/lab\/?p=1369","url_meta":{"origin":3253,"position":4},"title":"India cracks down on plagiarism at universities","author":"biochemistry","date":"August 14, 2018","format":false,"excerpt":"\u00a0 \u00a0 (\uc6d0\ubb38) \u00a0 \u00a0 But some researchers say new rules don\u2019t go far enough. \u00a0 \u00a0 Researchers can be sacked for plagiarizing under the new rules.\u00a0Credit: Osmania Univ.\/Alamy \u00a0 \u00a0 India has for the first time introduced regulations to detect and punish acts of plagiarism at universities. 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