{"id":2425,"date":"2015-03-31T00:26:08","date_gmt":"2015-03-31T00:26:08","guid":{"rendered":"http:\/\/phpstack-120539-406446.cloudwaysapps.com\/?page_id=2425"},"modified":"2020-10-08T14:52:14","modified_gmt":"2020-10-08T14:52:14","slug":"library","status":"publish","type":"page","link":"https:\/\/1250now.org\/library\/","title":{"rendered":"Library of the Planetary Emergency"},"content":{"rendered":"

This collection of significant peer-reviewed papers, from major journals and by leading scientists, is designed to help convince you of 1250’s positions. The first part – what could be dubbed a “catastrophe library” – paints a highly authoritative picture of a dire situation. In the second section a variety of papers and articles of similarly high caliber suggest why 1250’s proposals could help alleviate the situation.
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Part I: Catastrophe<\/h1>\n

Tipping Points: Some Already Tipped, Others Fast Approaching<\/h2>\n

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In this 2014 Joughlin et al Science<\/em> paper, early-stage collapse of key parts of WAIS (West Antarctic Ice Sheet) has likely begun – this alone could eventually demand abandonment of coastal cities<\/h6>\n

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Rignot et al, in this 2014 GRL<\/em> paper further support this through direct physical observation, showing that core structural glaciers of the WAIS are now fated to collapse, only the timing remains unclear<\/h6>\n

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\"this<\/a>

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This Schuur et al Nature<\/em> Comment, 2012, was based on a survey of 41 world experts and suggested high likelihood of major added carbon to the climate system from permafrost melt by 2040<\/h6>\n

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This 2015 PNA<\/em>S paper by Fu et al looks at factors leading to Amazon dieback, one of the major tipping points<\/h6>\n

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This Rahmstorf et al 2015 Nature Climate Change<\/em> paper shows exceptional AMOC slowdown, raising the risks of sudden large scale climate disruption from continued Greenland melting<\/h6>\n

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Hansen and Sato’s 2012 Greenland Ice Sheet update notes current gravity data consistent with a 10 year doubling time, giving a huge multi-meter sea level rise before 2100<\/h6>\n

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Lenton et al in this PNAS<\/em> 2007 paper looked at the issue of defining tipping elements as a whole, and evaluated policy-relevant tipping points<\/h6>\n

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Levermann et al, 2012, in Climatic Change<\/em> is intended to focus on Europe, but is a highly readable account of major global tipping point dangers<\/h6>\n

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\"venus<\/a>

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‘Venus Syndrome’ is not about to happen, but Hansen’s Making Things Clearer<\/em>, 2013, shows why a ‘mini-runaway’ hyperthermal event is a real risk<\/h6>\n

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From Paleoclimate to Future Catastrophe<\/h2>\n

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Vaks et al, 2013, Science Express<\/em>, suggest climates only slightly warmer than today’s released a great deal of permafrost carbon, in Speleothems Reveal 500,000-Year History of Siberian Permafrost<\/em><\/h6>\n

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Paleocene climate was quite unlike ours, but still concerning is this Wright and Schaller 2013 PNAS<\/em> paper suggesting the PETM’s carbon might have been emitted incredibly rapidly and violently<\/h6>\n

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Schmidt and Shindell, 2003, explored whether the PETM warming could have been driven by methane hydrate, modelling the late Paleocene atmosphere, and found that it could<\/h6>\n

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Kurten et al, Atmospheric Chemistry and Physics<\/em>, 2011, looks at how a large increase in methane could have double the projected warming through OH suppression and cloud changes<\/h6>\n

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Melles et al, Science<\/em>, 2012, 2.8 Million Years of Arctic Climate Change from Lake El\u2019gygytgyn<\/em> this high quality Arctic climate record suggests a greatly variable Arctic climate<\/h6>\n

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General Catastrophe – James Hansen<\/h2>\n

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Climate Catastrophe<\/em> – not a paper, but a 2007 New Scientist<\/em> article from Hansen that lays out the scope of our dilemma<\/h6>\n

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Can We Defuse the Global Warming Time Bomb?<\/em> a decade-old Hansen article, but still all too current, from Scientific American<\/em>, March, 2004<\/h6>\n

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Hansen et al, Dangerous Human-made Interference with Climate<\/em>, 2007, looks at “DAI” standard and why more than 1C above 2000 is dangerous<\/h6>\n

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Sensitive Planet<\/h2>\n

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Climate sensitivity, sea Level and atmospheric carbon dioxide<\/em>, Hansen et al, Royal Society<\/em>, 2013, looks at ‘sea level sensitivity,’ shows the problems of models suggesting slow rises, and looks at the potential for catastrophe<\/h6>\n

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While not a peer-reviewed publication, David Wasdell here strongly lays out the case in favor of Earth System sensitivity<\/h6>\n

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This PNAS<\/em> paper by Beerling et al, Enhanced chemistry-climate feedbacks in past greenhouse worlds<\/em>, suggests methane, O3 and N2O played a large role in past warming, increasing Earth System sensitivity.<\/h6>\n

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Climate Sensitivity Estimated From Earth’s Climate History<\/em> – initially this Hansen\/Sato 2012 paper is close to the Royal Society<\/em> one above, but stays closer to issues of Earth System sensitivity<\/h6>\n

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Hansen and Sato, 2011, Paleoclimate Implications for Human-Made Climate Change<\/em> suggests that paleoclimatic data indicates the 2C plan is a “prescription for disaster.”<\/h6>\n

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The Arctic<\/h2>\n

\"this<\/a>

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This Report from the WWF, Arctic Climate Feedbacks: Global Implications<\/em> although now half a decade old, provides an excellent primer on the topic<\/h6>\n

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This Royal Meteorological Society<\/em> paper of Cowtan & Way shows data gaps led to an under-counting of Arctic warming, with broad implications for all other Arctic issues, for the notion of a warming “pause,” and for understanding the planetary energy imbalance<\/h6>\n

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Hudson, 2011, Estimating the Global Radiative Impact of the Sea-Ice-Albedo Feedback in the Arctic<\/em>, highlights the potent and accelerating feedback loop and heating stemming from sea-ice losses<\/h6>\n

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Francis and Vavrus, 2012, GRL<\/em>, an often cited paper on the role of Arctic warming in the extreme weather that has been growing in mid-latitudes<\/h6>\n

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This 2011 paper of Serreze and Barry in Global and Planetary Change<\/em> highlights how Arctic amplification is far more complex than just ice-albedo effects alone<\/h6>\n

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This 2015 Nature Climate Change<\/em> paper by Najafi et al suggests that Arctic cooling from aerosols has been larger than global mean aerosol cooling, with important implications for the Arctic’s future<\/h6>\n

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Voulgarakis et al, 2009, GRL<\/em>, look at how sea-ice loss might alter high-latitude oxidative chemistry through changes in short-wave radiation<\/h6>\n

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\"polar<\/a>

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Sloan and Pollard, from GRL<\/em>, 1998, look at polar stratospheric clouds in paleoclimate, and their importance in high-methane periods from the past – and possibly the future<\/h6>\n

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This Schaefer et al 2014 paper in ERL<\/em>, far more conservative than Schuur above, still notes the grave weakness of IPCC AR5 and its unwise exclusion of permafrost carbon<\/h6>\n

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Methane<\/h2>\n

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Euan Nisbet’s 2002 Royal Society<\/em> paper looks at evidence for the methane-led hypothesis, exploring methane’s climate role in the relatively recent past and possible near future<\/h6>\n

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Schmidt and Shindell explored whether the PETM warming could have been driven by methane hydrate, modelling the late Paleocene atmosphere, and found that it could<\/h6>\n

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Sergienko et al, 2012, in Oceanology<\/em>, look at the possibility of the the Eastern Siberian Shelf hydrate to generate a methane catastrophe<\/h6>\n

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This 2011 Isaksen et al paper explores the impact that indirect effects of large Arctic methane releases could have, adding to their direct effects<\/h6>\n

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Damm et al in this 2010 Biogeosciences<\/em> paper look at the paradox of aerobic methane production in Pacific-derived surface waters, a methane source that could increase quickly with loss of sea-ice<\/h6>\n

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Walter et al in Nature<\/em>, 2006, looks at the significant and increasing methane inputs from Arctic thaw lakes<\/h6>\n

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Shakova and Semiletov, 2006, in Journal of Marine Systems<\/em> explored the mixed sources of ESS methane supersaturation<\/h6>\n

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This Shakhova & Semiletov 2010 powerpoint from the Opening the Arctic<\/em> conference in Washington, D.C. is a good introduction to their research<\/h6>\n

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This Shakhova & Semiletov 2012 powerpoint is from the EGU General Assembly, and adds to the prior one more information on isotopic analysis of ESS methane<\/h6>\n

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This 2013 Nature Geoscience<\/em> paper of Shakhova et al looks at the role of bubbles and storms in ESS methane emissions<\/h6>\n

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This very brief 2008 Shakhova et al Geophysical Research Abstracts commentary first raised the controversial “50 Gt scenario”<\/h6>\n

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This 2013 Nature<\/em> Commentary by Whiteman, Hope and Wadhams generated both attention and controversy, suggesting the 50 Gt methane scenario would cause $60 trillion in damages<\/h6>\n

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Continuing on climate catastrophe economics, Weitzman, 2011, Oxford University Press<\/em>, looks at uncertainties and risks like methane hydrate, and how they render typical economic climate ‘cost-benefit analyses’ useless<\/h6>\n

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Fisher et al, 2011, in GRL<\/em> discuss the variability of hydrate fractionation and how now “there may also be significant input from East Siberian Arctic Shelf emissions”<\/h6>\n

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David Archer’s 2006 risk analysis on methane hydrate for the German Advisory Council on Global Change is conservative yet informative<\/h6>\n

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David Archer, 2007, from Biogeosciences<\/em>, recasts the same hydrate material from the foregoing<\/h6>\n

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Mastepanov et al 2013 in Biogeosciences<\/em> looks at methane releases in tundra and drivers of things like interannual flux variability and CO2 releases<\/h6>\n

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Methane Sensing<\/h2>\n

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Xiong et al in Remote Sensing<\/em>, 2010, examines methane AIRS data and helps explain its correct interpretation – anyone looking at visualizations of satellite methane data should read this beforehand<\/h6>\n

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\"on<\/a>

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Thorpe et al in Remote Sensing<\/em>, 2013, examine a data filtering technique using AVARIS technology that gets around some of the problems that have plagued satellite CH4 data in the past<\/h6>\n

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Part II: Solutions<\/h1>\n

It is important to emphasize that none of these papers and reports focuses on non-CO2 reductions instead<\/em> of CO2 cuts, but rather in parallel with them. They are complementary.<\/p>\n

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This UNEP\/WMO report represents an authoritative update and furthering of what Hansen called the “alternative scenario” back in 2000<\/h6>\n

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Hansen’s original PNAS<\/em> paper on the alternative scenario, which explored how non-CO2 reductions could keep warming in safe limits – but failed because of large subsequent CO2 increases<\/h6>\n

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Shindell et al, 2005 GRL<\/em> paper showed methane’s warming role since industrialization was about twice conventional estimates, once more of the complex interactions of atmospheric chemistry were modelled<\/h6>\n

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Shindell et al, from Science<\/em>, 2012 concerns the same material as the UNEP\/WMO report above, which he chaired<\/h6>\n

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Hansen’s talk in Copenhagen, 2009 on non-CO2 re-contextualized the “alternative scenario” material given the increases in CO2 emissions since 2000<\/h6>\n

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MacCracken, 2009, shows what a combined CO2 and non-CO2 approach could achieve, and that it could be tied in with differentiated responsibilities among countries<\/h6>\n

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This 2014 Center for American Progress white paper looks at methane cuts and the idea that the Arctic Council could be the forum for furthering these cuts<\/h6>\n

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Shoemaker et al, Science<\/em>, 2013, looks at the need for “parallelism” between CO2 and non-CO2, and discourages trading between them, except for some of the crediting to developing nations like that proposed in MacCracken above<\/h6>\n

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Bachmann’s 2009 policy primer for the Pew Center on black carbon mitigation is a good introduction to the topic<\/h6>\n

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This 2014 letter to key U.S. policymakers from a range of leading scientists involved with methane including NASA’s Shindell, explains the need to move away from using the 100 year Global Warming Potential in methane policy<\/h6>\n

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Quinn et al, 2008, in Atmospheric Chemistry and Physics<\/em>, looked at how non-CO2 factors impact the Arctic in particular<\/h6>\n

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Quinn et al, AMAP report, 2008, the same material as the previous Quinn paper, but with more user-friendly diagrams<\/h6>\n

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Science<\/em> Policy Forum article by Stacey Jackson discusses the need for parallelism between CO2 and non-CO2 strategies<\/h6>\n

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Untapped Potential<\/em>, this April 2015 Lester et al policy paper from the Rhodium Group on methane reductions from the gas & oil industry gets down to the level of the largest individual companies involved<\/h6>\n

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From Global Geoengineering to Soft Intervention<\/h2>\n

One of the great false dichotomies of the new century is between those who think humanity can and should “control the global thermostat” through geoengineering, and those who think that technology should be left idly by in the midst of a calamity created by that technology, while nevertheless still remaining a technological society. Such arguments are appealing to many, but they leave out most of reality, which lies in the vast area in the middle. This section ends with the recent National Academy of Sciences Report on geoengineering, which noted the importance of continued research on geoengineering, a position 1250 strongly agrees with, but aside from it and the Royal Society review of marine cloud brightening, the few selections that follow are intended to suggest that vast and little-discussed middle ground.<\/p>\n

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James Lovelock’s 2008 Royal Society<\/em> review of geoengineering, promotes a geophysiological viewpoint and likens current global geoengineering to 19 century medicine<\/h6>\n

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This Woolf et al Nature Communications<\/em> 2010 primer looks at the potential for biochar to abate warming<\/h6>\n

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Stolaroff et al, 2012, in Environmental Science & Technology<\/em> looks at the feasibility of technological amelioration of catastrophic Arctic methane outbursts, and ties this in with ordinary methane mitigation<\/h6>\n

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This Zimov et al 1995 American Naturalist<\/em> paper supports a soft engineering concept in which herbivores in Arctic tundra lengthen springtime snow cover, raising Arctic albedo and moderating warming<\/h6>\n

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The Royal Society<\/em> published this review in 2012, by Latham et al, of marine cloud brightening, generally considered one of the most promising SRM methods<\/h6>\n

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\"This<\/a>

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National Academy of Sciences Report on geoengineering (SRM)<\/h6>\n

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\"this<\/a>

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National Academy of Sciences Report on geoengineering (CDR)<\/h6>\n

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From the Origins to the Future of the Earth System Viewpoint<\/h2>\n

These final papers might seem out of place, but they are not. They represent the foundations and leading edge of how science views life on a self-regulating planet. In 2001 the debate over planetary self-regulation largely ended, when more than 1,000 scientists from over 100 countries under UN aegis signed the Amsterdam Declaration on Global Change, which begins, “The Earth System behaves as a single, self-regulating system.” The Neo-Darwinians were accurate in maintaining that the self-regulation proposed by Gaia theory was incommensurate with their world operating through natural selection alone and random changes alone: of course, they did not recognize that this simply clarified the limitations of the Neo-Darwinian paradigm. What follows sketches out the path of the new paradigm. The rest will be history – we had better embrace it quickly.<\/p>\n

\"Lovelock<\/a>

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This first Lovelock and Margulis paper, from Tellus<\/em>, 1973, if not yet mature, represents a starting point for the modern concept of a self-regulating “Earth System”<\/h6>\n

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\"lovelock<\/a>

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By the 1980s, Lovelock describes Daisyworld modeling to show self-regulation in accordance with natural selection, and describes feedback processes as regulating global climate<\/h6>\n

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\"lovelock<\/a>

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Almost 30 years ago, Geophysiology is proposed by Lovelock as a way of both understanding and addressing our current problems in line with planetary self-regulation<\/h6>\n

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Gilbert et al, 2012, Quarterly Review of Biology<\/em>: this paper and the next both present a new paradigm for biology in the 21st C., in line with the work of Margulis’ work on symbiosis, with vast implications for the feedback-driven view of climate presented here<\/h6>\n

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McFall-Ngai and almost 30 coauthors, in PNAS<\/em>, 2013, look at a “vast and exciting new frontier” in biology growing out of the work of Margulis, again, with implications for understanding whole ecosystems and the Earth System as well<\/h6>\n

<\/p><\/div><\/p>\n","protected":false},"excerpt":{"rendered":"

This collection of significant peer-reviewed papers, from major journals and by leading scientists, is designed to help convince you of 1250’s positions. The first part – what could be dubbed a “catastrophe library” – paints a highly authoritative picture of a dire situation. In the second section a variety of papers and articles of similarly […]<\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"yoast_head":"\nLibrary of the Planetary Emergency - 1250<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/1250now.org\/library\/\" \/>\n<meta name=\"twitter:label1\" content=\"Est. reading time\" \/>\n\t<meta name=\"twitter:data1\" content=\"14 minutes\" \/>\n<script type=\"application\/ld+json\" class=\"yoast-schema-graph\">{\"@context\":\"https:\/\/schema.org\",\"@graph\":[{\"@type\":\"WebPage\",\"@id\":\"https:\/\/1250now.org\/library\/\",\"url\":\"https:\/\/1250now.org\/library\/\",\"name\":\"Library of the Planetary Emergency - 1250\",\"isPartOf\":{\"@id\":\"https:\/\/1250now.org\/#website\"},\"primaryImageOfPage\":{\"@id\":\"https:\/\/1250now.org\/library\/#primaryimage\"},\"image\":{\"@id\":\"https:\/\/1250now.org\/library\/#primaryimage\"},\"thumbnailUrl\":\"http:\/\/phpstack-120539-406446.cloudwaysapps.com\/wp-content\/uploads\/2015\/04\/glacier-thwaites-pdf[0]-150x150.jpg\",\"datePublished\":\"2015-03-31T00:26:08+00:00\",\"dateModified\":\"2020-10-08T14:52:14+00:00\",\"breadcrumb\":{\"@id\":\"https:\/\/1250now.org\/library\/#breadcrumb\"},\"inLanguage\":\"en-US\",\"potentialAction\":[{\"@type\":\"ReadAction\",\"target\":[\"https:\/\/1250now.org\/library\/\"]}]},{\"@type\":\"ImageObject\",\"inLanguage\":\"en-US\",\"@id\":\"https:\/\/1250now.org\/library\/#primaryimage\",\"url\":\"http:\/\/phpstack-120539-406446.cloudwaysapps.com\/wp-content\/uploads\/2015\/04\/glacier-thwaites-pdf[0]-150x150.jpg\",\"contentUrl\":\"http:\/\/phpstack-120539-406446.cloudwaysapps.com\/wp-content\/uploads\/2015\/04\/glacier-thwaites-pdf[0]-150x150.jpg\"},{\"@type\":\"BreadcrumbList\",\"@id\":\"https:\/\/1250now.org\/library\/#breadcrumb\",\"itemListElement\":[{\"@type\":\"ListItem\",\"position\":1,\"name\":\"Home\",\"item\":\"https:\/\/1250now.org\/\"},{\"@type\":\"ListItem\",\"position\":2,\"name\":\"Library of the Planetary Emergency\"}]},{\"@type\":\"WebSite\",\"@id\":\"https:\/\/1250now.org\/#website\",\"url\":\"https:\/\/1250now.org\/\",\"name\":\"1250\",\"description\":\""1250 is the way to 350"\",\"potentialAction\":[{\"@type\":\"SearchAction\",\"target\":{\"@type\":\"EntryPoint\",\"urlTemplate\":\"https:\/\/1250now.org\/?s={search_term_string}\"},\"query-input\":\"required name=search_term_string\"}],\"inLanguage\":\"en-US\"}]}<\/script>\n<!-- \/ Yoast SEO plugin. -->","yoast_head_json":{"title":"Library of the Planetary Emergency - 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