Mathematics of climate change

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  1. Scientists keep raising ever-louder alarms about the urgency of tackling climate change, but the world’s governments aren’t listening.[1]
  2. This chapter presents the mathematics in climate change.[2]
  3. From meteorology to economics, a wealth of scientific research will be necessary to improve our understanding of climate change, its impacts and what we can do to prepare for them.[3]
  4. The effects of climate change will be felt on many levels, and knowledge is key to safeguarding human health and livelihoods as we adapt to changing circumstances.[3]
  5. Businesses also need detailed information on how climate change might affect them.[3]
  6. And although the basic science behind climate change is well understood, convincing the general public and decision makers to take action to reduce carbon emissions is very much a work in progress.[3]
  7. Climate change affects humans and natural environments today and particularly in the future.[4]
  8. Mathematical knowhow is necessary in producing knowledge about climate change, understanding it as a phenomenon and contributing to the climate debate.[4]
  9. The senses are not the only authoritative source of knowledge and it is not possible for any individual to perceive planetary climate change.[4]
  10. In other words, climate is about weather statistics and therefore climate change is a statistical phenomenon, the effects of which are seen in the world around us.[4]
  11. In response to this threat, the UN parties adopted the 2015 Paris Agreement on Climate Change along with its implementation by 2020.[5]
  12. We’re entering a phase in which we must think about enduring the shock of climate change.[6]
  13. But as Patricia Espinosa, Executive Secretary of the U.N. Framework Convention on Climate Change, said, “I think we have kind of reached the limit.[6]
  14. We found many of these people just gave their preferred, ideologically aligned answers when it came to the climate change question.[7]
  15. She had the idea several years ago of uniting mathematicians from across the globe to study problems ranging from climate change and sustainability to earthquake prediction and disease pandemics.[8]
  16. One goal of MPE is to convince more mathematicians that climate change and other planetary problems are not only important but also interesting.[8]
  17. Rousseau hopes that the initiative will help nurture new ideas for dealing with climate change and encourage changes at the political level.[8]
  18. Climate change, and its effects on our weather, is important, controversial and is possibly going to affect all of our lives over the next fifty years.[9]
  19. If instead they are part of a series of events due to climate change, then we need to be worried indeed.[9]
  20. There are at least five indicators that make us think that climate change is occurring.[9]
  21. Most scientists (and this includes mathematicians) believe that climate change is occurring, but this is certainly not a universally held opinion.[9]
  22. This analysis upends most of the conventional political thinking about climate change.[10]
  23. , it’s fair to say that it’s the only thing about climate change the world has settled on.[10]
  24. And the number is being further confirmed by the latest climate-simulation models currently being finalized in advance of the next report by the Intergovernmental Panel on Climate Change.[10]
  25. “There have been efforts to use more renewable energy and improve energy efficiency,” said Corinne Le Quéré, who runs England’s Tyndall Centre for Climate Change Research.[10]
  26. The World Bank has estimated that climate change will have negative impacts for some 100 million people worldwide.[11]
  27. First, you will learn about climate change and global warming through web explorations.[12]
  28. You will then explore sites with data to see how climate change and global warming are monitored.[12]
  29. You learned about the issues of climate change and global warming through online explorations.[12]
  30. You also learned how climate change and global warming are monitored.[12]
  31. Climate change is one of the most challenging problems that our society faces today.[13]
  32. “Similarly, to how food deserts disproportionately occur in minority and low-income communities, the impacts of climate change disproportionately weigh upon minority and low-income communities.[14]
  33. Can we use models and data to estimate the probability of severe weather events under climate change, and quantify our errors?[15]
  34. Climate change represents an urgent challenge for humanity.[15]
  35. Mitigating climate change through decarbonization represents the other half of the challenge.[16]
  36. “Because key climate change attributes, such as ice sheet collapse and sea level rise, are occurring ahead of schedule, uncertainty has in many respects turned against us.[17]
  37. Professor Pope’s online lecture will focus on climate change: how can mathematics help us to respond.[18]
  38. Two of the mandatory courses will specifically focus on the issues related to climate change and are taught by expert staff from the University's School of Life Sciences.[19]
  39. Adaptive Traits focuses on practical means and approaches to further the use of genetic resources for mitigating the effects of climate change and improving crop production.[20]
  40. It also highlights ways to provide much-needed information to practitioners and innovators engaged in addressing the effects of global climate change on agriculture.[20]
  41. Climate change is having a dramatic effect on a wide range of animals, by altering the environment in which they move and live.[21]

소스

  1. The New Climate Math: The Numbers Keep Getting More Frightening
  2. THE MATHEMATICS IN CLIMATE CHANGE
  3. 이동: 3.0 3.1 3.2 3.3 Seven ways maths can save the world
  4. 이동: 4.0 4.1 4.2 4.3 Teachers Climate Guide
  5. Mathematical Model for CO2 Emissions Reduction to Slow and Reverse Global Warming
  6. 이동: 6.0 6.1 What the Math Behind Climate Change Is Telling Us
  7. We asked people to do climate change maths. Their answers depended on their politics
  8. 이동: 8.0 8.1 8.2 Strength in Numbers: Mathematicians Unite to Tackle Climate Change and Other Planetary Problems
  9. 이동: 9.0 9.1 9.2 9.3 Climate change: Does it all add up?
  10. 이동: 10.0 10.1 10.2 10.3 Global Warming’s Terrifying New Math
  11. Mathematical sciences for climate change resilience (MS4CR)
  12. 이동: 12.0 12.1 12.2 12.3 Mathematics and Climate
  13. Math and Climate Change at UWaterloo | Applied Mathematics
  14. Graduate Students Study Mathematics Of Climate Change
  15. 이동: 15.0 15.1 EPSRC Centre for Doctoral Training
  16. Climate math: What a 1.5-degree pathway would take
  17. Tackling misconceptions about climate science with mathematics
  18. Climate change: how can mathematics help us to respond? [ONLINE]
  19. Applied Mathematical Sciences with Climate Change Modelling, M.Sc.
  20. 이동: 20.0 20.1 Applied Mathematics and Omics to Assess Crop Genetic Resources for Climate Change Adaptive Traits
  21. Detecting the effect of climate change on animals: how mathematics can help optimise data-gathering efforts at University of Sheffield on FindAPhD.com


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