Talk:Global warming
Workgroup category or categories | Earth Sciences Workgroup [Categories OK] |
Article status | Developing article: beyond a stub, but incomplete |
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Checklist last edited by | Nereo Preto 08:23, 26 May 2007 (CDT) |
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This article talk page is now under dispute watch
See CZ:Dispute Watch. You're going to have to start using the {{prop}} template in the way that page describes, illustrated here: Talk:Oriental (word). We're testing out a dispute resolution idea, but I'm taking the test seriously. From now on, disputation on this page must be on-topic, and on-topic means (1) aimed at a specific proposition, (2) the proposition must concern the wording of the text, and (3) engaging in a dispute, as opposed to how to characterize the dispute, is off-topic. Call it the Anti-Bloviation Rule! :-)
Note, for this topic in particular, that how much dispute there is about this topic is itself (pretty obviously) a matter of dispute. So we must not take a stand on that dispute, but must describe it. --Larry Sanger 07:17, 3 August 2007 (CDT)
- So we must suggest a different and specific change in the article's text to dispute the content herein? Benjamin Seghers 09:20, 3 August 2007 (CDT)
Yep. But notice that the change can be: delete it. --Larry Sanger 09:22, 3 August 2007 (CDT)
Global warming and hurricanes
- Proposition: I think we should expand on the role of global warming on hurricanes. I think this one area of higher amount of debate in the scientific community, with regards to how large an impact sea surface temperatures are having on intensity and frequency of hurricanes across the globe (as opposed to more natural factors, such as wind shear, for example). I don't know exactly what should be written, but there is much to say about the issue. Benjamin Seghers 12:43, 3 August 2007 (CDT)
- This article is on dispute watch. This requires that all argumentation directly concern clearly-stated propositions about article wording.
Benjamin, please use {{prop}} if you want to make an argument--please rewrite the above (and then feel free to delete this) so that it is in conformity with CZ:Dispute Watch. Thanks. --Larry Sanger 12:33, 3 August 2007 (CDT)
- I'm not really disputing anything (just a suggestion), but if you say so. Benjamin Seghers 14:07, 3 August 2007 (CDT)
- The question is whether your suggestion amounted to a contentious claim, i.e., whether anyone can be expected to take issue with it. It is easy for me to imagine someone taking issue with whether there should be more here about the role of global warming on hurricanes. Hope this helps. --Larry Sanger 05:26, 6 August 2007 (CDT)
I've deleted a discussion that did not begin with a proposition. The Dispute Watch is very specific on this point. You can restore it if you add the proposition. Thanks. --Larry Sanger 05:15, 6 August 2007 (CDT)
"Very likey" as opposed to 100%
- Proposition: Our intro reads, "The prevailing scientific view, as represented by the science academies of the major industrialized nations and the Intergovernmental Panel on Climate Change (IPCC), is that most of the temperature increase since the mid-20th century has been caused by increases in atmospheric greenhouse gas concentrations produced by human activity." I wonder if it should say "is very likely caused by increases in atmospheric . . ." so as to mimic the IPCC language that suggest 90% certainty rather absolute certainty? Benjamin Seghers 14:02, 5 August 2007 (CDT)
- This article is on dispute watch. This requires that all argumentation directly concern clearly-stated propositions about article wording.
I'd like to see the math formula that led a precise percentage of certitude, mainly because I doubt it exists. *smile* However, I would prefer that we quote the IPCC rather than state this as a matter of fact. We know that this is the IPCC's position. We don't really know if they are correct or not. Will Nesbitt 09:39, 6 August 2007 (CDT)
- Well, in the AR4 SPM, the footnote reads, "In this Summary for Policymakers, the following terms have been used to indicate the assessed likelihood, using expert judgement, of an outcome or a result: Virtually certain > 99% probability of occurrence, Extremely likely > 95%, Very likely > 90%, Likely > 66%, More likely than not > 50%, Unlikely < 33%, Very unlikely < 10%, Extremely unlikely < 5%. (See Box TS.1.1 for more details)." The box doesn't appear in the SPM, but I was able to find it in chapter 1 of the WGI contribution to the AR4. It states:
- Box 1.1: Treatment of Uncertainties in the Working Group I Assessment
- The importance of consistent and transparent treatment of uncertainties is clearly recognised by the IPCC in preparing its assessments of climate change. The increasing attention given to formal treatments of uncertainty in previous assessments is addressed in Section 1.6. To promote consistency in the general treatment of uncertainty across all three Working Groups, authors of the Fourth Assessment Report have been asked to follow a brief set of guidance notes on determining and describing uncertainties in the context of an assessment .1 This box summarises the way that Working Group I has applied those guidelines and covers some aspects of the treatment of uncertainty specific to material assessed here
- Uncertainties can be classified in several different ways according to their origin. Two primary types are ‘value uncertainties’ and ‘structural uncertainties’. Value uncertainties arise from the incomplete determination of particular values or results, for example, when data are inaccurate or not fully representative of the phenomenon of interest. Structural uncertainties arise from an incomplete understanding of the processes that control particular values or results, for example, when the conceptual framework or model used for analysis does not include all the relevant processes or relationships. Value uncertainties are generally estimated using statistical techniques and expressed probabilistically. Structural uncertainties are generally described by giving the authors’ collective judgment of their confidence in the correctness of a result. In both cases, estimating uncertainties is intrinsically about describing the limits to knowledge and for this reason involves expert judgment about the state of that knowledge. A different type of uncertainty arises in systems that are either chaotic or not fully deterministic in nature and this also limits our ability to project all aspects of climate change.
- The scientific literature assessed here uses a variety of other generic ways of categorising uncertainties. Uncertainties associated with ‘random errors’ have the characteristic of decreasing as additional measurements are accumulated, whereas those associated with ‘systematic errors’ do not. In dealing with climate records, considerable attention has been given to the identification of systematic errors or unintended biases arising from data sampling issues and methods of analysing and combining data. Specialised statistical methods based on quantitative analysis have been developed for the detection and attribution of climate change and for producing probabilistic projections of future climate parameters. These are summarised in the relevant chapters.
- The uncertainty guidance provided for the Fourth Assessment Report draws, for the first time, a careful distinction between levels of confidence in scientific understanding and the likelihoods of specific results. This allows authors to express high confidence that an event is extremely unlikely (e.g., rolling a dice twice and getting a six both times), as well as high confidence that an event is about as likely as not (e.g., a tossed coin coming up heads). Confidence and likelihood as used here are distinct concepts but are often linked in practice.
- The standard terms used to define levels of confidence in this report are as given in the IPCC Uncertainty Guidance Note, namely:
- Confidence Terminology Degree of confidence in being correct
- Very high confidence At least 9 out of 10 chance
- High confidence About 8 out of 10 chance
- Medium confidence About 5 out of 10 chance
- Low confidence About 2 out of 10 chance
- Very low confidence Less than 1 out of 10 chance
- Note that ‘low confidence’ and ‘very low confidence’ are only used for areas of major concern and where a risk-based perspective is justified.
- Chapter 2 of this report uses a related term ‘level of scientific understanding’ when describing uncertainties in different contributions to radiative forcing. This terminology is used for consistency with the Third Assessment Report, and the basis on which the authors have determined particular levels of scientific understanding uses a combination of approaches consistent with the uncertainty guidance note as explained in detail in Section 2.9.2 and Table 2.11.
- The standard terms used in this report to define the likelihood of an outcome or result where this can be estimated probabilistically are:
- Likelihood Terminology Likelihood of the occurrence/ outcome
- Virtually certain > 99% probability
- Extremely likely > 95% probability
- Very likely > 90% probability
- Likely > 66% probability
- More likely than not > 50% probability
- About as likely as not 33 to 66% probability
- Unlikely < 33% probability
- Very unlikely < 10% probability
- Extremely unlikely < 5% probability
- Exceptionally unlikely < 1% probability
- The terms ‘extremely likely’, ‘extremely unlikely’ and ‘more likely than not’ as defined above have been added to those given in the IPCC Uncertainty Guidance Note in order to provide a more specific assessment of aspects including attribution and radiative forcing.
- Unless noted otherwise, values given in this report are assessed best estimates and their uncertainty ranges are 90% confidence intervals (i.e., there is an estimated 5% likelihood of the value being below the lower end of the range or above the upper end of the range). Note that in some cases the nature of the constraints on a value, or other information available, may indicate an asymmetric distribution of the uncertainty range around a best estimate. Benjamin Seghers 11:32, 6 August 2007 (CDT)
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