Climate impact on social systems: the risk assessment approach
A novel approach to the problem of estimating climate impact on social systems is suggested. This approach is based on a risk concept, where the notion of critical events is introduced and the probability of such events is estimated. The estimation considers both the inherent stochasticity of climat...
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| Veröffentlicht in: | Environmental modeling & assessment 1999-01, Vol.4 (4), p.287-294 |
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| creator | Svirezhev, Yu M Bloh, W von Schellnhuber, H-J |
| description | A novel approach to the problem of estimating climate impact on social systems is suggested. This approach is based on a risk concept, where the notion of critical events is introduced and the probability of such events is estimated. The estimation considers both the inherent stochasticity of climatic processes and the artificial stochasticity of climate predictions due to scientific uncertainties. The method is worked out in some detail for the regional problem of crop production and the risks associated with global climate change, and illustrated by a case study (Kursk region of the FSU). In order to get local climatic characteristics (weather), a so-called "statistical weather generator" is used. One interesting finding is that the 3% risk level remains constant up to 1.0 - 1.1 degree C rise of mean seasonal temperature, if the variance does not change. On the other hand, the risk grows rapidly with increasing variance (even if the mean temperature rises very slowly). The risk approach is able to separate two problems: (i) assessment of global change impact, and (ii) decision making. The main task for the scientific community is to provide the politicians with different options; the choice of admissible (from the social point of view) critical events and the corresponding risk levels is the business of decision makers. [PUBLICATION ABSTRACT] |
| doi_str_mv | 10.1023/A:1019068402139 |
| format | Article |
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This approach is based on a risk concept, where the notion of critical events is introduced and the probability of such events is estimated. The estimation considers both the inherent stochasticity of climatic processes and the artificial stochasticity of climate predictions due to scientific uncertainties. The method is worked out in some detail for the regional problem of crop production and the risks associated with global climate change, and illustrated by a case study (Kursk region of the FSU). In order to get local climatic characteristics (weather), a so-called "statistical weather generator" is used. One interesting finding is that the 3% risk level remains constant up to 1.0 - 1.1 degree C rise of mean seasonal temperature, if the variance does not change. On the other hand, the risk grows rapidly with increasing variance (even if the mean temperature rises very slowly). The risk approach is able to separate two problems: (i) assessment of global change impact, and (ii) decision making. The main task for the scientific community is to provide the politicians with different options; the choice of admissible (from the social point of view) critical events and the corresponding risk levels is the business of decision makers. 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The risk approach is able to separate two problems: (i) assessment of global change impact, and (ii) decision making. The main task for the scientific community is to provide the politicians with different options; the choice of admissible (from the social point of view) critical events and the corresponding risk levels is the business of decision makers. 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| subjects | Agricultural production Agriculture Climate change Climate prediction Crop production Decision making Global climate Global warming Homeostasis Impact analysis Risk assessment Social impact Social perception Stochastic models Water shortages |
| title | Climate impact on social systems: the risk assessment approach |
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