Year of publication
- The human impact on climate : new evidence from observations (2001)
- This is a short movie about the research project No. 297 41 132 of the German Federal Environmental Agency. It is comissioned by the German Ministry for the Environment, Nature Conservation and Nuclear Safety and the German Federal Environmental Agency, Division II 6.2.
- Statistische Analysen zur Früherkennung globaler und regionaler Klimaänderungen aufgrund des anthropogenen Treibhauseffektes (2000)
- Statistical analyses for the purpose of an early detection of global and regional climate change due to the anthropogenic greenhouse effect (2000)
- The assumption that mankind is able to have an in uence on global or regional climate, respectively, due to the emission of greenhouse gases, is often discussed. This assumption is both very important and very obscure. In consequence, it is necessary to clarify definitively which meteorological elements (climate parameters) are in uencend by the anthropogenic climate impact, and to which extent in which regions of the world. In addition, to be able to interprete such an information properly, it is also necessary to know the magnitude of the different climate signals due to natural variability (for example due to volcanic or solar activity) and the magnitide of stochastic climate noise. The usual tool of climatologists, general circulation models (GCM) suffer from the problem that they are at least quantitatively uncertain with regard to the regional patterns of the behaviour of climate elements and from the lack of accurate information about long-term (decadal and centennial) forcing. In contrast to that, statistical methods as used in this study have the advantage to test hypotheses directly based on observational data. So, we focus to the very reality of climate variability as it has occurred in the past. We apply two strategies of time series analyis with regard to the observed climate variables under consideration. First, each time series is splitted into its variation components. This procedure is called 'structure-oriented time series separation'. The second strategy called 'cause-oriented time series separation' matches various time series representing various forcing mechanisms with those representing the climate behaviour (climate elements). In this way it can be assessed which part of observed climate variability can be explained by this (combined) forcing and which part remains unexplained.
- Secular change of extreme monthly precipitation in Europe (2003)
- Temporal changes in the occurrence of extreme events in time series of observed precipitation are investigated. The analysis is based on a European gridded data set and a German station-based data set of recent monthly totals (1896=1899–1995=1998). Two approaches are used. First, values above certain defined thresholds are counted for the first and second halves of the observation period. In the second step time series components, such as trends, are removed to obtain a deeper insight into the causes of the observed changes. As an example, this technique is applied to the time series of the German station Eppenrod. It arises that most of the events concern extreme wet months whose frequency has significantly increased in winter. Whereas on the European scale the other seasons also show this increase, especially in autumn, in Germany an insignificant decrease in the summer and autumn seasons is found. Moreover it is demonstrated that the increase of extreme wet months is reflected in a systematic increase in the variance and the Weibull probability density function parameters, respectively.
- Jahreszeitliche Struktur beobachteter Temperatur– und Niederschlagstrends in Deutschland (2003)
- Im Rahmen der Diskussion des globalen bzw. regionalen Klimawandels sind, neben Extremereignissen, Langfristtrends von besonderem Interesse. Doch erfordert die ausgeprägte Klimavariabilität in Zeit und Raum spezielle regionale Detailuntersuchungen. Daher wird hier eine solche Analyse für Deutschland und die Klimaelemente bodennahe Lufttemperatur sowie Niederschlag vorgestellt, mit besonderem Blick auf die jahreszeitlichen/monatlichen Besonderheiten der Trends in ausgewählten Zeitintervallen zwischen 1891 und 2000. Am auffälligsten ist dabei die sich verstärkende winterliche Temperatur- und Niederschlagszunahme, während im Sommer, unter ebenfalls Erwärmung, eine Trendwende von abnehmendem zu in den letzten Dekaden zunehmendem Niederschlag eingetreten ist.
- Attribution and detection of anthropogenic climate change using a backpropagation neural network (2002)