Nordseezustand 2004 19 Summary The North Sea is a complex dynamic system whose state is changing subject to both, natural processes and environmental pollution due to a multitude of industrial activities in the densely populated riparian states. Contaminants and nutrients that enter the system through river discharge and atmospheric deposition are well-known to ad versely effect its ecological state. Meanwhile, evidence has grown, however, that an thropogenic activities are interfering with the intensity and course of natural physical processes as well. For example, analyses of sea surface temperature observations, which locally date back to the 19 th century, revealed that cold and warm periods of 5 - 15 years in length have been alternating since at least the past 130 years in the North Sea region. These natural regimes and abrupt regime shifts of temperature together with the underlying changes in atmospheric circulation have been termed »mishmash climate«. The cur rent warm regime that jumped into existence 1988 is the longest and warmest period on record since the beginning of measurements in 1873. There is no serious denying now of the impact of anthropogenic climate warming. Not only temperatures and temperature-dependent variables of the North Sea are af fected by climate change but ultimately all system variables coupled immediately or obliquely to the state of the atmosphere. Among the variables investigated more close ly in this report are water level and sea ice. However, regime shifts and climate change are also reflected in phytoplankton biomass, community structure, and fish migration. »Maintenance and repair« of technical systems such as motorcycles or biological sys tems, among them humans, are best performed by mechanics or physicians distin guished by their holistic understanding of the system at hand, in particular its function ality and the entanglement of interactive processes. The joint presentation of the atmospheric, oceanographic, and chemical state attempts to integrate the results from these disciplines and thus aims at a better, holistic understanding of the North Sea sys tem. Such understanding is a key prerequisite for sustainable management and imple mentation of effective measures to protect the marine environment. The main findings as to the state of the North Sea in 2004 are summarized below. Atmospheric Physics The atmosphere is the motor, which substantially drives and controls the development of the oceanographic state of the North Sea. Characteristics and anomalies of the at mospheric circulation often mark the beginning of cause-effect chains extending from oceanographic state variables beyond distribution patterns of pollutants and nutrients down to biological anomalies. The difference in atmospheric pressure between the Azores and Iceland is a simple measure of the strength of the zonal circulation over the North Atlantic. While, on av erage, pressure decreases from south (Azores High) to north (Icelandic Low) such that westerly winds prevail, short-term pressure gradients in the opposite direction are pos sible as well (easterly winds). This pressure see-saw is known as North Atlantic Oscil lation (NAO), while the index characterizing the state of the oscillation is called NAO index. In accord with the state of the NAO, enhanced (+) and weakened (-) zonal cir