Harmonization of environmental measurement

A wealth of data on the state of the environment is being created in innumerable programmes world-wide. Optimal use of this data requires that information on its existence is available, that it can be readily accessed and — most important — that the data be compiled and classified in a compatible way. Achieving this is the basic aim of harmonization of environmental measurement. Although great care is generally taken to harmonize data collected within programmes, harmonization between programmes remains a major goal for the future.In 1989 UNEP established an office as a basis for the planned Harmonization of Environmental Measurement Project under the auspices of the Global Environmental Monitoring System (GEMS). The office describes the mission, rationale, and objectives of the project and the concepts underlying the harmonization of information on the environment collected at different levels and in different programmes.     

Bathymetrie und Geomorphologie des NOAMP-Gebietes,Westeuropäisches Becken (17° W bis 22° W, 46° N bis 49° N)

Zusammenfassung Im Westeuropäischen Becken wurden bathymetrische Vermessungen und geomorphologische Untersuchungen zur Unterstützung eines ozeanographischen Meßprogramms (NOAMP) des Deutschen Hydrographischen Instituts durchgeführt. Für das zentrale Arbeitsgebiet wurde mit dem SEA BEAM-System eine sehr exakte Tiefenkarte erstellt. Die Karte der weiteren Umgebung ergab sich aus den NBS-Lotungen während der Profilfahrten des hydrographischen Meßprogramms.Die bathymetrischen Karten zeigen Wassertiefen zwischen 3500 und 4900 m an. Das Relief ist damit deutlich rauher, als es aus bisherigen Vermessungen zu erwarten war. Es herrschen NNE-SSW-streichende Strukturen vor, die parallel zum Mittelatlantischen Rücken verlaufen. Ab und zu werden diese durch breite, E-W-verlaufende Senken geschnitten. Bei diesen Senken handelt es sich vermutlich um derzeit inaktive ozeanische Bruchzonen.Die basaltische Kruste hat im Zentralgebiet ein paläozänes bis eozänes Alter (Magnetanomalie 26 bis 21). Die basaltischen Rücken tragen eine ca. 30 m mächtige Sedimentdecke, die das schroffe Krustenrelief noch nicht geglättet hat. Tiefergelegene Rinnen und Senken besitzen durch Sedimentumlagerung und (nördlich 47° N) durch Turbiditzufuhr aus dem Maury-Channel-System südlich von Island eine mehr als 150 m mächtige Sedimentfüllung.

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Bathymetric and physiographic charting in the NOAMP area, West European Basin (17° W to 22° W, 46° N to 49° N)

Summary The Deutsches Hydrographisches Institut (DHI), Hamburg, is carrying out an oceanographic measurement programme in the NE Atlantik (NOAMP) in order to compute the transportation paths of dissolved and particulate substances from the ocean bottom up to surface layers. One of the main tasks, to resolve the movements of the bottom currents, required detailed knowledge of the structure of the ocean floor. Therefore, the oceanographic data collection was accompanied by bathymetric charting and a geophysical site survey (continuous profiling of reflection seismic, gravity, and orientation of magnetism) of the central area of investigation. The mapping of the central NOAMP area was carried out with the SEA BEAM system (RV Polarstern, RV Sonne). NBS soundings, recorded during the hydrographic cruises, were evaluated for a map of the outer vicinity.As the most important result, the mapping revealed a much more sophisticated relief than was expected from known charts. The water depth range between 3500 and 4900 m. A system of ridges and furrows, with a mean crest-to-crest distance of 10 nautical miles, trends parallel to the Mid-Atlantic Ridge (NNE to SSW). This system is cut each 50 nautical miles by broad E-W striking valleys. The ridges climb about 300 to 400 m above the bottom of the furrows. Some peaks sitting on top of the ridges rise up to the shallowest depths of 3500 m.The internal cores of the ridges consist of basaltic ocean crust, as can be seen by the relative increases of the Bouguer gravity. In the central NOAMP area, the age of the crust is Paleocene to Eocene (magnetic anomalies 26 to 21). The E-W striking valley at 47° 30 N is interpreted as a fossil fracture zone, due to the Z-like bending of the magnetic anomalies.The sediment cover is rather thin on elevations (about 30 m). Therefore, the rough microtopography of the basaltic crust is not yet buried. Downslope mass transport of sediment by currnets and submarine slides raised the sediment thickness in the deeper furrows to more than 100 m, and smoothed out the floor. North of 47° N, there is an additional supply of sediment by turbidity currents from the depositional Maury Channel system south of Iceland.

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Relevés bathymétriques et physiographiques dans la zone NOAMP, bassin européen Ouest (17° W à 22° W, 46° N à 49° N)

Résumé Le Deutsches Hydrographisches Institut (DHI) de Hamburg, est en train d'exécuter un programme de mesures océanographiques dans l'Atlantique Nord-Est (NOAMP), dans le but de déterminer le cheminement du transport des substances dissoutes et particulaires du fond de l'océan vers les couches de surface. L'une des principales tâches, étant la détermination des déplacements des courants de fond, elle exigeait une connaissance détaillée de la structure du fond de l'océan. En conséquence, la collecte des données océanograhiques fut accompagnée de relevés bathymétriques et d'un levé géophysique sur le site (profils continus de réflexion sismique, gravité, orientation du champ magnétique) de la zone centrale d'investigation. La cartographie de la zone centrale NOAMP a été réalisée à l'aide du sondeur «SEA BEAM» (RV «Polarstern», RV «Sonne»). Les sondages NBS enregistrés au cours des campagnes hydrographiques, étaient évalués pour une carte du voisinage extérieur.Le résultat le plus important, révélé par la cartographie, était un relief beaucoup plus complexe que celui auquel on pouvait s'attendre à la lecture des cartes existantes. La profondeur était comprise entre 3500 et 4900 m. Un système de dorsales et de sillons, avec une distance moyenne de crête à crête de 10 milles marins, s'étire parallèlement à la dorsale médiane de l'Atlantique (du NNE au SSW). Ce système est interrompu tous les 50 milles marins par de larges vallées de direction Est-Ouest. Les dorsales culminent de 300 à 400 m au-dessus du fond des sillons. Quelques pics situés au sommet des dorsales remontent vers les profondeurs les plus faibles qui sont de 3500 m.La structure interne des dorsales consiste en une croûte de basalte océanique comme cela peut être observé par l'augmentation relative de l'anomalie de Bouguer. Dans la partie centrale de la zone NOAMP, l'âge de la croûte s'étale du paléocène à l'éocène (les anomalies magnétiques de 26 à 21). La vallée de direction Est-Ouest située en 47° 30 N, est interprétée comme une zone de fracture fossile, attribuable à la sinuosité, en forme de Z, des anomalies magnétiques.La couverture sédimentaire est plutôt mince sur les hauteurs (de l'ordre de 30 m). C'est pourpuoi, la microtopographie grossière de la croûte basaltique n'est pas encore enfouie. Le transport en masse des sédiments suivant la pente descendante du aux courants et aux glissements sous-marins ont augmenté l'épaisseur du sédiment dans les sillons les plus profonds jusqu'à plus de 100 m et ont «lissé» le fond. Il existe au Nord de 47° N, un apport supplémentaire de sédiments amené par des courants de turbidité provenant du dépôt de Maury Channel au Sud de l'Islande.

     

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Structure and composition of the continental crust in East China

Crustal structures of nine broad tectonic units in China, except the Tarim craton, are derived from 18 seismic refraction profiles including 12 geoscience transects. Abundances of 63 major, trace and rare earth elements in the upper crust in East China are estimated. The estimates are based on sampling of 11 451 individual rock samples over an area of 950 000 km², from which 905 large composite samples are prepared and analyzed by 13 methods. The middle, lower and total crust compositions of East China are also estimated from studies of exposed crustal cross sections and granulite xenoliths and by correlation of seismic data with lithologies. All the tectonic units except the Tarim craton and the Qinling orogen show a four-layered crustal structure, consisting of the upper, middle, upper lower, and lowermost crusts. P-wave velocities of the bulk lower crust and total crust are 6.8–7.0 and 6_:4–6.5 km/s, respectively. They are slower by 0.2–0.4 km/s than the global averages. The bulk lower crust is suggested to be intermediate with 58% SiO₂ in East China. The results contrast with generally accepted global models of mafic lower crusi. The proposed total crust composition in East China is also more evolved than previous estimates and characterized by SiO₂=64%, a significant negative Eu anomaly (Eu/Eu* = 0.80), deficits in Sr and transition metals, a near-arc magma La/Nd ratio (3.0), and a calculatedμ(²³⁸U/²⁰⁴Pb) value of 5. In addition, it has the following ratios of element pairs exhibiting similar compatibility, which are identical or close to the primitive mantle values: Zr/Hf=37, Nb/Ta=17.5, Ba/Th=87, K/Pb=0.12x10⁴, Rb/Cs=25, Ba/Rb=8.94, Sn/Sm=0.31, Se/Cd=1.64, La/ As=10.3, Ce/Sb=271, Pb/Bi=57, Rb/TI=177, Er/Ag=52, Cu/Au=3.2×10⁴, Sm/Mo=7.5, Nd/W=40, CI/Li=10.8, F/Nd=21.9, and La/B=1.8. Project supported by the National Natural Science Foundation of China (Grant Nos. 49625305, 49573183, 49673184, 49794043), the State Comission of Education, the Ministry of Geology and Mineral Resources of China (Grant No. 850514), the Open Laboratory of Constitution, Interaction and Dynamics of the Crust-Mantle System, and the Alexander-von-Humboldt Foundation of Germany.     

Earthquakes and strength in the laminated lower crust —Can they be explained by the “corset model”?

We present a model that may explain deep crustal earthquakes observed, in particular, in several areas of highly reflective (laminated) lower continental crust. We combine observations from earthquake seismology, crustal reflection seismics and tectonic-rheological concepts. The study concentrates on parts of the northern Alpine foreland where many earthquakes occur inside the laminated lower crust, which is generally considered to be warm and weak. Thin mafic/ultramafic, sill-like intrusions and invisible dykes are assumed to form a corset-like network with high strength. This model can explain the observed strong and multiple reflections and the occurrence of rupture inside a stable structure within a weak lower crust. Tectonic stress transfer (from the Alpine collision zone or/and the Upper Rhine Graben) and its release may follow classical friction concepts. In addition, the heterogeneity of the laminated lower crust may also favour various viscous instabilities.     

Lightning evolution related to radar-derived microphysics in the 21 July 1998 EULINOX supercell storm

Results of a combined analysis of data from a C-band polarimetric Doppler radar and a 3D VHF interferometric lightning mapping system, as obtained during the European Lightning Nitrogen Oxides project (EULINOX) field campaign, are presented. For 21 July 1998, the lightning data from a supercell thunderstorm weakly indicate a tendency for a bi-level vertical distribution of lightning VHF emissions around the −15°C and −30°C temperature levels. Also, in some parts of the clouds, evidence is found for the presence of a lower positive charge center near the freezing level. However, where strong vertical motions prevail, VHF emissions are not organized in horizontal layers but in oblique or vertical regions. Correlation of VHF signals with radar quantities shows that in the growing storm, peak VHF activity is low and related to reflectivity factors around 30 dBZ, while after the mature stage, the peak VHF activity is about three times larger. The highest density of VHF signals is now found near reflectivity factors of 45 dBZ. A polarimetric hydrometeor classification indicates that during storm development, most lightning activity occurs where graupel and, secondarily, snow and small dry hail are present. In the decaying phase of the supercell hailstorm, however, most lightning VHF emissions stem from the region with hail and heavy rain. Furthermore, while the VHF signal frequency per cubic kilometer in the graupel and rain regions remains nearly constant throughout the supercell life cycle, the signal frequency in the hail region rises during storm decay.     

Modelling the responses of mature forest trees to air pollution

Systems analysis of the responses of forest trees to air pollutants led to mathematical models which represent the essential life processes of mature trees (photosynthesis, respiration, growth etc.) under ‘normal’ conditions and — especially — under pollution strees. Computer simulations using these models have made it possible to test and analyse the consequences of — known or hypothetical — pollution effects. The simulation runs have led to the identification of three distinct behavioural modes (growth, stagnation, breakdown) and corresponding stable and unstable system states. The results have produced new insights and contributed to the understanding of the dieback process of spruce and beech trees. The presentation will concentrate on the most recent and most complex of the hitherto existing models, theBeech model.     

Poisson's ratio of eclogite: Implications for lower crustal delamination of orogens

Eclogite is essentially a bi-mineralogic high-grade metamorphic rock consisting of garnet and omphacite and is the product of high-to-ultrahigh pressure metamorphism of basaltic rocks due to the subduction of oceanic crust or the thickening/subduction of …