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991.
T. Van Engeland K. Soetaert A. Knuijt R.W.P.M. Laane J.J. Middelburg 《Estuarine, Coastal and Shelf Science》2010
Dissolved organic nitrogen (DON) dynamics in the North Sea was explored by means of long-term time series of nitrogen parameters from the Dutch national monitoring program. Generally, the data quality was good with little missing data points. Different imputation methods were used to verify the robustness of the patterns against these missing data. No long-term trends in DON concentrations were found over the sampling period (1995–2005). Inter-annual variability in the different time series showed both common and station-specific behavior. The stations could be divided into two regions, based on absolute concentrations and the dominant times scales of variability. Average DON concentrations were 11 μmol l−1 in the coastal region and 5 μmol l−1 in the open sea. Organic fractions of total dissolved nitrogen (TDN) averaged 38 and 71% in the coastal zone and open sea, respectively, but increased over time due to decreasing dissolved inorganic nitrogen (DIN) concentrations. In both regions intra-annual variability dominated over inter-annual variability, but DON variation in the open sea was markedly shifted towards shorter time scales relative to coastal stations. In the coastal zone a consistent seasonal DON cycle existed with high values in spring–summer and low values in autumn–winter. In the open sea seasonality was weak. A marked shift in the seasonality was found at the Dogger Bank, with DON accumulation towards summer and low values in winter prior to 1999, and accumulation in spring and decline throughout summer after 1999. This study clearly shows that DON is a dynamic actor in the North Sea and should be monitored systematically to enable us to understand fully the functioning of this ecosystem. 相似文献
992.
Melissa M. Foley Benjamin S. Halpern Fiorenza Micheli Matthew H. Armsby Margaret R. Caldwell Caitlin M. Crain Erin Prahler Nicole Rohr Deborah Sivas Michael W. Beck Mark H. Carr Larry B. Crowder J. Emmett Duffy Sally D. Hacker Karen L. McLeod Stephen R. Palumbi Charles H. Peterson Helen M. Regan Mary H. Ruckelshaus Paul A. Sandifer Robert S. Steneck 《Marine Policy》2010
The declining health of marine ecosystems around the world is evidence that current piecemeal governance is inadequate to successfully support healthy coastal and ocean ecosystems and sustain human uses of the ocean. One proposed solution to this problem is ecosystem-based marine spatial planning (MSP), which is a process that informs the spatial distribution of activities in the ocean so that existing and emerging uses can be maintained, use conflicts reduced, and ecosystem health and services protected and sustained for future generations. Because a key goal of ecosystem-based MSP is to maintain the delivery of ecosystem services that humans want and need, it must be based on ecological principles that articulate the scientifically recognized attributes of healthy, functioning ecosystems. These principles should be incorporated into a decision-making framework with clearly defined targets for these ecological attributes. This paper identifies ecological principles for MSP based on a synthesis of previously suggested and/or operationalized principles, along with recommendations generated by a group of twenty ecologists and marine scientists with diverse backgrounds and perspectives on MSP. The proposed four main ecological principles to guide MSP—maintaining or restoring: native species diversity, habitat diversity and heterogeneity, key species, and connectivity—and two additional guidelines, the need to account for context and uncertainty, must be explicitly taken into account in the planning process. When applied in concert with social, economic, and governance principles, these ecological principles can inform the designation and siting of ocean uses and the management of activities in the ocean to maintain or restore healthy ecosystems, allow delivery of marine ecosystem services, and ensure sustainable economic and social benefits. 相似文献
993.
A morphodynamical linear stability analysis is used to predict the natural development of crescentic bed patterns and rip channels. The purpose is to investigate whether this technique, which is useful for understanding the physics of emerging bed-forms, can be used to make quantitative predictions in the field, which may then be of use for coastal engineers. 相似文献
994.
An unstructured-grid procedure for SWAN is presented. It is a vertex-based, fully implicit, finite difference method which can accommodate unstructured meshes with a high variability in geographic resolution suitable for representing complicated bottom topography in shallow areas and irregular shoreline. The numerical solution is found by means of a point-to-point multi-directional Gauss–Seidel iteration method requiring a number of sweeps through the grid. The approach is stable for any time step while permitting local mesh refinements in areas of interest. A number of applications are shown to verify the correctness and numerical accuracy of the unstructured version of SWAN. 相似文献
995.
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998.
A new version of the magnetic-tape catalog of ABELL clusters of galaxies is used to obtain redshift estimators and to generate two samples of clusters. A procedure for searching for superclusters of galaxies is applied and the results are given in tabular and graphic form. For a lmited homogeneous sample (distance 60–275 Mpc, galactic latitude B > 35°), 12 multiplets, having member clusters with known redshifts, are found. It is shown that the spatial covariance function for rich clusters has the form ξ = (r0/r)γ with r0 = 22.4 ± 1.8 Mpc and γ = 1.90 ± 0.25 for 3 Mpc ≲ r ≲ 80 Mpc. 相似文献
999.
The arcuate pattern of the main Caledonian cleavage and associated fold axial plane traces in North Wales is due partly to NW-SE compression with tectonic transport to the southeast against the concealed crop of the Tan y grisiau Microgranite. Low-angle cleavage close to the microgranite is shown to be a local variant of the regional cleavage formed during the main deformation and not an earlier phase as previously supposed. Transcurrent movements along several major fault systems are also related to compression around the microgranite and the Harlech Dome block. 相似文献
1000.
Prof. Dr. M. Kürsten 《International Journal of Earth Sciences》1980,69(1):22-40
Zusammenfassung Die einzelnen tektonischen Einheiten des Iran werden in ihrer faziellen und strukturellen Entwicklungsgeschichte dargestellt. Fazies und Paläogeographie sprechen dafür, daß vom Infrakambrium bis in die Trias der gesamte Raum zwischen dem Persischen Golf und dem Elburs-Gebirge eine einheitliche Entwicklung genommen hat. Eine zusammenhängende Plattformsedimentation in Schelffazies kennzeichnet dieses Gebiet während des gesamten Zeitraums. Es ist ein Teil Gondwanas. Paläomagnetische Befunde stützen diese Aussage. Ozeanische Kruste und damit Hinweise auf die Tethys als eine strukturelle Einheit fehlen während dieser Zeit in diesem Gebiet. Lediglich als Faunenprovinz in Flachmeerfazies ist sie wirksam. Das offene Meer lag vom Infrakambrium bis zur oberen Trias im Norden. In der Trias tritt mit einer Heraushebung, die mit tiefgreifender Lateritisierung verbunden ist, und einer anschließenden Transgression ein grundlegender Wechsel des geodynamischen Regimes ein. Von jetzt an erfolgen die Ingressionen in den Iran von Süden. Eine engräumige fazielle Differenzierung setzt ein. Kontinental beeinflußte Sedimente im Jura zeigen, daß im Iran ein Hochgebiet entstanden ist. Gleichzeitig tretenwahrscheinlich in Anlehnung an langlebige Geosuturen — Ophiolith-Radiolarit-Zonen auf, die als das Ergebnis intrakratonischer Zerbrechung gedeutet werden. Die Ingressionen gehen wahrscheinlich von Tiefseerinnen aus, in denen auch die Ophiolithe konzentriert sind. Der Aufstieg des ophiolithischen Materials an die Oberfläche erfolgte entlang von Linien, an denen sich flach geneigte Unterschiebungen von Kruste unter Kruste ereigneten. Dabei kam es zu erheblichen Krustenverkürzungen. Möglicherweise fällt der Umbruch des tektonischen Regimes in der Obertrias mit der Plattenkollision Arabia-Iran/ Eurasia zusammen. Die Grenze zwischen Arabia-Iran und Eurasia liegt aber nicht im Gebiet des Persischen Golfes und der Zagros-Ketten, sondern muß nördlich des Elburs-Gebirges gesucht werden.
The individual tectonic units of Iran are represented with respect to the history of the development of their facies and structure. Facies and paleogeography indicate that the entire area between the Persian Gulf and the Elburz Mountains had a uniform development until the Triassic. During the whole period a coherent platform sedimentation remained characteristic of this area, which is part of Gondwana. Paleomagnetic data support this statement. Oceanic crust and thus any indications of the Tethys as a structural unit are absent in this area for that period of time. Its existence is only demonstrated in faunal provinces in shallow-marine facies. From the Infra-Cambrian to the Late Triassic the northern part of the area was open sea. During the Triassic, uplifting processes combined with deep lateritization and subsequent transgression initiated a basic change in the geodynamic regime. From this time on the ingressions into Iran proceeded from the south. At this time differentiation of facies began within small areas. Continental influences in the Jurassic sediments show that an elevated area was formed in Iran. At the same time ophiolite-radiolarite zones occurred, probably along long-lived geosutures. These zones are interpreted to be the result of processes breaking up the craton. Probably, the ingressions started from deep-sea furrows where ophiolite concentrations are found. The ascension of the ophiolitic material to the surface occurred along lines where gently dipping subduction of crust under crust took place. During this process it came to considerable crustal shortening. It is possible that the change in the tectonic regime during the Late Triassic coincided with the collision of the Arabia-Iran and Eurasia plates. The boundary between the Arabia-Iran and Eurasia plates is, however, not to be found in the area of the Persian Gulf and the Zagros mountain ranges, but is assumed to be north of the Elburz Mountains.
Résumé Chacune des unités tectoniques de l'Iran font l'objet d'un exposé concernant leur développement du point de vue de leur facies et de leur structure. Le facies et la paléogéographie indiquent que, de l'Infracambrien au Trias, tout le territoire compris entre le Golf persique et la chaîne de l'Elbours a eu un développement unitaire. Une sedimentation de plateforme cohérente, à facies de shell, caractérise cette région pendant toute cette période. C'est une partie du Gondwana. Des données paléomagnétiques appuient cette affirmation. Toute croûte océanique et, de ce fait toute indice d'une Téthys en temps qu'unité structurale, sont absent dans cette région à ce moment. Une mer ouverte s'y étend au nord de l'Infracambrien jusqu'au Trias supérieur. Au Trias, un soulèvement, auquel est liée une forte latéritisation, et la trangression qui lui est liée, entraînent un changement radical du régime géodynamique. A partir de ce moment, des ingressions se produisent en Iran à partir du sud introduisant des différences de facies. Des sédiments montrant une influence continentale montrent qu'au Jurassique un fort soulèvement s'est produit en Iran. En même temps, vraisemblablement suivant une géosuture depuis longtemps active, apparurent des zones ophiolothiques à radiolarites, qui indiquent une rupture intracratonique. Les ingressions émanent vraisemblablement d'un sillon océanique profond dans lequel sont également concentrées les ophiolithes. La montée du matériau ophiolithique à la surface s'en suivit le long de lignes suivant lesquelles se sont produits dessous-charriages intracrustaux, d'où sont résultés de notables racourcissements de la crôute. Il est possible que cette rupture du régime tectonique coïncide, au Trias supérieur, avec la collision des plaques de l'Arabie Iran et de l'Ewrasie. La limite entre l'Arabie-Iran et l'Eurasie ne se trouve donc pas dans la région du Golfe persique et des chaînes du Zagros, mais doit être recherchée au nord de la Chaîne de l'Elbours.
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