中国农业氧化亚氮排放情景研究   总被引：2，自引：0，他引：2  

李迎春  林而达  熊伟 《地理科学进展》2009,28(4)

采用国际应用系统分析研究所的"牲畜和粮食产量动态模型",模拟出2000-2030年间中国粮食和牲畜的数量和需求量的地理分布,然后应用GAINS模型预测我国未来农业N2O排放量。结果显示,2000年我国农业N2O排放量为1533ktN2O,到2030年将增加到2000ktN2O左右,增长31%;农田N2O排放占农业N2O总排放量的80%,2030年农田N2O的排放量比2000年增长37%。由于活动水平数据的模拟结果不同,各情景的N2O排放量不同,其中INMIC_低情景中N2O的排放量稍高于中、高排放情景。我国农业N2O排放主要集中在山东、河南、四川、河北,江苏、湖南、云南、安徽等省,到2030年,黑龙江、内蒙古、新疆、云南和湖南五省的N2O增加量在30ktN2O以上。硝化抑制剂作为N2O的减排措施,从2015年开始实施,减排效率由4%上升到16%。采用IPCC默认排放因子会高估我国农田N2O排放。  相似文献   

Walking through volcanic mud: the 2,100-year-old Acahualinca footprints (Nicaragua)     

Hans-Ulrich Schmincke  Steffen Kutterolf  Wendy Perez  Juanita Rausch  Armin Freundt  Wilfried Strauch 《Bulletin of Volcanology》2009,71(5):479-493

We present the stratigraphy, lithology, volcanology, and age of the Acahualinca section in Managua, including a famous footprint layer exposed in two museum pits. The ca. 4-m-high walls of the main northern pit (Pit I) expose excellent cross sections of Late Holocene volcaniclastic deposits in northern Managua. We have subdivided the section into six lithostratigraphic units, some of which we correlate to Late Holocene eruptions. Unit I (1.2 m thick), chiefly of hydroclastic origin, begins with the footprint layer. The bulk is dominated by mostly massive basaltic-andesitic tephra layers, interpreted to represent separate pulses of a basically phreatomagmatic eruptive episode. We correlate these deposits based on compositional and stratigraphic evidence to the Masaya Triple Layer erupted at Masaya volcano ca. 2,120 ± 120 a B.P.. The eruption occurred during the dry season. A major erosional channel unconformity up to 1 m deep in the western half of Pit I separates Units II and I. Unit II begins with basal dacitic pumice lapilli up to 10 cm thick overlain by a massive to bedded fine-grained dacitic tuff including a layer of accretionary lapilli and pockets of well-rounded pumice lapilli. Angular nonvesicular glass shards are interpreted to represent hydroclastic fragmentation. The dacitic tephra is correlated unequivocally with the ca. 1.9-ka-Plinian dacitic Chiltepe eruption. Unit III, a lithified basaltic-andesitic deposit up to 50 cm thick and extremely rich in branch molds and excellent leaf impressions, is correlated with the Masaya Tuff erupted ca. 1.8 ka ago. Unit IV, a reworked massive basaltic-andesitic deposit, rich in brown tuff clasts and well bedded and cross bedded in the northwestern corner of Pit I, cuts erosionally down as far as Unit I. A poorly defined, pale brown mass flow deposit up to 1 m thick (Unit V) is overlain by 1–1.5 m of dominantly reworked, chiefly basaltic tephra topped by soil (Unit VI). A major erosional channel carved chiefly between deposition of Units II and I may have existed as a shallow drainage channel even prior to deposition of the footprint layer. The swath of the footprints is oriented NNW, roughly parallel to, and just east of, the axis of the channel. The interpretation of the footprint layer as the initial product of a powerful eruption at Masaya volcano followed without erosional breaks by additional layers of the same eruptive phase is strong evidence that the group of 15 or 16 people tried to escape from an eruption.  相似文献   

Geochemistry of magnesites and dolomites at the Oberdorf/Laming (Austria) deposit and implications for their origin     

Wolfgang Kiesl  Christian Koeberl  Wilfried Körner 《International Journal of Earth Sciences》1990,79(2):327-335

The major and trace element geochemistry of magnesite and dolomite samples from alternating rock masses at the Oberdorf/Laming (Styria, Austria) mineralization has been studied. The rare earth elements (REE) are considered to be of importance for the discussion of the origin of sparry magnesite deposits. The Al and REE contents are positively correlated, indicating a clay component as the main source for REE in the magnesites and their precursor rocks. Our data support the view that the Oberdorf and probably other magnesite mineralizations in the Eastern Alps have been formed by metasomatism. Through this process calcite (which was deposited by sedimentation in a marine environment) underwent dolomitization. Subsequently, Mg-rich solutions circulating through the rock masses formed the magnesite bodies.During the formation of the dolomites and the conversion to magnesites, the REE patterns of the original carbonates remained unchanged. The magnesites exhibit patterns that are very similar to sedimentary carbonates (which contain a REE-bearing clay component). Magnesites of purely sedimentary origin, formed in a predominantly evaporitic environment, should have lower total REE contents and different patterns due to the short residence times of these elements in seawater. Analyses of talc pseduomorphs after magnesite indicate as well that the REE patterns are not significantly altered during the talcification. The Mg-rich solutions that led to the formation of the magnesites have probably been derived from serpentinites below the gneiss complexes of eastern Styria and the South Penninic units of the Tauern window.

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Zusammenfassung Die Haupt- und Spurenelementgeochemie von Magnesit- und Dolomitproben, die aus alternierenden Gesteinsstöcken in der Magnesitmine von Oberdorf/Laming (Steiermark, Österreich) stammen, wurde untersucht. Besonderes Augenmerk wurde dabei auf die Geochemie der Seltenen Erdelemente (REE) gelegt, da diese für Aussagen über die Entstehung der Magnesitlagerstätten von besonderer Bedeutung sind. Eine positive Korrelation zwischen den Al und REE-Gehalten deutet darauf hin, daß der Hauptteil der REE einer Tonkomponente entstammt. Die Daten unterstützen eine metasomatische Entstehung der Spatmagnesite der Oberdorfer Lagerstätte und anderer Ostalpiner Lagerstätten. Sedimentär angelegter Kalzit wird dabei über Dolomit mit Mg-reichen Lösungen in Magnesit umgewandelt.Während der Metasomatose bleiben die chondritnormierten REE-Verteilungen der Ausgangskarbonate relativ unverändert erhalten. Die so entstandenen Spatmagnesite weisen Verteilungsmuster auf, die jenen der sedimentären Karbonate, aus denen sie entstanden sind, entsprechen. Rein sedimentär entstandene Magnesite werden praktisch nur in evaporitischem Milieu gebildet und sollten infolge der kurzen Verweilzeit dieser Elemente im Meerwasser wesentlich niedrigere REE-Gehalte und andere Verteilungsmuster aufweisen. Analysen einer Talkpseudomorphose zeigen, daß sich die REE-Verteilungsmuster auch bei der metasomatischen Talk-bildung nicht wesentlich ändern. Die Mg-reichen Lösungen, die zur Bildung der Magnesite notwendig waren, entstammen vermutlich tiefliegenden Sepentiniten, auf die es Hinweise im Untergrund der oststeirischen Gneisskomplexe und des südpenninischen Tauernfensters gibt.

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Résumé Cette note présente les résultats d'une étude géochimique des éléments majeurs et en trace d'échantillons de magnésite et de dolomite qui se présentent en masses alternées dans la mine de magnésite de Oberdorf/Laming (Steiermark, Autriche). Une attention particulière a été apportée aux terres rares, considérées comme fournissant des arguments importants dans la discussion de l'origine des gisements. Les teneurs en Al et en terres rares montrent une corrélation positive, ce qui permet de rapporter à un composant argileux la source principale des terres rares. Les résultats obtenus plaident en faveur d'une origine métasomatique des minéralisations en magnésite d'Oberdorf et d'autres endroits des Alpes orientales. Au cours de ce processus, la calcite, d'origine sédimentaire marine, a été le siège d'une dolomitisation avec, subséquemment, formation de corps de magnésite grâce à la circulation de solutions riches en Mg.Au cours de la métasomatose, la distribution des terres rares des carbonates originels n'est pas modifiée: les magnésites montrent des répartitions très semblables à celles des carbonates sédimentaires (lesquels renferment un constituant argileux porteur des terres rares). Des magnésites d'origine purement sédimentaires, formées en milieu évoporitique, doivent présenter un contenu total en terres rares moins élevé et une distribution différente de ces éléments, eu égard à la brièveté de leur séjour dans l'eau de mer. Des analyses de pseudomorphoses de magnésite en talc montrent de même que la distribution des terres rares n'est pas modifiée de manière significative au cours de la talcification. Les solutions riches en Mg responsables de la formation de la magnésite sont probablement dérivées de serpentines situées sous les complexes gneissiques de Styrie et les unités penniques méridionales de la fenêtre des Tauern.

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dorf/Laming'a (, ) . , . , . , , - . . . .. , , . , , , , ; . , . , , , , , - - .

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Basiswerte fossiler Kohlenwasserstoffe im Nordost-Atlantik     

Dr. Norbert Theobald  Wilfried Lange  Kirsten Jerzycki-Brandes 《Ocean Dynamics》1991,44(1):17-33

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Sedimentpetrologische Untersuchungen zur Frage der Sandumlagerungen im Watt Nordfrieslands     

Wilfried Dechend 《Ocean Dynamics》1950,3(5-6):294-303

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Investigations of the East Greenland continental margin between 70° and 72° N by deep seismic sounding and gravity studies     

W. Weigel  E. R. Flüh  H. Miller  A. Butzke  G. A. Dehghani  V. Gebhardt  I. Harder  J. Hepper  W. Jokat  D. Kläschen  S. Kreymann  S. Schüβler  Z. Zhao 《Marine Geophysical Researches》1995,17(2):167-199

Results are presented from a deep seismic sounding experiment with the research vessel POLARSTERN in the Scoresby Sund area, East Greenland. For this continental margin study 9 seismic recording landstations were placed in Scoresby Sund and at the southeast end of Kong Oscars Fjord, and ocean bottom seismographs (OBS) were deployed at 26 positions in and out of Scoresby Sund offshore East Greenland between 70° and 72° N and on the west flank of the Kolbeinsey Ridge. The landstations were established using helicopters from RV POLARSTERN. Explosives, a 321 airgun and 81 airguns were used as seismic sources in the open sea. Gravity data were recorded in addition to the seismic measurements. A free-air gravity map is presented. The sea operations — shooting and OBS recording — were strongly influenced by varying ice conditions. Crustal structure 2-D models have been calculated from the deep seismic sounding results. Free-air gravity anomalies have been calculated from these models and compared to the observed gravity. In the inner Scoresby Sund — the Caledonian fold belt region — the crustal thickness is about 35 km, and thins seaward to 10 km. Sediments more than 10 km thick on Jameson Land are of mainly Mesozoic age. In the outer shelf region and deep sea a ‘Moho’ cannot clearly be identified by our data. There are only weak indications for the existence of a ‘Moho’ west of the Kolbeinsey Ridge. Inside and offshore Scoresby Sund there is clear evidence for a lower crust refractor characterised byp-velocities of 6.8–7.3 km s^?1 at depths between 6 and 10 km. We believe these velocities are related to magmatic processes of rifting and first drifting controlled by different scale mantle updoming during Paleocene to Eocene and Late Oligocene to Miocene times: the separation of Greenland/Norway and the separation of the Jan Mayen Ridge/Greenland, respectively. A thin igneous upper crust, interpreted to be of oceanic origin, begins about 50 km seaward of the Liverpool Land Escarpment and thickens oceanward. In the escarpment zone the crustal composition is not clear. Probably it is stretched and attenuated continental crust interspersed with basaltic intrusions. The great depth of the basement (about 5000 m) points to a high subsidence rate of about 0.25 mm yr^?1 due to sediment loading and cooling of the crust and upper mantle, mainly since Miocene time. The igneous upper crust thickens eastward under the Kolbeinsey Ridge to about 2.5 km; the thickening is likely caused by higher production of extrusives. The basementp-velocity of 5.8–6.0 km s^?1 is rather high. Such velocities are associated with young basalts and may also be caused by a higher percentage of dykes. Tertiary to recent sediments, about 5000 m thick, form most of the shelf east of Scoresby Sund, Liverpool Land and Kong Oscars Fjord. This points to a high sedimentation rate mainly since the Miocene. The deeper sediments have a rather high meanp-velocity of 4.5 km s^?1, perhaps due to pre-Cambrian to Caledonian deposits of continental origin. The upper sediments offshore Scoresby Sund are thick and have a rather low velocity. They are interpreted as eroded material transported from inside the Sund into the shelf region. Offshore Kong Oscars Fjord the upper sediments, likely Jurassic to Devonian deposits, are thin in the shelf region but thicken to more than 3000 m in the slope area. The crust and upper mantle structure in the ocean-continent transition zone is interpreted to be the result of the superposition of the activities of three rifting phases related to mantle plumes of different dimensions:

1. the ‘Greenland/Norway separation phase’ of high volcanic activity,
2. the ‘Jan Mayen Ridge/Greenland separation phase’ and
3. the ‘Kolbeinsey Ridge phase’ of ‘normal’ volcanic activity related to a more or less normal mantle temperature.

During period 2 and 3 only a few masses of extrusives were produced, but large volumes of intrusives were emplaced. So the margin between Scoresby Sund and Jan Mayen Fracture Zone is interpreted to be a stretched margin with low volcanic activity.  相似文献   

Settling velocities of mud aggregates in the oosterschelde tidal basin (The Netherlands), determined by a submersible video system     

Wilfried B.M. ten Brinke 《Estuarine, Coastal and Shelf Science》1994,39(6)

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Sediment dispersal and provenance in the Silesian,Dukla and Magura flysch nappes (Outer Carpathians,Poland)     

Wilfried Winkler  Andrzej Slaczka 《International Journal of Earth Sciences》1992,81(2):371-382

The Polish Outer Carpathians consist of several flysch series of unknown original basement. They were deposited from Late Jurassic to Miocene in a large basin dissected by tectonically uplifted ridges (cordillieras) which acted as source terrains. The actual nappe pile is correlated with palaeogeographic basin realms. From N to S the Skole, Silesian, Dukla and Magura basins are distinguished. Our paper presents a first compilation of heavy mineral data and pebble analysis in the various turbiditic fan systems. It is assumed that the heavy minerals primarily reflect the nature of basement rocks exposed in the source terrains.The individual flysch basins were supplied generally from unmetamorphosed granitic to highgrade metamorphic continental basement series. But staurolite-bearing high-grade metamorphics appear to have been present only in the northernmost provenance area (Silesian and Subsilesian ridges). A few reworked chromian spinel mineral grains in the northern parts of the basin were derived from small Caledonian/Variscan ultrabasic sutures present in the source ridges. Increased chromian spinel contents are revealed in the southern part of the basin (Maastrichtian-Eocene Magura series) and in Cretaceous Pieniny Klippen belt flysch formations. The chromian spinel in the Magura series was derived, either directly from Alpine oceanic crust obducted in the southern part of the Pieniny realm, or from re-eroded Pieniny flysch series. Hence, our heavy mineral data indicate that in the Outer Carpathian basin during Cretaceous convergence no Alpine ophiolitic crust was obducted. Therefore, an ophiolitic basement to the individual basins appears inprobable. The Outer Carpathians presumably occupied, with respect to the internal suture zone, the position of a deep continental basement floored foreland basin.

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Zusammenfassung Die Äußeren Karpathen in Polen bestehen aus mehreren von ihrem Untergrund abgescherten Flysch-Serien, die von oberem Jura bis Miozän in einem Großbecken abgelagert wurden, das durch mehrere tektonisch hochgehobene Rücken (Cordillieren oder Liefergebiete) in Teilbecken gegliedert war. Das ursprüngliche Substrat der verschiedenen Becken ist unbekannt und die heutige Deckenstruktur wird mit der ursprünglichen Beckenanordnung korreliert. Von N nach S werden die Skole-, Silesien-, Duklaund Magura-Becken unterschieden. Die vorliegende Arbeit präsentiert eine erste Zusammenfassung von Schwermineraldaten und Geröllanalysen in den verschiedenen turbiditischen Schüttungssystemen. Dabei wird davon ausgegangen, daß die Schwermineralgehalte der Sandsteine primär die Zusammensetzung des kristallinen Grundgebirges in den Liefergebieten widergeben.Die einzelnen Flyschbecken wurden zumeist von unmetamorphem granitischem bis hochgradig metamorphem kontinentalem Grundgebirge beliefert. Staurolith-führende hochgradige Metamorphite waren jedoch nur in den nördlichst gelegenen Liefergebietsprovinzen (Silesischer und Subsilesischer Rücken) anstehend. Geringe Vorkommen von Chromspinell in den nördlichen Beckenteilen stammen von kleineren caledonisch/variszischen ultrabasischen Einschlüssen (Suturen) in den Cordillieren. Erhöhte Chromspinellgehalte werden nur im südlichen Becken (Maastricht bis Tertiär des Magura-Beckens) und in kretazischen Flyschen der Pieniny-Klippen festgestellt. Der Chromspinell in den Magura-Serien stammt von alpiner ozeanischer Kruste, die während der Kreide im südlichen Pieniny-Raume obduziert wurde oder von neuerlich erodierten Flyschen aus den Pieniny-Becken. Unsere Schwermineraldaten weisen folglich darauf hin, daß während der kretazischen tektonischen Konvergenz im Bereich der Äußeren Karpathen keine alpin gebildete ophiolithische Kruste aufgeschuppt wurde. Die Anwesenheit eines ozeanischen Untergrundes der einzelnen Teilbecken erscheint deshalb unwahrscheinlich. Die Äußeren Karpathen nahmen deshalb vermutlich gegenüber der internen Suturzone die Stellung eines tiefen Foreland-Beckens über kontinentaler Kruste ein.

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Résumé Les Carpathes externes, en Pologne, sont composées de plusieurs séries de flysch d'âge jurassique à miocène déposées dans un grand bassin alimenté par l'érosion de rides tectoniques internes et externes (cordillères). Ces séries de flysch sont préservées en nappes, classiquement corrélées avec différents domaines paléogéographiques du bassin. Le substratum originel de ces bassins individuels n'est pas connu et reste discuté. On distingue, du nord au sud, les bassins de Skole, de Silésie, de Dukla et de Magura. Nous présentons ici les premiers résultats de l'analyse des minéraux lourds et des lithoclastes reconnus dans les principaux éventails turbiditiques sous-marins. Nous partons de l'hypothèse que le contenu des grès en minéraux lourds reflète la nature du socle cristallin qui était à l'affleurement dans les diverses régions-source.D'une manière générale, les bassins de flysch ont été alimentés par des terrains granitiques non métamorphiques et par des formations métamorphiques de moyenne et haute température. Il semble cependant que les terrains métamorphiques de haut degré à staurotide étaient présents seulement dans les sources les plus septentrionales (rides silésienne et subsilésienne). Le spinelle chromifère présent en petite quantité dans la partie nord du bassin peut être expliqué par la présence d'inclusions ultramafiques calédoniennes ou varisques (zones de sutures) dans les cordillères. Une proportion élevée de grains de spinelle chromifère ne s'observe que dans la partie méridionale du bassin des Carpathes externes (séries maastrichtiennes et tertiaires du bassin de Magura) et dans les flyschs crétacés des clippes de Pieniny. Il est suggéré que le spinelle chromifère du bassin de Magura a été fourni par la croûte océanique alpine, obductée au cours du Crétacé dans la partie interne du domaine des clippes de Pieniny, ou par l'érosion secondaire des flyschs de Pieniny.La rareté et l'origine probablement ancienne des spinelles chromifères dans la partie septentrionale indique que lors des mouvements convergents crétacés aucune roche ophiolitique alpine n'était exposée à l'érosion. Par conséquent, la présence de fonds océaniques dans ces bassins individuels semble peu probable. Les Carpathes externes représentent probablement un bassin profond, de type «foreland» par rapport à une zone de suture ophiolitique plus interne.

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A bulk similarity approach in the atmospheric boundary layer using radiometric skin temperature to determine regional surface fluxes     

Wilfried Brutsaert  Michiaki Sugita 《Boundary-Layer Meteorology》1991,55(1-2):1-23

Profiles of wind velocity and temperature in the outer region of the atmospheric boundary layer (ABL) were used together with surface temperature measurements, to determine regional shear stress and sensible heat flux by means of transfer parameterizations on the basis of bulk similarity. The profiles were measured by means of radiosondes and the surface temperatures by infrared radiation thermometry over hilly prairie terrain in northeastern Kansas during the First ISLSCP Field Experiment (FIFE). In the analysis, the needed similarity functions were determined and tested; the main scaling variables used for the ABL were h _i , the height of the convectively mixed layer, and V _a and _a, the wind speed and potential temperature averaged over the mixed layer. Good agreement (r = 0.80) was obtained between values of friction velocity u _* determined by this ABL bulk similarity approach and those obtained by Monin-Obukhov similarity in the surface sublayer. Similarly, values of surface flux of sensible heat H determined by this method compared well (r = 0.90) with the regional means measured at six ground stations. The corresponding regional evaporation values, determined with the energy budget equation, also compared favorably (r = 0.94).  相似文献   

Recycling of Proterozoic crust in the Andean Amazon foreland of Ecuador: implications for orogenic development of the Northern Andes     

Nergui Martin‐Gombojav  Wilfried Winkler 《地学学报》2008,20(1):22-31

The retro‐arc foreland Andean Amazon Basin records sedimentary infill from the South American craton and the emerging Northern Andean chain from the middle Cretaceous until Present day. The U/Pb ages of detrital zircons indicate significant reworking of Archean‐Proterozoic (max. 2.9 Ga) and Paleozoic crust and sediments, which were eroded on both sides. Heavy mineral associations show that the material derived from Proterozoic craton was supplied by Cretaceous reworking of non‐metamorphosed (unannealed) Paleozoic and older sedimentary rocks, which cover the Amazon Craton. Following latest Cretaceous switch of the dominant sediment source to the Andean cordillera, the influx of Precambrian zircons persisted, and these zircons were derived from the metamorphosed basement and Paleozoic sediments of the Cordillera Real (Loja terrane). Re‐evaluation of existing detrital zircon fission‐track record proves that the rise of the Cordillera Real at the Cretaceous‐Tertiary transition was initiated by the collision of Caribbean Oceanic Plateau and associated arc elements from 75–65 Ma. A further important exhumation event also occurred in the Late Oligocene, which is correlated with the break‐up of the Farallon plate.  相似文献