Desert vegetation and timing of solar radiation     

J.C. Walton  F. Martinez-Gonzalez  R. Worthington 《Journal of Arid Environments》2005,60(4):697-707

Timing and amount of solar radiation were examined as factors influencing the distribution of seven perennial plants on a small mountain located in the Chihuahuan Desert. Average direct beam solar radiation fluxes at differing times throughout the day and year were estimated with computer calculations. Principal components analysis was used to reduce the number of solar radiation parameters and include the maximum available information with a manageable number of variables. The remaining solar radiation parameters were compared to plant distributions using redundancy analysis and generalized additive models. Unimodal, bimodal, and monotonic responses were all found depending upon the species and solar radiation parameter. Niche separation at this location depends upon the timing as well as the amount of solar radiation.  相似文献   

Some aspects of the succession and structure in the lower palaeozoic rocks of the southern uplands of scotland     

Dr. E. K. Walton 《International Journal of Earth Sciences》1960,50(1):63-77

Lower Palaeozoic successions in the Southern Uplands are much thicker than previously supposed and sedimentation may have lasted well into Ludlow times. Volcanic rocks are Arenig and Glenkiln in age and are often interbedded with greywackes and shales. Lapworth's concept of the structure as an anticlinorium and a synclinorium is rejected and it is suggested that the rocks have been folded into a series of compound monoclines which face north-westwards. These are probably cut by strike faults which bring up the older beds to the north.

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Zusammenfassung Die altpaläozoischen Schichtfolgen in den Südlichen Hochlanden sind viel mächtiger, als bisher angenommen wurde, und die Ablagerung kann bis ins Ludlow gereicht haben. Vulkanite haben Arenig- und Glenkiln-Alter; sie wechsellagern oft mit Grauwacken und Tonschiefern.Lapworths Vorstellung, der tektonische Bau sei ein Antiklinorium und ein Synklinorium, wird bestritten. Es wird angenommen, daß die Gesteine zu zusammengesetzten Monoklinen gefaltet wurden, deren steile Flügel nordwestwärts weisen. Sie werden wahrscheinlich durch streichende Verwerfungen zerschnitten, die die älteren Schichten im Norden herausheben.

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Precambrian geology of the Adirondack highlands,a reinterpretation     

Prof. Dr. D. de Waard  Dr. M. Walton 《International Journal of Earth Sciences》1967,56(1):596-629

The Precambrian geology of the Adirondack highlands was previously interpreted as a sedimentary terrane repeatedly invaded during the Grenville orogenic cycle by igneous intrusions to form successively the large anorthosite massif and satellites, numerous olivine gabbro and dolerite bodies, gneisses of the quartz-syenite and charnockite series, and granites. A reinterpretation is suggested.In two representative areas major bodies of anorthosite and gneisses of the quartz-syenite and charnockite series are shown to occupy cores of mantled domes and nappes. They are parts of an older basement complex formed during an earlier, pre-Grenville orogenic cycle. Most of the now-recognizable Grenville metasediments were supracrustal rocks deposited on the denuded surface of this basement terrane. Olivine-basaltic magma invaded both the basement and the supracrustal rocks, forming gabbro and ophitic dolerite bodies. The Grenville orogenic cycle (ca. 1100 m.y. B.P.) deformed and metamorphosed all these rocks to a complex of mantled domes, folds, and nappes. The geology of the older basement rocks is heavily masked by the Grenville orogeny.The pre-Grenville basement consists of relatively homogenous masses of metaanorthosite, metanorite, charnockite, and gneisses of granitic composition. The supracrustal rocks occur in well-defined stratigraphic sequences of varied metasediments, gneisses, and charnockites. Conglomerates, arkoses, and acidic volcanics may all metamorphose to foliated rocks of granitic composition. Charnockites formed by high-grade metamorphism of initially dry, pre-existing quartzofeldspathic rocks including metamorphic and plutonic igneous rocks in the basement complex and acidic volcanics in the supracrustal sequence. Water content of rocks also controlled the extent of magmatism during the Grenville orogenic period. Anatectic granite is mainly limited to small, nebulite-bordered granite bodies, and to the presence of venitic migmatites in metamorphosed rocks with granitic components.

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Zusammenfassung Die Gesteinsserien des Präkambriums in den Adirondack-Highlands wurde früher als Sedimente gedeutet, in welche während des Grenville-Orogenzyklus mehrfach Eruptiv-Intrusionen eindrangen. Dadurch sollen nacheinander das große Anorthosit-Massiv mit seinen Satelliten, zahlreiche Olivingabbro- und Dolerit-Körper, die Gneise der Quarz-Syenit- und Charnockit-Serie und die Granite entstanden sein. Eine andere Erklärung wird hier vorgeschlagen.In zwei typischen Gebieten werden größere Körper von Anorthosit und von Gneisen der Quarz-Syenit- und Charnockit-Serie beschrieben, welche die Kerne der ummantelten Gneisdome und der Decken einnehmen. Sie sind Teile eines älteren Grundgebirges, das in einem früheren Prä-Grenville-Zyklus entstanden ist. Die meisten der heute bekannten Grenville metasediments bestanden aus suprakrustalen Gesteinen, die auf der heute abgetragenen Oberfläche dieses Grundgebirges abgelagert wurden. Olivin-basaltisches Magma drang sowohl in das Grundgebirge als auch in die suprakrustalen Gesteine ein, wodurch Gabbro- und ophitische Doleritkörper entstanden. Der Grenville-Orogenzyklus (vor etwa 1,1×10⁹ Jahren) metamorphisierte diese Gesteine zu dem Komplex der ummantelten Gneisdome, Falten und Decken. Die Geologie des älteren Grundgebirges ist durch die Grenville-Orogenese stark verändert worden.Das Prä-Grenville-Grundgebirge besteht aus verhältnismäßig homogenen Meta-Anorthositen, Metanoriten, Charnockiten und Gneisen mit granitischer Zusammensetzung. Die suprakrustalen Gesteine kommen in gut bestimmten, stratigraphischen Abfolgen von verschiedenen Metasedimenten, Gneisen und Charnockiten vor. Konglomerate, Arkosen und saure Vulkanite dürften durch Metamorphose in geschieferte Gesteine granitischer Zusammensetzung übergegangen sein. Charnockite entstanden durch intensive Metamorphose der anfangs trockenen, vormals quarz- und feldspatreichen Gesteine, welche Metamorphite und Plutonite des Grundgebirges und saure Vulkanite der suprakrustalen Serie einschließen. Auch der Wassergehalt der Gesteine beeinflußte den Grad des Magmatismus während des Grenville-Orogenzyklus. Anatektischer Granit ist hauptsächlich an kleine, von Nebulit umgebene Granit-Körper und an die Anwesenheit von Venit-Migmatiten in metamorphen Gesteinen granitischer Zusammensetzung gebunden.

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Résumé L'interprétation géologique Précambrienne des plateaux de l'Adirondack était considérée jusqu'à ce jour comme un terrain sédimentaire envahi à plusieurs reprises pendant le cycle orogénique de Grenville par des intrusions ignées pour former successivement le grand massif anorthosite et ses satellites, de nombreux corps gabbro-olivines et dolérites, des gneiss de séries quartzsyénites et charnockites, et des granites. Nous suggérons une réinterprétation.Dans deux domaines représentatifs, les corps principaux d'anorthosite et les gneiss de séries quartz-syénite et charnockite se révèlent comme occupant les noyaux de dômes recouvertes et de nappes. Ce sont des parties d'un fond complexe plus ancien formé pendant un cycle orogénique pré-Grenville antérieur. La plupart des «métasédiments Grenville» maintenant reconnaissables étaient des roches sédimentaires et volcaniques, déposées sur la surface dénudée de ce terrain de fond. Le magma olivine-basaltique a envahi à la fois le fond et les roches sédimentaires et volcaniques, formant du gabbro et des corps ophitiques et dolérites.Le cycle orogénique de Grenville (ca. 1100 m. y. B. P.) a déformé et métamorphosé toutes ces roches en une completié de dômes recouvertes, de plis et de nappes. La géologie des roches de fond plus anciennes est lourdement masquée par l'orogénie de Grenville.Le fond pré-Grenville consiste en masses relativement homogènes de métaanorthosite, métanorite, charnockite et en gneiss de composition granitique. Les roches sédimentaires et volcaniques apparaissent en séries stratigraphiques bien définie d'une variété de métasédiments, de gneiss et de charnockite. Des conglomérates, des arkoses et des roches volcaniques acides peuvent toutes se métamorphoser en roches foliacées de composition granitique. Des charnockites ont dû leur formation à un métamorphisme à haut degré de roches quartzofeldspathiques pré-existantes, initialement sèches, y compris les roches ignées métamorphiques et plutoniques dans le système du fond et acidovolcaniques dans la roche sédimentaire et volcanique subséquente. Le contenu aqueux des roches contrôlait également l'importance du magmatisme pendant la période orogénique de Grenville. Le granite anatectique se réduit principalement à des corpuscules granitiques bordés de nébulite et à la présence de migmatites vénétiques dans des roches métamorphosées aux composants granitiques.

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Adirondack Highland'a (CACIII). .

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Imaging Spectropolarimetry of Ti  I 2231 nm in a Sunspot     

M.J. Penn  W.D. Cao  S.R. Walton  G.A. Chapman  W. Livingston 《Solar physics》2003,215(1):87-97

Spectro-polarimetric observations at 2231 nm were made of NOAA 10008 near the west solar limb on 29 June 2002 using the National Solar Observatory McMath–Pierce Telescope at Kitt Peak and the California State University Northridge – National Solar Observatory infrared camera. Scans of spectra in both Stokes I and Stokes V were collected; the intensity spectra were processed to remove strong telluric absorption lines, and the Stokes V umbral spectra were corrected for instrumental polarization. The sunspot temperature is computed using the continuum contrast and umbral temperatures down to about 3700 K are observed. A strong Tii line at 2231.0 nm is used to probe the magnetic and velocity fields in the spot umbra and penumbra. Measurements of the Tii equivalent width versus plasma temperature in the sunspot agree with model predictions. Zeeman splitting measurements of the Stokes I and Stokes V profiles show magnetic fields up to 3300 G in the umbra, and a dependence of the magnetic field on the plasma temperature similar to that which was seen using Fei 1565 nm observations of the same spot two days earlier. The umbral Doppler velocity measurements are averaged in 16 azimuthal bins, and no radial flows are revealed to a limit of ±200 m s^–1. A Stokes V magnetogram shows a reversal of the line-of-sight magnetic component between the limb and disk center sides of the penumbra. Because the Tii line is weak in the penumbra, individual spectra are averaged in azimuthal bins over the entire penumbral radial extent. The averaged Stokes V spectra show a magnetic reversal as a function of sunspot azimuthal angle. The mean penumbral magnetic field as measured with the Stokes V Zeeman component splitting is 1400 G. Several weak spectral lines are observed in the sunspot and the variation of the equivalent width versus temperature for four lines is examined. If these lines are from molecules, it is possible that lines at 2230.67, 2230.77, and 2231.70 nm originate from OH, while the line at 2232.21 nm may originate from CN.  相似文献   

AstroGrid: A place for your science     

Nicholas A Walton  Eduardo Gonzalez-Solarez  Silvia Dalla  Anita Richards  Jonathon Tedds 《Astronomy& Geophysics》2006,47(3):3.22-3.24

Nicholas A Walton, Silvia Dalla, Eduardo Gonzalez-Solarez, Anita Richards and Jonathan Tedds show off the fast-developing astronomical applications of the UK's virtual observatory service.  相似文献   

Size distribution of the Late Devonian ammonoid Prolobites: indication for possible mass spawning events     

Sonny Alexander Walton  Dieter Korn  Christian Klug 《Swiss Journal of Geoscience》2010,103(3):475-494

Worldwide, the ammonoid genus Prolobites is only known from a few localities, and from these fossil beds almost all of the specimens are adults as shown by the presence of a terminal growth stage. This is in marked contrast to the co-occurring ammonoid genera such as Sporadoceras, Prionoceras, and Platyclymenia. Size distribution of specimens of Prolobites from three studied localities show that, unlike in the co-occurring ammonoid species, most of the material belongs to adult individuals. The morphometric analysis of Prolobites delphinus (Sandberger & Sandberger 1851) demonstrates the intraspecific variability including variants with elliptical coiling and that dimorphism is not detectable. The Prolobites material shows close resemblance to spawning populations of Recent coleoids such as the squid Todarodes filippovae Adam 1975. Possible mass spawning events are discussed in the context of the size distribution and limited geographic range of Prolobites. Finally, the potential fecundity and brooding behaviour of Prolobites is hypothesized using the examples of post spawning egg care in Recent coleoids.  相似文献   

The Seismological Effects of Elastic Pre-Straining within the Earth     

K. Walton 《Geophysical Journal International》1974,36(3):651-671

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Wave propagation within random packings of spheres     

K. Walton 《Geophysical Journal International》1988,92(1):89-97

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On the Facular Area Surrounding Decaying Sunspots     

G.?A.?ChapmanEmail author  A.?S.?Hoffer  S.?R.?Walton 《Solar physics》2005,226(1):37-43

The change in facular area around decaying sunspots is investigated. The data are from full-disk photometric images from CFDT1 (5 arc sec pixels) obtained at the Ca ii K-line = 393.4 nm. The 31 active regions are from a list previously used to study the decay rate of sunspots. We find a weak, marginally significant relation between spot decay rate and growth of the surrounding facular region (r² = 0.1255). We conclude that, for this group of decaying sunspots, the growth or decay of the surrounding facular region was not clearly related to the decay rate of an active regions sunspots.  相似文献   

The Behavior of Sunspot Contrast during Cycle 23     

M. J. Wesolowski  S. R. Walton  G. A. Chapman 《Solar physics》2008,248(1):141-154

Results are presented from a study of various sunspot contrast parameters in broadband red (672.3 nm) Cartesian full-disk digital images taken at the San Fernando Observatory (SFO) over eight years, 1997 – 2004, of the twenty-third sunspot cycle. A subset of over 2700 red sunspots was analyzed and values of average and maximum sunspot contrast as well as maximum umbral contrast were compared to various sunspot parameters. Average and maximum sunspot contrasts were found to be significantly correlated with sunspot area (r _s=− 0.623 and r _s=− 0.714, respectively). Maximum umbral contrast was found to be significantly correlated with umbral area (r _s=− 0.535). These results are in agreement with the works of numerous other authors. No significant dependence was detected between average contrast, maximum contrast, or maximum umbral contrast during the rising phase of the solar cycle (r _s=0.024, r _s=0.033, and r _s=0.064, respectively). During the decay phase, no significant correlation was found between average contrast or maximum contrast and time (r _s=− 0.057 and r _s=0.009, respectively), with a weak dependence seen between maximum umbral contrast and cycle (r _s=0.102).  相似文献