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A Monograph of the Genus Microtoena (Lamiaceae). (2021)

WANG, Qiang.

Les Ulis :EDP Sciences,

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Keywords: Lamiaceae. ; Lamiaceae-Classification. ; Microtoena-Classification. ; Electronic books.

Description / Table of Contents: No detailed description available for "A Monograph of the genus Microtoena (Lamiaceae)".

Type of Medium: Online Resource

Pages: 1 online resource (150 pages)

Edition: 1st ed.

ISBN: 9782759825295

Series Statement: Current Natural Sciences Series

URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=6458234

Language: English

Note: Intro -- A Monograph of the Genus Microtoena (Lamiaceae) -- DEDICATION -- PREFACE -- ACKNOWLEDGEMENTS -- CONTENTS -- CHAPTER I. TAXONOMIC HISTORY AND QUESTIONS TO BE ADDRESSED -- TAXONOMIC HISTORY -- CIRCUMSCRIPTION AND PHYLOGENETICAL POSITION -- SUBDIVISION -- SPECIES DELIMITATION -- QUESTIONS TO BE ADDRESSED -- CHAPTER II. MORPHOLOGY -- ROOTS -- STEMS -- LEAVES -- LEAF LENGTH -- LEAF SHAPE -- LEAF MARGIN -- LEAF BASE -- LEAF SURFACE -- INFLORESCENCE -- BRACTS -- BRACT LENGTH -- BRACT SHAPE -- CALYX -- CALYX LENGTH -- CALYX SPLIT RATIO -- CALYX TOOTH RATIO -- COROLLA -- COROLLA COLOUR -- COROLLA LENGTH -- COROLLA TUBE RATIO -- APEX OF THE UPPER LIP OF THE COROLLA -- HAIRS OF THE UPPER LIP OF THE COROLLA -- MIDDLE LOBE OF THE LOWER LIP OF THE COROLLA -- STAMENS -- ANTHERS -- HAIRS ON THE FILAMENTS -- STYLE -- POLLEN -- FRUITS -- CHAPTER III. MOLECULAR PHYLOGENY, BIOGEOGRAPHY AND CHARACTER EVOLUTION -- PHYLOGENETICAL POSITION AND SUBDIVISION -- ORIGIN AND DIVERSIFICATION -- CHARACTER EVOLUTION -- CHAPTER IV. TAXONOMIC REVISION OF MICROTOENA -- MICROTOENA PRAIN -- KEY TO SECTIONS AND SPECIES OF MICROTOENA -- SECTION 1. Microtoena -- 1. Microtoena esquirolii -- 2. Microtoena insuavis -- 3. Microtoena patchoulii -- 4. Microtoena mollis -- SECTION. 2. Delavayana -- 5. Microtoena delavayi -- 6. Microtoena wardii -- 7. Microtoena urticifolia -- 8. Microtoena albescens -- 9. Microtoena stenocalyx -- 10. Microtoena miyiensis -- 11. Microtoena megacalyx -- 12. Microtoena moupinensis -- 14. Microtoena muliensis -- 13. Microtoena prainiana -- 15. Microtoena omeiensis -- 16. Microtoena brevipedunculata -- 17. Microtoena nepalensis -- 18. Microtoena robusta -- 19. Microtoena vanchingshanensis -- EXCLUDED NAME -- BIBLIOGRAPHY -- INDEX TO SPECIMENS CITED -- INDEX TO BOTANICAL NAMES AND SYNONYMS -- DATA OF STANDARD DEVIATION ANALYSIS.

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On the Damping Time Scale of EVP Sea Ice Dynamics (2021)

Danilov, Sergey ; Koldunov, Nikolay V ; Sidorenko, Dmitry ; [et al.]

American Geophysical Union (AGU)

In: EPIC3Journal of Advances in Modeling Earth Systems, American Geophysical Union (AGU), 13(10), ISSN: 1942-2466

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Publication Date: 2023-06-21

Description: We propose to make the damping time scale, which governs the decay of pseudo-elastic waves in the Elastic Viscous Plastic (EVP) sea-ice solvers, independent of the external time step and large enough to warrant numerical stability for a moderate number of internal time steps. A necessary condition is that the forcing on sea ice varies slowly on the damping time scale, in which case an EVP solution may still approach a Viscous Plastic one, but on a time scale longer than a single external time step. In this case, the EVP method becomes very close to the recently proposed modified EVP (mEVP) method in terms of stability and simulated behavior. In a simple test case dealing with sea ice breaking under the forcing of a moving cyclone, the EVP method with an enlarged damping time scale can simulate linear kinematic features which are very similar to those from the traditional EVP implementation, although a much smaller number of internal time steps is used. There is more difference in sea-ice thickness and linear kinematic features simulated in a realistic Arctic configuration between using the traditional and our suggested choices of EVP damping time scales, but it is minor considering model uncertainties associated with choices of many other parameters in sea-ice models.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , NonPeerReviewed

Format: application/pdf

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Crustal structure beneath the Zhongsha Block and the adjacent abyssal basins, South China Sea: New insights into rifting and initiation of seafloor spreading (2021)

Li, Yuhan ; Huang, Haibo ; Grevemeyer, Ingo ; [et al.]

Elsevier

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Publication Date: 2024-02-07

Description: Highlights • The crustal thickness of the Zhongsha Block ranging from ~6 to ~25 km. • Rapid transition from the Zhongsha Block to the adjacent oceanic basins was revealed. • Different oceanic structures were observed in the adjacent oceanic basins. • The pre-rift lithospheric configuration may affect the process of rifting and seafloor spreading. Abstract Continental rifting, break-up, and onset of seafloor spreading are inherently controlled by the segmentation and structure of the continental domain suffering from extension. Today, the Zhongsha Atoll (ZS) is wedged between the Northwest Sub-basin (NWSB) and the Southwest Sub-basin (SWSB), two oceanic abyssal basins of the South China Sea (SCS). The nature of the crust and the structure of the transition from continental to oceanic domain are key to revealing the processes and dynamics during the rifting and break-up of the Zhongsha block. In this paper, we present a P-wave velocity model obtained from both forward modeling and tomographic inversion of wide-angle seismic line OBS2017-2. The results support the continental nature of the Zhongsha Block with a thickness of up to ~25 km. However, the transition from the thick continental domain of the ZS into both adjacent abyssal basins shows clear differences. To the north, a ~120 km wide domain of extended continental crust was observed. Farther north, the NWSB is characterized as a narrow basin with typical oceanic crust. The transitional domain between the continental and oceanic crust shows a ~30–40 km wide region with a high-velocity lower crust reflecting excessive magmatism. In contrast, the SWSB is characterized by a sharp transition from the thick continental crust of the ZS to thin oceanic crust which is probably underlain by serpentinized mantle. The strong rheological properties of the pre-rift crust in the western part of the SCS margin may be the reason that rifting concentrated on narrow rifts and thinning focused on necking domains, while the ZS avoided any intense extension. The configuration of rigid blocks thereafter affected the break-up position and the style of oceanic crust.

Type: Article , PeerReviewed

Format: text

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OceanRep: Article in a Scientific Journal - peer-reviewed

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