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  • 1
    Monograph available for loan
    Monograph available for loan
    Digitized global monthly mean ocean surface temperatures (1970)
    Boulder, Colo. : National Center for Atmospheric Research
    Associated volumes
    Details Availability
    Call number: MOP Per 148(54)
    In: NCAR technical notes
    Type of Medium: Monograph available for loan
    Pages: 30 p. : ill.
    Series Statement: NCAR technical notes 54
    Location: MOP - must be ordered
    Branch Library: GFZ Library
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  • 2
    Series available for loan
    Series available for loan
    Hydrology of Brookhaven National Laboratory and vicinity Suffolk County, New York (1968)
    Washington, DC : United States Gov. Print. Off.
    Associated volumes
    Details Availability
    Call number: SR 90.0001(1156-C)
    In: U.S. Geological Survey bulletin
    Type of Medium: Series available for loan
    Pages: VII, C-127 S. + 10 pl.
    Series Statement: U.S. Geological Survey bulletin 1156-C
    Language: English
    Location: Lower compact magazine
    Branch Library: GFZ Library
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  • 3
    Monograph available for loan
    Monograph available for loan
    An introduction to three-dimensional climate modeling (2005)
    Sausalito, Calif. : Univ. Science Books
    Details Availability
    Call number: AWI A13-06-0025
    Type of Medium: Monograph available for loan
    Pages: XIII, 353 S. , Ill., graph. Darst. , 26 cm
    Edition: 2. ed.
    ISBN: 1891389351
    Note: Contents: Preface. - 1 Introduction and Historical Development. - 2 Physical Description of the Climate System. - 2.1 Atmosphere. - 2.1 .1 Atmospheric composition. - 2.1.2 Temperature profiles. - 2.1.3 Energy balances. - 2.1.4 Average surface temperature patterns. - 2.1.5 Large-scale hemispheric circulation patterns: Three-cell structure. - 2.1.6 Land/sea breezes and monsoons. - 2.2 Oceans. - 2.2.1 Seawater composition. - 2.2.2 Ocean temperatures. - 2.2.3 Ocean circulation. - 2.3 Sea Ice. - 2.3.1 Global sea ice distributions. - 2.3.2 Sea ice formation and growth. - 2.3.3 Sea ice ablation. - 2.3.4 Sea ice composition and properties. - 2.3.5 Sea ice topography. - 2.3.6 Sea ice concentration and velocity. - 2.4 Atmosphere/Ocean/lce Interconnections. - 2.4.1 Impacts of the atmosphere. - 2.4.2 Impacts of the ocean. - 2.4.3 An example of atmosphere/ocean interconnections: The El Nino/Southern Oscillation. - 2.4.4 North Atlantic Oscillation (NAO). - 2.4.5 Impacts of the ice. - 3 Basic Model Equations. - 3.1 Fundamental Equations. - 3.1.1 Conservation of momentum. - 3.1.2 Conservation of mass. - 3.1.3 First law of thermodynamics. - 3.1.4 Equation of state. - 3.2 Summary of the Basic Predictive Equations for the Atmosphere. - 3.3 Vertical Coordinate Systems. - 3.4 Atmospheric and Ocean Dynamics. - 3.4.1 Vorticity and divergence equations. - 3.4.2 Baroclinic models. - 3.5 Early General Atmospheric Circulation Model of the Atmosphere. - 3.6 Radiative and Cloud Processes. - 3.6.1 Radiation: Basic principles. - 3.6.2 Radiation: Physical laws. - 3.6.3 Solar radiation. - 3.6.4 Radiation: Effect of aerosols. - 3.6.5 Net heating/cooling rates. - 3.6.6 Moisture and precipitation. - 3.6.7 Clouds. - 3.6.8 Cumulus parameterization, general theory. - 3.6.9 Convective adjustment parameterization. - 3.6.10 More refined schemes for cumulus convection. - 3.7 Surface Processes. - 3.7.1 Boundary fluxes at the Earth's surface. - 3.7.2 Computation of surface temperature and hydrology. - 3.8 Ocean Models. - 3.8.1 Ocean model fundamentals. - 3.8.2 Parameterization of ocean eddies. - 3.8.3 Generalized coordinate systems for ocean modeling. - 3.8.4 lsopycnal ocean model. - 3.9 Sea Ice Models. - 3.9.1 lce thermodynamics. - 3.9.2 Ice dynamics. - 3.10 River Transport. - 4 Basic Methods of Solving Model Equations. - 4.1 Finite Differences. - 4.2 Finite Differencing in Two Dimensions. - 4.3 Spectral Method. - 4.3.1 Vibrating string example. - 4.3.2 Gibbs phenomenon. - 4.3.3 More general considerations of Fourier series and integrals. - 4.4 Spherical Representation. - 4.5 Spectral Transform Technique. - 4.6 Vertical Representation. - 4.7 Lagrangian and Semi-Lagrangian Methods. - 4.8 Spectral Element Method. - 5 Examples of Simulations of Present-Day Climate. - 5.1 Simulations of the Atmosphere. - 5.2 Simulations of the Ocean. - 5.3 Simulations of Sea Ice. - 5.4 Coupled Atmosphere, Land / Vegetation, Ocean, and Sea Ice Simulations. - 5.5 El Nino Simulations. - 5.6 Regional Climate Modeling. - 5.7 Modeling Groups. - 6 Climate Sensitivity Experiments. - 6.1 Sample Early Paleoclimate Simulations. - 6.2 Sample Later Paleoclimate Simulations. - 6.3 Sample Simulation of the Last Millennium. - 6.4 Sample Early Simulations of the El Nino/ Southern Oscillation. - 6.5 Sample Later Simulation of the El Nino/ Southern Oscillation. - 6.6 Research on the Climatic Effects of Increasing Greenhouse Gases and Aerosols. - 6.7 Sample Early Climate Model Simulations of the Effects of Greenhouse Gases. - 6.8 Later Simulations of the Effects of Greenhouse Gases, Aerosols, and Other Climate Forcings. - 6.9 Climate Modeling with the Carbon Cycle. - 6.10 Possible Climatic Effects Due to Nuclear War. - 6.11 Overview of Climate Sensitivity Studies. - 7 Outlook for Future Developments. - 7.1 Climate Model Evolution and Status. - 7.2 Issues Involved in Coupling. - 7.3 Continuing Needs. - 7.4 Two Further Potential Uses of Climate Models. - 7.5 National Research Council Assessment. - 7.6 Concluding Remarks. - APPENDIX A Vector Calculus. - A.1 Vector Operations in a Cartesian Coordinate System. - A.1.1 Vector addition and subtraction. - A.1.2 Vector multiplication. - A.1.3 Vector differentiation. - A.1.4 Gradient (del) operator. - A.2 Vector Operations in Generalized and Spherical Coordinates. - A.3 Vectors on a Rotating Sphere. - APPENDIX B Legendre Polynomials and Gaussian Quadrature. - APPENDIX C Derivation of Energy Equations. - APPENDIX D Unit Abbreviations. - APPENDIX E Physical Constants in Système International (SI) Units, and Typical Surface Albedos. - APPENDIX F Conversions and Prefixes. - APPENDIX G Greek Alphabet. - APPENDIX H Acronyms. - APPENDIX I Aerosols. - APPENDIX J Solar Radiation, Including Effects of Aerosols. - APPENDIX K Internet Sites for Climate Modeling and Climate Data. - APPENDIX L Computer Architectures Used in Climate Modeling: Definition of Terms. - Bibliography. - Index. - About the Authors.
    Branch Library: AWI Library
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  • 4
    Monograph available for loan
    Monograph available for loan
    An introduction to three-dimensional climate modeling (1986)
    Mill Valley, Cal. : Univ. Science Books
    Details Availability
    Call number: AWI A13-92-0295
    Description / Table of Contents: Contents: Preface. - 1 Introduction and Historical Development. - 2 Physical Description of the Climate System. - Atmosphere . - Atmospheric composition. - Temperature profiles. - Energy balances. - Average surface temperature patterns. - Large-scale hemispheric circulation patterns: three-cell structure. - Land/sea breezes and monsoons. - Oceans. - Seawater composition. - Ocean temperatures. - Ocean circulation. - Sea Ice. - Global sea ice distributions. - Sea ice formation and growth. - Sea ice ablation. - Sea ice composition and properties. - Sea ice topography. - Sea ice concentration and velocity. - Atrnosphere/Ocean/Ice Interconnections. - Impacts of the atmosphere. - Impacts of the ocean. - An example of atmosphere/ocean interconnections: the El Niño/Southern Oscillation. - Impacts of the ice. - 3 Basic Model Equations. - Fundamental Equations. - Conservation of momentum. - Conservation of mass. - First law of thermodynamics. - Equation of state. - Summary of Basic Predictive Equations for the Atmosphere. - Vertical Coordinate Systems. - Atmospheric and Ocean Dynamics. - Vorticity and divergence equations. - Rossby wave equation. - Baroclinic models. - Early General Circulation Model of the Atmosphere. - Radiative and Cloud Processes. - Radiation: basic principles. - Radiation: physical laws. - Solar radiation. - Net heating/cooling rates. - Clouds. - Precipitation and cloud processes. - Convective adjustment parameterization. - More refined schemes for cumulus convection. - Surface Processes. - Boundary fluxes at the earth's surface. - Computation of surface temperature and hydrology. - Ocean Models. - Quasi-geostrophic Ocean Circulation Model. - Sea Ice Models. - Ice thermodynamics. - Ice dynamics. - 4 Basic Methods of Solving Model Equations. - Finite Differences. - Finite Differencing in Two Dimensions. - Spectral Method. - More general considerations of Fourier series and integrals. - Spherical Representation. - Spectral Transform Technique. - Vertical Representation. - 5 Examples of Simulations of Present-Day Climate. - Simulations of the Atmosphere. - Zonal mean temperature. - Zonal mean wind. - Meridional mean wind. - Zonal mean vertical velocity. - Geographical distribution of surface air temperature. - Geographical distribution of sea level pressure. - Geographical distribution of the 300 mb zonal component of the wind. - Geographical distribution of precipitation. - Intermodel comparisons. - Simulations of the Ocean. - Ocean circulation. - Ocean heat transport. - Surface heights and temperatures. - Quasi-geostrophic results. - Simulations of Sea Ice. - Sea ice thickness and vertical temperature profiles. - Geographical distribution of sea ice thickness and concentration. - Geographical distribution of sea ice velocities. - Weddell polynya. - Impact of ice dynamics on sea ice simulations. - Sea ice modeling successes and failures. - Coupled Atmosphere, Ocean, Sea Ice Simulations. - Modeling Groups. - 6 Climate Sensitivity Experiments. - Paleoclimate Simulations. - Simulations of El Niño/Southern Oscillation. - Climatic Effects of Carbon Dioxide. - Possible Climatic Effects Due to Nuclear War. - Overview of Climate Sensitivity Studies. - 7 Outlook for Future Developments. - APPENDIX A Vector Calculus. - APPENDIX B Legendre Polynomials and Gaussian Quadrature. - APPENDIX C Derivation of Energy Equations. - APPENDIX D Finite Difference Barotropic Forecast Model. - APPENDIX E Spectral Transform Technique. - APPENDIX F Finite Difference Shallow Water Wave Equation Model. - APPENDIX G Atmospheric General Circulation Model Equations. - APPENDIX H Unit Abbreviations. - APPENDIX I Physical Constants in International Systemof Units (SI). - APPENDIX J Conversions. - APPENDIX K Greek Alphabet . - APPENDIX L Acronyms. - References. - Index.
    Description / Table of Contents: An introduction to three-dimensional climate modeling by Warren M. Washington and Claire L. Parkinson provides a guide to the development and use of computer models of the earth's climate. The book describes the basic theory of climate simulation, including the fundamental equations and relevant numerical techniques for simulating the atmosphere, oceans, and sea ice. Results for a variety of past, present and future climates are shown and compared with observations.
    Type of Medium: Monograph available for loan
    Pages: XIV, 422 S. : Ill., graph. Darst., Kt.
    ISBN: 0935702520
    Branch Library: AWI Library
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  • 5
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    A Carbon-budget for the north-west European shelf - limitations and uncertainties (2020)
    In:  EPIC3ICOS Science Conference online 2020, 2020-09-15-2020-09-17
    Details
    Publication Date: 2020-11-20
    Repository Name: EPIC Alfred Wegener Institut
    Type: Conference , notRev
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  • 6
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    Winter weather controls net influx of atmospheric CO2 on the north-west European shelf (2019)
    In:  EPIC3ICOS Symposium on the North Atlantic Carbon Cycle, NOC, Southampton, U.K., 2019-03-19
    Details
    Publication Date: 2019-03-22
    Repository Name: EPIC Alfred Wegener Institut
    Type: Conference , notRev
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  • 7
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    Science goals and mission architecture of the Europa Lander mission concept (2022)
    IOP Publishing
    Details
    Publication Date: 2022-05-27
    Description: © The Author(s), 2022. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Hand, K., Phillips, C., Murray, A., Garvin, J., Maize, E., Gibbs, R., Reeves, G., San Martin, A., Tan-Wang, G., Krajewski, J., Hurst, K., Crum, R., Kennedy, B., McElrath, T., Gallon, J., Sabahi, D., Thurman, S., Goldstein, B., Estabrook, P., Lee, S. W., Dooley, J. A., Brinckerhoff, W. B., Edgett, K. S., German, C. R., Hoehler, T. M., Hörst, S. M., Lunine, J. I., Paranicas, C., Nealson, K., Smith, D. E., Templeton, A. S., Russell, M. J., Schmidt, B., Christner, B., Ehlmann, B., Hayes, A., Rhoden, A., Willis, P., Yingst, R. A., Craft, K., Cameron, M. E., Nordheim, T., Pitesky, J., Scully, J., Hofgartner, J., Sell, S. W., Barltrop, K. J., Izraelevitz, J., Brandon, E. J., Seong, J., Jones, J.-P., Pasalic, J., Billings, K. J., Ruiz, J. P., Bugga, R. V., Graham, D., Arenas, L. A., Takeyama, D., Drummond, M., Aghazarian, H., Andersen, A. J., Andersen, K. B., Anderson, E. W., Babuscia, A., Backes, P. G., Bailey, E. S., Balentine, D., Ballard, C. G., Berisford, D. F., Bhandari, P., Blackwood, K., Bolotin, G. S., Bovre, E. A., Bowkett, J., Boykins, K. T., Bramble, M. S., Brice, T. M., Briggs, P., Brinkman, A. P., Brooks, S. M., Buffington, B. B., Burns, B., Cable, M. L., Campagnola, S., Cangahuala, L. A., Carr, G. A., Casani, J. R., Chahat, N. E., Chamberlain-Simon, B. K., Cheng, Y., Chien, S. A., Cook, B. T., Cooper, M., DiNicola, M., Clement, B., Dean, Z., Cullimore, E. A., Curtis, A. G., Croix, J-P. de la, Pasquale, P. Di, Dodd, E. M., Dubord, L. A., Edlund, J. A., Ellyin, R., Emanuel, B., Foster, J. T., Ganino, A. J., Garner, G. J., Gibson, M. T., Gildner, M., Glazebrook, K. J., Greco, M. E., Green, W. M., Hatch, S. J., Hetzel, M. M., Hoey, W. A., Hofmann, A. E., Ionasescu, R., Jain, A., Jasper, J. D., Johannesen, J. R., Johnson, G. K., Jun, I., Katake, A. B., Kim-Castet, S. Y., Kim, D. I., Kim, W., Klonicki, E. F., Kobeissi, B., Kobie, B. D., Kochocki, J., Kokorowski, M., Kosberg, J. A., Kriechbaum, K., Kulkarni, T. P., Lam, R. L., Landau, D. F., Lattimore, M. A., Laubach, S. L., Lawler, C. R., Lim, G., Lin, J. Y., Litwin, T. E., Lo, M. W., Logan, C. A., Maghasoudi, E., Mandrake, L., Marchetti, Y., Marteau, E., Maxwell, K. A., Namee, J. B. Mc, Mcintyre, O., Meacham, M., Melko, J. P., Mueller, J., Muliere, D. A., Mysore, A., Nash, J., Ono, H., Parker, J. M., Perkins, R. C., Petropoulos, A. E., Gaut, A., Gomez, M. Y. Piette, Casillas, R. P., Preudhomme, M., Pyrzak, G., Rapinchuk, J., Ratliff, J. M., Ray, T. L., Roberts, E. T., Roffo, K., Roth, D. C., Russino, J. A., Schmidt, T. M., Schoppers, M. J., Senent, J. S., Serricchio, F., Sheldon, D. J., Shiraishi, L. R., Shirvanian, J., Siegel, K. J., Singh, G., Sirota, A. R., Skulsky, E. D., Stehly, J. S., Strange, N. J., Stevens, S. U., Sunada, E. T., Tepsuporn, S. P., Tosi, L. P. C., Trawny, N., Uchenik, I., Verma, V., Volpe, R. A., Wagner, C. T., Wang, D., Willson, R. G., Wolff, J. L., Wong, A. T., Zimmer, A. K., Sukhatme, K. G., Bago, K. A., Chen, Y., Deardorff, A. M., Kuch, R. S., Lim, C., Syvertson, M. L., Arakaki, G. A., Avila, A., DeBruin, K. J., Frick, A., Harris, J. R., Heverly, M. C., Kawata, J. M., Kim, S.-K., Kipp, D. M., Murphy, J., Smith, M. W., Spaulding, M. D., Thakker, R., Warner, N. Z., Yahnker, C. R., Young, M. E., Magner, T., Adams, D., Bedini, P., Mehr, L., Sheldon, C., Vernon, S., Bailey, V., Briere, M., Butler, M., Davis, A., Ensor, S., Gannon, M., Haapala-Chalk, A., Hartka, T., Holdridge, M., Hong, A., Hunt, J., Iskow, J., Kahler, F., Murray, K., Napolillo, D., Norkus, M., Pfisterer, R., Porter, J., Roth, D., Schwartz, P., Wolfarth, L., Cardiff, E. H., Davis, A., Grob, E. W., Adam, J. R., Betts, E., Norwood, J., Heller, M. M., Voskuilen, T., Sakievich, P., Gray, L., Hansen, D. J., Irick, K. W., Hewson, J. C., Lamb, J., Stacy, S. C., Brotherton, C. M., Tappan, A. S., Benally, D., Thigpen, H., Ortiz, E., Sandoval, D., Ison, A. M., Warren, M., Stromberg, P. G., Thelen, P. M., Blasy, B., Nandy, P., Haddad, A. W., Trujillo, L. B., Wiseley, T. H., Bell, S. A., Teske, N. P., Post, C., Torres-Castro, L., Grosso, C. Wasiolek, M. Science goals and mission architecture of the Europa Lander mission concept. The Planetary Science Journal, 3(1), (2022): 22, https://doi.org/10.3847/psj/ac4493.
    Description: Europa is a premier target for advancing both planetary science and astrobiology, as well as for opening a new window into the burgeoning field of comparative oceanography. The potentially habitable subsurface ocean of Europa may harbor life, and the globally young and comparatively thin ice shell of Europa may contain biosignatures that are readily accessible to a surface lander. Europa's icy shell also offers the opportunity to study tectonics and geologic cycles across a range of mechanisms and compositions. Here we detail the goals and mission architecture of the Europa Lander mission concept, as developed from 2015 through 2020. The science was developed by the 2016 Europa Lander Science Definition Team (SDT), and the mission architecture was developed by the preproject engineering team, in close collaboration with the SDT. In 2017 and 2018, the mission concept passed its mission concept review and delta-mission concept review, respectively. Since that time, the preproject has been advancing the technologies, and developing the hardware and software, needed to retire risks associated with technology, science, cost, and schedule.
    Description: K.P.H., C.B.P., E.M., and all authors affiliated with the Jet Propulsion Laboratory carried out this research at the Jet Propulsion Laboratory, California Institute of Technology, under a contract with the National Aeronautics and Space Administration (grant No. 80NM0018D0004). J.I.L. was the David Baltimore Distinguished Visiting Scientist during the preparation of the SDT report. JPL/Caltech2021.
    Keywords: Europa ; Ocean planets ; Astrobiology ; Biosignatures
    Repository Name: Woods Hole Open Access Server
    Type: Article
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  • 8
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    Butterflies for the new millennium: mapping butterfly distributions in Britain (Lepidoptera) (2003)
    European Invertebrate Survey - the Netherlands, Leiden
    Details
    Publication Date: 2024-01-12
    Description: Butterflies for the new millennium: mapping butterfly distributions in Britain (Lepidoptera) \nButterflies for the New Millennium is the largest and most comprehensive survey of butterfly distribution ever undertaken in Britain and Ireland. The number of contributing recorders, the coverage achieved and the number and quality of distribution records generated far exceed those available for any other invertebrate taxon. The data thus provide a unique insight into the effects of habitat degradation and climate change on a high profile insect group. The results of the first five years of the survey (1995-1999) have been analysed to assess broad-scale distribution changes over the past two decades and the past two centuries. In both time periods, the British distributions of most butterfly species have shown substantial change. The trends affecting habitat specialist and habitat generalist (wider countryside) species differ significantly. The distributions of half of the habitat generalists have increased (consistent with an expected positive response to observed climate change), whereas most habitat specialists declined (consistent with habitat degradation). The opposing forces of climate change and habitat degradation are thought to be the main driving forces. The decline of specialist species indicates a reduction in overall biodiversity, whilst mobile and widespread generalists increasingly dominate biological communities. These patterns of change are thought to be representative of many other invertebrate groups in Britain and demonstrate the use of butterflies as indicators of environmental change.
    Keywords: Butterfly recording ; butterfly distribution ; habitat degredation ; Climate change ; Biodiversity ; conservation ; indicator species
    Repository Name: National Museum of Natural History, Netherlands
    Type: info:eu-repo/semantics/article
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  • 9
    Electronic Resource
    Electronic Resource
    Demethylation studies. VI. Inhibition of hepatic microsomal oxygenation by .beta.-(2,4-dichloro-6-phenylphenoxy)ethylamine and related compounds (1969)
    s.l. : American Chemical Society
    Journal of medicinal chemistry 12 (1969), S. 207-211 
    Details
    ISSN: 1520-4804
    Source: ACS Legacy Archives
    Topics: Chemistry and Pharmacology
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1021/jm00302a002
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  • 10
    Electronic Resource
    Electronic Resource
    Difluorostatine and difluorostatone containing peptides as potent and specific renin inhibitors (1985)
    s.l. : American Chemical Society
    Journal of medicinal chemistry 28 (1985), S. 1553-1555 
    Details
    ISSN: 1520-4804
    Source: ACS Legacy Archives
    Topics: Chemistry and Pharmacology
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1021/jm00149a001
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