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1

Monograph available for loan

Global change scenarios of the 21st. century : Results from the IMAGE 2.1 model (1998)

Alcamo, J. ; Leemans, Rik ; Kreileman, Eric

Dordrecht [u.a.] : Pergamon

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Call number: PIK N 076-99-0018

Type of Medium: Monograph available for loan

Pages: 296 p.

Edition: 1. ed.

ISBN: 0080434479

Location: A 18 - must be ordered

Branch Library: PIK Library

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2

Monograph available for loan

Regonal air pollution and climate change in europe: an integrated analysis (AIR-CLIM) (1999)

Mayerhofer, P. ; Alcamo, J. ; Minnen van, J.G. ; [et al.]

Kassel : Selbstverlag

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Call number: PIK N 076-99-0309

Type of Medium: Monograph available for loan

Pages: 51 p.

Series Statement: Progress Report 1

Location: A 18 - must be ordered

Branch Library: PIK Library

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3

Electronic Resource

Water and fire - Water needs of future coal development in the Soviet Union and the United States

Alcamo, J.

Amsterdam : Elsevier

Resources and Energy 6 (1984), S. 77-105

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ISSN: 0165-0572

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Energy, Environment Protection, Nuclear Power Engineering

Type of Medium: Electronic Resource

URL: http://linkinghub.elsevier.com/retrieve/pii/0165-0572(84)90012-4

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4

Electronic Resource

Modeling the global society-biosphere-climate system: Part 2: Computed scenarios (1994)

Alcamo, J. ; Born, G. J. ; Bouwman, A. F. ; [et al.]

Springer

Water, air & soil pollution 76 (1994), S. 37-78

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ISSN: 1573-2932

Keywords: climate change ; global change ; integrated assessment ; integrated models ; scenario analysis ; carbon cycle ; biofuels

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: Abstract This paper presents scenarios computed with IMAGE 2.0, an integrated model of the global environment and climate change. Results are presented for selected aspects of the society-biosphere-climate system including primary energy consumption, emissions of various greenhouse gases, atmospheric concentrations of gases, temperature, precipitation, land cover and other indicators. Included are a “Conventional Wisdom” scenario, and three variations of this scenario: (i) the Conventional Wisdom scenario is a reference case which is partly based on the input assumptions of the IPCC's IS92a scenario; (ii) the “Biofuel Crops” scenario assumes that most biofuels will be derived from new cropland; (iii) the “No Biofuels” scenario examines the sensitivity of the system to the use of biofuels; and (iv) the “Ocean Realignment” scenario investigates the effect of a large-scale change in ocean circulation on the biosphere and climate. Results of the biofuel scenarios illustrate the importance of examining the impact of biofuels on the full range of greenhouse gases, rather than only CO2. These scenarios also indicate possible side effects of the land requirements for energy crops. The Ocean Realignment scenario shows that an unexpected, low probability event can both enhance the build-up of greenhouse gases, and at the same time cause a temporary cooling of surface air temperatures in the Northern Hemisphere. However, warming of the atmosphere is only delayed, not avoided.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00478336

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5

Electronic Resource

Modeling the global society-biosphere-climate system: Part 1: Model description and testing (1994)

Alcamo, J. ; Kreileman, G. J. J. ; Krol, M. S. ; [et al.]

Springer

Water, air & soil pollution 76 (1994), S. 1-35

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ISSN: 1573-2932

Keywords: integrated modeling ; integrated assessment ; greenhouse gas emissions ; global change ; climate change ; land cover change ; C cycle

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: Abstract This paper describes the IMAGE 2.0 model, a multi-disciplinary, integrated model designed to simulate the dynamics of the global society-biosphere-climate system. The objectives of the model are to investigate linkages and feedbacks in the system, and to evaluate consequences of climate policies. Dynamic calculations are performed to year 2100, with a spatial scale ranging from grid (0.5°×0.5° latitudelongitude) to world regional level, depending on the sub-model. The model consists of three fully linked sub-systems: Energy-Industry, Terrestrial Environment, and Atmosphere-Ocean. The Energy-Industry models compute the emissions of greenhouse gases in 13 world regions as a function of energy consumption and industrial production. End use energy consumption is computed from various economic/demographic driving forces. The Terrestrial Environment models simulate the changes in global land cover on a gridscale based on climatic and economic factors, and the flux of CO2 and other greenhouse gases from the biosphere to the atmosphere. The Atmosphere-Ocean models compute the buildup of greenhouse gases in the atmosphere and the resulting zonal-average temperature and precipitation patterns. The fully linked model has been tested against data from 1970 to 1990, and after calibration can reproduce the following observed trends: regional energy consumption and energy-related emissions, terrestrial flux of CO2 and emissions of greenhouse gases, concentrations of greenhouse gases in the atmosphere, and transformation of land cover. The model can also simulate long term zonal average surface and vertical temperatures.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00478335

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6

Electronic Resource

Simulating changes in global land cover as affected by economic and climatic factors (1994)

Zuidema, G. ; Born, G. J. ; Alcamo, J. ; [et al.]

Springer

Water, air & soil pollution 76 (1994), S. 163-198

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ISSN: 1573-2932

Keywords: land cover ; land use ; agricultural demand ; climate change ; global change

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: Abstract This paper describes two global models: (1) an Agricultural Demand Model which is used to compute the consumption and demand for commodities that define land use in 13 world regions; and, (2) a Land Cover Model, which simulates changes in land cover on a global terrestrial grid (0.5° latitude by 0.5° longitude) resulting from economic and climatic factors. Both are part of the IMAGE 2.0 model of global climate change. The models have been calibrated and tested with regional data from 1970–1990. The Agricultural Demand Model can approximate the observed trend in commodity consumption and the Land Cover Model simulates the total amount of land converted within 13 world regions during this period. Some degree of the spatial variability of deforestation has also been captured by the simulation. Applying the model to a “Conventional Wisdom” scenario showed that future trends of land conversions could be strikingly different on different continents even though a consistent scenario (IS92a from the IPCC) was used for assumptions about economic growth and population. Sensitivity analysis indicated that future land cover patterns are especially sensitive to assumed technological improvements in crop yield and computed changes in agricultural demand.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00478339

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7

Electronic Resource

An integrated analysis of sulfur emissions, acid deposition and climate change (1995)

Alcamo, J. ; Krol, M. ; Posch, M.

Springer

Water, air & soil pollution 85 (1995), S. 1539-1550

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ISSN: 1573-2932

Keywords: acidification ; air pollution impacts ; climate change ; global change ; integrated modeling ; sulfur deposition

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: Abstract This paper presents one of the first integrated analyses of acidification and climate change on a geographically-detailed basis, and the first linkage of integrated models for acid deposition (RAINS) and for climate change (IMAGE 2). Emphasis in this paper is on Europe. Trends in driving forces of emissions are used to compute anthropogenic SO2 emissions in 13 world regions. These emissions are translated into regional patterns of sulfur deposition in Europe and global patterns of sulfate aerosols using source-receptor matrices. Changes in climate are then computed based on changes in sulfate and greenhouse gases. Finally, we compute ecosystem areas affected by acid deposition and climate change based on exceedances of critical loads and changes in potential vegetation. Using this framework, information from global and regional integrated models can be used to link sulfur emissions with both their global and regional consequences. Preliminary calculations indicate that the size of European area affected by climate change in 2100 (58%) will be about the same as that affected by acid deposition in 1990. By the mid 21st century, about 14% of Europe's area may be affected by both acid deposition and climate change. Also, reducing sulfur emissions in Europe will have both the desirable impact of reducing the area affected by acid deposition, and the undesirable impact of enhancing climate warming in Europe and thus increasing the area affected by climate change. However, for the scenarios in this paper, the desirable impact of reducing sulfur emissions greatly outweighs its undesirable impact.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00477200

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Earth System Models of Intermediate Complexity: Closing the Gap in the Spectrum of Climate System Models (2002)

Claussen, M. ; Mysak, L. A. ; Weaver, A. J. ; [et al.]

In: EPIC3Climate Dynamics, 18, pp. 579-586

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Publication Date: 2019-07-17

Description: We propose a new perspective on the hierarchy of climate models which goes beyond the "classical" climate modeling pyramid that is restricted mainly to atmospheric processes. Most notably, we introduce a new indicator, called "integration", which characterizes the number of interacting components of the climate system being explicitly described in a model. The location of several model types, from conceptual to comprehensive, is presented in a new spectrum of climate system models. In particular, the location of the so-called Earth system Models of Intermediate Complexity (EMICs) in this spectrum is discussed in some detail and examples are given, which indicate that there is currently a broad range of EMICs in use. In some EMICs, the number of processes and/or the detail of description is reduced for the sake of simulating the feedbacks between as many components of the climate system as feasible. Others, with a lesser degree of interaction, are used for long-term e! nsemble simulations to study specific aspects of climate variability. EMICs appear to be closer to comprehensive coupled models of atmospheric and oceanic circulation (CGCMs) than to "conceptual" or "box" models. We advocate that EMICs be considered as complementary to CGCMs and conceptual models, because we believe that there is an advantage of having a spectrum of climate system models which are designed to tackle specific aspects of climate and which together provide the proper tool for climate system modeling.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

Format: application/pdf

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