Forecasts
by Image 2.0 and GEO-3 Global Models:
last
revision - Sep 08, 2006
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Global
Environment Outlook 3
"Drawing on the experience and work of other scenario initiatives,
including those of the Global Scenario Group (Raskin and Kemp-Benedict
2002), a set of four scenarios has been developed for GEO-3.
- The Markets First scenario envisages a world in which
market-driven developments converge on the values and expectations that
prevail in industrialized countries;
- In a Policy First world, strong actions are undertaken by
governments in an attempt to reach specific social and environmental
goals;
- The Security First scenario assumes a world of great disparities,
where inequality and conflict prevail, brought about by socio-economic
and environmental stresses; and
- Sustainability First pictures a world in which a new development
paradigm emerges in response to the challenge of sustainability,
supported by new, more equitable values and institutions."
see also
Modeling and Scenarios on this site (found on overhead panel)
Rijksinstituut voor Volksgezondheld en Milieu (RIVM) and the
United Nations Environment Programme (UNEP) jointly did the following
study using the Image 2.0 modeling system (a collection of models
working together)
These slides are based on a Conventional World Scenario and are
taken
from the UNEP/RIVM Future of the Global Environment document (rather
than operations of the Image2.2 model -- in Models this site).
start here -->
UNEP/RIVM Future of the Global Environment Slide Show
Slide Order
Source:
The
Netherlands Environmental Assessment Agency (MNP) supports national
and international policy makers by analysing the environmental impact
of policies and of trends in society.
National Institute for
Pulic Health and the Environment (RIVM)
The
Future of the Global Environment: A Model-based Analysis
Supporting
UNEP's First Global Environment Outlook (new
window, 3.0MB, pdf)
Jan Bakkes and Jaap van Woerden (eds.)
Joseph Acamo, Marcel Berk, Pieter Bol, Gert Jan van den Born, Ben
ten Brink,
Jean-Paul Hetterlingh, Louis Niessen, Fred Langeweg, Rob Swart
United Nations Environment Programme (UNEP)
Rijksinstitute Voor Volksgezondheid en Milieu (RIVM) -
Netherlands Institute
of Public Health and Environment
UNEP/DEIA/TR-97; RIVM/40200100; ISBN: 92-807-1633-6 (1997)
KEY FINDINGS
Inequality increases in a wealthier
and healthier world
In the Conventional Development scenario analyzed in this report,
global per capita income increases by 50% and 100%, and life expectancy
by 5% and 8%, by 2015 and 2050, respectively. However, inequalities in
income between regions become larger in the scenario up to 2015, after
which the gap begins to narrow. In some of the poorest regions the
demographic transition stagnates and health problems persist.
Environmental pressures build up
Growth in consumption and production exceeds gains from improvements in
productivity. In the scenario, energy efficiency is projected to
increase by a factor of 1.2 by 2015 and 1.8 by 2050. At the same time,
total demand for energy increases by a factor of 1.8 by 2015 and 2.6 by
2050. Agricultural efficiency is projected to increase by a factor of
1.2 by 2015 and 1.4 by 2050. At the same time, total food demand
increases by a factor of 1.5 by 2015 and 2.0 by 2050. However, the
regional differences in environmental pressures are great.
Renewable resources at risk of
depletion
While depletion of exhaustible resources in the seventies was
considered as a major threat to development, integrated assessment
based on the Conventional Development scenario suggests that the
degradation of renewable resources such as water, land and forests now
creates risks that are much more urgent. This may increasingly hinder
development on local and regional scales. In the scenario, social and
economic capital seems to increase globally, while natural capital is
being depleted.
Climate goals are not being achieved
Interacting biogeochemical cycles are increasingly disturbed by human
activities. For example, the current commitments of the Climate
Convention are insufficient to stabilize atmospheric concentrations in
the coming century. Emissions of greenhouse gases from developing
regions, notably Asia, will grow rapidly, leading to a 50% increase in
1990 of global carbon dioxide emissions by 2015, and more than a
doubling by 2050. Consequently, in addition to increased preventive
efforts to control emissions, preparing for adaptation to projected
climate impacts becomes urgent. This is particularly true for areas
vulnerable to climate impacts in developing regions in low latitudes.
Another example is acidification, becoming more important in developing
regions with vulnerable soils and accelerating economic development.
Can a ‘second’ world be fed?
The key challenge for the world’s agricultural sector will be how to
feed double the present population by 2050. Increasing demand for
animal products will further boost total agricultural demands.
Theoretically, increasing productivity, extending agricultural land and
reversing land degradation can provide sufficient food on a global
scale. Achieving this and ensuring the adequate distribution of food
pose a formidable challenge. Regions such as Asia, West Asia and Africa
are projected as being able to increase their food imports, enlarging
the scale of agricultural trade significantly.
A serious threat to development by
water scarcity confirmed
In many regions, water demand from industry and households is in
increasing competition with water for agricultural production.
Preliminary global analysis at the catchment level confirms that water
scarcity is affecting increasingly large areas, particularly in West
Asia and Africa. This may lead to serious security problems, conflicts
and large-scale migration. Integrated water management at the
riverbasin level and adequate water pricing form the key to alleviating
these pressures.
Further conversion of natural lands
appears inevitable
In the Conventional Development scenario, agricultural land increases
from one-third to almost one-half of the earth’s land mass by 2050.
This increase is concentrated in tropical and subtropical zones. The
remaining natural areas are formed to a large extent by mountainous,
boreal, subpolar, arid and semi-arid lands, which are less suitable for
human settlement. Simultaneously, these remaining natural areas will be
under increasing pressure from population growth, economic development
and associated environmental stresses such as climate change.
Consequently, biodiversity will be severely affected in the scenario,
both in terms of quantity and quality.
Environmental degradation may threaten
global health in the long term
In the Conventional Development scenario, life expectancy increases
worldwide, up to 70 years. Morbidity declines drastically, especially
in developing countries. Expected improvements in income, education,
nutrition and water supply will stimulate the decline in fertility
needed to stabilize the global population, but how much and how fast is
by no means certain. Unfortunately, in many areas (notably, Sub-saharan
Africa and many urbanized areas) environment-related health problems
will persist or be aggravated. Also, in the long term, an increased
population, older in composition and more demanding, will further
increase environmental pressures and is likely to undermine its own
resource base, which may eventually threaten global health. In this
context, increased environmental protection, especially in developing
countries, will be essential in the prevention of an increase of
disease.
Environmental transitions needed and,
in some cases, already started
With current technology - where appropriately coupled to behaviourial
changes - major progress can be made to reverse the negative
developments outlined above and accelerate transitions towards the
sustainable use of energy, raw materials, land and water. While the
onset of these transitions can be discerned, adequate social, economic
and institutional conditions have to be met for realizing these
transitions in working towards the Agenda 21 goals.
Linking issues and boosting efficiency
in a comprehensive approach
To promote transitions, linking of issues provides new options for
joint gains by the different actors implicated. Many environmental
problems can be addressed by focusing efforts on integrated energy and
agriculture policies rather than on single-issue policies. Just to keep
pressures at current levels, resource efficiencies would have to
increase by a factor of 4 to 5 globally by 2050. To reduce pressures
towards sustainable levels and re-allocate available resources more
equitably, this factor on a regional level may have to be as high as
20.
Impact of enhanced policies would be
large
Technically, there is much room for mitigating future increases in
pollution, resource use and pressure on natural areas. That is: if best
available technology could be applied to all new investments, the
projected environmental impacts would be much less severe. More
structural changes in production and consumption patterns - such as a
shift to renewable energy resources and a change of diets - would give
humankind even more space. Obviously, this will require broad access to
capital and knowledge, and most of all it requires the political
determination to make the world a sustainable one.
Integrated assessment: not a solution
but a framework for analysis and debate.
The integrated assessment in this report is based on a quantitative
systematic framework for analyzing future global and regional
developments, and their interlinkages. However this assessement is
based on a limited set of methodologies and only one scenario depicting
neither the most probable nor the most desirable future. To cover
regional and disciplinary insights, as well as scientific
uncertainties, more comprehensively than possible in this contribution
to the firct Global Envimnment Outlook and to focus more on
communication between stakeholders and scientists, future analyses
should make use of a wider set of methodologies, sensitivity analyses
and scenarios.
