12-Hist.Nat. 77/2-Jax


349ECOLOGICAL THEORY AND CONSERVATIONRevista Chilena de Historia Natural
77: 349-366, 2004

Ecological theory and values in the determination of conservation goals:
examples from temperate regions of Germany,

United States of America, and Chile

Teoría ecológica y valores en la definición de objetivos de conservación: ejemplos de
regiones templadas de Alemania, Estados Unidos de América y Chile

KURT JAX1,2 & RICARDO ROZZI2

1UFZ Centre for Environmental Research Leipzig-Halle, Department of Conservation Biology, Permoserstr. 15, D-04318
Leipzig, Germany;

e-mail: kurt.jax@ufz.de
2Omora Ethnobotanical Park, Universidad de Magallanes, and Omora Foundation, Puerto Williams, Chile;

e-mail: ricardo.rozzi@umag.cl

ABSTRACT

The definition of conservation goals is a complex task, which involves both ecological sciences and social
values. A brief history of conservation strategies in Germany (protection of cultural landscapes), United
States (wilderness ideal), and southern Chile (preservation paradigm and the more recent interest in
ecotourism) illustrates a broad range of conservation goals. To encompass such an array of conservation
dimensions and goals, the ecosystem approach adopted by the Conference of the Parties of the Convention on
Biological Diversity represents a good approach. However, to become effective, this kind of approach
requires clarifying and agreeing upon basic concepts, such as ecosystem. To serve that purpose, we present a
scheme that considers the selected phenomena, internal relationship, and the component resolution to define
an ecosystem. We conclude that: (1) conservation traditions encompass interests in the preservation of both
natural and cultural heritages, which also appear as mutually dependent dimensions. Hence, nature and
humans are brought together as much in the goals as in the processes of conservation. (2) In the context of
current global change, it is impossible to completely “isolate” protected areas from direct or indirect human
influences. In addition, the current view of nature points out that biota and ecosystems will change over time,
even in protected areas. Hence, in order to preserve species or habitats it is not enough to isolate protected
areas, but it often requires active management and conservation actions. The two former conclusions suggest
the need to revise the conservation approach that has been undertaken in the southern region of Chile, because
(a) local people have been systematically excluded from protected areas, and (b) these areas lack personnel
and facilities to conduct appropriate conservation and/or management programs. (3) Our analyses of the views
of nature and conservation goals in different regions and/or historical moments demonstrate that these involve
not only scientific criteria, but also philosophical, political and broader cultural, social and economic
dimensions. Hence, effective conservation requires a greater degree of interdisciplinary and interagency
cooperation.

Key words: conservation, comparative approach, ecological theory, Chile, ecotourism, ecosystem
management, Germany, images of nature, Magellan region, social values, Yellowstone.

RESUMEN

La definición de los objetivos de conservación es una tarea compleja que involucra tanto valores sociales
como teorías ecológicas. Un breve análisis histórico de las estrategias de conservación en Alemania
(protección de paisajes culturales), Estados Unidos (protección de áreas silvestres) y el sur de Chile
(paradigma preservacionista y más recientemente ecoturismo) exhibe un amplio espectro de objetivos de
conservación. Para abordar tal diversidad de objetivos y dimensiones de conservación, la aproximación de
ecosistemas de la Conferencia de las Partes de la Convención de Biodiversidad representa una aproximación
apropiada. Sin embargo, para que este tipo de aproximaciones sea efectivo se requiere clarificar y coincidir
acerca de conceptos básicos, tales como el de ecosistema. Para facilitar este propósito, presentamos un
esquema que considera los fenómenos seleccionados, las relaciones internas y grado de resolución de los
componentes. Concluimos que: (1) las tradiciones de conservación demuestran un interés tanto por el
patrimonio natural como cultural, dimensiones que además aparecen como mutuamente dependientes. Por lo
tanto, la naturaleza y los seres humanos se reúnen tanto en los objetos como en los procesos que conciernen a

COMMENTARY



350 JAX & ROZZI

la conservación. (2) En el contexto del cambio global actual es imposible aislar completamente las áreas
protegidas de la influencia humana directa o indirecta. Además, la actual perspectiva dinámica de la
naturaleza enfatiza que las biotas y los ecosistemas cambiarán, aun en las áreas protegidas. En consecuencia,
para preservar especies o hábitats no es suficiente “aislar” áreas protegidas, sino que a menudo se requieren
acciones de conservación y manejos activos. Las dos conclusiones anteriores sugieren revisar la aproximación
para la conservación adoptada en el extremo sur de Chile, debido a que (a) la gente local ha sido excluida de
las áreas protegidas y (b) en estas áreas el personal y la infraestructura son insuficientes para conducir
programas de conservación y/o manejo adecuados. (3) Análisis de las visiones de la naturaleza y de los
objetivos de conservación en diferentes regiones y/o momentos históricos demuestran que estos involucran no
solo criterios científicos, sino también dimensiones filosóficas y políticas, en contextos culturales, sociales y
económicos. Por lo tanto, una conservación efectiva requiere promover un mayor grado de cooperación
interinstitucional e interdiciplinaria.

Palabras clave: Alemania, conservación, Chile, ecoturismo, Magallanes, manejo de ecosistemas, visiones
de la naturaleza, teoría ecológica, valores sociales, Yellowstone.

INTRODUCTION

A significant number and diversity of people
and institutions agree about the necessity of
conservation today (Primack et al. 2001).
However, in spite of this general agreement,
defining conservation goals is a complex issue
a n d  t h e r e  i s  m u c h  d i s a g r e e m e n t  o n  t h e
questions of what to conserve and, moreover,
how should this be done. At the same time,
c u r r e n t  g l o b a l i z a t i o n  a n d  l a r g e - s c a l e
ecological, economic and social problems make
i t  n e c e s s a r y  t o  s e t  p r e c i s e  g o a l s  f o r
conservation actions (Figueroa & Simonetti
2003).

Setting aside some areas and leaving them
alone, protecting them by drawing lines or even
fences around them is not enough (Pickett et al.
1997, Armesto et al. 1998, Bruner et al. 2001,
Liu et al. 2001). First, environmental problems
are no longer purely local or regional, but they
have now an important global dimension
( C h a p i n  &  S a l a  2 0 0 1 ) .  F o r  e x a m p l e ,
atmospheric changes induced by humans, such
as the Antarctic ozone hole or global warming
due to greenhouse gases, are problems that
affect and concern the planet and society as a
whole (Vitousek 1994). Even more the causes
and consequences of those changes are often
s p a t i a l l y  u n c o u p l e d ,  t h e y  d o  n o t  s t o p  a t
national boundaries, and they may lead to
sequels of hitherto unknown dimensions (Rozzi
& Feinsinger 2001).

A second reason to argue about the direction
of conservation efforts is that it is becoming
increasingly evident that conservation cannot
b e  d o n e  a g a i n s t  t h e  p e o p l e  a n d / o r  b y
completely excluding them from protected
a r e a s ,  b u t  o n l y  w i t h  t h e m  ( A l c o r n  1 9 9 1 ,
Shaxson 1991, Toulmin 1991, Rozzi et al.
2 0 0 0 ) .  L a c k  o f  p a r t i c i p a t i o n  o f  l o c a l
communities has been a major cause of failure

in many conservation projects (Abu Sin 1991),
and at the same time, the rights of indigenous
people and the value of traditional ecological
knowledge has gained increasing recognition
(Mark 2001)1, especially after the 1992 Earth
Summit (Jardin & Kares 2000).

W e  a r g u e  t h a t  c o n s e r v a t i o n  q u e s t i o n s
cannot be delegated to science alone because
they are also questions of values for at least
three reasons: (1) humans are affected by
conservation actions (Alcorn 1991, Armesto et
al. 2001), (2) the role of humans within
conservation must be discussed in the face of
conflicting social interests (Jardin & Kares
2000, Rozzi et al. 2000), and (3) conservation
e s s e n t i a l l y  c o n c e r n s  o u r  m o r a l  a t t i t u d e s
t o w a r d s  h u m a n  a n d  n o n - h u m a n  n a t u r e
(Callicott & Nelson 1998, Callicott 1999).

This paper analyzes the role of ecological
science and social values in the definition of
c o n s e r v a t i o n  g o a l s  a n d  d i s c u s s e s  t h e
difficulties of this definition. In particular, we
d i s c u s s  w h y  n a t u r e  a l o n e  c a n n o t  p r o v i d e
unequivocal guidelines and how ecological
theory can contribute to define conservation
units and criteria. Going beyond the traditional
role of ecology as a provider of empirical data
and predictions, we emphasize the hitherto
neglected heuristic role of ecological theory in
clarifying conservation goals and connecting
facts and values.

We provide a historical introduction on the
origins of protected areas in two Northern
Hemisphere temperate countries, Germany and
the United States, as two contrasting models.
Following, we examine conservation criteria
and policies involved in the protected areas of

1 MARK A (2001) Symposium: managing protected natu-
ral areas for conservation, ecotourism, and indigenous
people. Journal of The Royal Society of New Zealand 31:
811-812



351ECOLOGICAL THEORY AND CONSERVATION

the southernmost forests of the world, in the
Magellan archipelago of Chile. We compare
t h e  C h i l e a n  c a s e  w i t h  t h e  N o r t h e r n
H e m i s p h e r e  c a s e s ,  a s  w e l l  a s  w i t h  m o r e
r e c e n t  c o n s e r v a t i o n  a p p r o a c h e s  i n v o l v i n g
zoning and regulation of human activities
w i t h i n  p r o t e c t e d  a r e a s .  T h e s e  e x a m p l e s
display a wide range of possible conservation
approaches and the values implied within
t h e m .  B u i l d i n g  o n  t h e s e  e x p e r i e n c e s ,  w e
finally discuss a novel approach for defining
conservation goals, derived from ecological
theory and ecosystem management concepts,
which may help clarify the goals and the
i n t e r f a c e  b e t w e e n  s o c i e t a l  d e c i s i o n s  a n d
scientific knowledge.

EXPERIENCES FROM THE NORTH: HISTORICAL

AND RECENT CONSERVATION GOALS IN

GERMANY AND THE UNITED STATES

Conservation efforts and the establishment of
t h e  f i r s t  p r o t e c t e d  a r e a s  s t a r t e d  i n  b o t h ,
Germany and the United States, in the 19th

c e n t u r y .  H o w e v e r ,  t h e  m a i n  e m p h a s i s  o f
conservation and the kinds of areas that were
protected differed strongly on the two sides of
the north Atlantic (Table 1).

T h e  f i r s t  p r o t e c t e d  a r e a  i n  G e r m a n y ,
e s t a b l i s h e d  d u r i n g  t h e  1 8 3 0 s ,  w a s  t h e
Drachenfels, a hill with an old castle ruin
towering above the banks of the Rhine south of
Bonn (Fig.1). The reason to protect it as a
natural monument (Naturdenkmal) was the
danger of a complete destruction of the castle
and the mountain side pointing towards the
Rhine by a quarry, which had already caused

part of the old ruin to collapse. Later the area
w a s  g r e a t l y  e x t e n d e d  t o  i n c l u d e  t h e
surrounding hills in the nature protection area
(Naturschutzgebiet) in Siebengebirge. Both the
hills of the Siebengebirge and the Drachenfels
ruin, however, had a high symbolic value in the
context of romanticism and the search for
national identity in Germany, which at that
time was divided into many small more or less
independent states.

The broader conservation movement in
Germany was articulated and driven towards
practical and political relevance most effectively
by the musician Ernst Rudorff. Inspired by the
traditions of romantic art and skilled in writing,
Rudorff became the major spokesman of the new
i d e a  o f  c o n s e r v a t i o n  ( K n a u t  1 9 9 0 ) .  T h i s
conservation idea started not as a movement to
p r o t e c t  “ w i l d ”  l a n d s c a p e s ,  b u t  a s
“Heimatschutz” (Dominick 1992, Knaut 1993),
which meant the protection of the home country
or home landscape (the “Heimat”). This was
essentially the protection of cultural landscapes,
that is of landscapes molded by centuries of
extensive and use practices.

“Heimatschutz” was an explicit reaction
a g a i n s t  t h e  r i s e  o f  i n d u s t r i a l i z a t i o n  a n d
urbanization in Germany. It expressed the desire
to secure what was conceived as the historical
identity of the German nation, which during
Rudorff’s time already existed as a unified state,
s i n c e  1 8 7 1 .  T h u s  i n  i t s  f i r s t  d e c a d e s ,
conservation was mainly Heimatschutz and the
conservation of natural monuments, a word
coined explicitly as a parallel to cultural
monuments, meaning extraordinary singular
features of nature like particular old trees or
remarkable rock assemblages.

TABLE 1

The beginnings of nature conservation in Germany and the United States
Comienzos de la conservación de la naturaleza en Alemania y Estados Unidos

Germany USA

First protected area 1830s: first natural monument 1872: first national park
(Drachenfels) (Yellowstone)

Later extended to nature
conservation area

(Naturschutzgebiet
Siebengebirge)

Main emphasis of early Cultural landscapes, Wild landscapes,
conservation

protection of resources protection of resources

Role of humans Equilibrium including humans Equilibrium excluding
(modern) humans



352 JAX & ROZZI

A n  a d d i t i o n a l  e m p h a s i s  o f  e a r l y
conservation in Germany was the protection of
natural resources, e.g., birds (but only “useful”
birds; see Berlepsch 1899) or game (Rozzi et
al. 2001). Human beings were not excluded
from conservation but, as major agents of the
development of the rural landscapes, they were
i n c l u d e d  i n  t h e  i d e a  o f  “ H e i m a t s c h u t z ” ,
h o w e v e r  o n l y  a s  f a r  a s  t h e y  d w e l l e d  i n
traditional, non-industrial lifestyles.

I n  c o n t r a s t  t o  t h e  G e r m a n  m o d e l  o f
“Heimatschutz”, conservation efforts in the
United States emphasized the protection of
“wild”, “untouched” landscapes, pursuing the
“wilderness” ideal of Henry David Thoreau and
John Muir (Nash 1982, Oelschlaeger 1991).
The first park in the United States (state park at
that time) was the Yosemite Valley in the
Sierra Nevada of California, established in
1864 by the state of California. Later in 1890,
Yosemite was declared a national park (Runte
1997).

The first national park in the United States
was established in 1872, namely Yellowstone
National Park, which also constitutes the first
n a t i o n a l  p a r k  o f  t h e  w o r l d .  M o r e o v e r ,
Yellowstone can be considered the prototype

of all national parks and has shaped this
notion (Runte 1997, Sellars 1997). The area is
situated in the northern Rocky Mountains of
the United States, mostly in the state of
Wyoming, and covers an area of almost 9,000
km2. It protected the wild landscape, which
was perceived as not used and altered by
humans. The main features which led to the
establishment of this park were its magnificent
l a n d s c a p e s ,  i n c l u d i n g  m a n y  g e o t h e r m a l
features – geysers and hot springs – and
abundant wildlife, including attractive large
mammals, such as grizzly bears (Ursus arctos)
and elk (Cervus elaphus) (Fig. 2A and 2B).

Following the idea of wild landscapes,
humans were explicitly excluded or at least
considered irrelevant for the current appearance
of the protected landscapes. This does not,
however, imply that national parks were meant
to exclude human visitors. The founding law of
Yellowstone stated explicitly that the Park was
created “for the benefit and enjoyment of the
p e o p l e . ”  U n t i l  t o d a y  t h e  c r i t e r i a  o f  t h e
International Union for Conservation of Nature
and Natural Resources (IUCN 1994) for the
establishment of national parks explicitly
r e q u i r e  r e s t r i c t e d  p u b l i c  a c c e s s .  B e s i d e s

Fig. 1: The Drachenfels hills at the banks of the river Rhine, south of Bonn, Germany.
The remains of the quarry that endangered the hill and the castle in the early 19th century
can still be seen. (Photo: Kurt Jax, early 2001).
Las colinas de Drachenfels en las riberas del río Rin al sur de Bonn, Alemania. Los remanentes de las
canteras que amenazaron a la colina y al castillo a comienzos del siglo XIX. (Fotografía de K Jax, a
comienzos del 2001).



353ECOLOGICAL THEORY AND CONSERVATION

Fig. 2: The creation of the world’s first national park (established 1872), Yellowstone
National Park, was motivated by the fascination provoked by its magnificent landscapes,
including geysers (A) and its wildlife, including large mammals like Cervus elaphus (B).
(Photos: K Jax 1998).
La creación del primer parque nacional del mundo, Parque Nacional Yellowstone (establecido en 1872), fue
motivada por la fascinación que provocaban sus magníficos paisajes (A) y su vida silvestre, que incluye
grandes mamíferos como ciervo rojo (Cervus elaphus) (B). (Fotografías K Jax 1998).

A

B



354 JAX & ROZZI

protecting wild nature, another emphasis of
e a r l y  A m e r i c a n  c o n s e r v a t i o n  w a s  – a s  i n
Germany– the protection of natural resources,
particularly forests, a current connected with
the name of the forester Gifford Pinchot (see
Norton 1991).

The American idea of preserving wild
nature has become very popular and has been
the inspiration of conservation systems in
southern South America (see below). However,
what is often forgotten is the fact that national
parks were never meant to completely exclude
people.

SIMILARITIES BETWEEN GERMAN AND NORTH

AMERICAN MODELS OF CONSERVATION

Evident differences place early conservation
strategies in Germany and the United States at
opposite ends of a gradient: culturally molded
nature versus wild nature. At the same time,
however, there are also important similarities
b e t w e e n  c o n s e r v a t i o n  a p p r o a c h e s  i n  b o t h
N o r t h e r n  H e m i s p h e r e  r e g i o n s ,  a n d  t h o s e
similarities have even become more apparent as
knowledge about the conditions that prevailed
in 19th century North America increased.

A s  i n  G e r m a n y ,  t h e  e s t a b l i s h m e n t  o f
protected areas in the United States was a
reaction to the growing impact of humans on
the landscape. In North America, human impact
w a s  n o t  a s  m u c h  i n d u s t r i a l i z a t i o n  a n d
urbanization, but the extensive land use that
reached the “untouched” western areas of the
continent. In addition, the natural heritage of
the wild and magnificent landscapes, protected
in parks, was considered part of the identity of
the American nation, as a substitute for the
longer cultural heritage of the European nations
(Nash 1982, Runte 1997).

D u r i n g  t h e  2 0 t h c e n t u r y  t h e  e a r l y
conservation aims were criticized in many
respects (e.g., as being to narrow or too
conservative), and were changed in that course.
The German tradition of conserving cultural
landscapes was soon extended to particular
(rare) species of plants and animals, which
often depended on these habitats, and later to
the protection of wild landscapes. In 1970,
almost 100 years after the establishment of
Yellowstone National Park, the establishment
of national parks began also in Germany with
the creation of the Bavarian Woods National
Park, the first German national park. Today,
there are 13 national parks in Germany, with a
f e w  m o r e  i n  t h e  s t a g e  o f  p l a n n i n g  o r
negotiation. It is important to note, however,

that to date most German parks do not fulfill
the strict IUCN- criteria, which demand that at
least 75 % of the area should be completely
free of human use. Especially in the last
decade, the traditional approach of German
conservation has been criticized as being too
conservative and antiquated, turning nature into
a museum with species. Further, many of those
species would not occur in those protected
areas without human influence, and they will
not survive without the perpetuation of these
old practices or their substitution by other
forms of active management. This debate is
still prevailing.

On the other hand, in the United States the
n o t i o n  o f  “ u n t o u c h e d ”  n a t u r e  h a s  b e e n
seriously challenged (see Callicott & Nelson
1998). Recent ecological, anthropological, and
geological research has demonstrated that the
landscapes of North America were not in a
“ p r i s t i n e ”  s t a t e  w h e n  E u r o p e a n s  a r r i v e d
(Russell 1980, Callicott 1999). First, North
American indigenous population was in the
order of millions (Diamond 1999). Secondly,
the notion of the American Indians as “noble
savages” or “homo oecologicus” which had no
significant impact on the natural setting has
turned out to be an idealization. That simplified
notion is as false as that of an almost “empty”
country, waiting to be taken over by the white
intruders (Mann 2002). The pendulum has
swung back so far that some scholars see
almost every landscape as influenced by land
use practices of native Americans (e.g., Kay
1994; see Vale 1998 for a criticism). Similar
doubts about the factual basis of the western
wilderness idea have also been expressed for
other parts of the Americas (e.g., Gomez-
Pompa & Kaus 1992).

Under this perspective, Yellowstone or
other American national parks would also be
“ c u l t u r a l  l a n d s c a p e s , ”  i f  t h e y  a r e  t o  b e
protected as “vignettes of primitive America,”
i.e., in the state which the first Europeans found
them (as proposed in an influential paper by
Leopold et al. 1963). In this case, humans, with
their traditional land use practices would be
included in American national parks as much as
in traditional German “Naturschutzgebieten”.
However, both the American and the German
ideal would exclude modern man as a valid
a c t o r ,  a v o i d i n g  i n d u s t r i a l  a n d  u r b a n
development in Europe, and non-indigenous
European settlers in the United States.

In contemporary conservation strategies
t h e  s e e m i n g  ( a n d  s o m e t i m e s  r e a l )
contradiction between the German and United
States contrasting conservation philosophies



355ECOLOGICAL THEORY AND CONSERVATION

becomes even less relevant. Several concepts
have been developed aimed at reconciling
conservation and human needs, which propose
t h e  d e s i g n  o f  p r o t e c t e d  a r e a s  i n c l u d i n g
different zones subject to different intensity
and type of human use. Hence, different
conservation concepts – such as those of the
c o n t r a s t i n g  G e r m a n  a n d  U n i t e d  S t a t e s
traditions – would apply to different zones of
a protected area.

T h e  z o n i n g  c r i t e r i o n  i s  a n  e s s e n t i a l
component of the Biosphere Reserve concept
launched by UNESCO through its Man and
Biosphere (MAB) program in the 1970s. Each
biosphere reserve includes three distinct zones:
(1) core zone, strictly dedicated to protect
“ w i l d e r n e s s , ”  w h i c h  i n v o l v e s  c o m p l e t e
exclusion of human activities (except regulated
scientific research); (2) surrounding buffer
areas, which are defined to permit or even
foster traditional forms of land use which, in
turn, may be essential to conserve the culturally
founded diversity of habitats and species
associated with those traditional practices; (3)
transition areas, where productive and other
economic activities and infrastructure are
permitted (Jardin & Kares 2000).

In southern South America, zoning criteria
have been implemented as a mean to reduce
u s e r  c o n f l i c t s  b y  t h e  A r g e n t i n e a n
administration of national parks in Patagonia
(Martin & Chehébar 2001, Salguero 2001).
Each Argentinean national park includes five
zones: (1) strict conservation areas, where
human activity (except for scientific research)
is forbidden; (2) extensive public use zones,
w h e r e  e x t e n s i v e  u s e s  s u c h  a s  s c i e n t i f i c ,
e d u c a t i o n a l ,  t o u r i s t  a n d  r e c r e a t i o n a l  a r e
permitted; (3) intensive public use zones,
w h i c h  a r e  r e l a t i v e l y  s m a l l  a r e a s  w h e r e
intensive tourism and recreation is allowed,
including associated service infrastructure such
a s  h o t e l s ,  l o d g e s ,  r e s t a u r a n t s ,  c a m p i n g
facilities; (4) natural resource use zones, where
sustainable productive activities and indigenous
people residence are allowed; (5) special use
areas, which are small areas for administration,
services or human settlement not related to
public use.

Strategies based on zoning criteria can
provide a valuable bridge between opposite
notions associated with the wilderness United
S t a t e s  o r  t h e  c u l t u r a l  l a n d s c a p e  G e r m a n
conservation traditions. The zoning approach
seems to us particularly suited for regions, such
as southern South America, which maintain
heterogeneous mosaics of landscapes regarding
the degree of human influence. The extreme

south of Chile, for example, includes a broad
diversity of ecosystems that range from pristine
(i.e., wild) to completely man-modified (i.e.,
cultural) landscapes (Rozzi 2002).

CONSERVATION AND PROTECTED AREAS IN

SOUTHERN CHILE

O n l y  f o u r  y e a r s  a f t e r  t h e  c r e a t i o n  o f
Yellowstone National Park in United States, the
f i r s t  L a t i n  A m e r i c a n  p r o t e c t e d  a r e a  w a s
established in Mexico. The creation of the
Mexican Reserva Forestal Desierto de los
Leones, was followed by the Reserva Perito
Moreno in Argentina (1903), and the Reserva
Forestal Malleco in Chile (1907) (Ormazábal
1988). Since then the number of national parks,
state and private reserves has significantly
increased in Chile (Armesto et al. 2001) and
throughout Latin America (Primack et al.
2001). Today, the Chilean state maintains 92
protected areas, which includes 32 national
parks, 47 reserves, and 13 national monuments
(Table 2). The area protected by these 92 units
represents 19 % of the Chilean land surface,
which almost triplicates the mean of 6.4 % for
South American countries (Armesto & Smith-
Ramírez 2001).

Among Chilean administrative regions,
Magallanes exhibits an outstanding 7,079,285 ha
of protected land, which represents more than 50
% of the region. National parks cover 4,732,785
ha, which represent 53 % of the total area
devoted to public national parks in Chile.
Magellanic reserves comprise 2,346,189 ha, i.e.,
42.6 % of the area of reserves in the entire
country. Therefore, Magallanes has the highest
rank of protection in Chile, concentrating nearly
50 % of the country’s protected land. At the
same time, such large amount of protected land
emphasizes the importance of the Magellanic
r e g i o n  a s  a  r e s e r v o i r  o f  n o n - f r a g m e n t e d
temperate ecosystems for Chile and the world.

In spite of the large proportion of protected
l a n d ,  c u r r e n t  f i g u r e s  a n d  c o n s e r v a t i o n
approaches in Magallanes present several
problems. First, the country’s distribution of
protected areas is very biased toward the
e x t r e m e  s o u t h  ( A r m e s t o  e t  a l .  1 9 9 8 ) .
Administrative regions Eleventh (Aysén) and
Twelfth (Magallanes), which extend between
44° and 56° S, include more than 80 % of the
Chilean protected land. Hence, large protected
areas in Magallanes should not hide the lack of
protection in other critical regions of Chile.

A second problem arises from the scarcity of
park personnel: less than 20 park rangers work



356 JAX & ROZZI

permanently in Magallanes. This yields a mean of
one park-ranger per 3,540 km2. This is a common
problem in Latin America, where a dramatic
situation also occurs in the Brazilian Amazon,
which has only 23 permanent park rangers for the
whole basin, i.e., an average of one park ranger
per 6,053 km2 of protected land (Primack et al.
2001). This situation contrasts with the United
States, which has 4,002 permanent park rangers,
that is an average of one park ranger per 82 km2.
The majority of protected areas in Magallanes
also lack proper infrastructure, such as navigation
media that are indispensable in this archipelago
region. This lack of transport and personnel
determines that not a single park-ranger works in
the diverse habitats included in the 1,460,000 ha
of the National Park de Agostini – the second
largest of Chile. Therefore, most protected land in
Magallanes, as is the case in other regions of
Latin America, would fall within the label of
“paper parks” (Rozzi & Silander unpublished
results). In fact, Magellanic national parks do not

fulfill the requirements and the criteria of IUCN
(1994) for this category of protected areas.

A third problem in the Magellanic region
arises from the almost complete disregard for
local people living close to protected areas, and in
some cases indigenous residents have been
displaced from their land (Rozzi et al. 2000,
Rozzi 2002). The United States preservationist
paradigm, sketched above, has had a strong
influence on the conservation approach in the
extreme south of Chile. The debate about the
influence that pre-Columbian cultures had on
their local ecosystems and regional landscapes,
and the integration of indigenous people into
conservation areas is as intense and controversial
in South-America as in North America. This
discussion involves two extreme positions: (1)
one that idealizes aboriginal people as living in
harmony with nature; and (2) another that
considers native people as threats that should be
removed from “pristine” or “natural” landscapes.
Both are misleading oversimplifications (Alcorn

TABLE 2

Protected areas in the southernmost Administrative Region of Chile, Magallanes. For each category
the total numbers (N) and total area in Chile are given in parenthesis. The extreme right column

calculates the percentage that each Magellanic protected area represents relative
to the entire country

Áreas protegidas en la Región Administrativa más austral de Chile: Magallanes. Para cada categoría de área protegida se
indican en paréntesis el número total (N) y el área total en Chile. La columna al extremo derecho calcula el porcentaje que

representa la superficie de cada área protegida de Magallanes respecto al área total protegida en el país

Category Name Province Area Percentage relative
(ha) to total protected

area in Chile (%)

Bernardo O’Higgins Última Esperanza *2,962,420 33.2
National Park Torres del Paine Última Esperanza 242,242 2.7
(total in Chile: Pali Aike Magallanes 5,030 0.1

N = 32; Cabo de Hornos Antártica 63,093 0.7
8,912,724 ha) Alberto d Agostini Antártica 1,460,000 16.4

Subtotal 4,732,785 53.1

Alacalufes Última Esperanza 2,313,875 42.0
Reserve Laguna Parrillar Magallanes 18,814 0.3

(Total in Chile: Magallanes Magallanes 13,500 0.2
N = 47; Subtotal 2,346,189 42.6

5,503,499 ha)
Cueva del Milodón Última Esperanza 189 1.1

National Los Pingüinos Magallanes 97 0.5
Monument Laguna de los Cisnes Tierra del Fuego 25 0.1

(Total in Chile: Subtotal 311 1.8
N = 13; 17,669 ha)

Total Magallanes 7,079,285 49.0
Total Chile 14,433,892 100.0

* This figure corresponds to the area of the National Park Bernardo O’Higgins included in the Region of Magallanes.
The total area of this national park is 3525901 ha, but 563481 ha are included in the Region of Aysen, north of Magallanes
(data from Muñoz et al. 1996)



357ECOLOGICAL THEORY AND CONSERVATION

1994). Regarding the first position, it would be
interesting to evaluate the work done in southern
Chile by the German missioner and
anthropologist Martin Gusinde, who was deeply
concerned about the future of the Fuegian
Indians. In his monumental ethnographic work,
Gusinde describes in detail several concepts and
practices of traditional ecological knowledge of
Kaweskar, Yahgan, and Selknam, indigenous
people at the austral extreme of South America
(see Gusinde 1946, 1961). Regarding the second
position, it follows a preservationist approach
identified with John Muir (see Norton 1991),
which has been strongly influential for
conservation designs in Latin America during the
last 130 years (Rozzi et al. 2001). In southern
Chile, indigenous populations have been excluded
from national parks. For example, the national
parks of Chiloé, Bernardo O’Higgins, and Cape
Horn have respectively excluded Huilliche,
Kaweskar, and Yahgan communities.
Interestingly, today the general trend of
abandonment and human exclusion in protected
areas of southern Chile is changing due not only
to conceptual changes about the role of humans as
ecosystem components (McDonnell & Pickett
1993, Rozzi et al. 1994), but also to a growing
interest in ecotourism.

Ecotourism is promoting a shift, which
i n s t e a d  o f  e m p h a s i z i n g  a  p r e s e r v a t i o n i s t
approach, underlines the statement “parks are
created for the benefit and enjoyment of the
people,” asserted in the founding law of
Yellowstone National Park. In the extreme
south of Chile, this statement (which is closer
to the United States conservation tradition
identified with Gifford Pinchot, see Norton
1991), is acquiring a prevalent role today. This
shift toward ecotourist activities requires,
however, careful examination in order to
achieve a sustainable compatibility between
conservation and human needs or benefits (di
Castri & Balaji 2002, Figueroa et al. 2003).

Between Yellowstone National Park and the
Magellan national parks, in particular Torres del
Paine National Park, some remarkable similarities
exist. In the Magellan Region, Torres del Paine
National Park constitutes an area that, like
Yellowstone, possesses marvelous landscapes
(including glaciers and mountain peaks), and
attractive megafauna (including species like
rheas, Pterocnemia pennata, and guanacos, Lama
guanicoe) (Fig. 3A and 3B). Also, like
Yellowstone, Torres del Paine is visited by a
large number of tourists (Fig. 4). Although the
number of visitors to Torres del Paine (43,624 in
1995) ranks two orders of magnitude below
Yellowstone (more than 3 million in 1995), for

Chile it holds the largest number of foreign
visitors and it has a substantial impact on the
development of the nearby city of Puerto Natales
(Villarroel 1996). Of the visitors to Torres del
Paine, 62 % are from overseas, coming from
Europe (37 %), North America (15 %), and
Oceania (10 %) (Ferrer 2001).

Torres del Paine National Park was created
in 1959, and was designated as a Biosphere
Reserve in 1978. Like Yellowstone National
Park, the Torres del Paine landscape shows
s i g n s  o f  h u m a n  i n f l u e n c e .  T h e  a u s t r a l
landscape exhibits the marks left mainly by
European colonists that arrived to Magallanes
at the beginning of the 20th century (Dollenz
1991). Before the Chilean government acquired
the park, it belonged to German ranchers who
burned large expanses of forests to increase
pasture area, which was later overgrazed (see
Martinic 1984). Therefore, in spite of the goal
to protect pristine or “wild” areas, the imprints
of both indigenous and European settlers, are
present even in the remote austral regions of
the American continent.

W i t h i n  t h i s  c o n t e x t  e c o t o u r i s m  p o s e s
complex puzzles to conservation biology. On the
one hand, it seems to favor a larger integration
between society and protected areas. On the
other hand, with current deficiencies in the
planning and regulation of ecotourism within
parks, such as Torres del Paine, undesirable
environmental impacts may follow (Villarroel
1996, Massardo et al. 2001). Hence, a close
c o l l a b o r a t i o n  a m o n g  g o v e r n m e n t  o f f i c e s ,
tourism agencies, and academic institutions is
required for the planning of protected areas, and
defining their conservation goals.

HUMAN VALUES, SCIENCE, AND THE

DETERMINATION OF CONSERVATION GOALS

The short overview of conservation strategies
in Germany (protection of cultural landscapes),
the United States (wilderness ideal), and
southern Chile (preservation paradigm, and the
m o r e  r e c e n t  i n t e r e s t  i n  e c o t o u r i s m  a s  a
potentially sustainable economic activity)
illustrates the broad spectrum of conservation
goals and the different role of humans within
conservation. Consequently, it is not always
clear what exactly should be protected within
reserves or national parks. However, with
increasing human pressure on nature, especially
in a period of rapidly growing global economy,
and an increasing probability of human-induced
global changes, the necessity for a conscious
decision about conservation aims and measures



358 JAX & ROZZI

Fig. 3: Torres del Paine National Park was created in 1959, and declared a Biosphere Reserve in
1978. The criteria for the creation of Torres del Paine National Park follow closely those of
Yellowstone National Park, that is, magnificent landscapes (particularly the Paine Towers [A]), and
the abundant wildlife megafauna, which includes the guanaco (Lama guanicoe) [B]. Notice the
analogy between Fig. 2 and 3. (Photos by Orlando Dollenz [A], and Ricardo Rozzi [B]).
El Parque Nacional Torres del Paine fue creado en 1959, y se declaró Reserva de la Biosfera en 1978. Los criterios para la
creación del parque Torres del Paine son muy similares a aquellos que motivaron la creación del Parque Nacional
Yellowstone: sus majestuosos paisajes (particularmente los Cuernos del Paine [A]), y la abundante presencia de megafauna
y vida silvestre, que incluye al guanaco (Lama guanicoe) [B]. Nótese la analogía entre las Fig. 2 y 3 (Fotografías de
Orlando Dollenz [A] y Ricardo Rozzi [B]).

(A)

(B)



359ECOLOGICAL THEORY AND CONSERVATION

becomes greater. Confronted with this scenario,
and a broad range of conservation goals: what
should we protect? What roles should humans
play in this context? Where can we find
guidelines? What is the role of science?

A n s w e r i n g  t h e s e  q u e s t i o n s  r e q u i r e s  t o
systematically integrate multiple aspects that
influence any conservation strategy, aspects
that hitherto have in part been developed
independently from each other (Jentsch et al.
2003). Such integration has not been achieved,
and it challenges the prevailing trend of
specialization that dominates science and other
disciplines since the second half of the 20th

c e n t u r y  ( R o z z i  e t  a l .  1 9 9 8 ) .  H e n c e ,  t o
interconnect diverse aspects of conservation,
such as empirical data, ecological theory,
human values and worldviews, represents an
urgent and important task. At the same time,
t h i s  t a s k  d e m a n d s  n o v e l  t h e o r e t i c a l  a n d
practical approaches.

V a l u e s  e n t e r  t h e  d e t e r m i n a t i o n  o f
conservation goals in many different ways: in
our images of nature (Ahl & Allen 1996, Rozzi
1999, Rozzi 2003), in our economic values
(Daly & Townsend 1994, Daily 1997), in our
political preferences (Norton 1991), in our
moral attitudes towards human and non-human

n a t u r e  ( R o l s t o n  1 9 9 0 ) ,  a n d  e v e n  i n  o u r
decisions about what is important in science.
However, values are often not explicit and
remain hidden behind seemingly objective
scientific facts or economic necessities.

The provision of empirical data is one of the
basic tasks of ecological research within
conservation. It is necessary to describe the
current conditions of an area or – by means of
e.g., paleoecological analyses – to restore its
“original” or “natural” conditions, e.g., in terms
of plant cover or animal life. However, criteria
for selection of particular areas and their
subsequent management are not purely based
on scientific knowledge.

What kinds of data are collected and what
kinds of questions are asked is already a matter
involving value decisions. Although many
people argue that for conservation purposes
ecology should simply identify the “natural”
c o n d i t i o n ,  t h i s  t a s k  i s  f a r  f r o m  a  p u r e l y
“objective” scientific enterprise. For example,
the concept of what is natural plays a major
role when deciding which role should humans
play within protected “natural” areas. Both the
German and American early conservationists
wished to protect “natural” landscapes although
their images of what is “natural” differed

Fig. 4: Number of visitors to the national parks Yellowstone and Torres del Paine in the 1990s.
Notice that the scales are visitors x1,000 for Torres del Paine, and visitors x1,000,000 for Yellows-
tone (Data from the administrative offices of CONAF, and Yellowstone National Park).
Número de visitantes a los parques nacionales de Yellowstone y Torres del Paine en 1990. Nótese que las escalas son de
visitantes x1.000 para Torres del Paine, en cambio visitantes x1.000.000 para Yellowstone (datos de las oficinas adminis-
trativas de CONAF y Yellowstone National Park).



360 JAX & ROZZI

considerably. In addition, these concepts have
changed during the following decades and they
still have different meanings for different
g r o u p s  o f  p e o p l e .  P a r t i c u l a r l y  d i f f i c u l t
questions related directly to value decisions
arise today with respect to alien plants and
animals (invasive species) entering an area and
spreading there. Should they be considered as
“natural”?

Ecological theory is a third important and
often neglected ingredient in the determination
of conservation goals, which can serve two main
purposes. First, ecological theory allows us to go
beyond a purely static description of an area, by
providing insights into the interactions between
the elements of ecological systems, their
dynamics, and the ways they might respond to
external changes. Ideally, ecological theory
should provide the means for predicting the
development of ecological systems.

A second, much less considered role of
ecological theory is its heuristic use in the
f o r m u l a t i o n  o f  r e s e a r c h  q u e s t i o n s  a n d
conservation goals (Jax 2003). Ecological
theory can help identify gaps in our knowledge
and expose uncertainties. Even more important
within conservation, ecology can help clarify
our questions, forcing us to be more precise
about the concepts we use. Although this
remains a difficult task, ecological theory can
also help distinguish between values and facts
and promote their integration in the definition
of conservation goals. We illustrate this point
using one of the currently most discussed
approaches to conservation, the strategy of
ecosystem management.

PRESERVING ECOSYSTEMS: THE SOLUTION TO

CURRENT CONSERVATION DILEMMAS?

E c o s y s t e m  m a n a g e m e n t  r e p r e s e n t s  a n
i n c r e a s i n g l y  p o p u l a r  s t r a t e g y ,  w h i c h  i s
compatible with a dynamic view of nature
( C h r i s t e n s e n  e t  a l .  1 9 9 6 ) .  I t  r e c o g n i z e s
ecosystems as permanently changing and, at the
s a m e  t i m e ,  p r o m o t e s  a  m u l t i p l e  u s e
perspective.

The management of whole ecosystems –in
contrast to that of single “commodities”– seems
to be an elegant solution to many conservation
problems. By protecting the whole ecosystem,
we avoid protecting only certain parts of an
area at the cost of others. This approach, to our
knowledge, was first applied systematically in
Yellowstone National Park, starting in the late
1960s (Jax 2001, 2002b). During the 1990s the
notion of ecosystem management experienced a

rapid rise in North American environmental
policy (Grumbine 1994, Christensen et al.
1996, Boyce & Haney 1997, Jax 2002b).

In contrast to its beginnings, in which
ecosystem management was mainly a particular
way of dealing with complex natural settings,
t h e  n o t i o n  h a s  n o w  b e e n  e x t e n d e d  t o  a n
a m b i t i o u s  s o c i e t a l  p r o g r a m  ( J a x  2 0 0 2 b ) .
Although the ecosystem approach in the United
States means very different things to different
people (Yaffee 1999), some common ground is
emerging. The ecosystem is used here as a
cipher for the treatment of “the whole”, a whole
that also includes humans, their societies and
resource use practices. Moreover, it emphasizes,
interagency management and a focus on natural
boundaries in contrast to administrative ones
(Grumbine 1994, Carpenter 1995, Szaro et al.
1998). In this context, the ecosystem and
ecosystem management concepts are becoming
s t r o n g l y  v a l u e - l a d e n ,  d e p a r t i n g  f r o m  t h e
perspective of “value-neutral” science.

It is this ecosystem approach which is
a p p l i e d  b y  t h e  C o n v e n t i o n  o n  B i o l o g i c a l
Diversity (CBD). The Fifth Conference of the
Parties of this convention, which took place in
Nairobi in 2000, passed a resolution that
recommended the “ecosystem approach” as a
cross-cutting issue for the CBD and obliged all
parties to implement this approach within their
conservation policies (resolution COP V/6).
Based on the so-called Malawi-Principles, the
approach emphasizes the social dimensions of
management and that societal choices have to
be made. It also acknowledges the changing
nature of ecological systems (Botkin 1990,
Pickett & Ostfeld 1995, Plachter 1996).

The ecosystem approach is considered a
major tool for implementing the three basic
g o a l s  o f  t h e  C B D ,  n a m e l y  b i o l o g i c a l
c o n s e r v a t i o n ,  s u s t a i n a b l e  u s e  o f  n a t u r a l
resources, and equitable sharing of benefits
( S m i t h  &  M a l t b y  2 0 0 1 ) .  H o w e v e r ,  t h e
implementation of such an approach is far from
simple. First of all, it is an illusion that we
would really be able to grasp the whole. This is
an epistemological problem (Pickett et al. 1994,
Rozzi et al. 1998). To investigate anything in
nature, we have to select and isolate a particular
characteristic of interest, from which we
mentally form the system which we then
d e s c r i b e  a n d  a n a l y z e .  T h i s  h a s  d i r e c t
consequences for the scientific perception of the
ecosystem as the very object of the ecosystem
approach. In spite of some “naive-realistic”
attitudes, an ecosystem is not a natural entity
that can be identified in nature without reference
to particular interests and selection criteria (Jax



361ECOLOGICAL THEORY AND CONSERVATION

et al. 1998). It is defined in a task-specific
manner. Definitions of ecosystems are manifold
(Jax 2002a), and those that are commonly
accepted as embracing the many and contrasting
meanings are, in consequence, very general, too
general to provide clear criteria for defining the
goals of ecosystem management.

To implement an effective approach to
ecosystem management it is necessary to: (1)
set a baseline, (2) define what an ecosystem is,
and (3) to have criteria to decide when it is
“destroyed” or deviates significantly form a
baseline condition.

For example, the case of southern Chile
might involve questions such as: are the
subantarctic evergreen rainforest ecosystems
c h a r a c t e r i z e d  b y  a  p a r t i c u l a r  s p e c i e s
c o m p o s i t i o n  o r  j u s t  b y  a  p a r t i c u l a r
physiognomy of plant and animal types? Has
the invasion of the North American beaver
(Castor canadensis) –which started in the late
1940s on Tierra del Fuego, Navarino island and
other areas of the Cape Horn archipelago
(Lizarralde & Venegas 2001)– created new and
more diverse ecosystems? Today, is Castor
canadensis part of the “old ecosystem” or is it
the destroyer of the “original ecosystems”?
Will we say that an ecosystem has become
“ a n o t h e r ”  e c o s y s t e m  i f  s o m e  n a t i v e
undergrowth species are lost (or replaced by
alien species) or will the ecosystem only be
“another” if also its physiognomy is changed?

The ways in which ecosystems are defined
must be communicated in a clear manner.
However, this is still frequently not done,
generating difficulties at different levels. To
serve this communication purpose, Jax and
collaborators (Jax et al. 1998, Jax 2002a) have
recently developed an approach to clarify and
p r o v i d e  a n  u n a m b i g u o u s  d e f i n i t i o n  a n d
specification of any ecological unit. To do this,
statements are needed about: (1) whether the
unit is bounded topographically or functionally,
(2) which kind of relationships among the
components are minimally required, (3) which
phenomena (i.e., components and internal
relations) are selected for the definition of the
unit, and (4) what is the degree of resolution of
the unit’s components.

The first criterion represents an essential
distinction. It describes an element (e.g.,
organism) either seen as a part of a unit by
virtue of being in a particular spatial location or
b y  v i r t u e  o f  b e i n g  f u n c t i o n a l l y  ( i . e . ,  b y
interactions) related to other elements. For
example, within the bounds of a Nothofagus
forest on an austral island, are all species
components of one ecosystem or are there

several separate ecosystems characterized by
specific functional connections within these
topographical bounds?

The remaining criteria apply to both spatialy
and functionaly bounded units. They can be seen
as gradients, which can be assembled as three
axes into a graphical scheme that allows
visualizing the different definitions (Fig. 5). The
axis of selected phenomena displays which and
how many phenomena (kinds of objects and/or
processes) are included in the definition of the
ecosystem. The axis of internal relationship
indicates the degree of intensity and specificity
that internal relationships are required to have in
order to call a unit an ecosystem, or even an
intact ecosystem. In some definitions, for
example, the requirements to call a system an
ecosystem are such that interactions have to be
very specific and lead to an equilibrium state, or
that feedback-loops are present which lead to the
self-regulation of the system (high internal
r e l a t i o n s h i p s ) .  I n  o t h e r  d e f i n i t i o n s  a n y
interactions between the organisms (low internal
relationships) are sufficient to call the system an
ecosystem. The axis of component resolution
describes to what degree the components of the
ecosystem must be resolved, e.g., whether the
system parts are considered at the species or just
trophic levels. Based on the initials of the three
axes (selected phenomena, internal relationship,
component resolution) this scheme was named
“SIC-scheme” (Jax 2002a). Fig. 5 displays this
general scheme to illustrate some of the most
common meaning of ecosystem in the context of
ecosystem management.

These meanings vary according to the
conservation aims. The most general definition
i s  d e p i c t e d  b y  t h e  e l l i p s e  “ A . ”  H e r e  t h e
ecosystem is preserved simply as a system of
i n t e r a c t i n g  n a t u r a l  o b j e c t s .  I n d e e d ,  t h e
interactions themselves may be the focus of
management (which can also mean to refrain
from active management). The kinds (i.e.,
s p e c i e s )  o f  o r g a n i s m s  a r e  n o t  o f  s p e c i a l
importance here (low component resolution),
and the degree of required internal relationships
m i g h t  a l s o  v a r y .  F o r  e x a m p l e ,  p a r t i c u l a r
feedbacks may be demanded within the system
to call it an ecosystem, such as the criterion
that most primary production must occur within
the system itself. This kind of ecosystem may
be useful for the management of wilderness
areas, even in regions that have been strongly
impacted by humans but where now “nature
can take its course”. This is an especially
interesting concept for ecosystem management
i n  c e n t r a l  E u r o p e a n  c o u n t r i e s ,  w h e r e
completely “pristine” areas no longer exist.



362 JAX & ROZZI

S p h e r e  “ B ”  ( F i g .  5 )  d e p i c t s  a n o t h e r
frequently applied definition of ecosystem,
which focuses on particular interactions and
processes. Here, the ecosystem is described by
particular functional compartments, interacting
in a manner that particular services –such as
primary production, clean air or waters– are
provided by the system. Component resolution
is thus slightly higher than in type A, but still
particular species are not of interest, only
functional types. The degree of interaction is
higher than in many other definitions because
interactions, and particular feedbacks, between
specific functional elements are essential for
the definition. This kind of definition is
s u f f i c i e n t  w h e n  t h e  a i m  o f  e c o s y s t e m
management is to provide benefits for humans
in the form of “ecosystem services” (Costanza
et al. 1997).

Sphere “C” (Fig. 5) depicts a third type of
ecosystem definition that demands a higher
resolution in the three axes. For example, a
Nothofagus forest ecosystem or a Sphagnum
b o g  a n d  t h e  e s s e n t i a l  i n t e r a c t i o n s  t h a t
perpetuate such systems are to be protected.
The aim is to protect a large ecosystem which
is “typical” for the area, without the necessity

that all constituent species have to be preserved
in the long run, except for some conspicuous
and dominant taxa such as Nothofagus trees
and Sphagnum mosses. Particular types of taxa
( i n d i c a t o r  s p e c i e s ,  k e y s t o n e  s p e c i e s  o r
“umbrella species“; see Simberloff 1998) are
thus already part of the definition. This –
physiognomic– view of ecosystems is perhaps
the most common one in the practice of
conservation and resource management.

Finally, sphere “D” (Fig. 5) illustrates a
concept of ecosystem defined by all species
occurring in a setting. Interactions themselves
are protected mostly for the sake of conserving
the interacting components. These may be
those species which are present in a protected
area at a date t (e.g., the date at which the
measures start) or –much more difficult to
determine– all species which are considered as
“typical” for a particular site. The aim is here
t o  p e r p e t u a t e  a l l  s p e c i e s ,  w i t h o u t  f i x i n g
particular growth rates or dwelling places,
abundances, or specific ratios between species.
Everything, besides the species composition, is
in a condition of waxing and waning, including
local disturbances and recolonizations (within
t h e  s y s t e m ) .  T h i s  a i m  i s  f o r m u l a t e d ,  f o r

Fig. 5: Representation of different definitions of “ecosystem” that are applied in ecosystem mana-
gement strategies (see text).
Representación de diversas definiciones de “ecosistema” utilizadas en las aproximaciones de manejo de ecosistemas (véase
el texto).



363ECOLOGICAL THEORY AND CONSERVATION

e x a m p l e ,  i n  s o m e  n a t i o n a l  p a r k s  a n d
c o r r e s p o n d s  t o  t h e  c u r r e n t  s t r a t e g y  o f
e c o s y s t e m  m a n a g e m e n t  i n  Y e l l o w s t o n e
national park (Jax 2001).

CONCLUDING REMARKS

B a s e d  o n  t h e  c o n c i s e  e x a m i n a t i o n  o f
conservation approaches that have taken place
in temperate regions of Germany, United
States, and Chile, followed by the analysis of
conservation units based on the SIC-scheme,
what can we learn for conservation in the
austral Magellanic region?

First, conservation traditions encompass
interests for the preservation of both natural
and cultural heritages. Even more, these two
dimensions are mutually dependent, as shown
by the “natural areas” of Yellowstone and
Torres del Paine, which have been molded in
part by humans. Therefore, nature and humans
a r e  b r o u g h t  t o g e t h e r  i n  t h e  o b j e c t  o f
conservation, as well as in the processes
occurring in the protected units. Consequently,
the dichotomies between nature and culture,
a n d  b e t w e e n  p r o t e c t e d  a r e a s  a n d  h u m a n
presence become irrelevant.

Second, in the context of current global
change it is impossible to completely isolate
p r o t e c t e d  a r e a s  f r o m  h u m a n  i n f l u e n c e s
(Primack et al. 2001). Human impacts can arise
as much from local populations (for example,
f i r e w o o d  e x t r a c t i o n )  a s  f r o m  r e m o t e
populations inhabiting a different hemisphere,
as in the case of the austral ozone hole caused
by the emissions of chemicals in Northern
Hemisphere industrialized countries. Moreover,
in the three temperate regions considered,
humans as components of ecosystems may be a
“keystone species.” In addition, a dynamic
view of nature –the “flux of nature”– points out
that biotas and ecosystems will change over
time, even within “protected areas.” Hence, to
preserve species or habitats it is not enough to
“isolate” protected areas, but often it requires
active management and conservation.

The two former conclusions invite us to
revise the conservation approach undertaken in
the extreme south of Chile, where local people
have been excluded from protected areas, and
where the National Forestry Service (CONAF,
the organization responsible for these areas)
has serious logistic and financial limitations to
carry out conservation and/or management
programs.

T h i r d ,  o u r  a n a l y s e s  d e m o n s t r a t e  t h a t
conservation goals involve not only scientific

criteria, but also philosophical, political and
b r o a d e r  c u l t u r a l ,  s o c i a l  a n d  e c o n o m i c
d i m e n s i o n s .  H e n c e ,  i n t e r d i s c i p l i n a r y  a n d
interagency cooperation is urgently needed.
None of these actors can see or understand the
“whole” by themselves. Therefore, operational
d e f i n i t i o n s  o f  t h e  u n i t s  a n d  g o a l s  o f
conservation need to be jointly defined. This
process requires presenting explicitly the goals,
methods and values involved in conservation or
management of species and ecosystems.

Finally, we consider that the ecosystem
a p p r o a c h  t o  c o n s e r v a t i o n ,  a s  c u r r e n t l y
conceptualized within the guidelines of the
CBD, represents an extremely valuable tool. It
allows integrating solid empirical research,
sound ecological theory and human value
dimensions. However, it is important to avoid
the pitfalls that these approaches can have,
when unproductive and improper mingling of
facts and values involve a fuzziness of basic
and practically relevant theoretical concepts,
such as the ecosystem concept. These problems
c o u l d  u n d e r m i n e  t h e  u s e f u l n e s s  o f  t h e
ecosystem approach, concealing the issues
really at stake. In this context, ecological
theory, embedded in interdisciplinary work and
social participatory proceses, represents an
indispensable key element for determining
conservation goals.

ACKNOWLEDGEMENTS

The authors thank Juan J. Armesto and an
anonymous reviewer for valuable comments on
the manuscript. The work that initially led to
this paper has been kindly supported by travel
g r a n t s  o f  t h e  D e u t s c h e r  A k a d e m i s c h e r
Austauschdienst (DAAD) to Kurt Jax. Ricardo
R o z z i  a c k n o w l e d g e s  t h e  s u p p o r t  o f  t h e
D e p a r t m e n t  o f  E c o l o g y  &  E v o l u t i o n a r y
Biology, University of Connecticut, and the
Millenium Center for Advanced Studies in
Ecology and Biodiversity (CMEB). This article
is part of the BIOKONCHIL project (FKZ 01
LM 0208, German Ministry of Education and
Research, BMBF), and the ongoing research
and conservation activities conducted by the
Omora Foundation and the Universidad de
Magallanes, at the Omora Ethnobotanical Park,
Puerto Williams, Chile.

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