Environmental sociology has been divided in recent years by a debate between realists and
constructionists centering on the knowledge claims of ecological science. Following consideration
of this debate and its relation to both environmental sociology and the “sociology of
ecology,” a “realist constructionism” is advanced, taking as its concrete case the conflict in the
1920s and 1930s between Jan Christian Smuts’s organicist ecology and Arthur Tansley’s
ecosystem ecology. A central analytical issue (derived from Marx and Engels) is the “double
transfer” of ideas from society to nature and back again and how this manifested in theearly
20th-century ecology as a justification for ecological racism/apartheid.
The Sociology of Ecology: Transcending the Realist-Constructionist Divide
A key dividing line within environmental sociology—even more perhaps than in sociology in
general—is the question of “realism” versus “constructionism.” To what extent is
nature independent of human action and even conceptions, and to what extent do society
and human thought processes construct it? Realists within environmental sociology
tend to materialism and think in terms of nature’s ontological independence of human
action and conceptions. They emphasize natural limits to human action. In this view, nature
can be successfully altered to meet human needs up to a point—but only if nature’s laws
and limits are first recognized and followed. This view is compatible with a dynamic notion
of nature that incorporates evolutionary postulates. Constructionists, in contrast, tend to
idealism and skepticism, and they stress the epistemological limits of our knowledge of
nature. They underscore the extent to which nature as we know it is constructed by human
actions and cognition, and they are suspicious of what they regard as “essentialist” or
“positivistic” postulates about nature. In this view, social development is frequently conceived
(if only for methodological purposes) as unconstrained by natural forces, which can
therefore be set aside in purely social analysis.
A common complaint of realist environmental sociologists is that sociology in the 20th
century has leaned toward broad, overarching constructionism and human
exemptionalism (the notion that human beings are mostly exempt from nature’s laws), ignoring or
downplaying realist concerns with natural limits, and cordoning social science off from
natural science. This has only been heightened by the so-called “cultural turn” in sociology.
Constructionist environmental sociologists, for their part, complain of the naïve view of
science as a mirror of nature and the technological Prometheanism that they attribute to
realism (here reduced to crude positivism).
There are of course sophisticated versions of each of these views. Critical realists
recognize the epistemological obstacles to our knowing the Kantian “thing in itself”
(or “intransitive objects of scientific knowledge” [Bhaskar, 1979]) and stress the historical basis of
human actions and cognition. Cautious constructionists explicitly acknowledge that there
are natural limits (the existence of “a reality out there”) within which human beings are
constrained and that our cognition is a coproduct of nature and society. Some advocates of
the “strong programme” in the sociology of science—a view generally seen as adamantly
constructionist—argue that a kind of idealism at the level of categories and truth claims “is
compatible with an underlying materialism” (Bloor, 1991, p. 175).
Nevertheless, the division between realism and constructionism continues to bedevil
environmental sociology in particular (a field that necessarily transgresses the divide
between society and nature at every point), creating quite distinct theoretical emphases.
Realists within environmental sociology are concerned primarily with the ontology of
environmental crisis and see this as a reason to alter existing social relations. Constructionists
focus much more on the epistemological aspects and “reflexivity” of our construction of
nature and science, seeing environmental crises first and foremost as discursive constructions
and therefore open to diverse interpretations.1
In what follows, we attempt to throw further light on the realist–constructionist divide
and to show how this division can be transcended through a realist–constructionist account
rooted in a particular, situated context—the historic formation of ecological science in the
early 20th century. We ask questions such as the following: (a) To what extent was the
growth of ecology as a science an attempt not simply to construct a new scientific
understanding of nature, but a manifestation of developing social relations of production and
emerging conflicts within human society that were transferred to the realm of
nature/ecology (and then frequently reimported into society as naturalized facts)? (b) How are current
conceptions of ecological crisis within ecological science affected by the human–historical
conflicts that entered at the outset into the very constitution of ecological science? (c)What
form of the sociology of ecological science is the best counterpart to an environmental
sociology concerned centrally with ecological crisis?
What we hope to demonstrate is the importance of both ontological realism and historical
constructionism, synthesized within a critical–realist perspective. We argue that within
both natural science and social science (and especially within ecology, which increasingly
embraces both), it is essential to retain a realist/materialist view that also embraces an
understanding of the human–historical construction of the world within limits. Ultimately,
there is no contradiction between the Galileo principle (“it still moves”) and the Vico principle
(“we can understand it because we made it”) if each of these is properly understood
and delimited. In a slight revision of Marx’s principle of historical materialism, we can say
human beings make their own history, not under conditions of their choosing but rather on
the basis of natural–environmental and social conditions inherited from the past.2
For environmental sociologists to raise such matters in the context of the development
of ecological science is of course to trespass on the realm of the sociology of science, which
specializes in precisely these kinds of difficult inquiries into science—but in ways that are
only rarely directly pertinent to environmental sociology and that seldom address the
materialist/realist tradition. In the following analysis, we will make use of insights
drawn especially from the early “externalist” (or social–institutional) approach to the
sociology of
science associated with such thinkers as Hessen, Zilsel, and Merton. In addition, we make
use of Marxist and feminist “standpoint theory” and draw on Lakatos’s (1978) distinction
between “progressive” and “degenerative” research programs. Our overall analysis here is
influenced by Bhaskar’s (1979, 1986) and Sayer’s (1992) critical realism.
Following this excursion into the sociology and philosophy of science, we use some of
the analytical tools derived there to elucidate the concrete core of our argument, focusing on
the struggle over the foundations of ecology as an emerging scientific field of research from
1926 to 1935. This saw the development of two competing ecological holisms. One of these
approaches arose out of a tradition of idealism and organicism and is represented most fully
by the ecological holism/racism of Jan Christian Smuts and his followers within ecological
science in South Africa. The other flowed out of a tradition of materialism and took its most
definitive form in the ecosystem ecology of Arthur Tansley in Britain.
Not only did these two traditions openly war with each other, but they also crossed swords
in surprising ways that demonstrate that the development of science can never be cordoned
off from the larger social struggles or our conceptions of nature from those of society. The
importance of realist–constructionist accounts of science (particularly if conceived in
historical and materialist ways) is highlighted. For example, only in this way is one able to deal
with the issue, raised by Marx and Engels, of the “double transference” of ideas of nature
and society and the erroneous naturalization of social relations that has sometimes resulted.
Our argument calls into question the traditional social science/humanities story, as often
depicted by environmental historians and environmental sociologists, that—in opposition to
the main line of ecological science—sides with Smuts’s idealist, organicist “holism” against
the materialist ecosystem ecology of Tansley. As David Pepper (1996) says, “the ecocentric
interpretation of twentieth-century science tends towards . . . idealism” (p. 242). Indeed, we
are frequently led to believe that ecology in following Tansley rather than Smuts simply took
the wrong path, choosing reductionism over holism (see Barbour, 1995; Merchant, 1980,
p. 252; Merchant, 1992, p. 59; Pepper, 1996, pp. 233-234, 242-245; Worster, 1977, pp. 301-
304, 316-323).
Dissenting from this view, we attempt to illuminate why Tansley’s ecosystem ecology
reflected a “progressive” research program and Smuts’s “holism” a “degenerating” research
program (following Lakatos’s distinction) in terms of the natural–scientific and also the
social–scientific implications of these arguments. The materialist/realist view, we argue, was
superior in both its ontological realism and its constructionist tendencies. It was more
attuned to the difficulties of the uncritical transference of social ideas to the natural realm
and then their transference back (in objectivist, naturalist clothing) to the social—the
problem of the double transference. Moreover, the situated social context in which these theories
were developed ultimately, we believe, favored the evolution of ecological materialism. This
suggests that not all ontologies and not all constructionisms are created equal. Our
examination of the Smuts–Tansley debate, however, is more than an attempt simply to validate one
view over another. Rather, it seeks to illustrate, through a situated case, that the real concern
of the sociology of modern ecology should not be the strict opposition of realism
versus constructionism but rather the coevolution of nature and society and its consequences.
Navigating the Great Divide: Realism Versus Constructionism
From its first appearance in the mid-1970s until the 1990s, environmental sociology was
characterized by “an almost universal commitment . . . to a realist epistemology
and a materialist ontology” (Buttel, Dickens, Dunlap, & Gijswijt, 2002, p. 22).3 Nevertheless, the social
constructionist perspective, which soon gained prominence within the sociology of science,
social problems, and the sociology of gender, began strongly to impress itself on
environmental sociology by the 1990s. The result was a debate between realists
and constructionists that, while resembling similar controversies in other areas
of sociology, took on an
extremely virulent form.
From the beginning, environmental sociologists have charged that sociology as a
discipline has been far more reluctant than other social science disciplines to incorporate
natural–environmental postulates into its analysis—a failing, they claimed, that was less
evident in the work of sociology’s classical founders (Benton, 1994; Buttel, 1986, 1996;
Dunlap & Catton, 1979; Foster, 1999; Goldman & Schurman, 2000; Murphy, 1994, 1997).
In their original formulation that helped to launch the field, Catton and Dunlap (1978;
Dunlap & Catton, 1994) presented environmental sociology as a subdiscipline, embodying
a “new environmental paradigm” that opposed the “human exemptionalist” (from nature)
assumptions prevalent in much of social science and sociology in particular.
Environmental sociology arose in conjunction with the environmental movement in the
The 1970s, spurred on like the latter by the warnings of scientists (e.g., Carson, 1962;
Commoner, 1971) about ecological crisis. Environmental sociologists thus saw
themselves as addressing this developing ecological crisis from the standpoint of
social systems, institutions, processes, and agents. Because of this focus on the reality
of the ecological
crisis that had defined the field from the start, numerous environmental sociologists saw the
sudden intrusion of strong social constructionist views into environmental sociology
roughly a decade and a half after its inception as a threat to the very constitution of
the subdiscipline. Realist environmental sociologists (Benton, 1994, pp. 44-46; Dickens, 1996;
Martel, 1994; O’Neill, 1993, pp. 148-155) responded sharply to the antirealism, for
example, of Tester (1991), who provocatively declared that
a fish is only a fish if it is socially classified as one, and that classification is only concerned
with fish to the extent that scaly things living in the sea help society define itself. . . . Animals
are indeed a blank paper that can be inscribed with any message, and symbolic meaning,
that the social wishes. (p. 46)
For realists within environmental sociology, this kind of strong social–constructionist
“antirealism,” as it was sometimes called even by those sympathetic to it (see Hacking, 1988),
only seemed to reinforce, at an even more extreme level, an anthropocentrism with regard
to nature that environmental sociology from the beginning had sought to combat.
Realist environmental sociologists were further alarmed by the persistent questioning of
not only science in general but also scientific depictions of ecological crises, as the methods
and conclusions of sociologists of science influenced by the Edinburgh “strong program”
and the work of Latour and Woolgar (1979) began to filter into environmental sociology
(e.g., Buttel & Taylor, 1992; Demeritt, 1998; Hannigan, 1995; Taylor & Buttel, 1992; Yearly,
1991). Thus, in extending arguments from the sociology of science into the terrain
of environmental sociology, Yearly (1991) stressed the “uncertain basis” of global warming
hypothesis, which rested on questionable scientific authority and scientific framing,
concluding that the fact that “we cannot know such things for certain” was the “Achilles heel”
of environmental science, as with science in general (pp. 136-137). Realist environmental
sociologists responded by insisting that in the face of the overwhelming scientific evidence
and scientific consensus, concerning the global environmental crisis, to support skepticism
in this area was to undermine the moral responsibility of society to nature and to future
generations (Dunlap & Catton, 1994, pp. 22-23; Redclift & Woodgate, 1997, pp. 59-61).
Strong social constructionism is concerned with challenging the materialist/realist
emphasis of science and gives credence in varying degrees to epistemologically
based skepticism,
nominalism, solipsism, antirealism, subjectivism, cultural relativism, and
idealism in accounts
of science and nature. In this, the strongest criticisms have been epistemological.
Like philosophers who have traditionally seen epistemology as “polishing the mirror” of
knowledge (Rorty, 1979), social constructionists in the sociology of science frequently see
themselves as polishing the mirror of scientific knowledge. Science—contrary to widespread
belief, even within science itself—is, we are told, more a mirror of the mind and culture than
of nature or reality. Such strong social constructionists are thus drawn to what Bhaskar (1994,
p. 253; also see Sismondo, 1993, p. 535) calls the “epistemic fallacy,” reducing all being or
existence to human knowledge. This leads to such startling claims as “the natural world has a
small or non-existent role in the construction of scientific knowledge” (Collins, 1981, p. 3).
Woolgar (1988) explicitly sides with nominalism against essentialism (which he associates
with realism), arguing for a “reversal” of the realist arrow from nature to cognition, in favor of
the nominalist–constructionist arrow from cognition to nature. “Objects,” he says, “are
constituted in virtue of representation . . . representation gives rise to the object” (pp. 55-56, 65).
Eder (1996) sees the “cultural sociology of nature . . . as a way to expunge the latent
naturalism from social theory” (p. 20). Social constructionists in environmental sociology have
aggressively questioned the realist tradition in terms that reduce it to an equally one-sided,
straw argument, devoid of any relation to even a mild constructionism. Thus, Macnaghten
and Urry (1998) complain that environmental sciences and much of environmental
sociology “rest upon what we have termed the doctrine of environmental realism: that the realm
of nature is separate and distinct from that of culture” (p. 16). They claim that most surveys
of environmental attitudes on issues like global warming and acid rain reflect “tacit
assumptions of ‘environmental realism’: that environmental risks simply exist ‘out there’
independently of social practices and beliefs and can thus act as the unambiguous object of
individual perceptions, attitudes, and values” (Macnaghten & Urry, 1998, p. 89).
In this view, environmental realism and the discourse on sustainable development are
characterized as “part of a modernist tradition in which the limits of ‘natural’ processes can
be defined unproblematically by science” (Macnaghten & Urry, 1998, pp. 217-218). Realist
environmental sociology is therefore seen as immersed in an ontological fallacy—
the contrary of Bhaskar’s epistemic fallacy.
Nevertheless, realist conceptions of science and environmental sociology are at their
best far more dialectical than this description would suggest. As Gould (1996) eloquently
expressed it, from the standpoint of materialist natural science:
Science, since people must do it, is a socially embedded activity. It progresses by hunch, vision,
and intuition. Much of its change through time does not record a closer approach to absolute
truth, but the alteration of cultural contexts that influence it so strongly. Facts are not pure and
unsullied bits of information; culture also influences what we see and how we see it. Theories,
moreover, are not inexorable inductions from facts. The most creative theories are
often imaginative visions imposed upon facts; the source of imagination is also strongly cultural.
This argument, although still anathema to many practicing scientists, would, I think, be
accepted by nearly every historian of science. In advancing it, however, I do not ally myself
with an overextension now popular in some historical circles: the purely relativistic claim that
scientific change only reflects the modification of social contexts, that truth is a meaningless
notion outside cultural assumptions, and that science can therefore provide no enduring
answers. As a practicing scientist, I share the credo of my colleagues: I believe that a factual
reality exists and that science, though often in an obtuse and erratic manner, can learn about
it. (pp. 53-54)
Gould’s (1996) view here, which eludes both the Scylla of the epistemic fallacy and the
Charybidis of the ontological fallacy is perfectly compatible with the sociology of science
standpoint associated with Merton (1957, 1970) in particular. Merton is frequently
referred to in Gould’s work (e.g., Gould, 1980, pp. 47-48; Gould, 1987, p. 52; Gould, 1995,
pp. 78-80). This kind of “social institutional constructivism” emphasizes the social contexts
and institutions that condition science, and it has long been the bedrock of the history as
well as the sociology of science (Demeritt, 1998, pp. 176-177).
Social–institutionalist, even materialist, understandings, as Bloor (1991) explains from the
standpoint of the “strong programme,” are logically compatible with and integrated into the
more sophisticated constructionisms (pp. 33-37). In addition to “social institutional constructivism,” Demeritt, in his useful fourfold typology of social constructionism, points to two
Another form of constructionism that is compatible with realism: is “social object constructivism,” which emphasizes that social constructs such as gender are just as “real” in their
causal effects as reality itself (e.g., Berger & Luckman, 1966), and “artefactual constructivism,” which promotes the nondualist view that scientific knowledge is the result of a difficult negotiation between diverse human and nonhuman actors (Haraway, 1991; Latour, 1987).
Where social constructionism becomes antirealist or irrealist—the fourth form of social
constructionism in Demeritt’s typology—is when it claims (though sometimes as a purely
methodological principle) that science and its objects are the product of human action
and cognition alone. Demeritt (1998) labels this “Neo-Kantian constructivism” (pp. 176, 178-179).
The debate in environmental sociology thus frequently consists of the difficult task of
avoiding both overly naturalistic and overly sociological arguments (Benton, 1994).
Realists (see Norgaard, 1994) in recent years have placed increasing emphasis on the notion
of the coevolution of nature and society, while constructionists (see Freudenburg, Frickel,
& Gramling, 1995; Irwin, 2001) have been turning to notions of “co-construction.”
Environmental feminists, especially those influenced by the historical–materialist tradition,
have been fighting wars on two fronts, drawing dialectically on both constructionism
and realism, while rejecting one-sided versions of both. These thinkers have insisted on the
social construction of gender in the face of biological determinism and essentialism yet
have refused nevertheless to give up links to materialism, realism, and science (e.g.,
Haraway, 1991; Harding, 1991; Merchant, 1992; Soper, 1995). Although insisting that
“There is an important sense in which it is correct to speak of ‘nature’ as itself a cultural
product or construction,” Soper (1995) observes that “it is not language that has a hole in
its ozone layer; and the ‘real’ thing continues to be polluted and degraded even as we refine
our deconstructive insights at the level of the signifier” (pp. 151-152). Furthermore, she
insists that a dialectical understanding of the real, material opposition as well as unity of
nature and society is necessary to address ecological problems: “I have consistently argued
that there can be no ecological prescription that does not presuppose a demarcation
between humanity and nature” (Soper, 1995, p. 160).
Recently, Latour, one of the founders of the social constructionist approach to the
sociology of science, has also shifted in what some have seen as a more realist direction
(Hacking, 2002, p. 17; Sismondo, 1993, p. 537) with his actor-network theory, which
focuses on the dialectical relation between nature–and culture.4 Indeed, the concepts of “nature”
and “culture,” he insists, should be replaced by “nature–culture,” in which both human
actors and nonhuman actors (both now referred to as “actants”) are seen as interacting with
and mutually constituting one other. This perspective has led Latour at times in a more
classically materialist direction. Thus, he argues that “by seeking to reorient man’s exploitation
of man toward an exploitation of nature by man, capitalism magnified both beyond
measure” (Latour, 1993, p. 8). As Latour has moved in this direction, his work has increasingly
influenced ecological Marxists (see Braun & Castree, 1998; Castree, 2000; Gareau, 2005).
Marxism in its classical conception was compatible with a sophisticated, critical materialism.
Marx was a dialectical thinker, who absorbed much from Hegel and idealist philosophy
in general. It is not surprising therefore that his work was highly critical of crude empiricism,
mechanism, naturalism, and essentialism (i.e., positivism), while remaining materialist in
orientation. Contemporary critical realism has developed on these foundations (Bhaskar, 1975,
1979; Sayer, 1992) and has helped to inspire much of this environmental–sociological analysis
(Benton & Craib, 2001; Dickens, 1996; Foster, 2000b; Soper, 1995).
What we are calling here the realist–constructionist approach to the “sociology of ecology”
evolves out of this broad critically informed realist tradition and is thus an attempt to
understand the social construction of ecological science. Unlike crude naturalism, it takes
into account the human construction of knowledge, but unlike the absolutist constructionism
of strong idealism, its constructionism always takes account of and is tempered by the
“materialist principle,” “which derives from the fact that people are themselves material,
animal and part of nature such that they are subject to certain of its causal laws and
conditions” (Sayer, 1992, p. 34).
This approach can be contrasted to Macnaghten and Urry’s (1995; Macnaghten & Urry,
1998, pp. 15-19) conception of the “sociology of nature,” which attempts to develop a
“sociology of environmental knowledge” from the opposing idealist–constructionist
standpoint. Their work emphasizes how culture influences nature by discursively “reading”
(or thinking or speaking) it and that this is not necessarily based on material conditions
(Macnaghten & Urry, 1995, p. 210).
In the following argument, as already indicated, we take the Tansley–Smuts debate of the
1930s on ecological holism, which led to the constitution of modern ecosystem science, as
our main historical case study. We use a realist–constructionist outlook to explain why a
materialist–realist approach to ecology (and environmental sociology) became dominant
over its idealist–organicist rival—without in any way denying the historical, contingent
nature of this process or that it was inevitably a particular social construction and social
struggle. The ecological science that emerged in this period, we suggest, was deeply affected
by an “externalist” class–racial conflict and by the competing worldviews of materialism
and idealism, as much as it was a direct (“internalist”) outcome of the scientific process. The
implications of this complex, many-faceted struggle over nature, science, and society remain
with us to the present day and have served to shape the contemporary debate on ecology.
From the Sociology of Science to the Sociology of Ecology
The sociology of science is usually seen as having its most important precursor in the
work of Boris Hessen. The Dictionary of the History of Science depicts Hessen as the
originator of the externalist approach to the sociology of science—the broad approach that
defined the early history of the field and in which Merton’s foundational work was also to
fall (Morrell, 1981, pp. 145-146; Shapin, 1981a, pp. 185-186; Shapin, 1981b, p. 262). As
J. G. Crowther (1967), an influential science writer, wrote in his Social Relations of
Science, Hessen’s Marxist sociological analysis suddenly “transformed the history
of science from a minor into a major subject” (p. 432; also see Cohen, 1990, p. 55).5
Hessen was a high-ranking Soviet physicist (director of the Moscow Institute of Physics)
and defender of quantum theory and relativity theory at a time in which the Stalinist
assertion over science started to call these scientific discoveries into question. In 1931, a Soviet
delegation made a surprise visit to the Second International Congress of the History of
Science and Technology led by Nikholai Bukharin, one of the leading figures of the
Bolshevik revolution and Marxist thought in the Soviet Union. Bukharin was accompanied
by Hessen and other major representatives of Soviet Science—most notably Nikolai
Vavilov was the foremost agricultural researcher in the Soviet Union and the discoverer of the
original centers of world agriculture and hence the main areas in which the genetic banks
for contemporary agriculture are to be found (now known as the Vavilov Areas).
But it was Hessen’s (1971) paper on “The Social and Economic Roots of Newton’s
‘Principia’” that was to have the greatest impact on the conference participants,
representing a formative influence in the history and sociology of science and becoming one of the
central texts for an important group of British “Baconian Marxist” scientists, including J.
D. Bernal, J. B. S. Haldane, Hyman Levy, Lancelot Hogben, Joseph Needham, and Benjamin
Farrington (Graham, 1985; Joravsky, 1961; Wood, 1959, p. 145). Hessen presented a
a sophisticated look at how the necessities of economic production and military development
under merchant, capitalism led to the concentration on specific material–technological
problems, such as crucial elements of navigation, dominating the thinking and general
ethos of scientists at the time. These materialist concerns, he argued, contributed to the
mechanistic outlook that played such a large part in Newton’s Principia and the 17th-century
scientific revolution in general.
Hessen’s analysis took as its critical point of departure the idealist conception of science,
which in the view of Marx and Engels customarily treated “the history of the sciences as if
they had fallen from the skies” (Engels to W. Borgius, January 25, 1894, as cited in Marx &
Engels, 1975b, p. 441). For Hessen, a more meaningful understanding of the sources of
scientific discovery had to be grounded in an understanding of the material conditions—
social and economic (and also natural)—in which such ideas evolved. He took as his case
Newton’s Principia—not only the most prestigious work in pre-20th-century physics but the
symbol of a pure scientific viewpoint. Demonstrating how practical considerations regarding
technology—especially concerning mining, navigation, and optics—contributed to
Newton’s mechanistic worldview and how Newton’s class perspective affected his thinking,
Hessen was able to make a powerful case about external sociological influences on
the sciences. Having demonstrated this for Newton, it was easy to establish the
same thing about other leading members of the Royal Society, such as Boyle, Hooke,
Halley, and Petty, whose practical concerns with technology were much more obvious.
Another important contribution to the sociology of science, emphasizing the social
embeddedness of science, was Edgar Zilsel’s (1942) classic essay, which emphasized that it was “the
rise of the methods of the manual workers to the ranks of academically trained scholars at the
end of the sixteenth century [that] is the decisive event in the genesis of science” (p. 558; see
also Zilsel, 2000). Just as these mechanical arts, such as metallurgy, could not be discussed
without treating their class basis, they could not be dealt with without some recognition that
this was where production and nature met. Zilsel’s emphasis on the relation between production,
class, and the production of science represented one of the most important openings into the
sociology and history of science. Zilsel was associated with the social–democratic politics in
Vienna before the Second World War, emigrated to the United States after Hitler’s rise to
power. Shapin (1992, p. 339) sees Zilsel’s externalist materialist–class account of the origins
of science as overlapping with the insights of such historical–materialist thinkers as Hessen
(1971), Bernal (1939), Farrington (1949), and Needham (1954). Recently, the “Zilsel thesis”
has been revived (see Conner, 2005, pp. 275-282; Smith, 2004, pp. 151, 239).
By far the most important foundational work in the sociology of science originated with
Robert Merton (1957, 1970). Merton frequently indicated his intellectual debt to Hessen,
although sharply differentiating his approach to the sociology of science from
Hessen’s Marxian analysis and adopting a more eclectic approach (Shapin, 1992, p. 342).
Beginning with his foundational work, Science, Technology and Society in Seventeenth
Century England (originally published in 1938 based on his doctoral dissertation and
reprinted in 1970), Merton carefully distinguished between the cognitive content of science
and its sociological–institutional context (Golinski, 2005, pp. 48-50). His sociology of
science deliberately steered away from epistemological questions and from those factors that
could be viewed as intrinsic to the scientific method and rational thought generally, which
he saw as governed by “universalistic criteria” (in his original formulation, he had said
“universalistic facts of nature” [Cole, 1992, p. 4; Merton, 1957, p. 554]). He adhered to the
broad conception of the sociology of knowledge that “the social relations in which a man
is involved will somehow be reflected in his ideas” and carried this over into the sociology
of science (Merton, 1985, p. 134). But as distinct from the sociology of knowledge (his
original area of interest), which was caught up from the beginning in epistemological
concerns, Merton attempted to fashion the sociology of science as a largely empirical
field concerned with how scientists were influenced by sociological factors while leaving the actual
content of science to be judged by its universalistic criteria.
In concentrating in this way mainly on the external social–institutional influences,
Merton examined both what has been called the “macro-environments of science” (such as
political and economic systems and class) and its “micro-environments” (the intellectual
milieu, schools of thought, invisible colleges, universities, and colleges, each with their
own traditions) (Sztompka, 1986, p. 35).
Merton (1973) was adamantly opposed to the “ivory tower,” or the extreme internalist view
of science in which scientists were “autonomous god-like creatures” (p. 217). In
emphasizing the importance of external influences in his work, he did not thereby create a rigid demarcation between the internal and external but saw them as mediated in complex ways. He made
it clear that external influences on science were important but without contending that these
were primary for particular scientific discoveries (see Shapin, 1992, p. 337).
Merton’s views overlapped with Hessen in arguing that historical developments in
technology and social organization provided broad concepts and a social ethos out of
which scientific developments, such as Newtonian mechanics, evolved.6 Science, he recognized, was
often a response to material–technological challenges. But he also emphasized, particularly
in his famous treatment of the effects of 17th-century English Protestantism on science, that
certain socially embedded values, as in the case of religiously derived views that became
embedded in the Royal Society, could affect the progress and direction of science even
more directly, creating the institutional basis of a scientific community.
In all of this, Merton defended the cognitive core of science as relatively immune from
external influences. These influences were seen as constituting no more than the
sociological environment of a science that nonetheless adhered to its own rational,
universalistic criteria and hence autonomy. As Shapin (1992) explains,
“Merton took care to position his
thesis between what he saw as the extremes of pure Weberian idealism
and the strong materialism that first surfaced in Anglo-American
consciousness with Boris Hessen’s 1931
[Marxian] account of Newton’s Principia” (p. 338).
From the formative work of Hessen, Zilsel, and Merton, certain conceptual frames or
tools of analysis can be derived, which are used in the following inquiry into the sociology
of ecology in the opening decades of the 20th century. Science is not the product of
“autonomous god-like creatures,” does not “fall from the sky,” and is not simply the
product of an ivory tower but takes place in a socially embedded context. It is useful to make a
distinction between the cognitive content of science and its social context, recognizing,
however, that neither can be separated from the other but are mediated in complex, dialectical
ways. The sociology of science has often drawn attention to the external, social–institutional
context of science at both the macro-environmental (state, economy, ideology, and religion)
and micro-environmental (the “invisible college”) levels. For materialist–realist sociologists of
science, it is reasonable to assume that science attempts to address “universalistic
facts of nature.” But our understanding of such “universalistic facts of nature” is nonetheless
filtered in all sorts of problematic ways through human cognition and praxis. As
Sztompka (1986) points out in his exposition of Merton’s views, the objectivity of science is
not easily gotten at but is best understood in terms of a “dialectical notion of objectivity”—
the product of conflict and passion (pp. 78-79).
Such a “dialectical notion of objectivity” is perhaps best exemplified today by feminist
standpoint theory, growing out of the work of such thinkers as Hartsock (1983), Smith (1987),
Harding (1991, 1998), Haraway (1991), and Soper (1995). As expounded by Harding (1991),
the particular “justificatory approach” identified with feminist standpoint theory
originates in Hegel’s insights into the relationship between the master and the slave and the
development of Hegel’s perceptions into the “proletarian standpoint” by Marx, Engels, and
Georg Lukács. The assertion is that human activity, or “material life,” not only structures but
sets limits on human understanding: what we do shapes and constrains what we know. (p. 120)
In the Marxian view, knowledge (including scientific knowledge) is conditioned by
material–historical development and class position. For feminist standpoint theorists, who,
according to Frederick Jameson (1988, p. 64), represent today’s “most authentic” heirs to
Lukács’s (1971) insight, relates to differing material, and lived conditions, and hence
knowledge claims of women (as an oppressed–exploited group under patriarchy–capitalism)
vis-à-vis those of dominant men. Similar claims can be made for those
oppressed in racial terms (Gould, 1996).
According to standpoint theory, knowledge is “socially situated” (Harding, 1991, p. 119).
Such knowledge, as Marxist theory taught, is dependent on the development of social relations
and social conflict. “Standpoint epistemologies,” according to Harding (1991), were
evident in the materialist approaches to the social construction of science, between Hessen
in 1931 and Zilsel in 1942 (pp. 134-135). Such standpoint theory requires what Harding
calls “strong objectivity” combined with a recognition of the historical character of knowledge.
Harding describes “weak objectivity” as that form of objectivity that attempts to separate
the positive from the normative, science from values. Yet because science is a socially
embedded and often an elitist activity, such exclusion of values is impossible. “Strong
objectivity,” in contrast, attends to the social environment and construction of knowledge
and science and hence incorporates knowledge of the historical background condition
into scientific assessments. Its greater reflexivity gives it a stronger objectivity.
This is especially true when the understanding of socially embedded conditions
that affect dominant
knowledge claims arises from the bottom of society, which has less interest in supporting
prevailing ideologies, and reifications.
As Harding (1991) writes:
The history of science shows that research directed by maximally liberatory social interests
and values tend to be better equipped to identify partial claims and distorting assumptions,
even though the credibility of the scientists who do it may not be enhanced during the short
run. After all, anti-liberatory interests and values are invested in the natural inferiority of just
the groups of humans who, if given real equal access (not just the formally equal access that
is liberalism’s goal) to the public voice, would most strongly contest claims about their purported
natural inferiority. (pp. 148-149)
Strong objectivity for Harding is related to the development of a theoretical perspective
that embodies “strong reflexivity,” recognizing that what we regard as “nature” is often an
embodiment of social relations. Strong reflexivity
requires the development of oppositional theory from the perspective of the lives of those
Others (“nature” as already socially constructed, as well as other peoples), since intuitive
experience . . . is frequently not a reliable guide to the regularities of nature and social life and
their underlying causal tendencies. (Harding, 1991, p. 163)
In this view, our ontological concepts of nature are often bound to systems of oppression. Thus,
Harding (1991), building on the insights of Leiss (1974; also Merchant, 1980), argues that
science’s claim to seek to dominate nature to control “man’s fate” has hidden
its real function, and, often, intention: now and in the past, whether scientists intended it or
not, science has provided resources for some people’s domination of others. (p. 36)
The control of nature (and indeed our very concepts of nature) are therefore open to
question, as they are connected to the control of society and its Others.
Feminist standpoint theory is to be contrasted to current trends in the sociology of
science, Harding insists, partly because of its emphasis on “powerful background
beliefs” that
are not so much concerned with the “micro-processes in the laboratory”
as the “macro tendencies in the social order” as attendance to the
latter is more crucial in the creation of a
strong, oppositional reflexivity (Harding, 1991, p. 149).
To address science as a contested realm, as required by notions of strong, dialectical
objectivism, requires a view of the development of truth in science (and the demarcation of
“good” and “bad” science) that sees this in terms of a dialectical struggle. The sociology of
science has generally adhered to a methodological agnosticism for the truth
claims of science (though in recent years this has increasingly mutated into an
epistemological skepticism and extreme relativism that seemingly undermines
scientific knowledge
claims). This has served to separate it off from the philosophy of science, which has been
concerned in various ways with what distinguishes valid science.
A fully developed critical–historical perspective, however, requires attendance to both
sociological background conditions and the truth claims of science. In the
following analysis, we rely for heuristic purposes on certain aspects of the
philosophy of science view
offered by Lakatos in his “Methodology of Scientific Research Programs” and to a lesser
extent on the view of scientific revolutions provided by Kuhn (Kuhn, 1962, 2000; Lakatos,
1978). For Lakatos (1978), the “demarcation problem” raised by Karl Popper to
the separation of science from pseudoscience cannot be addressed by falsification, as all
scientific theories exist within an “ocean of anomalies” (p. 134; Larvor, 1998, p. 50). Nor
is it sufficient to take the more relativistic view of Kuhn. Rather, the answer, he contends,
lies in the examination of “problem shifts” in the methodology of whole scientific research
programs that allow one to determine whether a program is progressive or degenerative.7
“A research program,” according to Lakatos (1978),
is said to be progressing as long as its theoretical growth anticipates its empirical growth, that
is, as long as it keeps predicting novel facts with some success (“progressive problem shift”);
it is stagnating if its theoretical growth lags behind its empirical growth, that is, as long as it
gives only post hoc explanations either of chance discoveries or of facts anticipated by, and
discovered in, a rival programme (“degenerating problemshift”). If a research
programme progressively explains more than a rival, it “supersedes” it, and the
rival can be eliminated (or, if
you wish, “shelved”). (p. 112)
Of course, the rivalry between research programs can be a very “protracted process,” and it
is even rational, according to Lakatos, to adhere to a degenerative scientific
research program, if it seems possible to turn again into a progressive one. Moreover, the actual fate of
scientific research programs cannot be explained simply in terms of their internal logic and
development; thus, considerations of “scientific rationality must be supplemented by
empirical-external history” (Lakatos, 1978, p. 114).
Lakatos’s approach to science overlaps to some extent with that of Kuhn but is clearer
in its demarcation of what constitutes progressive science. Lakatos, as Burawoy (1990)
pointed out, attempted to supply a theory of the “dynamics of paradigms” that was lacking
in Kuhn (p. 777). Although Kuhn (1962) characterizes as “normal science” a situation in
which a single paradigm has a kind of monopoly and in which a crisis can
develop as anomalies accumulate, resulting in the growth of a rival paradigm and a full-fledged scientific
revolution, Lakatos sees “normal science” in this sense as quite rare. Thus, he writes:
The history of science has been and should be a history of competing research programmes
(or, if you wish, “paradigms”), but it has not been and must not become a succession
of periods of normal science: the sooner competition begins, the better for progress.
“Theoretical pluralism” is better than “theoretical monism.” (Lakatos, 1978, p. 69)
Nevertheless, Kuhn (2000) himself insisted that one of the areas in which he agreed with
Lakatos was in “our common use of explanatory principles that are ultimately sociological
or ideological in structure” (p. 131).8 In the following analysis, we will try to understand
how principles that were “ultimately sociological or ideological in structure” affected,
without actually determining, the social construction of ecological science.
The Sociology of Ecology and the Construction of Ecosystem Science
The Double Transference
For environmental sociologists who do not err either on the side of the overnaturalizing of
society or the oversocializing (overanthropomorphizing) of nature, the relation between nature
and society is dialectical and complex. As Raymond Williams (1980) famously observed, “the
idea of nature contains, though often unnoticed, an extraordinary amount of human history”
(p. 67). Conversely, the idea of society is often erected on conceptions of nature.
In any attempt to explore this complex nature–society dialectic and its relation to the rise
of ecological science in the 1920s and 1930s, it is useful to draw on Marx and
Engels’s concept of the “double transference” of ideas of nature and society,
most evident in their day
in social Darwinist thinking. Marx and Engels were strong defenders of
Darwin’s evolutionary theory, which they viewed as the “death of teleology”
in the natural sciences. Yet
they were acutely aware of the fact that Darwin, as he readily admitted, had drawn some of
his inspiration from the bourgeois political economy of Smith and Malthus, which they saw
as reflecting an alienated society. As Marx wrote to Engels in 1862, “It is remarkable how
Darwin recognises among beasts and plants his English society with its division of labour,
competition, opening up of new markets, ‘inventions,’ and the Malthusian ‘struggle for
existence.’ It is Hobbes’ bellum omnium contra omnes” (Marx & Engels, 1975a, Vol. 45,
pp. 106-108).
Neither Marx nor Engels objected strongly in principle to the notion of the “struggle for
existence” in nature—though Engels at one time stressed its one-sided character, which
excluded cooperation (Marx & Engels, 1975a, Vol. 45, pp. 106-108). Still, there were some
problems, as they indicated (Marx & Engels, 1975b, p. 120), associated with the reading of
the conditions of bourgeois society into nature—thereby producing one-sided conceptions
drawn from alienated society and anthropomorphizing nature in terms of these. Much more
serious, however, from their standpoint was the re-extrapolation of these ideas—originally
derived from bourgeois society and then imputed to nature—back again to society in
naturalized, objectified form, and as eternal natural laws, in a kind of double transference. As
Engels was to write in 1875:
The whole Darwinian theory of the struggle for existence is simply the transference
from society to the organic nature of Hobbes’ theory of bellum omnium contra omnes and of the economic
theory of competition, as well as the Malthusian theory of population. When once this feat has
been accomplished (the unconditional justification for which, especially as regards the
Malthusian theory is still very questionable), it is very easy to transfer these theories back
again from natural history to the history of society, and altogether too naïve to maintain that
thereby these assertions have been proved as eternal natural laws of society. (Marx & Engels,
1975a, Vol. 25, p. 584; Marx & Engels, 1975b, p. 284; see also Bell, 2004, p. 184)
Engels was not criticizing Darwin’s entire evolutionary theory, much less Darwin
himself, who never carried out such a double transfer. Rather, he was questioning what was
subsequently to be labeled social Darwinism, putatively based on Darwin’s work and
rooted in such naturalistic notions as the “survival of the fittest” (a phrase adopted by
Darwin in later editions of the Origin of Species from Herbert Spencer).
Engels stressed that the main problem of the social application of arguments derived
from Darwin’s theory of natural selection was because much of Darwin’s
theory had originally grown out of attempts to extrapolate social concepts to nature—itself
a reasonable enterprise if carried out carefully (for example, Darwin’s famous use of the
concept of “artificial selection” in introducing “natural selection”). The re-importation of
the social concepts of an alienated society, now dressed up in naturalized form,
only confounded the problem of social analysis. Indeed, the phenomenon of double transference
generated distorted, even sometimes deranged, social interpretations. Thus, social
Darwinists such as Herbert Spencer and William Graham Sumner sought to reduce society
to eternal biological laws, sometimes of a racist character (Hofstadter, 1955).
Another instance of such a double transfer, Engels was to point out, was to be found in
the development of social energetics. The concept of work had been usefully exported to
thermodynamics as exemplified in Carnot’s analysis of the steam engine. Yet attempts “to
re-import the thermodynamic concept of work back into political economy” were fraught
with problems, as were the attempts already being made at this time “to convert SKILLED
LABOUR into kilogram meters and then to determine wages on this basis.” These efforts
failed to recognize that economic–social conditions were dominant in the organization of
human labor and could not be reduced to mere energetics (Marx & Engels, 1975a, Vol. 25,
pp. 586-587; capitalization in the original; Burkett & Foster, 2008, pp. 133-134).
In the present day, similar double transferences have been introduced as a result of
certain reductionist trends in biology, say in the notion of “the selfish gene”—taking ideas
from society to explain nature and then re-extrapolating these concepts back again from
nature to society in naturalized garb (Dawkins, 1976).
As Bell (2004) has noted:
metaphors and general patterns of understanding easily flit back and forth
between our theories of the realms we label “society” and “nature”. . . .
Nevertheless, the flitting back and forth
of concepts between science and social life deserves special scrutiny because of the way it
sometimes allows science to be used as a source of political legitimization. (p. 184)
If the transference of social concepts from the realm of society to that of nature always posed
questions (for example, ecologists in the 19th century used the notion of “community” to
describe the plant world), such a direct transfer of concepts, it is worth repeating, was certainly
not to be excluded outright. Less acceptable, in the view of Marx and Engels, however, was the
phenomenon of double transference, which often had the character of a sleight of hand.
The issue of double transference is a major critical issue both for environmental
sociologists and sociologists in general. Such transference, especially if
metaphorical, can be a source of intellectual inspiration, but it can also if misused
lead to the much more questionable anthropomorphization of nature and the naturalization
of society. Anthropomorphism is relatively easy to detect, as it usually involves only
a single transference rather than going full circle. Here, nature is often seen in terms of the
attributes of human beings or human communities—or in a religious context in terms of an
anthropomorphic God. In contrast, extreme naturalization is often more difficult to detect,
as it frequently involves a double transference and thus has come back full circle. Here,
human society comes to be seen as rigidly determined by irrevocable natural laws, which
were conceptually modeled after human society.
Marx and Engels’s dialectical critique of double transference in the realm of biology, it
should be noted, did not extend simply to those who transferred bourgeois competition (i.e.,
the struggle for existence), to nature, and then in the form of eternal natural law back to
human society. They also criticized those such as the Russian social theorist Pyotr Lavrov
(a precursor to Kropotkin), who saw nature as one-sidedly cooperative—extrapolating
concepts of cooperative human community to nature and then re-extrapolating
these to society
(Marx & Engels, 1975a, Vol. 45, pp. 106-108). Likewise, they objected to the early
19thcentury “true socialist” Rudolph Matthäi’s anthropomorphic claim that plants “demand
soil, warmth and sun, air and rain for its growth” as a naturalistic model from which to
argue for a rational human society. The notion of “demand” here was taken from
economics. “The plant,” Marx and Engels (1975a) wrote, “does not ‘demand’ of nature all
the conditions of existence enumerated above; unless it finds them already present it never
becomes a plant at all” (Vol. 5, pp. 475-476, 479-481). The methodological objection that
Marx and Engels raised here was that of the extrapolation of the economic concept of
“demand” to nature and then its re-extrapolation back to society—to create a naturalistic
argument in this case in the service of a rational “true socialism.” Such re-extrapolations
were questionable on both dialectical and materialist grounds—regardless of whether the
the object was to promote bourgeois society or socialism.
Idealism, especially in its absolutist form, Marx believed, was especially prone to such
double transferences in its attempts to incorporate science into its ontology of
thought, discovering Geist in nature and then re-extrapolating this to society. In
Hegel’s Philosophy of
Nature, Marx (1974) observed that nature/matter “is shorn of its reality in favor of human
will” or spirit (p. 174). Or as Hegel (1970) himself put it, “the purpose of nature is
to extinguish itself, and to break through its rind of immediate and sensuous being, to consume
itself like a Phoenix to emerge from this externality rejuvenated as spirit” (p. 212).
Viewed in these terms, however, nature simply becomes the means to reveal the mind,
spirit, human personality, and state: It has no independent existence apart from this
anthropocentric, teleological goal. This is, in fact, a double transference: the point at which the
Hegelian dialectic was at its weakest. As Auguste Cornu (1957) stated, the problem that
Hegel encountered was that “the assimilation of the real to the rational can be carried out
by extremely arbitrary procedures” (pp. 437-440). As we shall see, the same problem has
bedeviled idealist ecological holism, which is forced into arbitrary constructions in its
attempt to assimilate ecology into the mind.
Holism as Superorganism
The notion of the sociology of ecology as we are treating it here is the study of the social
construction of ecological science—a polymorphic science that aims uniquely at the dialectical
unification of the natural and the social. Our concern, moreover, is to understand the
origins of ecological science in ways that directly inform environmental sociology (i.e., the
subdiscipline in sociology), which, viewed in realist–constructionist terms, is concerned primarily
with the coevolutionary and often crisis-laden relations between nature and society.
Germany’s most prominent Darwinian scientist, Ernst Haeckel, coined the word ecology
in 1866. However, there was hardly any mention of the new term for a couple of decades.
Not until 1885 did a book appear with it in its title (Keller & Golley, 2000, pp. 7-9;
McIntosh, 1985, pp. 22, 29). Hence, ecology as an organized discipline cannot be said to
have existed before the early 20th century. In its earliest years, ecological science was
dominated by a single scientific research program or paradigm, that of Frederic Clements in the
United States. He was a professor of botany and wrote the classic textbook Research
Methods in Ecology in 1905. Clements provided an idealist, teleological ontology of
vegetation that viewed a “biotic community” as a “complex organism” that developed through a
process called “succession” to a “climax formation.” He therefore presented it as an
organism or “superorganism” with its life history, which followed predetermined,
teleological paths aimed at the overall harmony and stability of the superorganism (Clements &
Chaney, 1937, p. 51). As he put it in his Plant Succession, the “climax formation is an
organic entity”—the teleological reality of the superorganism (Clements, 2000, p. 36; Keller
& Golley, 2000; Levins & Lewontin, 1985; Worster, 1977). Indeed, “the ecological ideal,”
Clements later stated reflecting Jan Christian Smuts’s influence, “is one of wholeness, of
organs working in unison within a great organism” (Clements & Chaney, 1937, pp. 47-51).
The strong teleological character of Clements’s analysis gave it necessarily a neoLamarckian
character. As Ronald Tobey (1981) explains, Clements
believed that plants and animals could acquire a wide variety and range of characteristics in
their struggles to survive and that these features were heritable. In the 1920s, he thus engaged
in Lamarckian experimentalism, which failed by the 1930s. (p. 182)
Altogether characteristic of Clements and his followers was the use of the notions of
ecological “community” in ways that sometimes seemed to anthropomorphize nature and to
impute a teleology to such “communities”—attributing to them “mysterious organizing
properties” (Levins & Lewontin, 1985, p. 135).
Although Clements’s organicist perspective dominated plant ecology for half a century,
in the 1920s and 1930s rival paradigms arose—those of individualistic, probabilistic,
population theory (represented by Henry Gleason) and ecosystem ecology (represented by
Arthur Tansley)—that was largely to supersede it. Each of these approaches represented
stark alternatives since rooted in fundamentally different ecological ontologies. Clements’s
teleological model saw the natural environment as a superorganism. Gleason’s more
reductionist approach is based on individuals focused on random processes and probabilistic events
in the environment. Tansley’s conception of the ecosystem projected a materialist holism of a
kind radically opposed to the teleological holism of thinkers such as Clements.
The transformation of Clementsian teleological holism in ecology from a progressive to
a degenerative research program (in Lakatos’s terms) was evident when it encountered a
huge anomaly in the great Dustbowl drought of the 1930s, which resulted in a crisis in the
theory and a sharp contraction of its empirical content (Tobey, 1981, pp. 213-221). At the
same time, it began to merge with a more hierarchical model aimed at human society as
well—in the work of Jan Christian Smuts, John Phillips, and John William Bews in South
Africa, with whom Clements came to be aligned. A crucial factor in this shift, as in the
work of Smuts and Phillips, was the attempt to construct an ecological view that combined
teleological holism with ecological racism, in terms that seemed ultimately aimed at justifying
the latter in a kind of double transference—what might be termed social
Clementsianism. This led to an intellectual war between idealist and materialist approaches
to ecology, and their respective versions of holism, which has persisted in various fashions in
ecological science and ecological thought ever since.
When the smoke cleared in the 1930s and 1940s, it was ecosystem ecology that had
come to represent the new progressive scientific research program. Idealist, teleological
approaches persisted as degenerative programs, marginalized within science, though
always threatening to stage a comeback. In what follows, we explore the sociological construction of the understanding of nature in a historical materialist–ecological context and
how issues of ecological racism, materialism versus idealism, and the question of double
transference came to play a central role in this understanding. The importance of both
realism and constructionism—indeed the significance of a realist–constructionist approach—
will be highlighted.
Ecological Holism and Racial Hierarchy: Jan Christian Smuts
Inspired by Clements’s ecology and by Whitman, Spinoza, and Darwin, Jan Christian
Smuts coined the term holism as a means of describing nature–ecology (Ansbacher, 1994,
p. 486). Smuts shared his vision of nature with South African botanists/ecologists John
William Bews and John Phillips and the Clementsian tradition in ecology. Building on
Smuts’s holism and the notion of succession in grassland evolution, Bews (1925) wrote Plant
Forms and Their Evolution in South Africa, thanking Smuts for guidance and inspiration. Eager
to establish his “holism” concept in the scientific world, Smuts (1926) himself then wrote
Holism and Evolution, a book that was to lead to modern conceptions of deep ecology.
The ecological holism proposed by Smuts emerged out of his position in South African
politics. Referred to as General Smuts because of his military role in the Boer War (he
fought on the side of the Afrikaners), he was one of the principal figures in establishing the
preconditions for the apartheid system. Smuts himself coined the word apartheid (meaning
literally apartness) in 1917—almost a decade before he coined the word holism. Ironically,
although Smuts has often been viewed as a “moderate” in the context of White South
African racial politics, he has also been referred to as the “architect” of apartheid (Harvey,
2001, pp. 36-38). He was a strong advocate of the territorial segregation of the races and
what he called “a grand [white] racial aristocracy” (Smuts, 1940, pp. 2-3). He indicated
at one time that he had a simple message: to “defy negrophilists.” He is perhaps best
remembered worldwide as the South African general who arrested Gandhi. Smuts tried to
impede the flow of immigrants from India, imposed martial law against labor strikers, and
deported labor leaders from the country (Anker, 2001, pp. 45-47; Davenport & Saunders,
2000, pp. 244-245; Hancock, 1962, pp. 325-347).9
Smuts was the South African minister of defense from 1910 to 1919, and prime minister
and minister of native affairs from 1919 to 1924 and 1939 to 1948. He was sometimes
seen as a figure soaked in blood. When the Native Labour Union demanded political power
and freedom of speech, Smuts crushed it with violence, killing 68 people in Port Elisabeth
alone. When Black Jews in Bull Hoek near Queenstown refused to work on Passover,
Smuts sent in the police and close to 200 people were killed on his orders. In 1922, when
Black tribal populations in Bondelswart refused to pay their dog tax and complained about
White penetration of their lands, Smuts sent in planes and bombed them into submission
(Anker, 2001, pp. 46-51; Davenport & Saunders, 2000, pp. 292-293; Lindqvist, 2000,
Section 107). Horrified by these actions, the South African poet Roy Campbell (1930) was
propelled to write the poem “HOLISM,” which included the following lines:
The love of Nature burning in his heart,
Our new Saint Francis offers us his book—
The saint who fed the birds at Bondelswart
And fattened up the vultures at Bull Hoek. (p. 103)
The “new Saint Francis” was Smuts; “his book” was Holism and Evolution.
Although
Smuts (1926) asserted that “we do not want to recreate Nature in our image,”
his concept of holism was grounded in the social-political climate of
South Africa, and it represented a transfer of social relations to nature and
back again to society (p. 21). It embodied
issues of domination and control. He argued that life is a process of change
and that evolution
is a creative process. Rejecting the perceived rigidity of mechanism (or mechanistic materialism),
Smuts sought a universal principle to explain the organization of both nature and
society. He argued that “all organisms feel the force and moulding effect of their
environment as a whole” (Smuts, 1926, p. 340). At the same time, the whole is
self-active and operates under its inherent activities. For him, the world comprised
an ongoing, evolving
series of wholes, which are constantly interacting. For each whole, the parts are in constant
interaction, sustaining a dynamic equilibrium. The parts act to fix and repair any damage
to the whole because they are subordinate to the whole (Smuts, 1926, pp. 80-82).
Holism and Evolution start with three premises. First, life evolved from matter. Thus,
matter as life (reflecting its emergent evolution) is no longer bound by mechanistic
principles of motion and energy. Instead, matter has become a realm of life and the entire world
is alive through progressive developments. Second, the natural world is essentially
beneficent and moves toward constant improvement, which involves cooperation, service, and
order. Third, the universe is concerned and guided by the principle of holism.
The production and advancement of wholes are part of the essence of life. For instance, “the creation of
wholes, and ever more highly organised wholes, and of wholeness generally as characteristic of existence, is an inherent character of the universe” (Smuts, 1926, p. 99).
In arguing that evolution was a process of creating ever more complex and important
wholes and establishing that there was a hierarchy, Smuts was able to order and divide the
world into a hierarchy of wholes, from low to high species. He assumed that evolution was
a series of ordered advances toward greater perfection. The organism was the center
of control, given that this was the site of the development of personality. As opposed to Darwinian
natural selection, Smuts (1926) contended that the higher, teleological process of
Holistic Selection is much more subtle in its operation, and is much more social and friendly
in its activity. . . . Its favours go to those variations which are along the road of its development, efficiency, and perfection. (p. 213)
Nature’s hierarchy was then seen as directly “social and friendly”—or cooperative.
Within the hierarchy of wholes, there was a hierarchy of personalities (another level of
wholes). This was Smuts’s famous concept of “personalogy,” which he related to
his ecology. The notion of superior personalities, such as Geothe and Whitman (themselves proponents of the organicist vision that appealed to Smuts), as the highest form of life was a view
that seemed to present an almost religious striving (Anker, 2001, pp. 72, 191-192). Smuts
(1932b) declared “man is in very truth an offspring of the stars”—a quasireligious view that
was meant to stand in opposition to materialism (pp. 17-18). This outlook was influential
with Alfred Adler, Freud’s great opponent within psychology. Adler argued that “a body
shows a struggle for complete wholeness” and saw this as connected to Smuts’s emphasis
on personality and holism (Adler, 1964, p. 68; see also Ansbacher, 1994, p. 491).
The most advanced, complex wholes (personalities), in this view, had greater
independence (freedom) from the immediate environment. The less advanced
did not have the same
degree of freedom and control over their environment, which they could not
socially construct to meet their needs and ends. Such people remained at the
mercy of nature—they
were seen as “children of nature.” The hierarchy in the natural and social world was the
result of natural development. Inequalities between races were the result of
natural inequalities rather than social structures and social history. Life tended
toward ever-greater perfection and goodness (Smuts, 1926, pp. 297-313).
Although Holism and Evolution was primarily abstract in its discussion, the lectures that
Smuts presented at Oxford in 1929 on Africa was much more explicit in his
position on natural and racial relationships, and they help us to understand the connections
between his hierarchical, teleological ecology, in which nature itself is turned into a hierarchy
of wholes—in which a human stratification (based on the notion of personalogy) is erected—
and his role in laying the foundations for apartheid in South Africa. There is no doubt that the
naturalized hierarchy that constituted Smuts’s theory of ecological holism gave seeming
philosophical–scientific support to his racial views. Indeed, as one critic of Smuts, the South
African ecologist Edward Roux, indicated, in Smuts’s holism, which followed his concept
of apartheid, “segregation was raised to a philosophy” (as quoted in Anker, 2001, p. 191).
Smuts prepared his Oxford lectures to counter those who questioned the presence of
Europeans in Africa and their right to influence African development. As a politician centrally
involved in the organization of the League of Nations, he framed White European interest in
Africa is naturalized, “humanitarian” terms, even when advocating outright racism. W.E.B.
Du Bois (1947), many years later, when Smuts pleaded for an article on “human rights” to be
adopted by the United Nations, did not miss the “twisted contradiction of thought” being
revealed, given that Smuts had “once declared that every white man in South Africa believes
in the suppression of the Negro except those who are ‘mad, quite mad’” (p. 43).
Smuts presented the colonial explorations of Livingstone and Stanley as early Europeans
seeking to bring civilization to the people of Africa. He asserted that their historic mission
must be continued to save Africa from barbarism (Smuts, 1930, p. 43). In fact, Smuts (1930)
argued that Great Britain must take a humanitarian and commercial interest in Africa and that
this would further civilize this land (p. 32). Labor would be recruited from various African
nations. But this development would also raise new questions regarding what happens
“wherever a superior culture came in contact with a lower, more primitive. We cannot mix the two
races, for that means debasement of the higher race and culture” (Smuts, 1930, p. 30).
Smuts argued that Blacks naturally lacked an internal impetus for creating the world. In
his ecological theory, they were seen as lacking the evolutionary development of a complex
(climax) personality—a notion that represented a complex, double transfer from society to
nature (via Smuts’s holism) and then back again. Thus, it was the duty and right of
Europeans to organize the social and natural structure of Africa. In an account that drew on
the concept of “recapitulation” (ontogeny follows phylogeny) as employed within
19thcentury biological racism, Smuts (1930) wrote:
It is even possible, so some anthropologists hold, that this was the original mother type of the
human race and that Africa holds the cradle of mankind. But whether this is so or not, at any
rate here we have the vast result of time, which we should conserve and develop with the same
high respect which we feel towards all great natural facts. This type has some wonderful
characteristics. It has largely remained a child type, with a child psychology and outlook
. . . . There
is no inward incentive to improvement, there is no persistent effort in construction, and there is
complete absorption in the present, its joys and sorrows. Wine, women, and song in their
African forms remain the great consolations of life. No indigenous religion has evolved,
no literature, no art since the magnificent promise of the cavemen and the South
African petroglyphist, and no architecture since Zimbabwe (if that is African).
Enough for the Africans the simple joys of village life, the dance, the tom-tom,
the continual excitement of forms of fighting
which cause little bloodshed. They can stand any amount of physical hardship and suffering,
but when deprived of these simple enjoyments, they droop, sicken, and die. . . . These children
of nature have not the inner toughness and persistence of the Europeans, nor those social and
moral incentives to progress which have built up European civilization in a comparatively short
period. . . . It is clear that a race so unique, and so different in its mentality and its cultures from
those of Europe, requires a policy very unlike that which suits Europeans. (pp. 75-76)
Smuts’s reference to adult Africans as “children” drew on the recapitulation theory in
biology, which had been widely adopted in the late 19th century but was already falling out
of favor at the time Smuts was writing and has long since been rejected by modern
biologists.10 Recapitulation was the notion that each individual of a species in its development
passes through (recapitulates) in telescoped fashion the main stages that the entire species
over historical time had previously passed through. The recapitulation theory was often
used, as in Smuts’s case, to propound theories of biological racism. As Stephen Jay Gould
has described the frequent racist use of the concept:
For anyone who wishes to affirm the innate inequality of races, few biological arguments can
have more appeal than recapitulation, with its insistence that children of higher races (invariably one’s own) are passing through and beyond the permanent conditions of adults of lower
races. If adults of lower races are like white children, then they may be treated as such—subdued, disciplined, and managed (or, in the paternalistic tradition, educated but equally subdued). The “primitive-as-child” argument stood second to none in the arsenal of racist
arguments supplied by science to justify slavery and imperialism. (Gould, 1977, p. 126; see
also Gould, 1996, pp. 142-151)
Building on recapitulation theory and his own racist–ecological–holism,
Smuts proposed that separate and parallel institutions and segregation were required to save and
retain African wholeness. He argued that this policy would help preserve racial purity, by
preventing miscegenation, and would maintain a healthy, good society. Any unnatural mixing of the people, contravening the natural, hierarchical principles would lead to the moral
deterioration of the species. He argued:
The old practice mixed up black with white in the same institutions, and nothing else was possible after the native institutions and traditions had been carelessly or deliberately destroyed.
But in the new plan, there will be what is called in South Africa “segregation”—separate institutions for the two elements of the population, living in their separate areas. Separate institutions involve territorial segregation of the white and black. If they live mixed up together it is
not practicable to sort them out under separate institutions of their own. Institutional segregation carries with it territorial segregation. The new policy therefore gives the native his traditional institutions on land which is set aside for his exclusive occupation. . . . For urbanized
natives, on the other hand, live, not under tribal conditions but as domestic servants or
industrial workers in white areas, there are set aside native villages or locations, adjoining to
the European towns. . . . This separation is imperative, not only in the interests of a native
culture, and to prevent native traditions and institutions from being swamped by the more
powerful organization of the whites, but also for other important purposes, such as public
health, racial purity, and public good order. The mixing up of two such alien elements as white
and black leads to unhappy social results—racial miscegenation, moral deterioration of both,
racial antipathy and clashes, and many other forms of social evil. (Smuts, 1930, pp. 92-93)
In Smuts’s intellectual system of apartheid–holism–apartheid, we therefore find signs of
a double transfer. Natural hierarchy (modeled on social hierarchy) is used to justify social
hierarchy and social hierarchy is used to give meaning to natural hierarchy in a neverending
whole. His ecology gives rise to a complex or climax personality that was a manifestation of
notions of racial hierarchy—and meant to further justify racial hierarchy. Smuts
(1930, p. 76; see also Smuts, 1932a, pp. 127-130) contended that Africans, in contrast to
Europeans, were “children of nature,” lacking the drive for social “progress.” Thus,
Europeans must enact special policies to “conserve what is precious” about Africa and
Africans (Smuts, 1930, pp. 33, 75-78). The racial differences of society were attributed to
nature and then re-extrapolated back to society to justify extreme segregation (apartheid).
The whole conception is mirrored by a view of dominant personalities as the model for
natural–social domination, within a teleological perspective. For Smuts, ecology was the
science and justification for this new holism that naturalized social control.
Smuts saw his work as countering materialist approaches to science. The reception of
Holism within British science was so strong as to catapult him to president of the British
Association for the Advancement of Science (BAAS). In his 1931 presidential address to
the BAAS, he attacked the physicist John Tyndall’s famous 1874 presidential address to the
Association (which was much admired by Marx and Engels [1975a, Vol. 45, p. 50]) as an
“unrestrained expression” to the “materialistic creed” (Smuts, 1932b, p. 10; Tyndall, 2000).
For Smuts nature in any truly meaningful sense (beyond mere “brute fact”) was to be seen
as a construction of the mind:
Great as is the physical universe which confronts us as a given fact, no less great is our
reading and evaluation of it in the world of values. . . . Without this revelation of inner meaning
and significance the external physical universe would be but an immense empty shell or
crumpled surface. The brute fact here receives its meaning, and a new world arises which gives to
nature whatever significance it has. As against the physical configurations of nature we see
here the ideal patterns or wholes freely created by the human spirit as a home and
an environment for itself. (Smuts, 1932b, pp. 12-13, emphasis added)
These views put Smuts in an idealist camp that saw the physical universe as “an
immense empty shell” apart from the mind and the “pattern of wholes created by the human
spirit” as its environment. He was thus seen as one of the great British Empire idealists,
along with such figures as Whitehead, Bradley, Collingwood, John Alexander Smith,
Lloyd Morgan, and John Scott Haldane (Anker, 2001, pp. 137-143; Tobey, 1981).11 Karl
Popper (1962) viewed Smuts as a Hegelian evolutionary idealist (pp. 29, 304-305).
Smuts’s ecological holism was enormously influential. In particular, John Phillips, a
South African grasslands ecologists, incorporated Smuts’s as well as Clements’s holism into
his ecological studies (Phillips, 1954). In Phillips’s (1932) construction of the natural
world, humans were part of a biotic community that was filled with cooperation and
harmony. At the same time, human beings were naturally organized in a racial hierarchy
The fact that these two ideas coexisted within a single construction is no accident, since as
Anker (2001) notes, “Phillips coined the term ‘biotic community’ to designate this ecocentric
ethics and environmental social policy of segregated ecological homelands” (p. 192).
Phillips argued in his scientific writings on ecology that natives should not be granted any
autonomy or freedom because it would violate the relations of races within the community.
The “ruling races” were to regulate the stock of natives to prevent excess grazing and degradation
of the environment. In Phillips’s racist biocentrism, miscegenation between the
lower European stock and the natives was to be avoided to prevent the degeneration of biological
diversity. Women’s desire for freedom should be constrained and large families
among Whites should be encouraged (Anker, 2001, p. 148; Phillips, 1932, pp. 51-72).
In his Human Ecology, John Williams Bews (1935), another South African ecologist and
follower of Smuts contended that some humans were determined by the conditions of their
environment, whereas other humans were more independent of their environment. This
argument developed out of Smuts’s theory regarding certain organisms and personalities
being more independent and strong, versus those that were affected by the environment.
Bews spoke of “the ecological division of mankind” as necessitating “the segregation of the
races.” In his 1931 article on the “Ecological Viewpoint,” he transferred the concept of natural
hierarchy modeled on human society back to human society, speaking of a “climax
type of men” exemplified by “the small white population in South Africa” (Anker, 2001,
p. 167; Bews, 1931, p. 4; Bews, 1935, pp. 18-20, 54, 155, 256). Those primitive peoples
who were still tied to the “Earth-mother,” he argued, should be left as much as possible in
their proper biotic communities. Bews also insisted that marriage was the only natural
relation between men and women and that homosexuality was ecologically and morally
wrong. Smuts’s holism thus reinforced naturalized ecological–racist views. At the same
time, Clements, and other ecologists in the United States, became strong defenders of
Smuts’s and Phillips’s ecological holism (Anker, 2001, pp. 171-175).
Materialist Ecosystem Analysis: Arthur Tansley
General Smuts’s teleological, holistic philosophy together with its racial implications
engendered the ire of both socialists and consistent materialists–realists. Smuts’s legendary
opponent in the great “Nature of Life” debate that took place at the BAAS meetings in South
Africa in 1929 was the British Marxist biologist Lancelot Hogben. Hogben then occupied
a position at the University of Cape Town. Not only did he debate Smuts—opposing his
materialism to Smuts’s holism and attacking Smuts for his racial eugenics—but
Hogben also hid Black rebels fleeing the racist state (in which Smuts was such a dominant
figure) in a secret compartment in his basement (Anker, 2001, p. 122). Hogben viewed
Smuts’s holism is a more sophisticated version (incorporating notions of emergence) of the
vitalism (“creative evolution”) of Henri Bergson and others. In opposition to this, he presented
mechanistic materialism and agnosticism on the nature of life and the world in
general. Although there were deep issues of materialism and science involved, Hogben
made it clear that his opposition stemmed in large part from a perception of the dialectical
perversion associated with Smuts’s ecologically racist holism. As he observed in his book
The Nature of Living Matter was organized around his 1929 debate with Smuts and his followers,
the benign and tolerant humanism which [the ancient materialist] Epicurus grafted on the soil
prepared by the atomists was ill-suited to flourish in the stern climate of the [Hellenistic]
military state. Like [Smuts’s] holism, Aristotle’s [Hellenistic] system was a shrewd blending of
science and statesmanship. It enabled its author to combine a personal predilection for natural
history with a political partiality for slavery. (Hogben, 1931, p. 224)
Another major opponent of Smuts, and one who directly influenced Tansley, was
the British Marxist mathematician Hyman Levy, who, in The Universe of Science,
developed a critique of Smuts’s holism along similar lines to those of Hogben, elucidating a
materialist systems theory in response (Levy, 1933). Levy’s (1938) own ecological
interests were evident in A Philosophy for a Modern Man.
However, the central figure opposing the ideas of Clements, Smuts, Phillips, and Bews
in ecology was Arthur Tansley, a moderate or Fabian-style socialist, the first president of
the British Ecological Society, and the originator of the ecosystem concept.12 Tansley,
significantly, had been a student of biologist Ray Lankester at University College, London.
Lankester was Thomas Huxley’s protégé and was considered the greatest Darwinian
scientist of his generation. He was also the most adamantly materialist biologist of his day in
Britain. When he was a boy, Darwin had carried him on his shoulders. As a young professor,
Lankester was a close friend of Karl Marx and an admirer of Marx’s Capital. He was
the only English mourner among the few attendants at Marx’s funeral. Lankester considered
himself a socialist, though of the more Fabian variety (Gould, 2003, pp. 113-129;
Lester, 1995). He was also to become one of the most ecologically concerned thinkers of
his time and wrote some of the most perceptive and eloquent essays that have ever been
written on species extinction because of human causes, discussing the pollution of London
and other ecological issues with an urgency that was not found again until the late 20th century
(Foster, 2000a; Lankester, 1913, pp. 365-372). Lankester was an adamant opponent of
vitalism, authoring a preface to a book criticizing Bergson’s élan vital (Lankester, 1912).
The young Tansley was deeply influenced by Lankester, along with the botanist Francis
Wall Oliver, in his years at University College, London. Like Lankester, Tansley was an
adamant materialist. And like Lankester, Tansley was to challenge direct attempts to
conceive evolutionary ecology in antimaterialist, teleological terms.
The fact that the natural environment that ecologists like Tansley encountered in Britain
was overwhelmingly “second nature,” in the sense that all of it had been transformed by
human beings may have brought to mind evolutionary materialist issues of ecological
crisis and sustainability—in ways that a more untouched, “pristine nature” as encountered in
the colonies (or former colonies) did not. For Clements, Smuts, and Phillips, who drew
from their contemplation of the relatively “untouched” grasslands of the United States and
South Africa, a teleological conception of nature (the historic role of indigenous peoples in
the management of these environments was still not understood—or better denied,
especially in Smuts’s hierarchy where indigenous peoples remained at the mercy of nature), this
all seemed perfectly “natural.” But for Tansley, the leading ecologist in the British Isles, the
environment with which he had to deal was only “seminatural” at best, affected at every
point by human intrusions and transformations (Tansley, 1926, pp. 21-25).
Although a professional botanist and plant ecologist, Tansley was far from being a
narrow specialist and was engaged as well with psychology and philosophy. In 1920, he
published his book The New Psychology on Freud’s psychoanalysis and how the human
mind was affected by the laws of biology, which became a bestseller and went through 11
editions (Tansley, 1920). In 1922, with the help of Ernst Jones, Tansley went to Vienna to
study with Freud and to undergo psychoanalysis by Freud himself. Freud referred two
clinical patients to Tansley whom he treated for years. For many years, Tansley was
considered
one of the leading British experts on Freud’s psychoanalysis. His work on ecology
frequently drew analogies from psychology. As late as 1952, in his Mind and Life, Tansley
continued to attempt to synthesize the basic elements of existence within a framework that
encompassed both psychology and ecology (Tansley, 1952).
Tansley considered himself a scientific realist but also one who recognized that our
understandings of nature were constructed (what would today be called a
“mitigated scientific realism” or “critical realism”) (Keller & Golley, 2000, p. 12).
Adhering strongly to the
materialist principle but recognizing social constructionism, he argued, to a largely idealist
the audience at the Magdalen Club at Oxford, that even if one were to suppose “that a large
part of the Universe is arranged [presumably by God] to fit the scientist’s ambition,” it was
nonetheless true that such natural systems could be considered “real phenomena—that they
are there and are not mere figments of our fantasy” (as quoted in Anker, 2001, pp. 141-142).
In 1935, Tansley found himself increasingly at odds with antimaterialist constructions of
ecology that were then gaining influence, and he entered the fray against ecological idealism.
It was at this time that he wrote his historic article for the journal Ecology titled “The Use and
Abuse of Vegetational Concepts and Terms,” which declared war on Clements, Smuts, and
Phillips introduced the new concept of “ecosystem” (Tansley, 1935). The term abuse in
the title was meant to convey Tansley’s objection to the direction ecological “holism”
was taking. The immediate target of Tansley’s critique was a series of three essays
(and particularly
the third of these on “The Complex Organism”) by Phillips, in which the latter had attempted
to advance the case of Clements and Smuts against materialists like Hogben (Phillips, 1935).
Phillips’s organicist constructions raised the ire of Tansley, and in one fell swoop in his
Ecology article, he attacked a whole set of teleological notions propagated by Clements,
Smuts, and Phillips: (a) that ecological succession was inherently progressive and
developmental, leading to a climax; (b) that vegetation could be seen as constituting
a superorganism; (c) that there was such a thing as a “biotic community” (with members),
encompassing
both plants and animals; (d) that “organismic philosophy,” which saw the whole universe
as an organism, was a useful way to understand ecological relations; and (e) that holism
could be seen as both cause and effect of everything in nature—and extended to society.
Smuts’s holistic teleological view, Tansley pointedly asserted, was “at least partly
motived by an imagined future ‘whole’ to be realised in an ideal human society whose
reflected glamour falls on less exalted wholes, illuminating with a false light the image of
the ‘complex organism’” (Tansley, 1935, p. 299). This was a polite way of referring to the
system of racial stratification, which was built into Smutsian holistic ecology. For Tansley,
Clements, Smuts, and Phillips had to differing degrees carried out a questionable extrapolation
of anthropomorphic social concepts (in the case of “plant communities” and climax
personalities) to nature and then re-extrapolated these concepts to society. In Tansley’s
case, the principal objection was how this promoted racist notions. Indeed, as the historian
Anker (2001) contends, that Tansley, in the passage quoted above, was “referring to Phillips’s
racist biocentrism and the politics of holism . . . with its treatment of ‘less exalted wholes
at, for example, Rand, Bondlewaart, and Bull Hoek” (the sites of three massacres of native
Africans ordered by Smuts) (p. 153).
In combating this type of idealist holism and superorganicism and introducing the concept
of ecosystem in response, Tansley (1935, p. 300) turned to the dialectical systems theory
used in Levy’s The Universe in Science, tied to new developments in physics, and at
the same time referred to materialist conceptions of dynamic equilibrium in natural systems
going back to Lucretius (Epicurus’s Roman follower and author of the great philosophical
poem The Nature of Things). “The more fundamental conception,” represented by his new
“ecosystem” concept, Tansley (1935) argued, was that of
. . . the whole system (in the sense of physics), including not only the organism-complex, but
also the whole complex of physical factors forming what we call the environment of the
biome—the habitat factors in the widest sense. Though the organisms may claim our primary
interest, when we are trying to think fundamentally we cannot separate them from their special
environment, with which they form one physical system. . . . These ecosystems, as we may
call them, are of the most various kinds and sizes. They form one category of the multitudinous
physical systems of the universe, which range from the universe as a whole down to the
atom. (p. 299)
Following Levy, Tansley emphasized a dialectical conception of abstraction:
The systems we isolate mentally are not only included as parts of larger ones, but they also
overlap, interlock, and interact with one another. The isolation is partly artificial but is the only
possible way in which we can proceed.13
Moreover, Tansley (1935) argued that it was somewhat “arbitrary and misleading” to remove
climatic factors from any consideration of the ecosystem and that the relation between
organisms and the environment was “reciprocal” (p. 300). Nature, in Levy’s and
Tansley’s conception, was not to be viewed as seamless but, on the contrary,
had certain natural seams in its
fabric, delineating interactive subsystems of the whole (isolates) that were open to analysis
(Tobey, 1981, pp. 177-178). Tansley (1935) thus wrote that “whole webs of life adjusted to
particular complexes of environmental factors are real ‘wholes,’ often highly integrated
wholes, which are the living nuclei of systems in the sense of the physicist” (p. 297).
Rather than seeing such ecological “wholes” in terms of natural, teleological order, he
emphasized contingency and constant disruptions to any kind of natural stasis, referring to
“the destructive human activities of the modern world” and presenting human beings,
especially as an “exceptionally powerful biotic factor which increasingly upsets the equilibrium
of preexisting ecosystems and eventually destroys them, at the same time forming new ones
of very different nature” (Tansley, 1935, p. 303). Thus, human beings were capable of “catastrophic destruction” in relation to the environment (p. 289).
Tansley’s view of ecosystem disruption by human beings thus introduced a notion of
a widespread crisis of ecosystems emanating from anthropogenic causes. “Ecology,” he
argued, “must be applied to conditions brought about by human activity,” and for this
purpose, the ecosystem concept, which situated life within its larger material environment, and
penetrated “beneath the forms of the ‘natural’ entities,” was the most practical form for
analysis (Tansley, 1935, p. 304). In his comprehensive study, The British Islands and their
Vegetation, Tansley put forward a dynamic point of view, in contrast to Clements’s model
of succession and climax. He explained:
the position of relative equilibrium, corresponding with what I have called the mature
“ecosystem,” is the fundamental ecological concept. . . . “[P]ositions of equilibrium” are seldom if
ever really “stable.” On the contrary, they contain many elements of instability and are very vulnerable to apparently small changes in the factor complex. Recognition of “positions of stability” is a necessary first step in the understanding of vegetation. The more important sequel is
study of the factors that maintain or disturb and often upset them. (Tansley, 1939, p. vi)
Tansley’s ecosystem concept was, arguably, more genuinely holistic and more dialectical
then the relatively rigid superorganicism and “holism” that preceded it because it brought
both the organic and inorganic world within a more complex materialist, Darwinian-style
synthesis.
Tansley recognized that the conditions of nature were a product of both natural and
human history (Tansley, 1939, pp. 194-195). Through analyzing pollen deposits in layers of
peat, he studied how the advance and retreat of glaciers influenced the distribution of plants
in a given geographic area (pp. 149-164). Disturbance was recognized as an important
factor in plant composition—as were historical changes in climate, soil conditions, and animal
populations. Tansley highlighted how all of these relationships interacted and influenced the
historical succession (or regeneration) of plants in a particular environment. Thus, nature,
itself, through systematic study, influenced Tansley’s conception of ecosystems.
Natural processes and cycles operate, influencing the growth of plants within a particular historical context, while at the same time, human encroachment increasingly transformed nature. Tansley (1939) explained:
With his increasing control over “nature,” the human-animal became a unique agent of destruction of the original ecosystems, as he cleared and burned natural vegetation and replaced it
with his pastures, crops, and buildings. Limited at first to the regions where civilization originally developed, this destructive activity has spread during recent centuries, and at an increasing rate, all over the face of the globe except where human life has not yet succeeded in
supporting itself. It seems likely that in less than another century none but the most inhospitable regions—some of the extreme deserts, the high mountains, and the artic tundra—will
have escaped. Even these may eventually come, partially if not completely, under the human
yoke. (p. 128)
Draining the fens and deforestation—to create pastures—radically modified the natural
conditions, such as soil fertility, and changed the distribution of plants. Tansley (1939)
indicated that such alterations led to the “establishment of a new ecosystem, [which was] the
result of the original factors of climate and soil together with the modifying factors which
[humans] introduced” (p. 128). Through studying the disturbance, transformation,
regeneration, and destruction of nature, Tansley developed a dynamic conception of ecosystems.
Tansley’s dialectical rejection of a system of natural–holistic harmony, however, was
rooted, as it had been for other thinkers before him, such as Darwin and Marx, in his
materialism. “The Use and Abuse of Vegetational Concepts and Terms” referred to Lucetius
(Epicurus) citing Lucretius’s On the Nature of the Universe. Tansley, like many other
thinkers in the materialist and scientific traditions, was inspired by the ancient Epicurean
materialist critique of teleology and religion and transformed this into a critique of Smuts’s
holism (Anker, 2001, p. 299).
For Tansley (1935), Phillips’s articles, which sought to develop the teleological ecology
of Clements and Smuts, “remind one irresistibly of the exposition of a creed—of a closed
system of religious or philosophical dogma. Clements appears as the major prophet and
Phillips as the chief apostle, with the true apostolic fervour in abundant measure” (p. 285).
Phillips, according to Tansley (1935), had “recourse to scientific arguments” only “here and
there,” relying for the most part on “the pure milk of the Clementsian word” (p. 285).
Nowhere was the existence of a closed, idealist–teleological model of nature more evident
than the insistence on the inherently progressive nature of succession, always pointing toward
the climax state. In contrast, Tansley argued, in contradistinction to Clements, that there was
also such a thing as “retrogressive succession”—a succession (in time) that led away from the
climax system. In this way, Tansley’s ideas paralleled those of his mentor, Lankester, who had
rejected all teleological interpretations of evolution, famously arguing that degeneration was
possible in the evolutionary process. Nonetheless, Tansley continued to argue from a systems
perspective, for a “dynamic ecology” that was organized around the general tendency toward
dynamic equilibrium in ecosystem development. This, he claimed, was “the ecology of the
future” (Tansley, 1935, pp. 287-288, 304-305; see also Tansley, 1939).
As in the case of Hogben, Tansley’s rejection of the ecological ideas of Smuts and
Phillips seems to have been motivated as much by the dislike of ecological racism as by his
opposition to ecological idealism. When Smuts delivered his lectures on Africa and race at
Oxford in 1929, Tansley was in the audience and given what we know of the latter’s views
was almost certainly not impressed. Tansley belonged to a group of thinkers, including H.
G. Wells and Julian Huxley saw ecology as standing for a more rational approach to
human society and nature. Wells and Huxley had coauthored (with G. P. Wells)
the important work The Science of Life, first appearing in 1929, which provided
a materialist ecological vision (Wells, Huxley, & Wells, 1934). Both Wells and
Huxley were close friends
with Hogben, while Tansley was closely connected to Huxley (Anker, 2001, pp. 248-250).
In this context, Wells’s judgment on Smuts’s ecological racism doubtless reflects the view
of all of these thinkers. As Wells (1939) wrote in The Fate of Man,
It is one of the good marks in the checkered record of British Imperialism that in Nigeria it has
stood out against the development of the plantation system and protected the autonomy of the
native cultivator. . . . But against that one has to set the ideas of white-man-mastery associated
with Cecil Rhodes and sustained today by General Smuts, which look to an entire and
permanent economic, social, and political discrimination between the lordly white and his natural
serf, the native African. And this is in the face of the Zulu and Basuto, the most intelligent and
successful of native African peoples. The ethnological fantasies of Nazi Germany find a
substantial echo in the resolve of the two and a half million Afrikanders to sustain, from the Cape
to Kenya, an axis of white masters . . . with a special philosophy of great totalitarian possibility called holism [the philosophy introduced by Smuts], lording it over a subjugated but more
prolific, black population. The racial antagonism makes the outlook of South Africa
quite different from that of most of the other pseudo-British “democracies.” It is not a
democracy at all, and it is heading towards a regime of race terrorism on lines parallel
and sympathetic to the Nazi ideal. (pp. 191-192).
Smuts, as a leading figure within the British Empire, opposed the Nazis and led South
Africa in declaring war on Germany. But Wells was not off base in seeing in the philosophy
of Smuts’s holism, with its ecological justification of developing apartheid, the foundation
of what might be called a philosophy of ecological apartheid—akin in some ways to
the “ethnological fantasies” and extreme racial oppression (and exterminism) of Hitler’s
Germany. Without question, it was such concerns about ecological hierarchy and racism
that brought out the very sharp differences between the two scientific research programs
and their respective constructions of ecology.
Tansley stuck adamantly to materialist–realist constructionism. He insisted that ecology
must be seen in terms of dialectically interrelated, dynamic systems (ecosystems) that were
free as much as possible from the prior imposition of teleological concepts and the smuggling
in of social concepts that were meant to reinforce rigid social hierarchies through the
re-extrapolation of these concepts in naturalized form back into society. All forms of
anthropomorophization of nature (the direct, as opposed to metaphorical, transferences of
human–social characteristics to nature) were suspect. Ecology should not be seen as a
reflection of the glamour of grand human personalities “on less exalted wholes.” In his
materialist–realist construction of an ecological worldview, Tansley thus rejected both
anthropomorphism in the analysis of nature and naturalistic justifications for racial oppression
in human society. At the same time, he insisted on the fact that human beings could
be destructive forces in nature—as revealed in his studies of changes in plant distribution
and transformations in ecosystems—undermining ecological systems. Rejecting an idealist
–teleological approach to ecology, he directly challenged such theories in terms of their
empirical realism: “What researches,” Tansley (1935) rhetorically asked, “have been
stimulated or assisted by the concept of ‘the complex organism’ as such?” (p. 305).
Both sides of this debate, it should be noted, were concerned with promoting
conservation in the face of human ecological destruction. Tansley became the first chairman of the
British Nature Conservancy and the most consistent advocate for the creation of nature
reserves in Britain (McIntosh, 1985, p. 299; Tansley, 1945). Smuts proposed a system of
nature reserves in South Africa. But in line with the ecological racism that was an intrinsic
part of Smuts’s ecological holism, Smuts naturally saw this as carrying over into a conception
of reserves for native Africans themselves. Smuts’s holism was as H. G. Wells (1939)
intimated: “a special philosophy with great totalitarian responsibility,” rooted in a double
transference (pp. 191-192). Smuts’s clear ambition was to be a grand legislator over both
society and nature within what was to become the apartheid system.
Materialism Versus Idealism in Ecology’s Formative Period
In many respects, this conflict between teleological holism in ecology and ecosystem
ecology may be regarded as inevitable, quite apart from questions of race. The conflict over
the meaning of ecological holism in one form or another has been one of the crucial tasks
of ecological thought. Ironically, one well-known treatment of ecological paradigms has
argued that “the materialistic revolution in ecology” associated with Tansley’s ecosystem
concept carried forward “the first ecological ideal Clements’s superorganism, [which] is
not dead, but rather transmogrified into a belief that holistic study of ecosystems is the
proper course for ecology” (Simberloff, 2000, p. 77). Although more reductionist
approaches to ecology existed, ecological science gravitated toward holistic answers of one
kind or another.
Tansley’s approach has been described as a “nonteleological mechanistic holism”
(Keller & Golley, 2000, p. 176). Ecology demanded either an idealist organicism and
holism, such as what was provided by Clements and Smuts, or a materialist holism, which
grew out of Tansley’s concept of ecosystem. The evolution of Clementsian ecology into a
form propounded by Smuts and Phillips—a development supported by Clements (1936)
himself—however, marked the distorted bias of teleological holism when it sought to
expand into a truly holistic vision connected to human society.
Clements and Smuts developed rigidly hierarchical notions of the ecological world,
drawn from society, which was then re-imposed in the case of Smuts and his followers
back on society—in the form of a system of ecological apartheid. The resulting intellectual
the system was incoherent to an extreme, hamstrung by its teleology. Phillips sought to
link Smuts’s teleological holism directly with that of social Darwinists in sociology, such
as Spencer and Sumner, with whom there were many political–social similarities, but was
thwarted by the possessive individualism of the social Darwinists, which did not fit easily
with a more Aristotelian holistic perspective (Phillips, 1935).
The holism of Smuts and Phillips (and Clements) ran up against problems in incorporating
empirical observations, limited as this perspective was by its essentially linear,
teleological thrust. As Phillips (1935) put it, “succession is progressive only” (p. 505).
However, the explicit
insistence on the teleological “progressive only” in relation to ecological succession marked
the degeneration of the organicist research program, as it went against Darwinian conceptions
of evolution, which explicitly reject such teleological notions. It also declared by mere fiat
what needed to be determined empirically. Not surprisingly, then, Phillips (1935) wrote the
following: “General Smuts’ need for refinement and extension of his theme is more and ever
more facts, interrelated facts, suggestions and soundly based ideas regarding organisms,
communities, and the changing stage—the habitat—on which they play their part” (p. 489).
But the incorporation of empirical considerations and even more the generation of a
research program that would anticipate novel facts within a dynamic, natural–historical set
of relationships was certainly not a strength of teleological holism within ecology, as it
assumed that all empirical data would have to fit within its procrustean bed. After
Clements’s early analyses, the intellectual progress of the teleological paradigm stalled.
The failed attempt to merge ecological holism of this kind with sociology, particularly of a
racist variety, and to implement this as policy in Smuts’s South Africa contributed to the
degeneration of the entire research program associated with holism, if only by encouraging
the development of a considerable materialist ecosystem ecology in opposition. Smuts’s
attempt to carry out a double transfer had the effect of destroying whatever genuine insights
the notion of ecological “holism” contained.
In the Popperian philosophy of science, the downfall of a paradigm is attributed to some
crucial experiment or crucial anomaly. In Clements’s case, the anomaly is supposed to be
observations on the development of the prairies in the United States during the drought of
the 1930s, which followed a pattern other than what Clementsian succession had supposed.
The severe drought associated with the Dust Bowl of the 1930s dramatized in John
Steinbeck’s (1939) The Grapes of Wrath, was experienced as a refutation of Clementsian
ecology and resulted—in the process of trying to account for the anomaly—in severe
contraction of the paradigm’s empirical content, the sign of a degenerative
research program in Lakatos’s terms (Keller & Golley, 2000, p. 28; Tobey, 1981).
Popperian disproofs, based on anomalies, however, are rarely conclusive. Clementsian
ecology might have absorbed that anomaly, as it at least attempted to do, as just one of what
Lakatos has called it “an ocean of anomalies” affecting all sciences. The real reasons for the
organicist–holist paradigm’s downfall are more directly related to its ultimate research
objectives. It projected a holism that pointed to the existence of a “superorganism.” The
very teleological orientation of this perspective created insoluble problems that became
ever more apparent as the hierarchical–teleological analysis was extended into the social
realm. It became “theoretically exhausted” and unable to grapple with the complex, contradictory
changes taking place in the real world (Tobey, 1981, pp. 213-221). The teleological, equilibrium-
oriented, neo-Lamarckian approach to ecology represented by the
hierarchical model of superorganicism and holism was ill equipped, as we have seen, to
deal with the advent of ecological crises, such as the 1930s Dust Bowl, or the destructive
aspects of human intervention in the environment (and society). Its linking to philosophic
apartheid in the work of Smuts and Phillips likely only added to its problems. Hence, this
research program increasingly took on the form of a degenerative research program, in
Lakatos’s sense—one that was hindered by its idealism, its theoretical anthropocentrism,
and its hierarchical social content. As Leiss (1974) explained, “the domination of nature”
has always been about the domination of society (and domination within society). Nowhere
was this more evident than in Smutsian holism.
In contrast, the progressive research program associated with Tansley’s ecosystem ecology
gained ground as part of what Simberloff (2000) called a “materialistic revolution.” Beginning
with the ecosystem concept, it evolved into a general systems theory in ecology. Tansley’s
ecosystem analysis, arising within plant ecology, was rooted in studying the disturbance,
transfer, destruction, and growth of plants in relation to dynamic, historical–and natural conditions, such
as changes in climate and soil fertility. His science and ecosystem concept was fundamentally
informed by his studies of plant history and emergent nature. Tansley’s ecosystem ecology
is easily connected with work on animal ecology developed by Tansley’s friend Charles Elton.
This approach was given an enormous boost by the publication of Raymond Lindeman’s
famous article “The Trophic-Dynamic Aspect of Ecology,” which incorporated energy flows
into the ecosystem model (Lindeman, 1942; McIntosh, 1985, p. 196).
Increasingly, ecosystem analysis merged with thermodynamic perspectives coming out
of classical physics. In the work of Eugene and Howard T. Odum (sons of sociologist
Howard W. Odum), ecosystem analysis was integrated with a more general systems
ecology evolving out of the notion of metabolic interactions between organisms
and their environments (Golley, 1993; Hagen, 1992, pp. 100-107). Indeed, the emphasis
on metabolism
lined up (though not explicitly) with Liebig’s proto-ecological reflections on capitalist
industrialism and the robbing of the soil, which inspired Marx’s ecological–materialist
concept of the “metabolic rift” (Dickens, 2004; Foster, 1999). Ecosystem analysis was also
broadened to take into account the analysis of the biosphere that had emerged in the work
of the Russian biogeochemical–ecological thinker Vladimir Vernadsky. When Rachel
Carson and Barry Commoner stormed onto the public stage in the 1960s and 1970s, their
analysis was rooted in a materialist understanding of ecosystems, which had become the
new holism, reflecting its greater heuristic power and its greater attention at the same time
to fundamental disjunctures and crisis—no longer was a “balance of nature” presupposed
(Carson, 1998; Commoner, 1971; see also Foster & Clark, 2008).14
Yet the victory for materialist ecosystem analysis was never really complete and the
defeat for teleological holism never irreversible. The two general paradigms continued to
struggle in different ways. In the case of the ecosystem program, there was always the danger
that it would degenerate as all mechanical materialisms are wont to do into a form of
mechanical reductionism (Berry, 2000; Levins & Lewontin, 1985; Lewontin & Levins,
2007). Its very technical facility was seen as leading it in a reductionist and hence ultimately
unecological direction. In the case of the organismic approach of teleological
holism, it derived new strengths within the ecology movement and on the margins of
science through its influence on deep ecology, which also adopted aspects of ecosystem
ecology. Here, the influence of Smuts persists.15
Smuts’s holism, as we have seen, was embraced in the psychology of Alfred Adler. Adler
sided with Smuts over Hogben in relation to the “Nature of Life” controversy in South Africa.
He arranged for Holism and Evolution to be translated into German. Adler seized on Smuts’s
notion of “wholes as self-acting, self-moving organisms,” embodying a particular purpose and
direction to become more complete wholes, as his own basis for formulating an “internal principle
of action” (i.e., a “law of movement”) as a natural basis for “human goal striving”
(Stepansky, 1983, p. 254). He actively promoted Smuts’s perspective to colleagues and
friends.16 Smuts’s ideas were thus incorporated into the discussions around Gestalt psychology.
It was no doubt in relation to Adler that Arne Naess, the cofounder of deep ecology, was
introduced to Smuts’s ideas, having studied in Vienna in 1934, when Smuts’s ecological
holism and its psychological connections were being promoted by Adler (Anker, 2001,
pp. 180-181; Bottome, 1957, pp. 83-84). Deep ecology carried forward many of the essentialist, vitalistic, and organismic traditions of the idealist side of the ecological debate. It
ended up being more influential in environmental ethics than ecological science, though
frequently crossing over into the latter.
The continuing tensions around the social construction of ecological science are revealed
by the fact that the influential environmental historian Donald Worster presents Tansley in
his magnum opus Nature’s Economy as the principal source of ecological error and the
founder of not only mechanism but also reductionism in ecology. Worster comes out
strongly in favor of the “organismic trends in science” represented by Bergson, Morgan,
Whitehead, and Smuts: the whole “resurgence of philosophical idealism” in this area in
response to mechanistic materialism (Pepper, 1996, pp. 233-234, 242-245; Worster, 1977,
pp. 301-304, 316-323; see also Barbour, 1995). For Worster, the “New Ecology” stretches
from Tansley and Elton to the Odums and represents a massive extension of the technical
means for controlling nature. In this respect, he argues, the organicist tradition is needed as
a kind of ethical counterbalance.17
A similar position is taken by leading ecofeminist historian and theorist Carolyn
Merchant (1980), who writes that
holism was proposed as a philosophical alternative to mechanism by J. C. Smuts (1926) in his
book Holism and Evolution, in which he attempted to define the essential characteristics of
holism and to differentiate it from nineteenth-century mechanism. . . . Smuts saw a continuum
of relationships among parts from simple physical mixtures and chemical compounds to
organisms and minds in which the unity among parts was affected and changed by the synthesis. (p. 292-293)
Uncritically embracing Smuts’s holism, Merchant (1980) identifies it with the development
of ecology itself: “The most important example of holism today is provided by the science
of ecology” (pp. 292-293). In contrast, Tansley’s work, though occupying a far more important place in
the history of ecological science, is dismissed by Merchant as giving rise to
purely mechanistic, computer-driven models: “The reductionist ecology of Arthur George
Tansley, developed in the 1950s [sic.], has matured into the ‘Club of Rome’s’ computer
model, which predicts the ‘limits to growth’ for the entire world system” (p. 252).
In fact, the contradiction between teleological organicism and mechanistic materialism
was insurmountable and narrowly constraining on both sides. Although the materialist
tradition provided a more powerful scientific research program, it was often weakened by
mechanism and reductionism. Although the teleological holist tradition often seemed
more dialectical (though its teleology ultimately undercut that), it had little in the way of a
solid material grounding. The answer, we believe, lies in a nonteleological, dialectical
materialist ecology. During the 1930s, 1940s, and 1950s, figures such as Haldane,
Needham, Bernal, Hogben, Levy, Farrington, and Zilsel in the historical materialist tradition
struggled over these issues, which can be shown as foreshadowing the later work of
American Marxist contributors to biology and ecology, such as Gould, Lewontin, and
Levins (Clark & York, 2005b; Werskey, 1978). Probably the best example of this is Levins
and Lewontin’s (1985) The Dialectical Biologist.
Toward a Realist Constructionism in Ecology and Environmental Sociology
Our argument here is that environmental sociology cannot afford to embrace strong
social constructionism and expel realist views. Indeed, a sociology of ecology that can
serve as a counterpart to environmental sociology must embody a degree of realism. At the
same time, a crude positivism that ignores epistemology and social construction in favor of
naturalistic determinism is worse than useless. Neither the epistemic fallacy, which reduces
ontology to epistemology, nor the ontological fallacy, which reduces epistemology to
ontology, is acceptable. Ecological analysis in general depends on the development of a
strong dialectical objectivism or dialectical critical realism—what we have termed here
realist constructionism (Bhaskar, 1993). To address earthly questions regarding the social–
nature relation requires such an approach to grapple with the history and emergence of a
dynamic world.
A sociology of ecology, geared to the needs of environmental sociology in particular,
will be most effective, we have argued, if it takes the form of a realist constructionism. This
necessitates what Harding (1991) calls “strong objectivism,” which does not simply
include the adherence to certain objectivist criteria within science but also recognizes the
fact that knowledge including science is socially situated—and hence can only fully be
understood and evaluated in its broad development (through historically specific analysis).
Today’s attempts to evaluate the relative significance of Smuts’s and Tansley’s contributions
to environmental social thought (e.g., Merchant, 1980; Worster, 1977) have suffered from
a lack of knowledge of the historical construction of these ideas—how they arose in
a process of conflict and contradiction and how this affected their respective worldviews.
In treating the ecological world, Marx insisted that “the nature that preceded human
history . . . is nature which today no longer exists anywhere (except perhaps on a few
Australian coral islands of recent origin)” (Marx & Engels, 1975a, Vol. 5, p. 40).
Nevertheless, he also argued on material–realist grounds that there were
fundamental ecological constraints (for example, soil metabolism) on which human
society depended. The
materialist principle remains crucial for all ecological and ecological–social analysis.
Hence, both historical constructionism and realism were essential in an ecological
materialist analysis. Marx and Engels considered Darwin’s evolutionary theory to
be a breakthrough in the materialist–realist interpretation of natural history. But they warned of the
effects that certain bourgeois ideas, such as the “struggle for existence,” competition, and
overpopulation might have if transferred to nature and then transferred back to society as
eternal natural laws.
In the end, there can be little doubt that the presence of a teleological conception of nature
and a double transference (particularly with respect to race) constituted Tansley’s main
realist–constructionist objections to Smuts’s ecological holism. Smuts, the coiner of the words
holism and apartheid, used his concept of ecological holism to provide a philosophical–
scientific justification for the apartheid system for which he helped lay the foundations. For
Tansley, Smuts not only transgressed against a materialist conception of nature, but he also
transgressed against a materialist–humanist conception of society. Smuts’s idealism saw
nature–ecology not so much as a reflection of the human mind as a reflection of dominant
personalities (and races), which represented the apex in a new hierarchical scale of nature. As
an ecological research program, Smuts’s idealistic holism was unable to compete with
Tansley’s materialism, as the latter sought to construct/explain nature in terms of its complex
systems and processes, linked to close empirical analysis, rather than as a prefigured teleological
philosophy of succession (Clements) or a philosophy of segregation (Smuts). Tansley
was not philosophically naïve, recognizing that ecosystems were “isolates” on the model of
physics but ones that were not entirely arbitrary, as following nature’s seams.
The Tansley–Smuts conflict in the construction of ecological science points not only to
the importance of realism but also to the value of “externalist” or social–institutional
approaches to the sociology of science, concentrating on relations of class, production,
power, ideology, and the general social ethos, as exemplified in different ways by the
approaches of Hessen and Merton. For all the advances made in recent years in the sociology
of science through the examination of the microcontext of the laboratory, a broad
social–institutional approach that deals with the larger social background conditions
of science remains crucial. Rather than focusing on assorted reifications that distort
any conception of science, they remind us to focus on the big issues of alienation, exploitation
, and
oppression—the reflexive issue, as Harding says, of “Others.” For example, where there is
a struggle over race in society, this struggle is likely to be replicated in science (see Gould,
1996). Although this in itself does not give us the means of judging science itself, it
aids us in developing more dialectical conceptions that allow us to understand how
reality and reason can be distorted.
In the light of Smuts’s idealist dialectic of holism and apartheid, one is reminded of
Sayer’s (1992) realist–constructionist methodology, which argues that
it is not just the ideas (of racial differences etc.) behind apartheid in the abstract that are wrong
but the actual practices (enforcement of pass laws, etc.) and material structures (segregated
and materially deprived townships, etc.) which reciprocally-confirm, legitimate and are legitimated
by those ideas. (p. 40)
Likewise, “criticism,” as in the case of apartheid, “cannot reasonably be limited to false
ideas, abstracted from the practical context in which they are constitutive, but must extend
to critical evaluation of their associated practices and the material structures they produce
and which in turn help to sustain those practices” (Sayer, 1992, p. 40). A sociology of ecology
thus has to be forever attuned to the ways in which nature is used in struggles over
human society and the consequences of this, as well as to the human exploitation of nature
in the service of such social exploitation.
The dialectical realist constructionism that we have been defending here can be contrasted
to the skeptical or irrealist constructionism that has lately come to influence environmental
sociology. One manifestation of this has been a tendency to argue that the global
ecological crisis, phenomena such as global warming, is socially constructed and that it is
therefore subject to varying interpretations based on different conceptual schemes or discourses.
The truth claims of scientific reports in this area are thus declared to be discursive
and “uncertain” (Taylor & Buttel, 1992; Yearly, 1991).
Nevertheless, from the standpoint of dialectical–realist constructionism, it might be said,
in Vician terms, that we can understand the reality of global warming because we have
really made it. The physicist Tyndall first discovered as a result of laboratory experiments
in 1862 that carbon dioxide created a kind of greenhouse effect, heightening the temperature
near the earth’s surface (Weart, 2003, pp. 3-4). Throughout the century and a half since,
we have learned that the phenomenon of global warming is occurring because of anthropogenic
causes. The reality of global warming as well as our reflexive historical awareness
of it is the outcome of the dialectical process of the coevolution of human society and
nature, of which science is a part (Clark & York, 2005a). Such a perspective requires that
we avoid giving too much power to our mere conceptions while neglecting extra discursive
reality. As Soper (1995) has said, “It is not the discourse of ‘global warming’ or ‘industrial
pollution’ that has created the conditions of which it speaks” (p. 249). The agenda of a new
sociology of ecology concerned with the historical–sociological roots of our scientific
understanding of ecology derives its imperative (as does environmental sociology) from the
need to confront the planetary crisis that “surrounds us,” one which is also a product of our
own social juggernaut (Clark & York, 2005a; Foster, 2002).
There is an unavoidable tension between those who argue that nature is principally to be
viewed as constructed and those who claim that nature is a reality that is in some sense
independent of our constructions. These two views, as Soper (1995) claims, must be held
in “productive tension,” allowing us to engage the realist constructionism necessary for a
sociology of ecology.
Notes
1. More recent notions of “reflexive modernity” transcend the realist–constructionist divide in a sense
abolishing the distinction. Such approaches are perhaps too quick to accept “the end of nature” (i.e., the “end
of nature” as independent of human beings) and thus to translate environmental crises into questions of pure
“risk” to be fully acceptable to most environmental sociologists, who are disinclined to believe that nature has
in any sense “ended” and are concerned rather with the dialectical relations between nature and society (see
Giddens & Pierson, 1998, pp. 204-217).
2. In presenting these three principles in this form, we have taken certain liberties in all three of the “quotations” here. The notion that Galileo reached down and touched the earth and said “it still moves” is of course
the stuff of legend but can be taken as a fundamental principle of realism (Hart, 1978, pp. 102-104). Vico (1984)
argued that in contradistinction to the natural world, which, since “God made it, he alone knows,” the “world
of nations” was one that “since men . . . made it, men could come to know” it (p. 96) (see also Marx, 1976,
p. 493). This can be seen as the fundamental principle of historical–humanist–constructionism. Marx (1963)
stated that “men make their history, but they do not make it just as they please; they do not make it under
circumstances chosen by themselves, but under circumstances directly encountered, given and transmitted from
the past” (p. 15). This is the fundamental principle of historical materialism. We have expanded it to encompass
natural–environmental conditions as well. All three of these principles are central to what we refer to in this
analysis as “realist constructionism.”
3. As this quote indicates, “realism” is sometimes presented as an epistemological position and materialism as an ontological one. Bhaskar (1989) defines realism as “the theory that the ultimate objects of scientific
inquiry exist and act (for the most part) quite independently of scientists and their activity” (p. 12). Realism
thus points to a materialist ontology. Consequently, there is no consistency in distinguishing realism and materialism even among critical realists, with Bhaskar (1983a, 1983b) using both terms to cover the same
conceptual range but with somewhat different emphases—so that one can also refer to a materialist epistemology and a realist ontology. We therefore use the terms somewhat interchangeably in this article, giving preference to “realism” in the specific context of the “realism” versus “constructionist” debate itself and giving
preference to “materialism” where the polarity to be stressed is that of “materialism” versus “idealism.”
4. In the famous “epistemological chicken” debate between Collins and Yearly (1992) and Callon and Latour
(1992), Latour and Callon are presented as philosophical radicals who are shifting away from “social realism” (starting from the social nature of truth) toward “natural realism” (starting from natural objects). Latour and Callon, however, claim that their actor-network theory cannot be seen as subservient to traditional “natural realism” of science
in that it is aimed at questioning an ontological understanding that even at the level of basic vocabulary is rooted in
human-centered terms. Many social-ecological theorists therefore see this kind of radical questioning as liberatory.
5. The impact that Hessen had on sociologists, historians, and philosophers of science is dramatized by the
fact that the personal library of one of the authors of this article includes a copy of the 1971 edition of Science
at the Cross Roads, containing Hessen’s paper. The book was previously part of the library of sociologist
Edward Shils (1910-1995), was a major contributor to the sociology of science. It was sent to Shils by the distinguished chemist and philosopher of science Michael Polanyi (1891-1976). This copy of Science at the Cross
Roads still contain a printed card that says “with the compliments of Michael Polanyi.” Significantly, the card
was found (when the book came to one of the authors of this article) on the opening page of Hessen’s essay.
6. Merton’s relation to Hessen was complex. Although distancing himself from Hessen’s Marxian views
and his strong materialist externalism in the sociology of science, Merton nonetheless openly defended
Hessen against those who sought to discard his insights completely (see Merton, 1939). What was to be the
most influential part of Merton’s classic Science, Technology and Society in Seventeenth-Century England
addressed Protestantism and its influence on science and thus has sometimes been thought of as somewhat
Weberian in emphasis. But the second part of this work focused on the materialist–technological conditions
(what Zuckerman [1989] has called “The Other Merton Thesis”). This part of the analysis, as Merton (1970,
pp. 142-143, 185-187, 201-206) himself was at great pains to point out, was concerned with the economic and
materialistic interpretation of history, inspired by Hessen’s, if somewhat “crude,” Marxian analysis.
7. Although Lakatos normally refers to research programs as “progressive” or “degenerating,” we often follow Kuhn (2000) in his treatment of Lakatos in referring to the latter form as “degenerative” (p. 132).
8. Despite the fact that Kuhn thought of himself primarily as an internalist, concerned with the logic and
historical development of scientific rationality in its terms, he was well acquainted with classical externalist contributions by sociologists, having carefully studied Hessen, Merton, and Zilsel (Kuhn, 2000, p. 287).
9. A crucially important source for our analysis of the debate between Smuts and Tansely, and the divisions
in ecology in this period, is Peder Anker’s (2001) landmark work Imperial Ecology: Environmental Order in
the British Empire, 1895–1945. Anker’s analysis of the political divisions associated with the ecological debate
represented by Smuts and Tansley is far superior to earlier accounts, as in Tobey (1981). Anker’s research is
concerned with two different models of ecological and social management in the empire. Ours is focused on
the materialist versus idealist origins of ecological science in this period and its implications for the sociology of
ecology (and for the field of environmental sociology); hence, we draw on different materials and arrive at different (but not necessarily divergent) conclusions.
10. In Holism and Evolution, Smuts (1926) incorporated the “ontogeny recapitulates phylogeny” theory in
support of his theory of holism (pp. 74, 115).
11. John Scott Haldane was J. B. S. Haldane’s father. The latter was a staunch materialist and one of the
Baconian Marxists.
12. Like his contemporaries Wells and Julian Huxley, Tansley was a moderate socialist or social democrat
and an adamant materialist. He believed in what he once called a “semi-socialist society.” His views thus overlapped in certain critical areas with those of noted British radical scientists of his day, such as Bernal, Haldane,
Hogben, Levy, and Needham. However, he was strongly critical of the Soviet Union and what he perceived as
its “totalitarian” manner of organizing scientific research. During the famous “social function of science”
the debate of the 1940s, Tansley was one of the two founders of the Society for Freedom in Science, which opposed
the proposals of Bernal and others on the social organization of science (Anker, 2001, pp. 22, 224; Werskey,
1978, pp. 281-282).
13. The crucial role of abstraction (alongside the concept of internal relations) in dialectical thinking is discussed in Ollman (2003, pp. 59-112). It is noteworthy that Ollman (1976, p. 286) emphasizes the impact of
Levy on his thinking.
14. In a study of international environmental treaties from 1870 to 1990, David John Frank (1997) empirically demonstrated “the world-level rise and consolidation of the scientific ecosystem model of nature in the
post-World War II period” (p. 428).
15. Ironically, some ecological theorists and historians have suggested that the organicism and holism represented by Clements and Smuts persist in the work of ecological systems theorists such as Eugene Odum. Yet
Odum’s systems ecology is viewed as descending from the materialist ecosystems analysis initiated by Tansley
rather than the philosophical idealism and conception of climax communities propounded by Clements and
Smuts (see Barbour, 1995; McIntosh, 1980, pp. 204, 243; Simberloff, 2000, p. 77). The teleological view represented by Smuts can also be seen in the work of such figures as Fritjof Capra (1996). Such analysis tries
dialectically to transcend the idealist–materialist divide in the interest of a broader ecological holism.
16. Adler’s journal published a translation of Smuts’s 1931 presidential address to the BAAS, which
defended scientific idealism (Ansbacher, 1994, p. 490).
17. In his later Wealth of Nature, Worster (1993, p. 1975) writes much more positively of Tansley, and Smuts
is no longer posed as an alternative.
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John Bellamy Foster is a professor of sociology at the University of Oregon, editor of Monthly Review (New
York), and former coeditor of Organization & Environment. He is the author of The Vulnerable Planet (1994),
Marx’s Ecology (2000), Ecology Against Capitalism (2002), and The Ecological Revolution (forthcoming
2008), and coauthor (with Brett Clark and Richard York) of Critique of Intelligent Design (forthcoming 2008)—
all published by Monthly Review Press. His numerous articles include “Marx’s Theory of Metabolic Rift”
(American Journal of Sociology, September 1999) and (with Paul Burkett) “Classical Marxism and the Second
Law of Thermodynamics” (Organization & Environment, March 2008).
Brett Clark is an assistant professor at North Carolina State University. His areas of interest are ecology, political economy, and science. He has published articles in Organization & Environment, Theory and Society, The
Sociological Quarterly, and Monthly Review. He received the 2007 Outstanding Publication Award from the
Environment and Technology Section of the American Sociological Association for a series of articles published with Richard York.