In fact, neither monitoring nor gauged records are likely on their own to provide complete solutions to the problems posed. This is because a longer-term view is required. An average human lifespan is so much shorter than the millennia of natural history that we tend to be aware only of short-term variations in the environment – the wet summer, the late spring, the ‘record’ flood. What we are much less aware of are slower, subtler changes such as alterations in the floristic composition of woodland, the silting up of estuaries and the advance and retreat of glaciers. Yet only a long-term perspective could tell us that Britain’s downs and moors were transformed from their original woodland before written history even began (Simmons, 2003).

Written records are, however, restricted to literate cultures, and as late as AD 1500, they existed only in Europe, Asia and North Africa. There are consequently long periods of human history for which recorded observations are absent, termed prehistory by archaeologists. Moreover, written history covers very different time spans in different parts of the world. Whereas written history began around 5000 years ago in Mesopotamia with the Sumerians, and 2000 years ago in Britain with Julius Caesar, it only started in the 1930s in the highlands of Papua New Guinea when aircraft brought the first European contact. Prehistory has come to be associated in Western thought with all that is remote, both in time and in cultural affinity, to twenty-first-century life. On the other hand, to a New Guinea highlander (or a Maori or black Zimbabwean), prehistory represents a direct cultural heritage which ended only a few generations ago. All of this means that the attitudes towards the natural world of many past societies have either gone unrecorded, or have appeared in written form only through the eyes of others. Ethnobotanical and other studies, however, have revealed a remarkable indigenous knowledge of the natural environment and its uses by modern non-literate hunter-gatherers, peasant farmers and nomads (Cunningham, 2001).

It is not only from ancient times and distant places that historical data on the natural environment prove to be deficient. Old men may recall how, when in their youth, fine catches of salmon were taken from Scandinavian rivers now devoid of fish, but because no one recorded the pH of the water until acid rain became a problem during the 1970s, it is difficult to know whether the salmon were eliminated by acidification or simply overfished. Availability of documentary sources therefore tends to inhibit consideration of non-literate regions such as Papua New Guinea and problems such as acidification, which do not appear in historical accounts. The example of megafaunal extinctions (see Chapter 3) serves to illustrate the point. When told that much African wildlife is threatened by extinction, our reaction is one of horror. Yet extinctions of even greater magnitude have occurred within the time span of human history considered in this book, notably in the Americas and Australia where up to 90% of all large mammals were lost. However, this ecological crisis remains known only to a narrow audience of specialists because no contemporary written accounts of it were handed down to posterity.

This book aims to recount and try to explain changes in the natural world through time, including those in human–environment relations. If a truly cross-cultural perspective is to be taken on this, then we need to escape from the restrictions imposed by information derived solely from contemporary or documented historical sources. This is not to deny the critical importance of such sources, but while they have been employed extensively in studies of environmental relations (e.g. Glacken, 1967; Worster, 1993; McNeill, 2000), other sources have not. Without a time machine in which to return to the past, we have instead to rely on proxy evidence, including that from palaeo-science, which provides environmental histories, and archaeology, which provides human histories. These two sources sometimes come together as environmental archaeology, in which plant remains, animal bones and sediments from archaeological sites are studied to reconstruct their past economy and environment (Branch et al., 2005). These subjects share in common many techniques such as radiocarbon dating and pollen analysis, and they are often investigated together to form interdisciplinary research projects.

For the moment, it is sufficient to note some of the strengths and weaknesses of the palaeoenvironmental approach (Rymer, 1980; Oldfield, 2005). One of its weaknesses is that it cannot reconstruct attitudes to the natural world by former human societies in the way that historical sources can. Medieval cosmologies which placed ‘man’ in a holistic relationship with the natural world, for example, would be scarcely comprehensible without texts to explain them (Cosgrove, 2008). Environmental archaeology, with its concern for site economies and food remains, inclines the investigator towards an economic view of past human life (e.g. Higgs, 1972). This bias towards economic and away from social and cultural explanations is most easily countered where the archaeological past meets the anthropological present, for instance, with the Hopi Indians of the American southwest (Butzer, 1982). In the case of prehistoric Europe, it is not so easy. Even so, we occasionally get glimpses of past symbolic and ritual activities linked to the natural world; for example, pollen of meadowsweet (Filipendula ulmaria) from Bronze Age burials in Scotland demonstrates how floral tributes were placed next to their dead (Tipping, 1994; Clarke, 1999).

On the other hand, one of the great advantages of archaeology and palaeo-science is their ability to identify long-term patterns of cultural or environmental development (Caseldine and Turney, 2010; Caseldine, 2012). This is especially important because the timescales of adjustment in many environmental systems span centuries or millennia rather than individual years, via processes such as soil maturation and ecological succession (see Figure 1.1). In the case of palaeo-science, environmental reconstruction can be applied to more recent as well as to long-term changes. Most lake sediments, for instance, have continued to accumulate up to the present day, and they can therefore be used to give a historical dimension to such contemporary environmental problems as pollution of freshwaters. The continuous nature of most palaeoecological records provides what Frank Oldfield (1977) aptly described as ‘a true continuum of insight’. This enables us to establish whether environmental changes have been episodic or gradual and to identify baseline conditions if they existed. These techniques, unlike written records, have the further advantage of being as applicable in New Guinea as they are in New England.

The oldest and simplest human mode of production is hunting, fishing and gathering (h-f-g), described by Mandel (1969, p. 34) as a ‘primitive economy…in which the results are so meager that they must be shared to avoid death by starvation’. In fact, a wide range of anthropological studies suggest that far from eking out a meagre existence in a hostile environment, h-f-g groups probably represent the original affluent society (Sahlins, 1974; Simmons, 2008). Old World h-f-g populations are represented archaeologically by Palaeolithic and Mesolithic cultures.

Hunting and gathering was followed in the process of cultural evolution by peasant farming, the two being distinguished by the latter’s exploitation of domestic plants and animals. The adoption of agriculture by h-f-g groups, termed the Neolithic revolution by Vere Gordon Childe, was a decisive moment in human history. Undeniably, it changed the basis of human relations with nature. The basic form of production in h-f-g and subsistence agricultural economies is simple and communal, with no systematic expropriation of surplus labour. This is not true, however, of more complex agricultural economies which supported feudal, classical and ‘hydraulic’ societies. The resulting states and civilizations typically – although not always – brought with them literacy and consequently the start of written history. Finally, the last two centuries of human history have witnessed the rise of industrial, and arguably post-industrial, economies and the global expansion of Western European culture. Human impact on the Earth system in recent centuries has become so large that it has been proposed that it should be designated as a new geological era – the Anthropocene (see Technical Box IX). Each stage in this social evolution of humankind has seen an increase in control over our relationship with nature (Simmons, 1996, 2008). As we have evolved from hunting to agriculture to industry and beyond, so human impact upon the environment has apparently come to counterbalance or even replace environmental influence over human affairs.

A great strength of an evolutionary approach to human–environment relations is that it is historically mediated. However, consideration of the historical dynamic is usually focused on the human half of the partnership (e.g. Diamond, 1997). The forces of nature are all too often viewed as an essentially passive backcloth against which human history is acted out. Although this environmental backcloth may change fr...