Deforestation during the Roman period

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Deforestation during the Roman period was a result of the geographical expansion of the Roman Empire, with its increased population, large-scale agriculture, and unprecedented economic development. Roman expansion marks the transition in the Mediterranean from prehistory (around 1,000 BC) to the historical period beginning around 500 BC. Earth sustained a few million people 8,000 years ago and was still fundamentally pristine, [1] but Rome drove human development in Western Europe and was a leading contributor of the deforestation around the Mediterranean. [2]

Contents

Causes

Housing and building

The most basic building supply in the Roman time period was wood. Trees were cut to house increasing populations throughout the Roman Empire. While some Mediterranean houses were built with brick and stone, roof structures, covered with tiles, as well as the floors in multistory apartment buildings were often made of wood. [3]

It is estimated that at one point the Roman Empire had a population of 56.8 million people and an estimated one million or more in Rome alone (a population that was not matched in size in Europe until London in the 19th century). [4]

Fuel

Wood was essential fuel in industries like mining, smelting, and the making of ceramics. [3]

Agriculture

Roman harvesting machine from Trier, Germany Roman harvester, Trier.jpg
Roman harvesting machine from Trier, Germany

Agriculture was the economic base for the Roman Empire. With an ever-increasing population, the clearing of land for crops was a primary cause of initial deforestation. Human hands gave way to iron ploughs and harvesting machines, and the use of animals to clear dense forests to utilize the rich topsoil. [5]

Agriculture produced commodities that contributed to the economic prosperity of the Romans, who relied on the crops produced from the slaves/landowners. As a result, in 111 BC Roman law allowed anyone who occupied public land of up to 20 acres (81,000 m2) to keep it, provided it was brought into cultivation. [6] This type of policy created widespread clearing and reflected the importance of agriculture, not only to the affluent, but also to citizens, to the military and to merchants engaged in trade with other regions.

In Chapter 5 ("Roman Soil Erosion") of the book by Way of the Soil by Guy Theodore Wrench, the author describes the devastating effects which widespread deforestation and the subsequent overworking of the land to grow increasing amounts of grain for the Roman Empire's burgeoning population had on the land:

Animals and overgrazing

A major contributor to the environmental degradation and barrier to the regeneration of forests was the grazing of domestic animals. Animals grazed and destroyed land areas unsuitable for cultivation. [7] The consumption of hillside plants and young trees caused erosion, stripping hillsides of soils and eventually exposing bare rock. Silt and gravel would wash down off the hills and mountains creating other problems such as flooding, siltation, and filled-in marshlands. [8]

Military

With natural resources dwindling, maintaining a strong Roman army for the conquering of new lands was vital. Military campaigns devastated the countryside. Some farmers were forced to fight instead of caring for the land. When natural resources were depleted in already occupied regions of the Roman Empire, the military was sent to not only to defend lands of the Romans, but also to accumulate other areas of interest that had a plentiful supply of timber to accommodate the needs of the Roman economy.

Julius Caesar himself ordered troops to cut down forests to prevent sneak attacks. [9] Deforestation ensured that the forests could not provide cover and camouflage for Rome's enemies. The size of the standing army was about 300,000 and increased to 600,000 toward the late Empire period. [10] Roman legions deforested areas where they camped or marched to reduce the cover where their adversaries could hide and or mount a sneak attack. [10] The military utilized these resources and built fortresses, along with tools and transportation to carry supplies where needed.

Shipbuilding

Shipbuilding was a major contributor to deforestation and was of great economic and military significance. The importance attached to the supply of timber for building ships cannot be denied; ships were crucial to the burgeoning economic life of the Mediterranean, and sea power was vital in the exercise of political control. [11] Warships had priority over merchant vessels in competition for materials. [12]

Thousands of ships were built during this classical period. At times of war, hundreds could be built within a month. This put tremendous pressure on supply of usable timbers. Consequently, one effect of shipbuilding centers was the scarcity of timber in their immediate areas. Then, after immediate areas were depleted of wood resources, the transportation of wood timbers from other areas was the next option. Transportation was expensive, but increasing numbers of ships were needed to maintain naval dominance.

Urbanization

Early urbanization of Rome and surrounding areas was focused around the ability to obtain natural resources. Lowland areas and areas close to water transports were highly urbanized first, but as population increased along with trade and manufacturing, imperial expansion and colonization of conquered territories was needed. The environment underwent drastic degradation as pollution from the burning of fuelwood filled the air and smelters that used wood as fuel transmitted heavy metals into the atmosphere.

The creation of large cities contributed to deforestation in the classical world. Overcrowding forced citizens to move to the hillsides where forests once stood to build their homes. [10]

Consequences of deforestation

Soil

With an increased demand for resources and food, constant pressure was put upon the land and soil to provide food for a growing economy. Regular clearing and plowing exhausted existing soil, which eventually became infertile. Runoff and eroded soil from deforested hillsides increased the amount of silt and impeded the flow of water into agricultural areas. [13]

Eventually, due to the Mediterranean climate and the increased depletion of soil nutrients from hundreds of years of harvesting, yields diminished. [13] Rainwater that had been locked into the soil through vegetation and forests was now running off too quickly, with each raindrop unprotected by plants or by a litter layer. [14]

Flooding/harbors and ports

Erosion accelerated up to twentyfold in the 3rd century, creating unusable marshlands, which spread diseases such as malaria. Flooding from runoff disrupted water supply to natural springs and rivers, but also increased siltation to coastal areas and harbours at river deltas. Rains washed away the unprotected earth and greatly altered coastlines, in some cases, pushing them many miles farther out to sea as in the case around the mouths of the Po River. [15]

The washing away of topsoil and deposits of silt and gravel meant that harbors and ports needed to be moved, causing further burden upon the economy. Even in the city of Rome, floods covered the lower parts of the city and backed up the sewers. The first such flood was noted in 241 BC; records indicate increased flooding of the river from that time onward. [16]

Reflections and awareness

Clearing for agricultural needs and for heat was a necessity for long-term survival in Roman times, though there is a debate as to whether the Romans understood the implications of deforestation. Richard Grove said, "states will act to prevent environmental degradation only when their economic interests are shown to be directly threatened." The Romans did have some forms of ecological conservation though. Recycling of glassware was practiced along with architectural design that utilized solar heating. Forests were also under government regulations and protected for future resources. [17]

In the 5th century BC Plato complained that "the loss of timber had denuded the hills and plains surrounding Athens and caused massive soil erosion." [18] Cicero also noted "we (humans) are the masters of what the earth produces," and "all things in this world which men employ have been created and provided for the sake of men." [19]

Interpretations

Conjecture on Roman collapse

Tainter argued that "deforestation did not cause the Roman collapse," [20] but that one could make a case as to being a part of it. As Williams wrote, it is more likely that constant war, ravaging epidemics, rebellion, invasion from outside, a declining population, and an excessive degree of urbanization, separately or in combination, operated on the land in an empire that had extended beyond its means. [21]

In the 2011 environmental book Life Without Oil by Steve Hallett, the author argues that the collapse of the Roman Empire may have been linked to a peak wood scenario in the Mediterranean Basin. He suggests that, as wood had to be hauled from ever further away, the law of diminishing returns undermined the economic performance of Roman industry, leaving Rome vulnerable to the other, well documented problems of invasion and internal division. They discuss this as cautionary tale comparing it to contemporary society's potential fate under a post-peak oil scenario. [22]

Alternative view

Some argue that almost all of the above is based on an unhistorical projection of present concerns onto the past. [23] This alternative view argues that there are immense complexities of time, space, climate, geology and topography which, when combined with our extremely fragmentary information, makes generalizations almost impossible. Some crops – dates, figs, olives, chestnuts – played a very important role in Roman agriculture. Grains were often intercultivated with these crops. Almost all species of trees grow again when cut down. Cutting down a wood does not, by itself, destroy woodland. Coppicing is one way in which wood could be harvested on a sustainable basis for example.

Hypocausts were pre-adapted to burn poor quality fuels like straw as well as coal. There is a good reason to believe that both straw and coal were important fuels in antiquity, especially in Roman Britain where coal was abundant in many areas. A great deal of protection against soil erosion arises from terracing hillsides. We do not know how extensive terraces were in antiquity but a good deal of the soil erosion here assumed to be caused by the Romans, may well date to the Dark Ages when the maintenance of terraces broke down. Changes in tree cover may well arise from differences in climate, which are still not well understood. But there is some evidence that the decline of the Roman West is linked to climate change. [24]

Slash-and-burn agriculture, associated with lower populations than the Roman period, can be at least as responsible for deforestation and soil erosion as Roman agriculture. Coastal marshes can be caused by sea level changes quite as much as soil erosion. There may be reasons to believe that tree diseases as early as 6,000 years ago caused the elm decline but that this tree decline was related in some complex way to the practices of Neolithic farmers. [25]

See also

Related Research Articles

<span class="mw-page-title-main">Deforestation</span> Conversion of forest to non-forest for human use

Deforestation or forest clearance is the removal and destruction of a forest or stand of trees from land that is then converted to non-forest use. Deforestation can involve conversion of forest land to farms, ranches, or urban use. About 31% of Earth's land surface is covered by forests at present. This is one-third less than the forest cover before the expansion of agriculture, with half of that loss occurring in the last century. Between 15 million to 18 million hectares of forest, an area the size of Bangladesh, are destroyed every year. On average 2,400 trees are cut down each minute. Estimates vary widely as to the extent of deforestation in the tropics. In 2019, nearly a third of the overall tree cover loss, or 3.8 million hectares, occurred within humid tropical primary forests. These are areas of mature rainforest that are especially important for biodiversity and carbon storage.

<span class="mw-page-title-main">Forest</span> Dense collection of trees covering a relatively large area

A forest is an ecosystem characterized by a dense community of trees. Hundreds of definitions of forest are used throughout the world, incorporating factors such as tree density, tree height, land use, legal standing, and ecological function. The United Nations' Food and Agriculture Organization (FAO) defines a forest as, "Land spanning more than 0.5 hectares with trees higher than 5 meters and a canopy cover of more than 10 percent, or trees able to reach these thresholds in situ. It does not include land that is predominantly under agricultural or urban use." Using this definition, Global Forest Resources Assessment 2020 found that forests covered 4.06 billion hectares, or approximately 31 percent of the world's land area in 2020.

<span class="mw-page-title-main">Forestry</span> Science and craft of managing woodlands

Forestry is the science and craft of creating, managing, planting, using, conserving and repairing forests and woodlands for associated resources for human and environmental benefits. Forestry is practiced in plantations and natural stands. The science of forestry has elements that belong to the biological, physical, social, political and managerial sciences. Forest management plays an essential role in the creation and modification of habitats and affects ecosystem services provisioning.

<span class="mw-page-title-main">Logging</span> Process of cutting, processing, and moving trees

Logging is the process of cutting, processing, and moving trees to a location for transport. It may include skidding, on-site processing, and loading of trees or logs onto trucks or skeleton cars. In forestry, the term logging is sometimes used narrowly to describe the logistics of moving wood from the stump to somewhere outside the forest, usually a sawmill or a lumber yard. In common usage, however, the term may cover a range of forestry or silviculture activities.

<span class="mw-page-title-main">Shifting cultivation</span> Method of agriculture

Shifting cultivation is an agricultural system in which plots of land are cultivated temporarily, then abandoned while post-disturbance fallow vegetation is allowed to freely grow while the cultivator moves on to another plot. The period of cultivation is usually terminated when the soil shows signs of exhaustion or, more commonly, when the field is overrun by weeds. The period of time during which the field is cultivated is usually shorter than the period over which the land is allowed to regenerate by lying fallow.

<span class="mw-page-title-main">Illegal logging</span> Harvest, transportation, purchase, or sale of timber in violation of laws

Illegal logging is the harvest, transportation, purchase, or sale of timber in violation of laws. The harvesting procedure itself may be illegal, including using corrupt means to gain access to forests; extraction without permission, or from a protected area; the cutting down of protected species; or the extraction of timber in excess of agreed limits. Illegal logging is a driving force for a number of environmental issues such as deforestation, soil erosion and biodiversity loss which can drive larger-scale environmental crises such as climate change and other forms of environmental degradation.

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<span class="mw-page-title-main">Temperate deciduous forest</span> Deciduous forest in the temperate regions

Temperate deciduous or temperate broad-leaf forests are a variety of temperate forest 'dominated' by deciduous trees that lose their leaves each winter. They represent one of Earth's major biomes, making up 9.69% of global land area. These forests are found in areas with distinct seasonal variation that cycle through warm, moist summers, cold winters, and moderate fall and spring seasons. They are most commonly found in the Northern Hemisphere, with particularly large regions in eastern North America, East Asia, and a large portion of Europe, though smaller regions of temperate deciduous forests are also located in South America. Examples of trees typically growing in the Northern Hemisphere's deciduous forests include oak, maple, basswood, beech and elm, while in the Southern Hemisphere, trees of the genus Nothofagus dominate this type of forest. Temperate deciduous forests provide several unique ecosystem services, including habitats for diverse wildlife, and they face a set of natural and human-induced disturbances that regularly alter their structure.

<span class="mw-page-title-main">Deforestation in Thailand</span> Overview of the history and state of Thailands forests

Deforestation in Thailand refers to the conversion of its forested land to other uses. Deforestation numbers are inexact due to the scope of the issue. According to the Royal Forest Department (RFD) in 2019, Thai forests cover 31.6% of Thailand's landmass. The department claims that forest coverage grew by 330,000 rai in 2018, an area equivalent in size to the island of Phuket. A year earlier, an academic claimed that, since 2016, forested area has declined by 18,000 rai, a significant improvement over the period 2008–2013, when a forested million rai were lost each year. In 1975, the government set a goal of 40% forest coverage—25% natural forest and 15% commercial forest—within 20 years. To achieve that target in 2018, 27 million rai would have to be afforested.

<span class="mw-page-title-main">Deforestation in Brazil</span>

Brazil once had the highest deforestation rate in the world and in 2005 still had the largest area of forest removed annually. Since 1970, over 700,000 square kilometres (270,000 sq mi) of the Amazon rainforest have been destroyed. In 2001, the Amazon was approximately 5,400,000 square kilometres (2,100,000 sq mi), which is only 87% of the Amazon's original size. According to official data, about 729,000 km² have already been deforested in the Amazon biome, which corresponds to 17% of the total. 300,000 km² have been deforested in the last 20 years.

<span class="mw-page-title-main">Deforestation in Haiti</span> Environmental problem

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<span class="mw-page-title-main">Deforestation in Nigeria</span>

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<span class="mw-page-title-main">Deforestation in Costa Rica</span>

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<span class="mw-page-title-main">Deforestation in Madagascar</span>

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<span class="mw-page-title-main">Deforestation in Central America</span> Loss of forest biome in the Americas

Central American countries have experienced cycles of deforestation and reforestation since the decline of Maya civilization, influenced by many factors such as population growth, agriculture, narcotic distribution and illegal practices. From 2001 to 2010, 5,376 square kilometres (2,076 sq mi) of forest were lost in the region. In 2010 Belize had 63% of remaining forest cover, Costa Rica 46%, Panama 45%, Honduras 41%, Guatemala 37%, Nicaragua 29%, and El Salvador 21%. Most of the loss occurred in the moist forest biome, with 12,201 square kilometers. Woody vegetation loss was partially set off by a plus in the coniferous forest biome with 4,730 km2, and at 2,054 km2. Mangroves and deserts contributed only 1% to the loss in forest vegetation. The bulk of the deforestation was located at the Caribbean slopes of Nicaragua with a minus of 8,574 square kilometers of forest lost in the period from 2001 to 2010. The most significant regrowth of 3,050 km2 of forest was seen in the coniferous woody vegetation of Honduras.

<span class="mw-page-title-main">Deforestation in Kenya</span>

Kenya's forests are fragmented across the country. Combined, forests cover over 37 million hectares. Out of those 37 million hectares, 2.1 million are woodlands, 24.8 million are bush lands and 10.7 are wooded grasslands. Kenya's forests are important at a global level as they host 1847 species of amphibians, birds, mammals, and reptiles of which 4% are only found in Kenya. Beyond its fauna, Kenya's forest also hosts 6505 types of vascular plants, with 4.1% only being found in Kenya. Today Kenya faces high rates of deforestation which endanger both its fauna and flora. It has been estimated that since Kenya's independence in 1963, the forest cover has dropped from 10% of the nation to 6%, losing approximately 12,000 hectares annually. These levels of deforestation have impacted Kenya as they rely on the forest for the storage of rainwater, the prevention of flooding, the fertility of the soil, and the regulation of climate conditions. The World War II period and its aftermath made it clear to British colonial administration that reform was needed to sustain Kenyan forests. One of the first steps for conservation took place with the 1941 revision of the Forest Ordinance that passed legislation to create forest reserves and create a committee with professionals on matters of conservation. By 1950, the forest department had gained control of 100,000 acres, but it had a difficult time sustaining the conservation of these areas; it required meaningful policy to meet the constant attention these areas needed.

<span class="mw-page-title-main">Deforestation in the Democratic Republic of the Congo</span>

Deforestation in the Democratic Republic of the Congo (DRC) is an environmental conflict of international importance. Most of the deforestation takes place in the Congo Basin, which has the second largest rainforest in the world after the Amazon. Roughly half the remaining rainforest in the Congo Basin is in the DRC.

<span class="mw-page-title-main">Deforestation in Myanmar</span>

According to a report by the Food and Agriculture Organization of the United Nations, Myanmar lost 19%, or 7,445,000 hectares, of forest between 1990 and 2010. With forest covering as much as 70% of Burma at the time of independence, there were only slightly more than 48% forest cover left as of 2014. The deforestation rate of Myanmar has declined from 0.95% per year in the years 1990–2010 to about 0.3% per year and deforestation in Myanmar is now less than other countries of the region such as Indonesia or Vietnam, but still remains an important environmental issue. Three main factors contribute to continued deforestation: unsustainable and illegal logging, unresolved land rights and land disputes and extensive agricultural development.

<span class="mw-page-title-main">Deforestation in Nepal</span> Conversion of forest to non-forest for human use in Nepal

Deforestation in Nepal has always been a serious issue, which has a severe effect on the lives of poor people. In the past, Nepal was a widely forested nation. However now with the requirement for the extension of rural areas, migration of hills people to the plains, the developing regional interest for timber, and the local residents dependence on firewood as the essential source of energy, less than 30% of the nation's forest cover remains. Due to the continuous deforestation in Nepal, many people and creatures are dying. Around 70 percent of the people in Nepal work in agriculture, even if it is difficult to farm in the prevailing unfavourable weather conditions.

<span class="mw-page-title-main">Deforestation in Zimbabwe</span>

Deforestation is the purposeful clearing of forested land. Zimbabwe hosts some of the most important biodiversity hotspots in the world and is home to species of plants and animals. Forests currently cover around 45% of the country’s total land area, but deforestation is an increasingly pressing issue, resulting in forests disappearing quickly. The rate of deforestation in the country accelerated to 327,000 ha per year (1.9%) during the years 2000 and 2010 and is also currently the highest in Southern Africa. In fact, the rate of deforestation in Zimbabwe is one of the highest globally – directly affecting ecosystems, biodiversity, and livelihoods. In 2010, Zimbabwe had 1.06Mha of tree cover, extending over 2.7% of its land area. In 2021, it lost 9.05kha of tree cover, equivalent to 3.82Mt of CO₂ emissions.

References

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Sources

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