Friday, September 20, 2019
History Of The Fertile Crescent History Essay
History Of The Fertile Crescent History Essay The Fertile Crescent has been called the Cradle of Civilization for many years. The Cradle of Civilization is the key to understanding when the human population began to thirve and create vilages, cities, and ultimantly states. With out the domestication and cultivation of the land there would have never been enough food to support such a dence population of people. Hunting and collecting entirely from the wild could not possibly support even a tiny fraction of the worlds current population (Bellwood, 1). There were seven core domesticates in the Fertile Crescent, they include sheep, goats, pigs, cattle, emmer wheat, einkorn wheat and barley. All of these species were domesticated and had an important role in the Fertile Crescent throughout the two millennia emergence of agrarian societies between 10000 and 8000 B.P. We can best understand the events of this period by first focusing on the developmental history of the individual species of plants and animals that were brought under d omestication, and then combining those individual histories into the more complex overall story in the emergence of the agriculture in the region (Smith, 51). The story of the Fertile Crescent starts much before the emergence of the hunter- gatherers were raviging the forests and grass lands. By 10000 B.P. the beginning of the 2000 year period that would witness the development of agriculture, human societies had taken advantage of the post-Pleistocene proliferation of plant and animal resources, and the fertile crescent was inhabited by a diverse array of hunter-gatherer societies (Smith, 51). The Pleistocene era had ended with a much warmer climate that also brought a much moister climate to the area. This climate change was one that favored the wild annual cereal grasses (Sagan, 249). Also it allowed the sparse movement of hunter-gatherer groups to move in to the area. It was there that they discovered that a more sedentary lifestyle produced more of a greater surplus of food and than that of foraging. The Fertile Crescents environmental zones are keys to understanding the development of the domestications of the plants and animals. There are three main environmental zones involved in the origin of cultivation in the Fertile Crescent. The eastern section of which comprises the foothills and margins of the Zagros Mountains (Maisels 133). The central or the north is mostly made up of the broad rolling grasslands. Lastly, the western section whose central axis is the important Levantine corridor and Jordan Valley (Smith, 51). While deliberate cultivation eventually became most intensely practiced on the alluvial plain of Mesopotamia, it did not start there because the climate was too dry, thus requiring irrigation. In the central section, habitual harvesting of wild grains did occur, and it is suggested that this abundance led to the first sedentary villages dependent on harvesting wild grains. Ali Kosh a village occupied around 9000 B.P.; herded goats, intensively collected various w ild plants, and harvested wild wheat. Deliberate cultivation most likely came in response to documented climatic changes, which led inhabitants on the fringe of the hilly flanks to artificially duplicate the dense stands of wheat and barley that grew in the hilly flanks (Sagan, 237). There were many changes that occurred due to the cultivation of a plant or animal. These changes were many times become genetic due to the consistent selection of the more adequately produced products. In wild grains, the axis or rachis is brittle, which allows the grain to reseed itself easily. Selection of the grains was at first an accidental by-product of harvesting, and later intentionally, the people selected grains in which the axis was tougher, allowing less grain to fall to the ground, thus raising yields (Sagan 247). They also selected plants that were more easily husked. The people used the same natural selection process when choosing livestock. They selected woolly animals from among wild sheep, who are not normally woolly, thus acquiring sheep better suited to lowland heat and from which to obtain wool. Fossil remains indicate that domestication of sheep and goats was accompanied by a decrease in the size of the animal. The animals domesticated in the Fertile Crescent were key to the development of the humans in the area. The readily available source of meat aided in the functions of the brain, which led to the ability to think more complexly and creatively. The brain is fueled by protein therefore with more protein in the diet the mind began to develop more completely. Thus the importance of the domestication of the animals to the human race, with out having to hunt for the meat they were getting a more readily available source of protein (Wilkinson 139). The Persian wild goat has been recognized as the ancestor to the first domesticated goat. The Persian wild goat tends to be found in the more rugged terrain. It is in the eastern section of the Fertile Crescent that we find the most evidence of goats being hunted for their meat. Specifically at the site of Ganj Dareh, which was excavated in 1970s, which found at the lowest level, which dates back to 9000 B.P. contained approximately 5000 identifiable goat bones (Old Goats). Brian Hesse of the University of Alabama at Birmingham studied these bones. Using new analytical techniques to try to piece together evidence of the domestication of goats. Hesse theorized that a domesticated herd should have two clear distinguishing characteristics: (1) a large percentage of animals slaughtered for meat late in their immaturity, when they had attained much of their adult size; (2) an adult breeding population in which females far outnumbered males(Smith, 60). Through complex measurements of the b ones discovered at Ganj Dareh, Hesse discovered that the males were being killed before they reached adult hood and the females overwhelmingly stood for most of the population. This stunning breakthrough specifies that an age and sex profile that closely agrees with that of a herd of domesticated goats managed to provide meat (Old Goats). Clear demographic evidence appears to indicate that goats were domesticated at Ganj Dareh as early as 9000 years ago. The increase of the proportions of goat bones among the animal remains is an indicator to the shift to goat herding. Wild Sheep were the second animal to be domesticated in the Fertile Crescent. The wild ancestor of domesticated sheep ranged throughout much of the Fertile Crescent. A large amount of evidence of wild sheep can be found in the central region (Sagon, 245). There is much data to indicate that the wild sheep was not an important prey in the areas of Levant. There is, however, evidence showing that the sheep were a prey in Jericho that date wild sheep back to 10000 to 9500 years ago (Wilkinson 149). The degree to which the hunter-gatherer societies in different parts of the Fertile Crescent relied on wild sheep for food parallels the animals abundance in their local environments 10000 to 8000 years ago. The wild sheep were most were most abundantly discovered in the central region. This is probably why around 8500 B.P. sheep were first domesticated in the central area of the Fertile Crescent. There, the land is better suited to the wild sheep thus they were a more common target for hunte rs in that area, leading to the domestication of the sheep. With the change from being wild to being domesticated, the sheep, according to the fossil record, got smaller due to the selection process of the humans tending to the animals. It is in the apex of the Fertile Crescent that sheep herding first became an important component of agricultural economies (Smith, 57). The pig was, as far as we know the third animal to be domesticated. Wild pigs were greatly hunted in the northern part of the central region. Facts have lead archeologist to date the bones of the wild pigs to 9000 B.P. The pigs continued to be a substantial part of the diet of the people in this northern area of the Fertile Crescent, even after the shift to the herding of sheep and goats (Sagan, 243). The site of Cayà ¶nà ¼ tends to be the marker for the earliest domesticated pig, in the vicinity of 8500 years ago. There have been some tentative theories that approximate the domestication of pigs to be closer to the date of 10000 B.P. (Smith, 67). It is Richard Redding who proposed this theory, that the bones of the pigs at Hallan Cemi, strongly represent the ages of bones of a possible herding community of pigs. However since we know nothing about the ages of the pigs that the hunters targeted we have no basis for making the claim that the pigs at Hallan Cemi were indeed domestica ted and herded. For now it remains unverified but the alluring prospect that pigs were domesticated much before the evidence now shows. Cattle were probably the last and least important of the four main animals that were domesticated in the Fertile Crescent. The ancestors of domesticate cattle were probably considered to be a dangerous pay due to the size of the animal. However, it was also a significantly large package of meat. The area in the Levant and Jordan Valley has dated wild cattle bones to approximately 9000 to 8000 years ago. Like the pigs the cattle had a exceptionally large geographical range and extended far beyond the Fertile Crescent. There have been clear documentation of a pattern that shows the reduction of size in the cattle between 8000 and 7000 B.P. While cattle may show to be of little importance to the region between 10000 and 8000 B.P. it later became the dominant species of the market (Smith, 56). Now that we have looked at the individual histories of the animals of the seven core domesticates of the Fertile Crescent we see many patterns are emerging. The four species share common lines of evidence that include; geographical range, increase in abundance, reduction in size and change in age/sex profiles (Smith, 67). This evidence has lead to the indication that these histories were distinct and still follows the same indication of domestication. The goats were domesticated in the earliest portion of the period, at around 9000 B.P. Then the sheep, pigs and cattle soon followed after approximately 300 years after the domestication of the goats. Now that we have explored the four animals that were domesticated in the Fertile Crescent we must now turn to vegetation that grew and was domesticated in the Cradle of Civilization around the same time the animals were being domesticated. With the more sedentary lifestyle that the people of this time were adapting to they must have turned to the land and noticed that the annual growing cycle of the plants could help them support them selves without having to harvest the wild plants. They realized that the plants could be grown to fit their needs. There were about eight species of plants that were domesticated during this time (Smith, 48). However, only three of those eight show enough evidence to be mentioned, those three are emmer wheat, einkorn wheat and barley. These three plants were developed in to crops that become overwhelmingly important to the societies that thrived during this time. The first domesticated plant was emmer wheat. Wild emmer wheat was confined in the Fertile Crescent and grew in the areas of Levant, where it was domesticated. As emmer was domesticated, the shape and size of the grain changed, as did the structure of the rachis, the miniature stem that attaches the grain to the plant (Smith, 68). The grains became heftier and the stems became and sturdier. With the grains being more fruitful and staying on the plant longer it aloud more of the grains to be harvested and less of them lost. The morphological changes indicate that the emmer was domesticated. One of the first sites to show the domesticated emmer was the site of Jericho. The grains were found to be from approximately 9800 to 9500 B.P. or perhaps earlier. The large grains of wheat with the nonbrittle rachises, the stem that connects the grain to the plant, appeared around the same time in the lower levels at the site of Aswad, near Damascus (Smith, 68). It didnt take long for the domestic ated Wheat to spread throughout the entire Fertile Crescent. By approximately 8000 B.P. the entire area was producing signs of domesticated emmer wheat. Wild einkorn wheat was the next to be plant to be domesticated. The einkorn wheat was actually harvested by the hunter-gatherers before it was domesticated and intentionally grown. The grain is practically absent from the sites in the Levant, however it occurred in grossly high amounts in the areas of the Mesopotamia and the Anatolia, however the most important sites for the domestication of this wheat were in the central part of the Crescent, at sites such as Mureybit and Abu Hureyra. It is Abu Hureyra that holds the most data for the domestication of einkorn (Smith, 68). When it was excavated in the early 1970s, Gordon Hillman and his colleagues at the Institute of Archaeology of University College, conducted a large scale flotation recovery program that provided them with an exceptionally large and diverse assemblage of charred plant remains. Painstakingly analyzing the all 712 samples recovered, each of which contained about 500 seeds representing 70 species of or genera, Hillman and his co-workers were able to reconstruct the plant food diet of both the farming community that existed at Abu Hureyra from about 9500 to 8000 B.P. and the earlier Hunter-gatherer group that lived there in a permanent year-round settlement from 11000 to 10000 years ago. Of the 157 seed-bearing species harvested by the hunter-gatherer wild einkorn was among those most frequently, its seeds showed up in almost all of the flotation samples from these early levels (Smith 69). At the nearby site of Mureybit even convincing evidence was produced clarifying the strong reliance on the grain in the hunter-gatherer tribes even before the einkorn wheat was brought under cultivation. Barley is the only plant that is present throughout the entire Fertile Crescent and through the same time period as the both the emmer wheat and the einkorn wheat. While the record of early-domesticated barley overlaps with the other two forms of wheat, it exhibits several interesting differences. There were two forms of the barley that were domesticated and have been recovered from the early farming settlements. One of the plant species had two verical rows of grains, with each grain protected by an outer hull (Smith, 71), the other species contained six rows of grains to each stalk of the plant. The two-rowed barley was domesticated about the same time as the emmer wheat, about 9800 to 9600 B.P. However the six-rowed barley produced more harvest then the two-rowed barley, therefore, it was quickly domesticated soon after that of the two-rowed stalks. By 9500 to 9000 B.P., the six-rowed barley is the only species that was domesticated along with the emmer and einkorn wheat (Sagan, 2 45). The absence of a clear pattern of crop combination is perhaps the most interesting observation that can be made regarding the early domestication of the three plants. However, the advances in storage technology, allowed the former hunter-gatherers to exploit the cereals by grinding their seeds into a mill. This mill was easily kept and this allowed for food production in the colder months when the plants did not grow (Wilkinson, 151). The use of trade had a considerable effect in the movement of the methods that of growing and cultivating the wheat and other resourceful goods. These resources gained in value through interregional trade, which in turn resulted in intensified exploitation of the resources. Another result was the movement of the grains outside their indigenous zone, where they were subjected to different selective pressures, resulting in different strains of wheat and barley (Sagon, 243). After the domestication and cultivation of the plants and animals the small villages began becoming states, they were becoming more and more like a modern day civilization. The early stages of food production in the Middle East were marked by gradual transition from foraging to producing economies. Many changes were caused by the production and cultivation of food. Such changes include population increase, which caused the resulting migration and forced other areas to respond and begin their own cultivation of their resources. Also, there had been a gradual population increase, this was based on the native richness of the environment, which helped spur the spread of food production (Maisels, 140). On the other hand, in the Tigris-Euphrates alluvial plain, cultivation required irrigation, which began around 7000 B.P. and changed the world of farming. Irrigation allowed farming to spread away from the normal areas that were close to the riverbanks, by bringing the water away from the r iverbanks the cultivation began to strive. By 6000 B.P., irrigation systems had become far larger and more complex, and were associated with a new political system. This new establishment was based on central government, extreme contrasts of wealth, and social classes, the beginnings of the state (Wilkinson, 141). The written and archaeological record indicates that the early Mesopotamian states were city states (Sumer and Elam), ruled by a literate theocracy that managed virtually all major aspects of the economy, which was overwhelmingly agrarian. The theocracy was replaced by 4,500 B.P., it was replaced by a secular, military monarchy, based upon an elaborate class system (Sagon, 300). Thus ended the revolution of modern humans in the world of cultivation we now knew how to farm and use the animals to our advantage. As time continues to slip by we find more and more ways to maximize the products we get from the cultivation of plants and domestication of animals (Sagan, 248). To sum everything up Southwest Asia was inhabited by small groups of hunter-gatherers. These groups, due to the climatic change, became more and more sedentary and begin to develop a source of food production. This production of food came from the domestication and cultivation of plants and animals. The herded animals provided a constant source of protein in their diet and allowed for the hunters to expend their energy in other areas of life. The cultivation of the plants allows for a reliable supply of grains in their diet. This made the people of this time able to support larger families, which turned into villages, cities, and ultimately states.
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