- Amazon River
Portuguese Rio AmazonasRiver, northern South America.It is the largest river in the world in volume and area of drainage basin, and only the Nile River of northeastern Africa exceeds it in length. It originates within 100 mi (160 km) of the Pacific Ocean in the Peruvian Andes Mountains and flows almost 4,000 mi (6,400 km) across northern Brazil into the Atlantic Ocean. Its Peruvian length is called the Marañón River; the stretch of river from the Brazilian border to the mouth of the Negro River is the Solimõ es River. Its more than 1,000 known tributaries rise in the Guiana Highlands, the Brazilian Highlands, and (principally) the Andes; 7 of these are longer than 1,000 mi (1,600 km), and the Madeira River is longer than 2,000 mi (3,200 km). The Amazon can accommodate large freighters as far upriver as the city of Manaus, Braz., 1,000 mi (1,600 km) from the Atlantic. The first European descent was made by Francisco de Orellana in 1541; he is said to have given the river its name after reporting battles with tribes of women, whom he likened to the Amazons of Greek legend. Pedro Teixeira achieved the first ascent in 1637–39, but the river remained little explored until the mid-19th century. Many indigenous peoples originally lived along the river, but they moved inland as exploring parties and raiders (see bandeira) sought to enslave them. The river was opened to world shipping in the 1860s; traffic increased exponentially with the coming of the rubber trade, which reached its height с 1910 but soon declined. It is the site of the world's most extensive rainforest and hosts an extraordinary diversity of birds and wildlife. Since the 1960s the effects of economic exploitation on the region's ecology and the erosion of the rainforest have generated worldwide concern.
* * *IntroductionPortuguese Rio Amazonas, Spanish Río Amazonas, also called Río Marañón and Rio Solimõesthe greatest river of South America and the largest drainage system in the world in terms of the volume of its flow and the area of its basin. The total length of the river—as measured from the headwaters of the Ucayali-Apurímac river system in southern Peru—is at least 4,000 miles (6,400 km), which makes it slightly shorter than the Nile River but still the equivalent of the distance from New York City to Rome. Its westernmost source is high in the Andes Mountains, within 100 miles (160 km) of the Pacific Ocean, and its mouth is in the Atlantic Ocean, on the northeastern coast of Brazil. However, both the length of the Amazon and its ultimate source have been subjects of debate since the mid-20th century, and there are those who claim that the Amazon is actually longer than the Nile. (See below The length of the Amazon (Amazon River).)The vast Amazon basin (Amazonia), the largest lowland in Latin America, has an area of about 2.7 million square miles (7 million square km) and is nearly twice as large as that of the Congo River, the Earth's other great equatorial drainage system. Stretching some 1,725 miles (2,780 km) from north to south at its widest point, the basin includes the greater part of Brazil and Peru, significant parts of Colombia, Ecuador, and Bolivia, and a small area of Venezuela; roughly two-thirds of the Amazon's main stream and by far the largest portion of its basin are within Brazil. The Tocantins-Araguaia catchment area in Pará state (Pará) covers another 300,000 square miles (777,000 square km). Although considered a part of Amazonia by the Brazilian government and in popular usage, it is technically a separate system. It is estimated that about one-fifth of all the water that runs off the Earth's surface is carried by the Amazon. The flood-stage discharge at the river's mouth is four times that of the Congo and more than 10 times the amount carried by the Mississippi River. This immense volume of fresh water dilutes the ocean's saltiness for more than 100 miles (160 km) from shore.The extensive lowland areas bordering the main river and its tributaries, called várzeas (“floodplains”), are subject to annual flooding, with consequent soil enrichment; however, most of the vast basin consists of upland, well above the inundations and known as terra firme. More than two-thirds of the basin is covered by an immense rainforest, which grades into dry forest and savanna on the higher northern and southern margins and into montane forest in the Andes to the west. The Amazon Rainforest, which represents about half of the Earth's remaining rainforest, also constitutes its single largest reserve of biological resources.Since the later decades of the 20th century, the Amazon basin has attracted international attention because human activities have increasingly threatened the equilibrium of the forest's highly complex ecology. Deforestation has accelerated, especially south of the Amazon River and on the piedmont outwash of the Andes, as new highways and air transport facilities have opened the basin to a tidal wave of settlers, corporations, and researchers. Significant mineral discoveries have brought further influxes of population. The ecological (ecology) consequences of such developments, potentially reaching well beyond the basin and even gaining worldwide importance, have attracted considerable scientific attention (see Sidebar: Status of the World's Tropical Forests).The first European to explore the Amazon, in 1541, was the Spanish soldier Francisco de Orellana (Orellana, Francisco de), who gave the river its name after reporting pitched battles with tribes of female warriors, whom he likened to the Amazons of Greek mythology. Although the name Amazon is conventionally employed for the entire river, in Peruvian and Brazilian nomenclature it properly is applied only to sections of it. In Peru the upper main stream (fed by numerous tributaries flowing from sources in the Andes) down to the confluence with the Ucayali River is called Marañón (Marañón River), and from there to the Brazilian border it is called Amazonas. In Brazil the name of the river that flows from Peru to its confluence with the Negro River is Solimões (Solimões River); from the Negro out to the Atlantic the river is called Amazonas.Physical featuresThe length of the AmazonThe debate over the location of the true source of the Amazon and over the river's precise length sharpened during the second half of the 20th century, as technological advances made it possible to explore deeper into the extremely remote locations of the Amazon's headstreams and to more accurately measure stream lengths. Beginning in the 1950s, explorers of the region cited various mountains in Peru as possible sources, but they did so without taking precise measurements or applying hydrological research. An expedition in 1971, sponsored by the National Geographic Society, pinpointed Carruhasanta Creek, which runs off the north slope of Mount Mismi in southern Peru, as the source of the river. This location became widely accepted in the scientific community and remained so until the mid-1990s—although a Polish expedition in 1983 contended that the source of the river was actually another stream, nearby Apacheta Creek. (The Carruhasanta and Apacheta streams form the Lloqueta River, an extension of the Apurímac (Apurímac River).)With the introduction of Global Positioning System (GPS) (GPS) technology in the 1990s, researchers again attempted to navigate the entire length of the Amazon. The American geographer Andrew Johnston of the Smithsonian Institution's Air and Space Museum in Washington, D.C., employed GPS gear to explore the various Andean rivers that flow into the Amazon. Using the definition of the river's source as being the farthest point from which water could flow into the ocean and where that water flows year-round (thereby eliminating those rivers that freeze in winter), he concluded that the source was Carruhasanta Creek on Mount Mismi.By the early 21st century, advanced satellite-imagery technology was allowing researchers to match the river's dimensions even more precisely. In 2007 an expedition that included members of Brazil's National Institute for Space Research and other organizations traveled to the region of Carruhasanta and Apacheta creeks in an attempt to determine which of the two was the “true” source of the Amazon. Their data revealed that Apacheta was 6 miles (10 km) longer than Carruhasanta and carries water year-round, and they concluded that Apacheta Creek was indeed the source of the Amazon River. The team then proceeded to measure the river's length. As part of this process, they had to determine from which of the Amazon's three main outlets to the sea to begin the measurement—the Northern or Southern channels, which flow north of Marajó Island, or Breves Channel, which flows southward around the western edge of the island to join the Pará River estuary along the southern coast of the island. They chose to use the southern channel and estuary, since that constituted the longest distance from the source of the river to the ocean (at Marajó Bay); according to their calculations, the southern outlet lengthened the river by 219 miles (353 km). Their final measurement for the length of the Amazon—from Apacheta Creek to the mouth of Marajó Bay—was about 4,345 miles (6,992 km).This team of researchers, using the same technology and methodology, then measured the length of the Nile River, which they determined to be about 4,258 miles (6,853 km); that value was some 125 miles (200 km) longer than previous calculations for the Nile but nearly 90 miles (145 km) shorter than the length the group gave for the Amazon. These measurements infer that the Amazon may be recognized as the world's longest river, supplanting the Nile. However, a river like the Amazon has a highly complex and variable streambed—made more so by seasonal climatic factors—which complicates the process of obtaining an accurate measurement. Thus, the final length of the river remains open to interpretation and continued debate.Ed.Landforms and drainage patternsThe Amazon basin is a great structural depression, a subsidence trough that has been filling with immense quantities of sediment of Cenozoic age (i.e., dating from about the past 65 million years). This depression, which flares out to its greatest dimension in the Amazon's upper reaches, lies between two old and relatively low crystalline plateaus, the rugged Guiana Highlands to the north and the lower Brazilian Highlands (lying somewhat farther from the main river) to the south. The Amazon basin was occupied by a great freshwater sea during the Pliocene Epoch (5.3 to 1.8 million years ago). Sometime during the Pleistocene Epoch (about 1,800,000 to 11,800 years ago) an outlet to the Atlantic was established, and the great river and its tributaries became deeply entrenched in the former Pliocene seafloor.The modern Amazon and its tributaries occupy a vast system of drowned valleys that have been filled with alluvium. With the rise in sea level that followed the melting of the Pleistocene glaciers, the steep-sided canyons that had been eroded into the Pliocene surface during the period of lower sea levels were gradually flooded. In the upper part of the basin—in eastern Colombia, Ecuador, Peru, and Bolivia—more-recent outwash from the Andes has covered many of the older surfaces.Physiography of the river courseThe Amazon River's main outlets are the two channels north of Marajó Island, a lowland somewhat larger in size than Denmark, through a cluster of half-submerged islets and shallow sandbanks. There the mouth of the river is 40 miles (64 km) wide. The port city of Belém, Braz., is on the deep water of the Pará River estuary south of Marajó. The Pará is fed chiefly by the Tocantins River, which enters the Pará southwest of Belém. The port city's link with the main Amazon channel is either north along the ocean frontage of Marajó or following the deep but narrow furos (channels) of Breves that bound the island on the west and southwest and link the Pará River with the Amazon. There are more than 1,000 tributaries of the Amazon that flow into it from the Guiana Highlands, the Brazilian Highlands, and the Andes. Six of these tributaries—the Japurá (Japurá River) (Caquetá in Colombia), Juruá (Juruá River), Madeira (Madeira River), Negro (Negro River), Purus (Purus River), and Xingu rivers (Xingu River)—are each more than 1,000 miles (1,600 km) long; the Madeira River exceeds 2,000 miles (3,200 km) from source to mouth. The largest oceangoing ships can ascend the river 1,000 miles to the city of Manaus, Braz., while lesser freight and passenger vessels can reach Iquitos, Peru, 1,300 miles (2,090 km) farther upstream, at any time of year.The sedimentary axis of the Amazon basin comprises two distinct groups of landforms: the várzea, or floodplain of alluvium of Holocene age (i.e., up to about 11,500 years old), and the terra firme, or upland surfaces of Pliocene and Pleistocene materials (those from 11,800 to 5,300,000 years old) that lie well above the highest flood level. The floodplain of the main river is characteristically 12 to 30 miles (19 to 50 km) wide. It is bounded irregularly by low bluffs 20 to 100 feet (6 to 30 metres) high, beyond which the older, undulating upland extends both north and south to the horizon. Occasionally these bluffs are undercut by the river as it swings to and fro across the alluvium, producing the terra caída, or “fallen land,” so often described by Amazon travelers. At the city of Óbidos, Braz., where the river width is some 1.25 miles (2 km), a low range of relatively hard rock narrows the otherwise broad floodplain.The streams that rise in the ancient crystalline highlands are classified as either blackwater (Jari (Jari River), Negro (Negro River), and Tocantins-Araguaia (Tocantins River)) or clearwater (Trombetas (Trombetas River), Xingu (Xingu River), and Tapajós (Tapajós River)). The blackwater tributaries have higher levels of humic acids (which cause their dark colour) and originate in nutrient-poor, often sandy uplands, so they carry little or no silt or dissolved solids. Clearwater tributaries have a higher mineral content and lower levels of humic acids. Some rivers flow as clearwater during the rainy season and blackwater during the dry season. Where such blackwater tributaries enter the main river, they are sometimes blocked off to form funnel-shaped freshwater lakes or estuaries, as at the mouth of the Tapajós.In contrast, the Madeira River, which joins the Amazon some 50 miles (80 km) downstream from Manaus, and its principal affluents—the Purus, Juruá, Ucayali (Ucayali River), and Huallaga (Huallaga River) on the right or southern bank and the Japurá, Putumayo (Putumayo River) (Içá in Brazil), and Napo (Napo River) from the northwest—have their source in the geologically youthful and tectonically active Andes. There they pick up the heavy sediment loads that account for their whitewater designation. Where the silt-laden waters of the Amazon (Solimões in Brazil), derived from these streams, meet those of the Negro at Manaus, the darker and hence warmer and sediment-free waters of the latter tend to be overrun by those of the Amazon, creating a striking colour boundary that is erased by turbulence downstream.The mother river, the Marañón above Iquitos, rises in the central Peruvian Andes at an elevation of 15,870 feet (4,840 metres) in a small lake in the Cordillera Huayhuash above Cerro de Pasco. The Huallaga and Ucayali, major right-bank affluents of the Marañón, originate considerably farther south. The headwaters of the deeply entrenched Apurímac and Urubamba (Urubamba River), tributaries at the confluence of the Ucayali, reach to within 100 miles (160 km) of Lake Titicaca (Titicaca, Lake), the farthest of any stream in the system from the great river's mouth.The Negro River, the largest of all the Amazon tributaries, accounts for about one-fifth of the total discharge of the Amazon, and 40 percent of its aggregate volume is measured just below the confluence at Manaus. Its drainage area of about 292,000 square miles (756,000 square km) includes that of the Branco (Branco River), its major left-bank tributary, with its source in the Guiana Highlands. Another of the Negro's affluents, the Casiquiare, is a bifurcation of the Orinoco River; it forms a link between the Amazon and the Orinoco's drainage system. The Branco watershed, approximately coincident with the state of Roraima, includes extensive tracts of sandy, leached soils that support a grassy and stunted arboreal cover (campos). Other tributaries of the Negro, such as the Vaupés and Guainía (Guainía River), drain eastward from the Colombian Oriente. The river traverses some of the least populous and least disturbed parts of the Amazon basin, including several national parks, national forests, and indigenous reserves. In its lower reaches the Negro becomes broad and island-filled, reaching widths of up to 20 miles (32 km) in certain locations.The Madeira River, the second largest affluent of the Amazon, has a discharge of perhaps two-thirds that of the Negro. Silt from its turbid waters has choked its lower valley with sediments; where it joins the Amazon below Manaus, it has contributed to the formation of the 200-mile- (320-km-) long island of Tupinambarana. Beyond its first cataract, 600 miles (970 km) up the river, its three major affluents—the Madre de Dios (Madre de Dios River), the Beni (Beni River), and the Mamoré (Mamoré River)—provide access to the rubber-rich forests of the Bolivian Oriente; the meandering Purus and Juruá rivers that flank the Madeira on the west are also important tributaries that lead into those forests. Mamoré's tributary, the Guaporé (Guaporé River), opens up to the Mato Grosso Plateau.HydrologyMost of the estimated 1.3 million tons of sediment that the Amazon pours daily into the sea is transported northward by coastal currents to be deposited along the coasts of northern Brazil and French Guiana. As a consequence, the river is not building a delta. Normally, the effect of the tide is felt as far upstream as Óbidos, Braz., 600 miles (970 km) from the river's mouth. A tidal bore called the pororoca occurs at times in the estuary, prior to spring tides. With an increasing roar, it advances upstream at speeds of 10 to 15 miles (16 to 24 km) per hour, forming a breaking wall of water from 5 to 12 feet (1.5 to 4 metres) high.At the Óbidos narrows, the flow of the river has been measured at 7,628,000 cubic feet (216,000 cubic metres) per second; its width is constricted to little more than a mile. Here the average depth of the channel below the mean watermark is more than 200 feet (60 metres), well below sea level; in most of the Brazilian part of the river its depth exceeds 150 feet (45 metres). Its gradient is extraordinarily slight. At the Peruvian border, some 2,000 miles (3,200 km) from the Atlantic, the elevation above sea level is less than 300 feet (90 metres). The maximum free width (without islands) of the river's permanent bed is 8.5 miles (14 km), upstream from the mouth of the Xingu. During great floods, however, when the river completely fills the floodplain, it spreads out in a band some 35 miles (55 km) wide or more. The average velocity of the Amazon is about 1.5 miles per hour, a speed that increases considerably at flood time.The rise and fall of the water is controlled by events external to the floodplain. The floods of the Amazon are not disasters but rather distinctive, anticipated events. Their marked regularity and the gradualness of the change in water level are due to the enormous size of the basin, the gentle gradient, and the great temporary storage capacity of both the floodplain (flood) and the estuaries of the river's tributaries. The upper course of the Amazon has two annual floods, and the river is subject to the alternate influence of the tributaries that descend from the Peruvian Andes (where rains fall from October to January) and from the Ecuadoran Andes (where rains fall from March to July). This pattern of alternation disappears farther downstream, as the two seasons of high flow gradually merge into a single one. Thus, the rise of the river progresses slowly downstream in a gigantic wave from November to June, and then the waters recede until the end of October. The flood levels can reach from 40 to 50 feet (12 to 15 metres) above low river.ClimateThe climate of Amazonia is warm, rainy, and humid. The lengths of day and night are equal on the Equator (which runs only slightly north of the river), and the usually clear nights favour relatively rapid radiation of the heat received from the sun during the 12-hour day. There is a greater difference between daytime and midnight temperatures than between the warmest and coolest months. Hence, night can be considered the winter of the Amazon. At Manaus the average daily temperature is in the upper 80s F (about 32 °C) in September and the mid-70s F (about 24 °C) in April, but the humidity is consistently high and often oppressive. During the winter months of the Southern Hemisphere, a powerful south-polar air mass occasionally drifts northward into the Amazon region, causing a sharp drop in temperature, known locally as a friagem, when the mercury may register into the 50s F (about 14 °C). At any time of the year, several days of heavy rain can be succeeded by clear, sunny days and fresh, cool nights with relatively low humidity. In the lower reaches of the river basin, cooling trade winds blow most of the year.The main influx of atmospheric water vapour into the basin comes from the east. About half of the precipitation that falls originates from the Atlantic Ocean; the other half comes from evapotranspiration from the tropical forest and associated convectional storms. Rainfall in the lowlands typically ranges from 60 to 120 inches (1,500 to 3,000 mm) annually in the central Amazon basin (e.g., Manaus). On the eastern and northwestern margins of the basin, rainfall occurs year-round, whereas in the central part there is a definite drier period, usually from June to November. Manaus has experienced as many as 60 consecutive days without rain. Moreover, in 2005 the Manaus region experienced a devastating drought, which caused parts of the river to dry up; this made transportation difficult, depleted drinking supplies, and left millions of rotting fish in the riverbed. Such extreme periods of drought are uncommon to the Manaus region, but fluctuations in the river's level—thought to be related to climatic events and continued deforestation in the area—have continued to be of concern. The dry season is not sufficiently intense to arrest plant growth, but it may facilitate the onset and spread of fires, whether arsonous or natural. To the west the Andes form a natural barrier that prevents most of the water vapour from leaving the basin. The influence of mountains on rainfall is indicated by the high levels of precipitation in the upper piedmont and by the cloud-steeped Andean flanks, which feed the rivers that form a large part of the Amazon system. The highest amounts of precipitation, up to 140 inches (3,500 mm), are recorded in the upper Putumayo along the Colombian border.Along the southern margin of the Amazon basin, the climate grades into that of west-central Brazil, with a distinct dry season during the Southern Hemispheric winter. As elevations increase in the Andes, temperatures fall significantly.SoilsThe vast Amazonian forest vegetation appears extremely lush, leading to the erroneous conclusion that the underlying soil must be extremely fertile. In fact, the nutrients in the system are locked up in the vegetation, including roots and surface litter, and are continuously recycled through leaf fall and decay. Generally, the soils above flood level are well-drained, porous, and of variable structure. Often they are sandy and of low natural fertility because of their lack of phosphate, nitrogen, and potash and their high acidity. Small areas are underlain with basaltic and diabasic rocks, with reddish soils (terra roxa) of considerable natural fertility. The terra preta dos Indios (“black earth of the Indians”) is another localized and superior soil type, created by past settlement activity.The agricultural potential of the annually flooded várzea areas is great. Their soils do not lack nutrients, since they are rejuvenated each year by the deposit of fertile silt left as the waters recede, but their usage for agricultural purposes is limited by the periodic inundations. It is estimated that these valuable soils occupy some 25,000 square miles (65,000 square km).Plant lifeThe overwhelmingly dominant feature of the Amazon (Amazon Rainforest) basin is the tropical rainforest, or selva, which has a bewildering complexity and prodigious variety of trees. Indeed, as many as 100 arboreal species have been counted on a single acre of forest, with few of them occurring more than once. The Amazon forest has a strikingly layered structure. The sun-loving giants of the uppermost reaches, the canopy, soar as high as 120 feet (40 metres) above the ground; occasional individual trees, known as emergents, rise beyond the canopy, frequently attaining heights of 200 feet (60 metres). Their straight, whitish trunks are splotched with lichens and fungi. A characteristic of these giant trees is their buttresses, the basal enlargements of their trunks, which help stabilize the top-heavy trees during infrequent heavy winds. Further characteristics of the canopy trees are their narrow, downward-pointing “drip-tip” leaves, which easily shed water, and their cauliflory (the production of flowers (flower) directly from the trunks rather than from the branches). Flowers are inconspicuous. Among the prominent members of the canopy species, which capture most of the sunlight and conduct most of the photosynthesis, are rubber trees (Hevea brasiliensis), silk-cotton trees (Ceiba pentandra), Brazil nut trees (Bertholletia excelsa), sapucaia trees (Lecythis (monkey pot)), and sucupira trees (Bowdichia). Below the canopy are two or three levels of shade-tolerant trees, including certain species of palms—of the genera Mauritia, Orbignya, and Euterpe. Myrtles, laurels, bignonias, figs, Spanish cedars, mahogany, and rosewoods are also common. They support a myriad of epiphytes (plants living on other plants)—such as orchids, bromeliads, and cacti—as well as ferns and mosses. The entire system is laced together by a bewildering network of woody ropelike vines known as lianas (liana).In addition to the rainforests of the terra firme, there are two types of inundated rainforests, várzea and igapó, which constitute about 3 percent of the total Amazon Rainforest. Várzea forests can be found in the silt- and nutrient-rich floodplains of whitewater rivers such as the Madeira and the Amazon, with their ever-changing mosaic of lakes, marshes, sandbars, abandoned channels, and natural levees. They are generally not as high, diverse, or old as those of the terra firme, and they are subject to periodic destruction by floods and human manipulation. (The várzea and its flood-free margins attract the most human settlement.) Wild cane (Gynerium) and aquatic herbs and grasses, as well as fast-growing pioneer tree species of the genera Cecropia, Ficus, and Erythrina, are conspicuous.Igapó forests grow along the sandy floodplains of blackwater and clearwater rivers such as the Negro (Negro River), the Tapajós (Tapajós River), and the Trombetas. These forests may reach a maximum flood level of 40 feet (12 metres) for up to half the year, but they can be accessed by canoe.The lowland rainforest on the Andean fringe grades into a discontinuous, tangled montane or cloud forest of misshapen trees cloaked with mosses, lichens, and bromeliads. There the cinchona, or fever-bark tree, once exploited for its antimalarial agent quinine, can be found. At still higher elevations is the grass and shrub growth of the páramo zones and cold Antiplano region.Along the drier, southern margin of the Amazon basin, high forest gives way to the immense cerrado (scrub savanna), campo (grassy savanna), and caatinga (heath forest). The latter is characteristic of parts of the Mato Grosso Plateau, where taller forest is restricted to the stream courses and swales (marshy depressions) that dissect the upland surface. On the sandy soils of the lower Negro and the Branco drainage areas, and locally in Amapá, grassy savannas dotted with stunted trees replace the high forest. Large areas of grassy savannas can be found on the Mato Grosso Plateau, Marajó Island, the Llanos, and elsewhere.Animal lifeTo give a succinct overview of the complete fauna of Amazonia is as impossible as it is to adequately describe the great diversity of its flora; in part this is because many of the region's species have yet to be identified. The rivers and streams of the basin teem with life, and the forest canopy resonates with the cries of birds and monkeys and the whine of insects. There is a notable paucity of large terrestrial mammal species; indeed, many of the mammals are arboreal.More than 8,000 species of insects alone have been collected and classified. Myriads of mosquitoes (mosquito) may transmit diseases including malaria and yellow fever. Leaf-cutter ants (leafcutter ant) (of the genera Atta and Acromyrmex) are prevalent, as are the ubiquitous small black flies known as piums in Brazil. Fireflies, stinging bees, hornets, wasps, beetles, cockroaches, cicadas, centipedes, scorpions, ticks, red bugs, and giant spiders are abundant. Most spectacular, however, are the hundreds of species of brilliantly coloured butterflies; (butterfly) sometimes thousands of butterflies gather in the afternoon on riverside sandbanks.About 1,500 fish species have been found within the Amazon system, but many more remain unidentified. Most fish are migratory, moving in great schools at spawning time. Fish represent a critical source of protein in the often meat-poor diet of the caboclo population. (The term caboclo refers to people of mixed European and Indian ancestry in Brazil who live off the rivers and forests). Among the more important commercial species are the pirarucu (Arapaima gigas), one of the world's largest freshwater fish, and various giant catfish. The small, flesh-eating piranha generally feeds on other fish but may attack any animal or human that enters the water; its razor-sharp teeth cut out chunks of flesh, stripping a carcass of its meat in a few minutes. Some fish species have become locally threatened as the worldwide demand for frozen and dried fish has increased. Tropical fish of the Amazon are also some of the most desired for food and breeding and for use as aquarium specimens. Iquitos, Manaus, and the Colombian port of Leticia are centres of these trades.Alligators (crocodile) are hunted for their skins, river turtles (turtle) and their eggs are considered a delicacy, and the giant sea cow, or manatee, is sought for its flesh and for oil. All are threatened by overhunting, and the manatee has been listed as an endangered species. Aquatic animals also include river dolphins (river dolphin) (Inia geoffrensis); the semiaquatic capybara, the largest rodent in the world (weighing up to 170 pounds [80 kg]); and the nutria, or coypu, valued especially for its pelt. Other common rodents are the paca, agouti, porcupine, and local species of squirrels, rats, and mice.The tapir, the white-lipped peccary, and several species of deer are native to the Amazon basin and much sought for their meat. water buffalo, introduced from Southeast Asia as work and dairy cattle, predominate in the remote, swampy parts of Marajó Island.Especially characteristic of the Amazon forest are several species of monkeys. Of note are the howler monkeys (howler monkey), which make the selva resound with their morning and evening choruses. The small, agile squirrel monkey, the most ubiquitous of Amazonia's monkeys, is used in laboratories, as is the larger spider monkey. Among a host of other primate species are woolly monkeys, capuchin monkeys, titis, sakis, and marmosets. All species are used for food and frequently are seen for sale in local markets. As the human population increases and the shotgun replaces the blowgun, hunting of the wild fauna has been mounting.Large cats (feline), such as the jaguar and ocelot, have become rare, though pumas may be found in larger numbers in the Andean fringe of the basin. Smaller carnivores include coati, grisons, and weasels. Countless bats inhabit the Amazonian night, including the blood-eating vampire bat.Other animals of the forest include two varieties of arboreal sloths (sloth), three types of anteaters (anteater), armadillos, and iguanas (iguana), the last especially prized for their flesh. Among snakes the nonpoisonous boa constrictor and anaconda are notable for their size, the latter reaching lengths up to 30 feet (9 metres).The Amazon basin is exceedingly rich in birdlife (bird). Morning and evening, the parrots and macaws fly to and from their feeding grounds, their brilliant plumage flashing in the sunlight and their raucous voices calling out their presence. Throughout the day the caciques (cacique) quarrel in trees where their hanging nests swing by the dozens. Hoatzins screech in noisy flocks from streamside brush, while solitary hawks and eagles scream from tree stumps. Everywhere is heard the twittering of small birds, the sound of woodpeckers, and the guttural noises of such waterbirds as herons, cormorants, roseate spoonbills, and scarlet ibises. Parakeets, which are more common in the Amazon than sparrows are in the United States, fly around in great flocks. At dusk, toucans cry a discordant plaint from the treetops and are joined by ground-dwelling tinamous and quail. The night air is filled with the cries of various species of nightjars.PeopleEarly settlement patternsThe Amazon basin has long been relatively uninhabited. At the time of the European conquest, the bottomlands and fringing upland surfaces of the Amazon River and its major tributaries supported relatively dense, sedentary populations of indigenous peoples who practiced intensive root-crop farming, supplemented by fishing and by hunting aquatic mammals and reptiles. The more-elevated areas away from the rivers and their floodplains were—and still are in some of the more remote sectors—inhabited by small, widely dispersed, seminomadic tribes of Indians. These groups traditionally have relied predominantly on hunting large and small animals and on gathering wild fruits, berries, and nuts while practicing small-patch agriculture of low yield. In the early 1990s the Indian population of the Amazon basin numbered about 600,000, of whom perhaps close to one-third lived in Brazil and the rest in the Oriente regions of the four Andean countries. However, by the early 21st century the Indian population had dropped to fewer than 200,000, partly as a result of deforestation and commercial exploitation on their lands.The Amazonian Indians early devised means of making the poisonous bitter cassava (manioc) edible; the end product, called farinha, became a food staple widely used today in much of tropical America. Amazonian Indians perfected the use of quinine as a specific against malaria, extracted cocaine from the leaves of the coca tree, and collected the sap of the Brazilian rubber tree. They were skilled navigators in their dugout canoes and sailing rafts (jagandas), and they invented the blowgun and the hammock. One of their arrow poisons, curare, has been used to treat a host of paralyses and spastic disorders, including multiple sclerosis.The early European explorers of the Amazon provisioned themselves from the food supplies of the Indians they met and commandeered their canoes. Large numbers of Indians were taken into slavery, especially during organized raids (bandeiras (bandeira)) from the 16th to the 18th century; many others succumbed to such European diseases as influenza, measles, and smallpox. The result was a complete breakdown of native life and a precipitous decrease in the Indian population; survivors fled into increasingly inaccessible sections of the Amazon basin. As late as 1906 there were reports of the wholesale capture of Indians who were enslaved in order to tap rubber, which was plentiful and commanded a high price on the world market but which was difficult to exploit because rubber trees were sparsely scattered over a huge area.Settlement by Europeans and mestizos (mestizo) (those of mixed Indian and European ancestry) did not occur to any appreciable degree until the 1870s and '80s, when victims of severe droughts in northeastern Brazil began to move into Amazonia to profit from the rubber boom. Another wave of immigration began at the end of World War II, spurred by the rapid economic development of the region.Most of the surviving Indian peoples live in the remote areas of the basin. Those living north of the Amazon River speak languages of the Arawaks (Arawak) and Caribs (Carib), while those to the south speak predominantly Tupian languages (Tupian). Tupian was used as a lingua franca between Europeans and Indians until the Portuguese became dominant in the 19th century; nonetheless, Brazilian Portuguese has been heavily influenced by Tupian. Finally, there are known to be “undiscovered” Indian groups living in the Amazon region—i.e., those located so remotely that they have yet to be encountered or who have intentionally been left alone by outsiders.Contemporary settlement patternsThe increasingly effective control of malaria, improved diets and sanitation, and the greater ease of transportation had made the Amazon basin more attractive for human settlement by the late 20th century. Increased activities related to resource exploitation have contributed to the transformation of the Amazon and its vast hinterland, especially in Brazil. Indeed, its vast area notwithstanding, the Amazon basin in the early 21st century had a predominantly urban population. Almost one-third of the estimated nine million Brazilians living in the 1.9 million-square-mile (5.2 million-square-km) area officially designated as Legal Amazonia are concentrated in Belém and Manaus, cities with more than one million inhabitants each, and in Santarém. These cities, which are logistic bases of operations for cattle ranching, mining, timber, and agroforestry projects, are still growing rapidly, with modern residential towers and shantytowns standing side by side. Even frontier trading centres in the interior, such as Marabá, Pôrto Velho, and Rio Branco, have significant populations. Some places in the upper reaches of the drainage area have become significant urban centres with most of the amenities of modern life—such as Florencia and Leticia in Colombia; Iquitos, Pucallpa, Tarapoto, and Puerto Maldonado in Peru; and Santa Cruz in Bolivia. These cities and towns, and even the more isolated settlements and mission stations of the Oriente, are all accessible by plane.EconomyDevelopment of the Amazon basinSince World War II the economic development of the Amazon basin has been a priority for the countries it spans. From the mid-1940s onward a number of “penetration roads (roads and highways)” have been built from the populous highlands of Colombia, Ecuador, Peru, and Bolivia into the Oriente. These roads have funneled untold numbers of landless peasants into the lowlands. They also have served to facilitate development of major oil discoveries and timber resources. Tropical hardwoods, river fish, and, since the 1980s, clandestinely produced cocaine have been objects of commercial exploitation, along with Brahman-type livestock raised on pastures newly carved from the selva. Such activities have led to widespread displacement of indigenous groups, who have been either forced onto new reserves or left to survive as best they could.The opening of the Amazon basin has been pursued most aggressively in Brazil. In the mid-1950s the decision was made to refocus the country toward its interior by constructing a new inland capital, Brasília. One consequence of this decision was the initiation of a massive road-building program that aimed at integrating the North (consisting of the present-day states of Acre, Amapá, Amazonas, Pará, Rondônia, and Roraima) with the rest of Brazil while establishing an escape valve for the crowded and drought-stricken Northeast. A 1,100-mile- (1,770-km-) long highway linking Brasília with Belém, the trade centre at the mouth of the Amazon, was completed in 1964. The even more ambitious 3,400-mile (5,100-km) all-weather Transamazonian highway from the Atlantic port of Recife to Cruzeiro do Sul on the Peruvian border—with extensions north to Santarém and Manaus (later to the Venezuelan border) and southward to Cuiabá (Mato Grosso) and Pôrto Velho (Rondônia)—was to provide the frame for a network of nearly 20,000 miles (32,000 km) of highways and feeder routes that was to supersede the traditional fluvial transport system. By the early 21st century the highway had not been completed, and it remained largely unpaved and impassable at several points.The government had planned to settle about 100,000 families along the Transamazonian Highway, but this goal was not reached. Indeed, the majority of families who did arrive abandoned their agrovilas (communities of colonist settlers) within a few years because of declining crop yields on the poor soils, weed invasions, plant diseases, lack of credit, and the long distances to markets. Most of the agrovilas fell into states of disrepair and abandonment by the 1970s. Disillusioned by the Transamazonian experience, the government shifted its emphasis to encouraging large-scale capitalist enterprises. Cheap credit and tax breaks were offered to promote the creation of vast cattle ranches within Legal Amazonia.The completion of the Cuiabá–Pôrto Velho highway about 1970 facilitated movement between Mato Grosso and the Rondônia area along the Bolivian border, with its more fertile terra roxa soils. It brought an unanticipated flood of immigrants from South Brazil, who had become displaced by the shift to large-scale commercial production of export crops (soybeans, citrus, cotton, and wheat). Between 1970 and 1990 the population of Rondônia increased from roughly 116,000 to more than 1,000,000, and in the early 21st century its inhabitants numbered about 1,500,000. The population of Acre to the west reached 400,000 by 1990 and during the next 15 years increased by some 250,000.Agriculture and forestryUpland rice, manioc (cassava), and, to a lesser extent, corn (maize) are cultivated on small plantations, and they form the mainstay of the carbohydrates for the caboclo diet. Jute, heart of palm (from Euterpe oleracea), and guarana (for a favourite Brazilian soft drink) are all minor commercial crops. black pepper, introduced from Southeast Asia, has become a specialty crop of Japanese colonists.Cattle pastures by far dominate land use on the cleared parts of the Amazon basin, both in areas of large ranches, such as those in southern Pará and Mato Grosso, and in areas initially cleared by the owners of smaller individual operations who cultivate crops, as along the Transamazonian Highway. Pasture is even dominant in areas such as Rondônia, where government programs have promoted the cultivation of cacao, coffee, Brazil nuts, and other perennial crops for which a ready cash market exists.Excellent timbers (wood) are furnished by mahoganies (Swietenia macrophylla and S. humilis), Amazonian cedars (Cedrela odorata), Brazilian rosewoods (Dalbergia nigra), and many other species. Some types, however, are threatened by intensive exploitation. Other trees, such as the coumarou, or tonka bean (Dipteryx odorata), yield perfumes, flavourings, and pharmaceutical ingredients. However, the rubber and Brazil nut trees produce more-valuable commodities. The rubber tree, for example, has been one of the reasons for the intense penetration and exploitation of the forest. It gave rise to a period of great but temporary prosperity, especially for the city of Manaus from 1890 to 1920. The rubber gathered from both wild trees and those grown in small plantations continues to make a contribution to the Amazonian economy.In Brazil areas within the remaining undisturbed forest in Pará state have been designated for the use of rubber tappers and nut collectors. Yet the establishment of such “extractive reserve” lands have attracted illegal and often dangerous squatters and speculators, known as grileiros. These armed land squatters unlawfully clear land for soybean farms and lumber operations and usually obtain land titles by devious and violent means. Soybean cultivation in particular has expanded because of the growing worldwide demand for biofuels (Brazil is the largest producer of soybean-based biodiesel of any country). In 2004 the Brazilian government signed decrees to create thousands of square miles of land preserves in the areas where longtime residents had been susceptible to attacks by grileiros. Although the preserved land was put under government control, disputes among grileiros and peasants living in the rainforest have escalated into the early 21st century.Corporate farming and agroforestry operations such as Fordlandia, Belterra, and Jari in eastern Brazil and Tournavista in Peru have had little success, because of poor soil fertility; the Jari enterprise, for example, was taken over by a consortium of Brazilian investors and the government in 1982. Transnational corporations investing in livestock operations, especially in southern Pará and Mato Grosso, included Volkswagen AG; Swift-Eckrich, Inc.; King Ranch, Inc.; and Liquigas Italiana. All subsequently terminated their activities.Mining and energyThe exploitation of the enormously rich mineral complex of the Serra dos Carajás area west of the town of Marabá on the Tocantins River has been highly profitable, but it has also had harmful effects on the environment. This site, one of the world's largest and richest iron ore deposits, also produces gold, copper, nickel, manganese, tin, and bauxite. The million-acre concession is run by Vale do Rio Doce (CVRD; now known as Vale); initially, it was a partnership between private capital and the federal government, but it was privatized in 1997. Vale's plans for the local smelting of the iron ore in the 2000s required the clearing of thousands of acres of forest annually to provide charcoal for producing pig iron. A rail line connects the Carajás development with the Atlantic coast.Gold (gold rush) mining reached a feverish pitch in the 1980s, stimulated by high world prices of gold. At the height of the Amazon “gold rush,” as many as a half million transient miners (garimpeireos) came equipped with picks, shovels, and sluice boxes to search for the mineral in the alluvial deposits of the Tocantins valley at Serra Pelada. Brazil's annual production peaked in 1987 but declined thereafter. Large amounts of the mercury (mercury processing) used to extract the gold were released into rivers and caused the fish, which are so important in the local diet, to become unsafe to eat. Moreover, since the 1990s mercury contamination has grown among Amazonian peoples, especially those groups that are more isolated and consume large amounts of fish. On the Madeira River, teams operating from rafts pump up from the riverbed auriferous sediments, which have to be subjected to a treatment similar to that used in gold mining. Bauxite mining, both at Carajás and on the Trombetas River north of the Amazon, requires the use of large settling ponds to trap effluents.The energy requirements of both the Carajás development and the city of Belém are met by the giant Tucuruí hydroelectric plant on the Tocantins River, one of the largest hydroelectric power stations in the world. A more modest hydroelectric facility on a small river north of Manaus supplies that city with power. A growing sensitivity to the harmful consequences for both human beings and the environment due to the construction of large dams has caused several ambitious projects to be placed on hold.The principal oil (petroleum) developments within Amazonia have taken place in the Oriente regions of the Andean countries. Oil pipelines originate from districts in both Colombia (the upper Putumayo) and Ecuador (Agrio Lake), as well as northeastern Peru, and end at export terminals on the Pacific coast. Within the Brazilian and Bolivian portions of the basin, developments have been of minimal consequence.Ecological concernsInternational concern about the ecological (ecology) consequences of continuing deforestation has been growing and was underscored by the United Nations Conference on the Environment and Development (United Nations Conference on Environment and Development) (“Earth Summit”) held in Rio de Janeiro in 1992. International calls for conservation were based on the view that the Amazon basin is a global resource, one that serves as a control mechanism for the world's climate and as a genetic repository for the future. The countries of the region, however, tended to look upon such calls as a challenge to “national sovereignty.”The extent and rate of deforestation have been subject to continuing controversy. Even with the use of satellite imagery, it has been difficult to distinguish between regenerating secondary vegetation and undisturbed forest because of the persistence of cloud cover and sometimes smoke. The employment of radar has made investigations more precise, however. In Brazil deforestation was initiated in Mato Grosso and southern Pará in the 1960s and became widespread over the next two decades in Rondônia and Acre. By the late 1980s nearly two-fifths of Rondônia had been deforested, and the process has continued. In Colombia the upper Putumayo and Caquetá river areas, in Ecuador the region of Napo, and in Peru the Tingo Maria–Pucallpa district have been among the more notable foci of clearing. The cultivation of coca for illicit production of cocaine continues to stimulate such activities in western Amazonia.The consequences of continuing deforestation have been much discussed. The forest is an efficient absorber of carbon dioxide, and scientists believe that the volume of gas released when substantial parts of the forest are cleared and burned may contribute to global warming through the greenhouse effect (see hydrosphere: Buildup of greenhouse gases (hydrosphere)). Continued conversion of tropical forest to cropland, pasture, or second-growth forest may reduce the region's evapotranspiration, thereby interrupting the hydrologic cycle and the recycling of soil nutrients; a likely consequence is an increase in the amount of water running off the surface and greater extremes in water levels (see also Sidebar: Status of the World's Tropical Forests).The unique gene pool of the Amazon Rainforest, with perhaps two-thirds of the known organisms of the world, is threatened by continuing deforestation. Particular emphasis has been placed on the threat to biodiversity and the possible loss of as yet unknown and unexploited pharmaceuticals contained in the forest. Finally, also at stake is the survival of many of the region's indigenous peoples, who have become integrated into the ecosystem of the rainforest and who have acquired significant knowledge on the beneficial nature of its resources.Study and explorationEarly European explorationIn the early days the Amazon River was the only means of access into the forest. Francisco de Orellana (Orellana, Francisco de) descended the main course of the Amazon from the Ecuadoran and Peruvian Andes to the Atlantic in 1541–42. Nearly a century later, Pedro Teixeira went from Belém, Braz., to Quito, Ecua., and the region increasingly became known through the explorations of the Portuguese. In 1743 the French naturalist Charles-Marie de La Condamine (La Condamine, Charles-Marie de) made a raft trip down the Amazon, during which he made geographic and ethnographic observations of the basin.At the outset of the 19th century, the German explorer Alexander von Humboldt (Humboldt, Alexander von) confirmed the connection between the Amazon and Orinoco systems through the Casiquiare River. The English naturalist H.W. Bates (Bates, H.W.) spent time along the Amazon in 1848–59, collecting thousands of species of animals. His book The Naturalist on the River Amazons, originally published in two volumes in 1863, is still regarded as one of the great classics on the Amazon River. An official expedition was sent from the United States to Amazonia in the mid-19th century; in 1854 in Washington, D.C., William Lewis Herndon published the report that he and Lardner Gibbon—both lieutenants in the U.S. Navy—had made to Congress under the title of Exploration of the Valley of the Amazon.Exploration since 1900The period since 1900 has been one of numerous exploratory and scientific expeditions. In 1913–14 U.S. Pres. Theodore Roosevelt (Roosevelt, Theodore) and Brazilian Col. Cândido Rondon headed an expedition that explored a tributary of the Madeira and made natural history collections and observations. A party sponsored by Harvard University's Institute of Geographical Exploration did important scientific work in the years 1910–24. The American Geographical Society compiled data and published detailed maps of this vast region.Since World War II the international scientific community has been increasingly attracted to Amazonia. British, French, German, Japanese, and North American groups have carried out detailed biophysical and cultural surveys; a large number of international workshops, conferences, and symposia on Amazonian problems have been held. The Amazon Cooperation Treaty, signed in Brasília in 1978 by representatives of all the basin's countries, pledged the signatories to a coordinated development of the region on sound ecological principles. (In 1995 those countries created the Amazon Cooperation Treaty Organization to strengthen and better implement the treaty goals.) Brazilian scientists have also contributed significant research on issues concerning the area. Particularly important has been the work of the National Institute of Amazonian Research (INPA) at Manaus, the Goeldi Museum in Belém, and the National Institute for Space Research in São José dos Campos.Additional ReadingIntroductory overviews of the Amazon River basin include the treatment of the basin in N. Mark Collins (ed.), The Last Rain Forests (1990), pp. 110–129; Catherine Caufield, In the Rainforest (1985); and Hilgard O'Reilly Sternberg, The Amazon River of Brazil (1975).The issue of tropical forest conversion and its ecological impact came to public attention with the appearance of R.J.A. Goodland and H.S. Irwin, Amazon Jungle: Green Hell to Red Desert? (1975). Collections of essays on the basin, often elaborating on this theme, include Harold Sioli (ed.), The Amazon: Limnology and Landscape Ecology of a Mighty Tropical River and Its Basin (1984); Robert E. Dickinson (ed.), The Geophysiology of Amazonia (1987); Marianne Schmink and Charles H. Wood (eds.), Frontier Expansion in Amazonia (1984); and John Hemming (ed.), Change in the Amazon Basin, 2 vol. (1985). Susanna Hecht and Alexander Cockburn, The Fate of the Forest: Developers, Destroyers, and Defenders of the Amazon (1989), is an overarching historical survey, richly documented, with a critical examination of the political, social, and economic background of the escalating degradation of the Amazon environment. D.A. Posey and Michael J. Balick (eds.), Human Impacts on Amazonia: The Role of Traditional Ecological Knowledge in Conservation and Development (2006), reflects on the history, development, conservation, and protection of the Amazon basin.Other studies of people and society, mostly with emphasis on Brazil, include Marianne Schmink and Charles H. Wood (eds.), Contested Frontiers in Amazonia (1992); Julie Sloan Denslow and Christine Padoch (eds.), People of the Tropical Rain Forest (1988); John Hemming, Amazon Frontier: The Defeat of the Brazilian Indians (1987); and, for later archaeological discoveries, Anna C. Roosevelt, Moundbuilders of the Amazon: Geophysical Archaeology on Marajó Island, Brazil (1991), and Amazonian Indians: From Prehistory to the Present (1994). Paul E. Little, Amazonia: Territorial Struggles on Perennial Frontiers (2001), chronicles the territorial disputes among a wide variety of social groups in Amazonia.Works on resources and ecology include Eneas Salati et al., “Amazonia,” in B.L. Turner II et al., The Earth as Transformed by Human Action (1990), pp. 479–493; David Cleary, The Brazilian Rainforest: Politics, Finance, Mining, and the Environment (1991); Kent H. Redford and Christine Padoch (eds.), Conservation of Neotropical Forests (1992); Michael Goulding, Amazon: The Flooded Forest (1989); William M. Denevan and Christine Padoch (eds.), Swidden-Fallow Agroforestry in the Peruvian Amazon (1988); Philip M. Fearnside, Human Carrying Capacity of the Brazilian Rainforest (1986); D.A. Posey and W. Balée (eds.), Resource Management in Amazonia (1989); and, on dwindling wildlife, Nigel J.H. Smith, Man, Fishes, and the Amazon (1981); and Kent H. Redford, “The Empty Forest,” BioScience, 42(6):412–422 (June 1992).Broader surveys of the economic development of the basin include Stephen G. Bunker, Underdeveloping the Amazon (1985), with an overview of economic history. A more recent study on the regional urbanization process under way in the Brazilian Amazon is found in John O. Browder and Brian J. Godfrey, Rainforest Cities: Urbanization, Development, and Globalization of the Brazilian Amazon (1997).Henry Walter Bates, The Naturalist on the River Amazons, 2 vol. (1863, reissued 1989); Alfred Russel Wallace, A Narrative of Travels on the Amazon and Rio Negro, 2nd ed. (1889, reprinted 1972); and Richard Spruce, Notes of a Botanist on the Amazon & Andes, 2 vol. (1908, reissued 1970), are classics of natural history exploration. Wm. Lewis Herndon and Lardner Gibbon, Exploration of the Valley of the Amazon, 2 vol. (1853–54), is also informative.James J. Parsons Ed.
* * *