Mao's Great Famine (30 page)

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Authors: Frank Dikötter

BOOK: Mao's Great Famine
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Local reclamation projects made things worse. Launched by the state and local communes in response to food shortages, they showed little sense of stewardship of nature. In Hunan over 100,000 hectares were opened up, much of it on steep mountain slopes. The rain then flushed the soil and took it to the newly built reservoirs, choking them with sediment. One team in Longhui reclaimed ten hectares on a gradient against the mountain: the runoff from torrential rain in May 1962 took enough soil to silt up thirty dams and five roads.
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Shortages of different goods also tended to reinforce each other in a vicious circle of want. Once all the fertiliser had been squandered in the Great Leap Forward of 1958, the fields turned barren. Paths between the rice paddies were poorly maintained, as farmers lost control over the land and crops were randomly planted and frequently changed. Close cropping and deep ploughing further stripped the farmland, as the soil was played out. In the past a field could retain carefully irrigated water for four to five days, but by 1962 the water seeped through the earth in less than seventy-two hours. This meant that twice as much water was needed, precisely as the system was silting up.
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The Bureau for Water Conservancy and Hydroelectricity in Hunan concluded that some 57,000 square kilometres suffered from soil erosion, including most of the river basin of the Yangzi and between a quarter and a third of the Xiang, the Zijiang and the Yuanjiang – three of the four largest rivers in the province. Up to half of all devices for water and soil conservation had silted up and been washed away. In the wake of the irrigation campaign the amount of soil erosion had increased by 50 per cent.
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Shabby workmanship, carried out by starved farmers without much planning and often in disregard of expert opinion, also marred new irrigation projects. In Hunan, by the end of the famine, less than half of all pumps actually worked. Many were broken, others simply stopped working in the absence of any supervision.
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In the Hengyang region, two-thirds of all medium-sized reservoirs and a third of all small dykes were dysfunctional, as water was lost through leaks and seepages.
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In the province as a whole, a tenth of all medium reservoirs were described as completely wasted projects, and they were abandoned halfway through. None of the ten large ones had much of an impact, as they submerged large cultivated surfaces but actually irrigated very little, causing great anger among local people who had been forced to resettle.
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In many cases the building material was so brittle that the movement of the waves inside the reservoirs created grooves of a depth of fifty to seventy centimetres inside the dam.
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The use of dynamite by hungry farmers to fish near dams and sluices did not improve the situation.
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Hunan was no exception. In neighbouring Hubei, during the drought of 1959 which the party leadership identified as one of the catastrophes to have ravaged the country, water from the mighty Yangzi could not be diverted into the fields because more than three-quarters of all new sluices were too high. The river passed along arid fields, as people and cattle went thirsty.
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Along the 100-kilometre stretch between Jianli and Jingzhou, in the midst of the drought, farmers dug holes into local dykes to irrigate the fields, but later these were flooded during heavy rains.
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By 1961 an estimated 400,000 small reservoirs were in a state of disrepair; roughly one in three either collapsed, silted up or leaked dry.
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But as in other parts of a country in the grip of gigantism, large projects also mushroomed. In Hubei they swelled from a few dozen before 1957 to well over 500. Once these were completed they were often simply abandoned to local communes, many of which failed to provide any supervision whatsoever. Stones were carted away from embankments, aqueducts were left to silt up, holes were dug in retaining walls, and cowsheds, pigsties and even entire houses were built on top of dams. The rubber used to seal sluices hermetically was cut away, while the telecommunication equipment from unmanned sentry posts was stolen.
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The conclusion was inescapable: despite the huge efforts devoted to irrigation schemes with the forced enlistment of millions of farmers throughout the province, by 1961 less than a million hectares were irrigated, in contrast to the 2 million in 1957.
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The position in Hunan was only marginally better: after massive investment in water conservancy the overall irrigated surface in the province increased from 2.66 million hectares in 1957 to about 2.68 million in 1962, or less than 1 per cent.
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Dams throughout the country lacked spillways, used shoddy material and were built without regard for the local geology. Many collapsed. In Guangdong, the dam at Fenghuang, Chao’an county, burst in 1960, followed by another at Huangdan, Dongxing county. These were large reservoirs, but medium-sized and small ones also caved in, for instance in Lingshan, Huiyang and Raoping.
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Nationwide, 115 large reservoirs, or 38 per cent of the total, were unable to hold back the floodwaters during the rainy season.
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According to a report from the central leadership, three large, nine medium and 223 small dams or reservoirs collapsed in 1960 because they were badly built.
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While many of those erected with earth collapsed almost immediately, some were dangerous time bombs ticking away for decades. This happened with the Banqiao and Shimantan dams in Zhumadian, Henan, built as part of the ‘Harness the Huai River’ campaign in 1957–9, as we have seen in an earlier chapter. When a typhoon hit the region in August 1975, these dams broke, unleashing a tidal wave which drowned an estimated 230,000 people.
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By 1980 some 2,976 dams had collapsed in Henan. As the chief of the provincial Bureau for Water Resources later put it, referring to the Great Leap Forward, ‘the crap from that era has not yet been cleared up’.
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Interference with nature increased the alkalisation – also known as salinisation or sodification – of farmlands, although this was a phenomenon more commonly associated with the semi-arid plains of the north. Alkalisation is often seen as a drawback of irrigation in dry regions where a lack of rainfall allows the soluble salts contained in water to accumulate in the soil, severely reducing its fertility. New irrigation schemes had a disastrous effect on the alkalisation of the North China Plain. In Henan, some two-thirds of a million hectares of soil turned into alkaline land.
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In Beijing and the surrounding suburbs, as the Water Conservancy Bureau found out, the amount of soil lost to alkalisation had doubled to 10 per cent during the Great Leap Forward.
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But along the coast, too, salinisation increased through the intrusion of marine water, a consequence of the half-baked schemes of local cadres courting the attention of their superiors. In a Hebei  commune located twenty kilometres from the sea, tradition was brushed aside in the pursuit of a vision of symmetry, as grand canals were dug to criss-cross square paddy fields rebuilt from uneven plots that customarily hugged the contours of the land. The crop plummeted as the proportion of alkaline land doubled.
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Throughout the province the amount of alkaline land jumped by 1.5 million hectares.
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Hebei was hardly exceptional: in his report on salinisation, Liu Jianxun noted that in many counties in northern Henan the extent of salinisation had doubled, reaching as high as 28 per cent.
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Hu Yaobang, inspecting counties along the Yellow River, found that huge irrigation schemes in some counties in Shandong had increased the overall proportion of alkaline soil from 8 per cent to as much as 24 per cent.
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This was confirmed in a more detailed report on the northern and western parts of the province, where on average salinisation was above 20 per cent by 1962, having doubled since the Great Leap Forward. In Huimin county it was close to half of all cultivated land. There was little doubt about the reasons for this: ‘Over the last couple of years the development of irrigation schemes has disturbed the natural drainage system.’
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How many millions of hectares were lost to salt during the great famine is not clear, but it is likely to have reached 10 to 15 per cent of all irrigated cropland.

 

 

No nationwide or even provincial figures exist, but qualitative evidence suggests that air and water pollution also contributed to an environmental crisis of considerable proportions. China had no treatment plants, and both urban sewage and industrial waste were discharged directly into local rivers. In the drive to transform a predominantly agricultural society into an industrial powerhouse capable of leading the socialist camp in its conquest of the world, the amount of pollutants such as phenol, cyanide, arsenic, fluorides, nitrates and sulphates released into water streams surged. Phenol is one of the most common contaminants: 0.001 milligrams per litre is advisable for drinking water and 0.01 for farming fish. In spillages in the Songhua and Mudan rivers, which flow through the bleak industrial heartland of the north, the amount of phenol ranged from two to twenty-four milligrams per litre. Where carp, catfish and sturgeon once teemed, nothing but a noisome flow of toxic materials remained. In a 150-kilometre stretch of the Nen River, a major tributary of the Songhua, some 600 tonnes of dead fish were removed by fishermen in less than a day in the spring of 1959. In Liaoning fish disappeared completely from the rivers near the industrial cities of Fushun and Shenyang. Along the coast near Dalian, it was not unusual to harvest some 20 tonnes of sea cucumber each year, but the delicacy vanished during the Great Leap Forward.
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Further south, in Beijing, the State Council complained about pollution: the powerful Anshan iron and steel complex discharged such large amounts of waste that the rivers reeked of petrol, with dead fish floating belly up on the slimy surface.
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So great was the amount of alkaline waste released by paper mills in Jiamusi that even the bottoms of boats corroded. The mills themselves were no longer able to produce high-quality paper because they relied on the river water they so heavily polluted. This was the case for all factories in the belt stretching from Shanghai down to Hangzhou. Oil companies were also culprits, a single plant in Maoming releasing 24,000 tonnes of kerosene into rivers each year. Other scarce resources in the midst of famine were emptied into the water: smelting plants in dirty, dusty Shenyang, the State Council calculated, could have saved 240 tonnes of copper and 590 tonnes of sulphuric acid a year – simply by recycling the water they used.
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Few comparative studies were made at the time to measure the increase of pollution after 1957, but one case study illustrates the impact of the Great Leap Forward. The leather, knitting, paper and chemical factories in Lanzhou, the industrial centre of the north-west, generated some 1,680 tonnes of waste water a day in 1957. This had rocketed up to 12,750 tonnes a day by 1959. Lanzhou is the first large city along the Yellow River, which contained eight times more pollutants than was allowed by the Ministry of Hygiene. The river slowly wound its way through the deserts and grasslands of Inner Mongolia before entering the North China Plain, where the water was diverted for irrigation through endless conduits and culverts, the pollutants becoming embedded deep in the cultivated soil.
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People too were poisoned, as rivers were often the only source of drinking water. Workers living near steel plants in the north suffered from chronic poisoning. In Zibo, Shandong, a hundred farmers became ill after drinking water polluted with contaminants from a pharmaceutical factory upstream.
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In Nanjing, a single factory employing a mere 275 workers produced 80 to 90 tonnes of sewage containing radioactive material each day. No measures for waste disposal existed, and all of it was dumped straight down the drain, ending up in the Qinhuai River, which turned into a cesspool. Even groundwater was poisoned: used by local people to wash their rice, the water in the wells near the factory turned red or green.
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In Baoshan, Shanghai, the waste water produced by steel plants leached into workers’ dormitories. Outside, heaps of corrugated iron waste accumulated, so that workers had to climb over the rubbish to gain access to their sleeping quarters.
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While slag was of less concern compared to pollution caused by waste discharges, a quarter of a million tonnes accumulated every day in busy Shanghai.
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The air too was polluted, although we have fewer specific examples since water was a far more precious resource than air and thus was monitored in greater detail. But one study shows that in Shanghai the equivalent of 20 tonnes of sulphuric acid mist, created in the production of phosphate fertilisers, was spewed into the air each day by a number of factories.
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Some of these factories also produced pesticides, which contaminated animals, people, soil and air. In Shanghai, for instance, thousands of tonnes of Dipterex and DDT were produced, as well as benzene hexachloride (BHC), a highly toxic farm chemical labelled 666 which degraded only slowly in the soil.
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The effects of pesticides on livestock, agricultural land and aquatic products are well known, but in times of famine chemical poison found new applications, spreading far beyond the farm. Desperate for food, some communes used pesticides to catch fish, birds and animals. In Hubei, insecticides such as Systox and Demeton, commonly called 1605 and 1059 powders, as well as a hypertoxic pesticide known as 3911, were deliberately spread to capture ducks, which were then sold to the cities. In Shakou alone dozens of customers were poisoned and several died after eating the contaminated fowl. Famished farmers also foraged independently for food, releasing chemicals in ponds and lakes to kill the wildlife. In some places the water turned green, killing all.
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