China’s agriculture has made notable achievements in the last three decades

To draw these conclusions, we need to recall the conditions under which the model predicts conflict to occur. First, the model suggests that conflict is likely if aid causes a large shift in the balance of power between governments and insurgents. It should therefore be possible to avoid conflict by making sure that development projects do not affect this balance of power. One way of achieving this is to cooperate with both governments and insurgents in designing the project and delivering the aid. An example of this approach is a recent cooperation of Japan’s International Cooperation Agency with the MILF in extending aid to parts of Mindanao in the southern Philippines. However, while cooperating with insurgents can be a successful strategy in some cases, there are many contexts in which it may not be feasible or ethical. In these cases, we turn to the second condition under which our model predicts conflict: if insurgent attacks have a large negative effect on the probability that the project will be successful. This suggests that violence can be minimized by focusing aid on a small number of projects and heavily defending them. This would make it harder for insurgents to sabotage the projects and thus help deter violent attacks. In addition, it may be desirable to weaken insurgents’ capacity before the start of the project by military means, following a “clear, hold, build” strategy. While more research on the precise mechanism through which development projects cause conflict is needed, our research shows that by combining careful empirical and theoretical analyses,large plastic garden pots we can identify the causal effects of development interventions and use this information to draw conclusions for development policy.It has been over 30 years since China abandoned its large communal farms. Each “farm” had thousands of workers, assigned to production brigades.

The communes were run by inefficient and corrupt top-down management, and state monopolies procured farm production at fixed prices. The communal farming system was a complete disaster, underscored by the 1959–61 famine when an estimated 30 million Chinese residents starved to death. The communes were broken up in the late 1970s in favor of small, family-run plots with profit incentives tied to production and market-determined prices. The economic reforms that started in China’s agricultural sector in the late 1970s then spread to other parts of the economy and we all know the rest of the story. China has enjoyed very strong income growth and has emerged as a main driver of global economic growth. Deng Xiaoping moved China from a top-down planned economy to a market economy, and the results have been nothing short of phenomenal.Today, China produces 18% of the world’s cereal grains, 29% of the world’s meat, and 50% of the world’s vegetables. This success makes China the world’s largest agricultural economy, and it ranks as the largest global producer of pork, wheat, rice, tea, cotton, and fish. In fact, the value of China’s agricultural output is twice the U.S. total. See Figure 1 for China’s share of world food production across various commodities. With only 9% of the global sown area, today China produces about 20% of the world’s food—a miraculous turnaround since the struggles faced by China’s agriculture in the 1960s and 1970s under the collective farms. Despite predictions that China was going to starve the world, instead China has been able to balance its domestic grain supply and demand, with the exception of oil seeds.

Will this continue? After joining the WTO in 2001, China has played a greater role in world agricultural trade. China dramatically increased its trade dependence in agriculture, and it is currently the fifth largest exporter and fourth largest importer of agricultural products in the world. China’s substantial increase in fruit and vegetable production was a major factor behind its agricultural export growth. With imports growing faster than exports during the post-WTO accession years, China reversed its long-time status as a net agricultural exporting country to that of a net importing country since 2004. As expected, with liberalized trade and market forces at work, China increased its imports of land-intensive agricultural products. Most of the increased imports came from soybeans and cotton. Today cotton and soybeans account for 43% of China’s agricultural imports, a very concentrated portfolio. China is the world’s largest importer of soybeans and cotton, accounting for 60% of global soybean imports and 40% of cotton imports. China’s agriculture is supporting a population of over 1.3 billion people today, compared to about 500 million in 1950, on a relatively fixed agricultural land base and shrinking water supply. The tale of China’s agricultural success in meeting this challenge is two-fold. First, China has enjoyed very strong agricultural productivity growth, measured as the difference between growth of agricultural output and the growth of all inputs aggregated. Second, China has poured on farm inputs. China’s annual agricultural productivity growth rate was 2.5% from 1970– 2007, even higher than Brazil’s and much higher than in the United States . At the same time, China’s farmers have intensively applied more chemicals and fertilizer to their crops to try and overcome the limitations of scarce land and water. In the 1980s and 1990s agricultural production in China grew by 5.3% per year, much higher than in other populous countries such as India and Indonesia. Most of this growth came through yield gains rather than through increases in planted area. China boosted grain production by more than 50% during this time period. Grain production in 2010 was 80% above the 1978 level.

Per capita food supply in China rose from 2,328 calories per day in 1980 to 3,029 calories in 2000, a 30% increase in just 20 years. China’s chemical fertilizer use has roughly doubled over the past two decades while pesticide use and mechanized inputs have increased even faster. China has slightly less agricultural land than the United States, but its chemical fertilizer use is now double that of the United States. China uses about one-third of the world’s nitrogen fertilizer and 31% of phosphate fertilizer on its 9% share of the world’s agricultural land. Unfortunately, the strong growth in chemical input use has resulted in considerable agricultural pollution.Let us not forget that China remains a developing country. In China 36% of the population still lives on less than $2 per day and most of these poor are in the countryside. Even though economic reform started in agriculture, non-agricultural economic growth has left the farm population to fall behind. The image we have of the new affluent Chinese consumers buying Gucci handbags in modern boutique shops does not apply to the nation’s farmers. China’s farms remain very small and the work remains highly labor-intensive and difficult. Almost 300 million workers remain in agriculture,raspberry plant pot and most farmers remain very poor, with per capita incomes about $1,000/yr—less than one-third of the average urban income. The proportion of agriculture in China’s GDP dropped from 28.1% in 1978 to 11.8% in 2010. Yet 38% of the labor force remains in agriculture , a ratio that is far too high given China’s level of development. As a result, labor productivity in agriculture remains low. Raising farmers’ incomes is one of the major policy challenges facing China’s policy makers today. This may require relaxing a long-standing policy goal of food self-sufficiency. National food security goals require a very high grain self-sufficiency percentage, and farmers typically earn less money growing grain compared to other higher-valued crops. Between 1981 and 2005, the percentage of people living below the poverty line dropped from 84% to 16.3%. This was part of the success story. But the challenge is that China’s Gini coefficient grew from 29 in 1990 to 42 in 2007, reflecting a strong increase in income disparity within a relatively short period of time. Income inequality in China is now similar to that in Mexico, but the irony is that China is a communist country.Income growth and urbanization, and the resulting changes in dietary patterns, particularly in developing countries like China, have important implications for food consumption and agricultural trade. Urbanization leads to a decrease in calorie consumption per person, but greater demand for processed food products. Low-value staples, such as cereals, account for a larger share of the food budget of the poor while high-value food items, such as dairy and meat, are a larger share of the food budget of the rich. So rising incomes are usually associated with increased demand for meat, horticultural, and processed food products.

In turn, increased demand for meat will result in increased demand for feed grains and protein meals. For instance, China’s per capita incomes have more than tripled in the past 20 years and, as a result, some dramatic changes in food consumption have taken place in that country. Per capita meat consumption has more than doubled in the last 20 years in China. Meeting increased demand for meat and other dietary changes will continue to be a challenge for China. This will require more water supplies because it takes about 2,000 liters of water to produce 1kg of wheat, compared to about 16,000 liters of water for 1kg of beef. Today, much of China’s agriculture is very irrigation-dependent. With 20% of the world’s population and 7% of its fresh water, China faces important water issues. Agriculture uses 76% of the country’s water, but it is facing greater competition from urban areas. In the relatively dry northern region, the water availability per person is only a quarter of that in the south. Yet the north is where almost half China’s population lives, and where most of its maize, wheat, and vegetables are grown. Groundwater is intensively used in the north, but not in the south. This means that water efficiency must be improved in the north. Pricing of surface water and groundwater could play a greater role in the allocation. China’s farmland essentially belongs to local governments, a holdover from the commune era. This means that land cannot be bought or sold by farmers, only leased. This raises a number of policy issues with respect to the transition of China’s agricultural sector towards a more modern industry. Lack of land ownership discourages investment and consolidation into larger and more efficient farms. Land-use rights are now attached to village residency, discouraging permanent out-migration from agriculture and keeping farm incomes low.Agriculture is arguably the sector of the economy most directly exposed to climate and thus likely to be affected by climate change. To date, however, there exists considerable disagreement about the magnitude of potential impacts. Disagreement stems from differences in both methodology and empirical measurement. The recent paper by Deschˆenes and Greenstone , henceforth DG, is an important contribution to the climate impact literature and to the debate on economic methodology. DG’s findings and conclusions hinge on two key factors: how they navigate the distinction between climate and weather, and the metrics they use for measuring both weather effects and economic impacts. In this paper we revisit DG in an attempt to reconcile differences between their work and our own. Climate scientists emphasize the distinction between weather and climate. Weather is what occurs at a particular moment in time – typically, precipitation and temperature. Due to natural variability, weather fluctuates from one hour to another, one day to another, one month to another, and one year to another. Climate, by contrast, is the long-run pattern of weather over time. To climate scientists, therefore, climate change has a very different significance from weather change. A change in weather is inherently short-run, while climate change is a shift in the long-run pattern. Because these are different phenomena, it is not surprising that they also have different economic implications. Differences between weather and climate have implications for the choice of an economic metric. When dealing with climate, the appropriate metric is some measure of the long-run profitability of using the land for agriculture – the equivalent of the permanent income from farming. This is an economic rather than an accounting measure, and it generally has to be inferred through some proxy.