Over the next two decades the Panda may begin to feel peckish. A hard look at China's food production and resource availability suggests more difficult times ahead. And this is just one potential problem. Throughout my travels and reading over the past 5 years, I have noticed that people with lots of experience on the ground in China question whether the current pace of development is sustainable.

The upshot of all this may be that the easy gains have been made. In the years to come, China will be faced with extremely hard choices about how to simultaneously maintain economic growth, clean up its environment, and feed its population, particularly when it appears that most of the expected increase in food demand due to rising incomes has yet to be realized. So, following up on last week's post about The Future of China's Economy, here are a few more thoughts that frame future potential stumbling blocks.

Running Out of Cheap Labor, and Coming Home for L.A.'s "Clean" Air

John Pomfret, formerly the Beijing Bureau Chief for the Washington Post, definitely has a lot of experience in country. In "A Long Wait at the Gate to Greatness", he asks, "Is China really going to be another superpower?"

His short answer is, "I doubt it." In more depth:

It's not that I'm a China-basher, like those who predict its collapse because they despise its system and assume that it will go the way of the Soviet Union. I first went to China in 1980 as a student, and I've followed its remarkable transformation over the past 28 years. I met my wife there and call it a second home. I'm hardly expecting China to implode. But its dream of dominating the century isn't going to become a reality anytime soon.

Too many constraints are built into the country's social, economic and political systems. For four big reasons -- dire demographics, an overrated economy, an environment under siege and an ideology that doesn't travel well -- China is more likely to remain the muscle-bound adolescent of the international system than to become the master of the world.

Pomfret goes through the same sort of list of potential stumbles that I compiled for last week's post, and adds a few more. He notes that that population control policy has produced an inverted population pyramid, which requires a smaller, young population cohort to support a larger, older cohort as the latter leave the workforce. This while life expectancy has more than doubled in the last fifty years. Thus the expectation is that the workforce will shrink over the coming decades, labor costs will rise, and more of that labor will be put toward supporting non-working elders.

Pomfret also observes that:

One important nuance we keep forgetting is the sheer size of China's population: about 1.3 billion, more than four times that of the United States. China should have a big economy. But on a per capita basis, the country isn't a dragon; it's a medium-size lizard, sitting in 109th place on the International Monetary Fund's World Economic Outlook Database, squarely between Swaziland and Morocco. China's economy is large, but its average living standard is low, and it will stay that way for a very long time, even assuming that the economy continues to grow at impressive rates.

Unlike many observers, he doesn't discount the potential drag on economic growth from pollution, leading off with a personal anecdote:

When my family and I left China in 2004, we moved to Los Angeles, the smog capital of the United States. No sooner had we set foot in southern California than my son's asthma attacks and chronic chest infections -- so worryingly frequent in Beijing -- stopped. When people asked me why we'd moved to L.A., I started joking, "For the air."

Pomfret is perplexed about why Westerners seem to be ignoring pollution's ~10% hit to the Chinese GDP: "Somehow, though, the effect this calamity is having on China's rise doesn't quite register in the West." As I discussed in the earlier post, this shortsightedness confuses me, too, particularly when you combine the effects of pollution with the demands on domestic water and land to provide food for a hungry population.

Missing Food Demand

In a report last year from the Economic Research Service of the USDA, Fred Gale and Kuo Huang suggest that China may face increasing difficulties in meeting domestic food demand. I find their argument quite compelling and will later state it even more firmly than they do.

Gale and Huang observe that growth in food demand has, unexpectedly, not kept pace with overall economic growth. Here is the conundrum: "Given the responsiveness of food demand to income growth, China's rapid growth of 9-10 percent per year suggests that its demand for food is growing faster than its production capacity. ...How is it that China's surging income growth has not pushed its demand for food beyond its domestic production capacity?"

The main factor the authors identify is that while a small, wealthy fractionof the population now evidently has enough to eat, and thus spends additional income on quality rather than quantity, a large majority of consumers have yet to fill their bellies.

The underlying cause for lagging food demand is not surprising once you think about it. Because economic benefits, in particular income gains, disproportionately go those with already high incomes, and because those with high incomes tend to spend on quality rather than quantity, the total volume of food consumed by the Chinese population has risen only slowly. The authors note that:

...Expenditures by the top tier of households--China's emerging class of professionals and entrepreneurs -- have grown at double-digit rates. Food expenditures were nearly stagnant for the bottom 20 percent of urban households. Food expenditures by rural households grew 2.6 percent annually.

...Income growth for low-income urban and rural households--the majority of China's households--was well below GDP growth. ...Average income for the lowest decile of urban households actually declined slightly between 2000 and 2003.

This suggests to Gale and Huang that, "Food consumption and income growth patterns may explain how China has been able to remain self-sufficient in most food items." The authors stop their argument here, but I think they could go further.

The Still-Hungry ~1 Billion

The lag between GDP growth and food consumption has important implications for future increases in food demand.

Based on the statistics compiled by Gale and Huang, it looks to me like more than 90% of the Chinese population has a per capita annual income below 10,000 Yuan. This is an interesting figure for considering future food demand because Gale and Huang also demonstrate that pork consumption in China continues to rise as a function of income until about 10,000 Yuan. Poultry and seafood consumption also rise strongly as a function of income, but notably don't saturate like pork at 10,000 Yuan. More meat consumption requires more grain and more water to raise the animals (see a previous post, "China and Future Resource Demands").

Here is where I think the argument could be made more forcefully.  As best I can make out, what all the above means is that most of the increase in food demand we might expect from rising incomes in China has yet to be realized; more than 80% of the population is, "Still at income levels where they demand increased quantities of many foods as their income rises."

So where is China going to get all this food? One answer is imports, another is to go offshore to buy or rent farmland (see the "China and Future Resource Demands" post), and yet another is to push domestic production. But the latter may be difficult.

"Who Will China Feed?"

This is the question asked by Fred Gale and Bryan Lohmar in an essay in Amber Waves, the USDA magazine. They elaborate their surprise at China's ability to feed its population: "While China has emerged as the world's leading importer of soybeans, vegetable oil, cotton, wool, rubber, and animal hides, it has been surprisingly successful at meeting the basic food needs of its population of more than 1.3 billion people, and it has stepped up as a major food exporter."  (They make no mention of the income inequality and consequent food spending gap explored above.)

Given the pace of growth and limited resources, they ask, "How long can China sustain this momentum?"

China imports only small amounts of premium-grade rice, minor amounts of wheat in most years, and no corn. China has maintained agricultural self-sufficiency in grains as it carries out the world's largest and fastest urbanization and industrialization. Economic development is increasing competition for scarce resources in China, but growing incomes are allowing most consumers to increase consumption of fruit, vegetables, and livestock products.

China has become a significant food exporter by ramping up production in many sectors and gaining world market share. Indeed, China has been a net food exporter for most of the last three decades. China dominates world markets in a variety of products areas, including garlic, apples, apple juice, mandarin oranges, farm-raised fish and shrimp, and vegetables. At times, it seems that China has suspended the law of scarcity by boosting production in many sectors and selling at low prices without having to sacrifice production in other sectors.

One way to look at this is that China is exporting high value "food products", not staples that the majority of Chinese themselves consume. This strategy contributes to the trade surplus, but the use of land to grow crops for export must clearly be balanced with domestic demand for staples. This balance also points to the fact there is some room for moving crop land now used for exports back into production to satisfy domestic demand.

Here are two key paragraphs on how China has increased its food production yields:

Investments in research and development raised the quality of inputs and the efficiency of their use over the past two decades. Research into improved varieties and quality of seeds surged after the late 1970s. By the turn of the century, China had more agricultural researchers than any other country, and a larger budget for public sector agricultural research than any developing country. Fertilizer quality in China also has improved over the past two decades, as farmers move away from applying pure nitrogen fertilizer to applying more nitrogen-phosphorous- potassium blends. China has been importing breeding animals--which are often crossed with domestic breeds--to improve efficiency of weight gain, improve disease resistance, and raise milk output. The government has offered subsidies to farmers for dairy herd improvement for several years.

China today is the world's largest agricultural producer and consumer. With an estimated 10 percent of world land resources and 6 percent of world water resources, China produces 30 percent of the world's rice, 20 percent of the world's corn, a fourth of the world's cotton, an estimated 37 percent of the world's fruit and vegetables, and half of the world's pork. For most products, China's world share of production is close to or exceeds its 20-percent share of world population. China, however, has exploited the means of coaxing food and fiber out of a limited natural resource base to the extent that additional gains will be more difficult than in the past.

Gale and Lohmar go on to discuss water and soil quality issues, fertilizer and pesticide use, and industrial pollution, while briefly addressing labor costs:

China has been able to maintain low-cost production in international agricultural markets largely because of low labor costs. Historically, Chinese farms have raised large amounts of output from small plots by using labor-intensive production strategies, such as growing multiple crops per year, intercropping, and growing vegetables in courtyards. But hundreds of millions of rural workers have found nonfarm employment over the last two decades. The flow of labor from rural areas enabled China's industry and cities to boom, while wage growth was relatively stagnant for much of the last two decades.

China's rapid economic expansion appears to have finally exhausted the pool of under-employed workers. Since 2003, wages have been rising at a double-digit pace. The dwindling pool of available rural workers is resulting in increased mechanization of harvesting and planting. Anecdotal evidence also suggests that intensive agricultural practices, like double-cropping, transplanting seedlings by hand, and small-scale hog production, have decreased due to labor shortages and high wages.

So, as John Pomfret suggested in his piece in the Washington Times Post (!), labor costs are already affecting food production. But the bigger issue is in trying to identify where, exactly, future gains in production are going to come from.  Rough estimates of the probable increase in demand give some context for the magnitude of the problem.

Returning to the correlation of meat consumption and income: It appears from FAO and USDA data that China is bound to eat more meat, especially pork, as incomes continue to rise.  Growing meat for human consumption creates a big lever in water and grain markets.  Producing a kilo of pork requires approximately three kilos of grain, and producing a kilo of beef requires about eight kilos of grain.  Based on the data in Gale and Huang, in appears that as income rises from 3000 to 10,000 Yuan, pork consumption increases by about 50%, to ~23 kg, which will require about 70 kg of grain.  This in addition to the ~30% increase in grain products (~6 kg) directly purchased by households as incomes rise over that range.  Fish and poultry demand about doubles, too, from ~8 to ~16 kg per capita, but estimating the additional grain consumption here is hard.  I'll hand wave and make a low-ball estimate that it will take only another 16 kg of grain to feed the the fish and poultry.

Adding this all together, that is an additional per capita  increase in grain demand of more than 90 kg.  Here is the kicker: that number appears to hold for at least 500 million people, perhaps as many as a billion.  That amounts to at least 45 million tonnes (metric!) of grain, perhaps as much as 90 million tonnes.  The Chinese population would then still be consuming only about 80% as much animal protein per capita as Europeans, and only a little over half as much as us gluttons in the U.S.

China produces about 500 million tonnes of grain per year (see the USDA ERS China Ag and Economic data page), so supplying increased meat demand with domestic grain supplies would require a (very rough) increase of between 10 and 20% in total yield.  That doesn't necessarily sound like much -- I actually expected the increase to be a larger percentage of current harvests -- and might be accomplished by breeding, genetic modification, and better farming practices.  But as detailed in my earlier posts, China is losing both arable land and usable water.  With only 7% of the globe's arable land to work with (ignoring losses to due climate change and prior poor farming practices), the country is going to have to work very hard indeed to squeeze more grain out of those limited resources.

That leaves imports, which means competing on the world commodity markets for food.  In combination with rising labor costs at home, all this points to rising domestic prices and rougher going for the Chinese economy.

It's hot and damp in southeastern China this time of year.  So reports a relative of mine working in the area who called to chat a few days ago.  He was suffering through another day without air conditioning, in the middle of yet another regional power outage due to a shortage of coal.  This occurrence is evidently not uncommon.  We hear a great deal in the U.S. about the unstoppable juggernaut of the Chinese economy, but sometimes I wonder if the Chinese aren't setting themselves up for a stumble or two.

(Update: For more on resource demands, see my subsequent post "More on China's Economy, Food Production, and Food Demand".)

Many of the signs point to inevitable economic superiority.  The Carnegie Endowment for International Peace released a report last week that projects China's economy will overtake that of the U.S. by 2035 (Yahoo News). "China's Economic Rise--Fact and Fiction", by Albert Keidel, concludes that China's economy is now dominated by internal growth rather than exports, and that China's economy will be twice that of the U.S. by 2050.  Keidel gives the nod to financial and bureaucratic tangles as the primary threats to growth, but does not appear particularly concerned about environmental damage and pollution. He argues that:

The record for several other East Asian economies argues that pollution is unlikely to undermine China's growth in the coming decades. In particular, Japan, South Korea, and Taiwan all passed through similar periods of serious pollution associated with rapid industrialization. In these cases, policy responses were also delayed but eventually reduced pollution levels that in some dimensions were worse than China's today.

Maybe so, but, depending on how you look at the numbers, the cost of pollution may be wiping out all of China's GDP growth.

(Update 25 July, 2008: Here is a video feed from Fora.tv of a panel discussion at the Carnegie Endowment for International Peace discussing the "Fact and Fiction" report.  I haven't watched the whole thing yet...)

Attempting to Account for the Costs of Pollution

For most of the last decade, China's government has downplayed the cost of environmental damage to the country's GDP.  However, according The Economist, in March of 2008, Pan Yue, a deputy minster at the State Environmental Protection Agency (SEPA), publicly estimated that environmental damage reduces GDP by as much as 13%.  As recently as May, 2006, the official estimate was only 3% of GDP for 2004, a tally contained in the first and only "green audit" of the economy.

The direct costs to human life are substantial, but official estimates are also variable.  A study by SEPA and The World Bank, published last year, "The Cost of Pollution in China", estimates that pollution is directly responsible for at least 750,000 deaths a year, while in a 2006 speech Mr. Pan stated that approximately 70% of China's two million annual cancer deaths were caused by pollution.

The disparity in these figures is evidently caused by political tension between different parts of the Chinese government.  Both the health findings and the future of the "green GDP audit" were evidently compromised by political infighting between state scientists, regional leaders, and officials in other ministries.  The New York Times reported that:

The official explanation was that the science behind the green index was immature. Wang Jinnan, the leading academic researcher on the Green G.D.P. team, said provincial leaders killed the project. "Officials do not like to be lined up and told how they are not meeting the leadership's goals," he said. "They found it difficult to accept this."

Here is the point: Even a 10% reduction in Chinese GDP would, in effect, zero out the overall growth of the economy.  Viewed this way, despite its role in the global economy, any "wealth creation" and growth in China may be accounted for entirely by the cost of degrading the local environment and increasing human disease and death.  You can understand how government officials might be uneasy about publicizing this figure.

According to officials at The World Bank, its "Cost of Pollution" report was similarly abridged for political reasons; "China's environmental agency insisted that the health statistics be removed from the published version of the report, citing the possible impact on 'social stability'."  As a result, one-third of the document was reportedly withheld from publication.  The tension between open communication and central control, and between development and damage, is evident in a press release from Gov.cn, the Government's official web site:

Even though the economic growth characterized by "high consumption, high pollution and high risk" is of its own historical significance in China, China's economy has been in the bottleneck period of resources and energy today and it cannot bear any risks of resources exhaustion.

Meanwhile, Chinese society has also entered the period with various conflicts protruding in which per capita GDP is about 1,000-3,000 US dollars, which cannot bear up any social problems caused by environmental pollution.

The government is clearly aware of the social and economic threats of environmental damage.  As reported by the Shanghai Daily, the most recent five year plan; "Requires energy consumption per unit of GDP to decline by 20 percent from the previous planning period.  The total amount of major pollutants discharged will be reduced by 10 percent, and forest coverage will be raised from 18.2 percent to 20 percent."

In an effort better address environmental concerns, in March of 2008 the State Council upgraded SEPA to a full Cabinet-level ministry.  To gather, "Accurate and high-quality data [of] pollution sources," the government launched in the first pollution census in February 2008.  And yet even while the central government attempts to close illegal and polluting coal mines and coal burning plants, journalists regularly report that local and regional authorities either ignore or explicitly condone the reopening of those facilities (1, 2, 3).

It does not appear that China's reliance on coal is going to decrease any time soon.  China has recently been building coal-fired plants at the rate of one every 7 to 10 days, with plans to build 500 more over the next decade.  The fraction of newly built power plants that burn coal has increased from 70% to 90% since 2000.  Thus, without either a more unified approach to reducing pollution or a substantially stronger response to that end by the central government, environmental damage will continue to directly plague both the economy and human health.

The Future Cost of the Building Boom

Here is something I don't see discussed in the press: where are the Chinese going to get all the coal to fire all the new power plants, especially when they are already facing supply shortfalls?  (Update: To clarify, I am less concerned here with the amount of coal in the ground than supply chain issues.  If they are already having trouble moving coal quickly enough to existing plants, how will they manage the increased demand?)  And while they may have the coal in the ground, how much will it cost to mine it with labor costs rising all across the country? And what about the costs of additional transportation infrastructure?

This brings us back to my father-in-law, sweltering away in Xiamen, and one of stumbling blocks the Chinese may be literally building for themselves.  As reported by The New York Times:

Each year for the past few years, China has built about 7.5 billion square feet of commercial and residential space, more than the combined floor space of all the malls and strip malls in the United States, according to data collected by the United States Energy Information Administration.

Chinese buildings rarely have thermal insulation. They require, on average, twice as much energy to heat and cool as those in similar climates in the United States and Europe, according to the World Bank. A vast majority of new buildings -- 95 percent, the bank says -- do not meet China's own codes for energy efficiency.

All these new buildings require China to build power plants, which it has been doing prodigiously. In 2005 alone, China added 66 gigawatts of electricity to its power grid, about as much power as Britain generates in a year. Last year, it added an additional 102 gigawatts, as much as France.

Damn.  So not only is China building enormous power generation capacity, but their underlying infrastructure is inherently inefficient.  This kind of systemic inefficiency is often attributed to, excused, or even just written off as a characteristic of a particular "stage of economic development" (see Keidel for one example).  It is certainly true that the U.S., Japan, and Europe all went through periods when the focus was on generating jobs and building wealth, only later to be followed up by mining inefficiencies to squeeze more product out of each unit of water and energy.

But all of China's infrastructure, all that housing and commercial space, is brand new.  So here are more questions: Is the government's plan to replace inefficient buildings over the next couple of decades?  Will labor remain so inexpensive that Chinese infrastructure is, in effect, disposable?  What are the secondary costs of maintaining that construction boom (e.g., energy, pollution, materials)?

It would seem that without a truly radical change in energy production, China is setting itself up to rely on dirty coal for many decades to come.  And so I wonder: How it is that the country will escape continued environmental damage that is equivalent to China's GDP growth?  You can't put off dealing with those costs forever.

The U.S. is borrowing cash from China to buy petroleum, and we have to sort that out as soon as possible.  But the Chinese are using their health, and thus their future productivity, as collateral for present growth. Even if they don't stumble, they may have to pause to catch their breath.

It isn't news that China has a huge and still growing population, nor that the economy is growing rapidly in the context of an enormous trade surplus.  But looking at what China is today importing, and extending a few trends out into the future a decade or two, gives an interesting slant to food and energy markets that everyone should be thinking about.

I've been digging into these issues as part of Bio-era's consulting practices on biofuels and emerging biotechnologies.  What follows are some notes on trends to watch.

Arable Land:  China is actively moving farmers off the land in an attempt to slow desertification:

The relocation program is part of a larger plan to rein in China's expanding deserts, which now cover one-third of the country and continue to grow because of overgrazing, deforestation, urban sprawl and droughts.

The shifting sands have swallowed thousands of Chinese villages along the fabled Silk Road and sparked a sharp increase in sandstorms; dust from China clouds the skies of South Korea and has been linked to respiratory problems in California.

Since 2001, China has spent nearly US$9 billion planting billions of trees, converting marginal farmland to forest and grasslands and enforcing logging and grazing bans.

The policy is driven in part by concerns over food, as farmland yields not only to the deserts but also to pollution and economic development. China has less than 7 percent of the world's arable land with which to feed 1.3 billion people -- more than 20 percent of the world's population. By comparison, the United States has 20 percent of the world's arable land to feed 5 percent of the population.

...The battle against deserts is playing out across much of western China. Desertification has caused as much as US$7 billion in annual economic losses, the China Daily reported.

Over the past decade, Chinese deserts expanded at a rate of 950 square miles (2,460 square kilometers) a year, according to Wang Tao of the Chinese Academy of Sciences in Lanzhou.

...Global warming also threatens to make a huge dent in grain production, which has already slipped from 432 million tons in 1998 to 422 million tons in 2006 because of desertification. At the same time, grain consumption has risen about 4.4 million tons a year to 418 million tons, in part because of rising demand for beef, chicken and pork.

The production declines have forced China to draw down its grain stocks, and eventually it will need to buy a massive 30-50 million tons a year on the world market, Brown said.

Fresh Water Supplies:  According to an article at Yellow River Conservancy Commission, evidently a Chinese government endeavor:

China has been a production marvel when it comes to labor costs, but not for water costs. To produce a unit of GDP, China uses approximately six times more water than the Republic of Korea and ten times more than Japan, according to Zhai Haohui, vice minister of water resources.

...The water shortage nationwide will reach 50 billion cubic meters by 2030 -- up from the current 6 billion cubic meters, according to the Ministry of Water Resources.

A recent article in the Independent claims that glaciers in the Tibetan plateau, which provide freshwater to much of the country, are now melting at 7% annually.  I've seen that number as high as 13% elsewhere.

Commodities Imports:  The USDA simply says, "China's Demand for Commodities Outpacing Supply".  Demand for corn has exceeded supply in recent years, and I've read that this is the first year they might wind up importing corn.  China already imports enormous amounts of soy; just before I went to Asia in June, the quarterly Chinese buying trip to the U.S. purchased four times as much soy as markets were expecting, $3 billion in one week. 

Meat Consumption: A recent report from the UN FAO, "Livestock's Long Shadow", points out the repercussions from increasing meat consumption around the world: inefficient use of grains, massive consumption of fresh water, increased pollution and greenhouse gas emissions.  Here is a summary from the FAO magazine, carrying the title "Livestock impacts on the environment", which has a link to the full report at the bottom of the page.

Among the most remarkable tidbits from the report, and a key part of the analysis Bio-era is giving to investors in Asia, the U.S., and Europe about the future of commodities usage in regards to biofuels, is related to future Chinese meat consumption.  If China maintains the historical relationship between per capita income and meat consumption (See figure 1.4, page 9 of the FAO report.), by the time it reaches average European income levels supplying all that meat will require 40% of world grain supplies.  40%. 

This is one of those numbers that makes you wonder where and when the current system will break down.  China today has ~15% of world population, and will probably max out at about 18%, with only ~7% of the globe's arable land.  And yet supplying them with mean could consume 40% of the world's production of grain.  Either very strong cultural practices related to meat consumption will have to change (a hard thing to do), or China will be importing a huge fraction of the world's commodities.  Is that the future use of China's massive foreign currency holdings?

Fuel Mix:  According to the USDA FIA "China Bio-Fuels Annual 2007" (PDF), diesel dominates the fuel market in China.  In 2006, 120,000,000 MT of diesel and 40,000,000 MT of gasoline were used across the country (see figure on pg. 8).  Gasoline consumption appears to have leveled off, while gasohol usage has jumped considerably over the last 4 years.

Biofuel Use: The government has put a moratorium on using corn to make ethanol, and may in fact ban that use of corn altogether, but the USDA predicts, "China Fuel Ethanol Production Projected to Increase 12% in 2007":

A report from the US Department of Agriculture Foreign Agricultural Services (USDA FAS) estimates that the production of fuel ethanol in China will reach 1.45 million tonnes (484 million gallons US) in 2007, up 12% from 1.3 million tonnes in 2006. Official production of fuel ethanol in China began in 2004.

...Now, according to the FAS report, plans are to increase ethanol feedstocks from non-arable lands making the use of tuber crops and sweet sorghum. Given the new constraints, a realistic 2010 target appears to be between 3 and 4 million tonnes (1 billion and 1.33 billion gallons US).

...Diesel is the primary fuel used in China. In 2006, China consumed 120 million tonnes of diesel and 40 million tonnes of unblended gasoline. A rise in the use of E10 has caused gasoline consumption to plateau over the last four years. During this time, automobile use in China has increased on average 11.8% annually.

A story at Green Car Congress speculates that, compared the US, cellulose to ethanol may move faster in China because of labor costs.  It's interesting as well that, "China Oil and Food Corporation (COFCO), the country’s largest oil and food importer and exporter, is partnering with Novozymes on the production of cellulosic ethanol."

Offshore Land Deals:  Early this year, Chinese companies signed deals worth US$ 4.9 billion to secure growing rights on 1.2 million hectares (~3 million acres) (Here's the version from Bloomberg, via the IHT).  A similar deal was signed between China National Offshore Oil Corp (CNOOC) and Indonesia, to the tune of US$ 5.5 billion for land to grow crops for ethanol and biodiesel and for processing plants (U of Alberta China Institute,  Biopact).

Finally, China recently announced an increase of planned biofuels use to 20 MMT by 2020.  This is absolutely enormous, as a story at Biopact notes:

The total production of biomass energy from non-grain crops will grow to 500 million tons of coal equivalent, worth some 3 trillion yuan [€290/$385 billion], which will account for 24 percent of the nation's total energy consumption.

In the end, given the shortage of water, the decrease in land suitable for crops, the increase in meat consumption, etc., it just isn't clear where all the biomass is going to come from.  Clearly a great deal of it will be imported, and we can now see where some of China's foreign currency reserves are going to go over the next couple of decades.  Commodities markets are going to get tighter worldwide as a result.