|Title:||Global annual iron ore production by country or region in metric tons for 2008 to 2010|
|Source:||E-MJ - Engineering & Mining Journal|
Start of full article - but without data
Iron Ore: World Production (million metric tons)
Country 2008 2009 2010
Sweden XX.X XX.X XX.X
Sub-total Europe excl. CIS XX.X XX.X XX.X
CIS XXX.X XXX.X XXX.X
Sub-total Europe XXX.X XXX.X XXX.X
Canada XX.X XX.X XX.X USA XX.X XX.X XX.X Brazil XXX.X XXX.X XXX.X Venezuela XX.X XX.X XX.X
Sub-total Americas XXX.X XXX.X XXX.X
Mauritania XX.X XX.X XX.X South Africa XX.X XX.X XX.X
Sub-total Africa XX.X XX.X XX.X
India XXX.X XXX.X XXX.X
Sub-total Asia excl. China XXX.X XXX.X XXX.X
China (X) XXX.X XXX.X XXX.X
Sub-total Asia XXX.X XXX.X XXX.X
Australia XXX.X XXX.X XXX.X
Sub-total Oceania XXX.X XXX.X XXX.X
Total World X,XXX.X X,XXX.X X,XXX.XX
X) Iron ore production figure converted to represent global average
Note: China's ore production XXX.X XXX.X X,XXX.X
Source: UNCTAD 2011
The world iron ore market in 2010 was dominated by a resurgence after the stimuli packages, put in place in 2009 following the global financial crisis, took effect. However, the industry experienced rough times in 2009 and the resulting changes following the economic slump produced effects that probably will live on as permanent features. Trading patterns have been transformed, and Chinese dominance has become even more massive.
Steel Production: Up Globally, Growth Slower in China
World crude steel production increased to X.XXX billion mt in 2010 from X.XXX billion mt in 2009, a change of X.X%, driven by the recovery of the world economy and rising industrial production, mainly in emerging countries but also in the OECD area. Production was well above the 2007 peak.
While China accounted for the entire increase in 2009, production recovered dramatically in the rest of the world in 2010, and it increased at a higher rate than in China. Crude steel production in China increased by XX.X%, a lower rate than the XX.X% achieved in 2009. Production in the rest of Asia increased by a strong XX.X% and has now regained pre-crisis levels, although it is still lower than the peaks attained in 2005-2006. In Europe, production rose by XX.X% but is still XX% below that of 2008. In the Americas, production grew by XX%, but was well below the level reached before the recession. All major producers experienced large increases in production.
Monthly world crude steel production had regained the pre-crisis peak by May 2010. This was however almost entirely due to China, where previous peaks in monthly production were matched already in April 2009. The rest of the world had still not reached pre-crisis production rates in May 2011.
The recovery is well under way and appears to be solidly based, although growth rates have declined from the very high numbers reached in the early stages of the upswing.
Record Iron Ore Production
A new all-time high for iron ore production was achieved in 2010, at X.XXX billion mt (See Table X). Production grew by XX.X% over 2009's level and well above 2008's previous high of X.XXX billion mt. Output increased in most regions and countries except Africa and Asia, excluding China, where production in 2010 remained relatively constant. Europe and North America (Canada and United States) experienced the highest growth rates, approaching XX%. Among the major producers Australian, Brazilian and Chinese production was increased by X.X%, XX% and XX.X%, respectively. Indian production declined somewhat to just above XXX million mt. Production in the CIS countries grew by XX.X%.
Developing countries accounted for XX.X% of world iron ore production in 2010 (up from XX.X% in 2009), the CIS republics for just over XX.X% and the industrialized economies for almost XX.X%. The increase in the share of the developing countries was due mainly to growth in Brazil--up more than XX million mt--and China, up XX million mt. Chinese production, on a comparable grade basis, was XXX million mt, or XX.X% of total world production in 2010, up from XX.X% in 2009 but below the top level in 2007 of XXX million mt.
World pellet production rose by XX% in 2010 to XXX million mt up from XXX million mt in 2009 reaching a new record level. This reflects a sharp increase in demand for pellets in most countries except the U.S. World exports were XXX million mt, an increase of XX% over 2009. The share of pellets in total iron ore production rose to XX% in 2010. Worldwide, several new pellet plants are being planned or are under construction.
Higher Demand Drives Record Iron Ore Trade
In 2010, international iron ore trade reached a new record level as exports increased for the ninth year in a row and reached X,XXX million mt, up XX%. The increase was the result of higher demand in the wake of the recession. However, most countries have not regained their 2008 import levels. Developing countries accounted for XX% of total iron ore exports in 2010, developed countries accounted for XX%, including the CIS republics at about X%. Australia's exports increased by XX% to XXX million mt in 2010. With important markets in Europe and the Americas picking up pace, Brazilian exports, which fell in 2009, recovered and increased XX% in 2010 to XXX million mt, up from XXX million mt. Indian exports fell for the first time in XX years but the country is still at XX million mt, the third most important exporter. Ukraine, Kazakhstan and Russia increased their exports in 2010; China has become an important market for all three countries, but transport capacity has been a limiting factor for further expansion.
China is the world's largest iron ore importer. In 2010, its imports were XXX million mt, a slight decrease compared with 2009--but still representing XX% of total world imports. Almost everywhere else, imports rose. Japan's imports increased by XX% to XXX million mt, and the Republic of Korea's by XX% to XX million mt. European imports (excluding the CIS countries), increased by XX% in 2010, reaching XXX million mt. Seaborne trade in iron ore reached a new high at XXX million mt in 2010.
Pricing: Higher Volatility Ahead
The demise of the annual benchmark pricing system was confirmed in 2010. Currently, annual prices are still negotiated between a small number of mining companies, most importantly LKAB in Sweden, and steel mills. The impact of the disappearance of benchmark prices on market transparency is mixed. On one hand, there is very little information about prices actually agreed-to by identified parties. Full details about the quarterly pricing system used by Vale, for instance, have still not been published, although the prices applied are relatively widely known. On the other hand, the introduction of at least three competing price indices (Metal Bulletin, Platts and The Steel Index) has made it somewhat easier for market participants to follow price movement and trends.
Hedging opportunities have multiplied rapidly and there are now several marketplaces for the clearing of OTC iron ore swaps. Two existing futures contracts for iron ore (at the Indian Commodity Exchange (ICEX) and the Multi Commodity Exchange of India (MCX)) will shortly be joined by a third, at the Singapore Mercantile Exchange (SMX), which will provide additional hedging opportunities as well as a possibility for investors to participate, something that should improve market liquidity and give better assurance to hedgers. In spite of the rapid growth in the range of possible derivatives trades, both iron ore mining companies and steel mills have so far been relatively slow to begin using the hedging facilities. Based on experiences from other markets, however, it is likely that modern price risk management will play an increasingly important role also in the iron ore market.
When considering the future of iron ore pricing, it is however also important to understand that most iron ore is still sold on long-term contracts and that buying iron ore is not like buying other metal concentrates. One of the most important considerations for steel mills is the consistency of quality of the iron ore.
The full effects of the new pricing mechanisms are not clear, but it is unlikely the new model will have any major effect on price levels. It is, however, clear volatility will increase. Moreover, steel companies from all parts of the world will have added incentive to increase captive production. Chinese steel mills will invest heavily in both domestic and overseas projects. The contradictions building between Vale, Rio Tinto and BHP Billiton--the Big X--and the Chinese will not be resolved in the near future. It will most likely take a few years to settle them and the end could very well be quite dramatic.
Except for a short decline in April June 2010, spot prices in China have increased almost continuously since early 2009. During the first half of 2011, prices stagnated somewhat, although they remain at levels that must be characterized as extremely high in a historical perspective.
Corporate Concentration Remains Stable
Vale, Rio Tinto and BHP Billiton together controlled XX% of world production in 2010 (See Table X). However, their current market share is still lower than the peak in 2005 at XX.X%. The decline is the result of new production being started in many countries as iron ore prices returned to previous high levels and in particular many of the small Chinese producers restarted their production in late 2009 and early 2010.
Brazil's Vale once again confirmed its position as the world's largest iron ore producer by increasing output by XX million mt to reach an all-time high of XXX million mt and a market share of XX.X%. The second largest producer, Rio Tinto, has a market share of X.X%. BHP Billiton increased its production by XX million mt to reach XXX million mt in 2010.
Vale increased its market share and is by far the top producer. Corporate consolidation decreased marginally both at the level of the three largest and the XX largest companies. The trend between 2005 and 2008 of decreasing concentration has been broken and we see a consolidation among the top XX producers. Corporate concentration will resume its growth when prices fall and many small Chinese producers are forced to close.
To measure corporate control at the production stage underestimates the concentration of the iron ore sector because large amounts of production do not enter the market, but are produced in captive mines or mines which have a protected or restricted market. An alternative way to measure the control is to monitor the share of global seaborne trade of the leading companies. Measured this way, the shares of the major companies are considerably higher. Vale alone controls XX% of the total world market for seaborne iron ore. With the market shares of Rio Tinto and BHP Billiton dropping in 2010, the overall share controlled by the Big X fell from XX% in 2009 to XX% in 2010.
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