Korea - Land under cereal production (hectares)

The value for Land under cereal production (hectares) in Korea was 824,441 as of 2018. As the graph below shows, over the past 57 years this indicator reached a maximum value of 2,375,066 in 1965 and a minimum value of 821,774 in 2017.

Definition: Land under cereal production refers to harvested area, although some countries report only sown or cultivated area. Cereals include wheat, rice, maize, barley, oats, rye, millet, sorghum, buckwheat, and mixed grains. Production data on cereals relate to crops harvested for dry grain only. Cereal crops harvested for hay or harvested green for food, feed, or silage and those used for grazing are excluded.

Source: Food and Agriculture Organization, electronic files and web site.

See also:

Year Value
1961 2,073,629
1962 2,112,667
1963 2,178,119
1964 2,271,775
1965 2,375,066
1966 2,273,410
1967 2,282,468
1968 2,243,090
1969 2,224,792
1970 2,159,730
1971 2,058,060
1972 2,053,860
1973 1,985,956
1974 2,031,202
1975 2,052,241
1976 2,033,637
1977 1,840,488
1978 1,860,028
1979 1,771,719
1980 1,646,125
1981 1,648,832
1982 1,584,654
1983 1,626,971
1984 1,621,738
1985 1,518,939
1986 1,469,916
1987 1,516,045
1988 1,491,943
1989 1,470,589
1990 1,440,980
1991 1,369,123
1992 1,293,007
1993 1,280,481
1994 1,219,068
1995 1,173,787
1996 1,172,121
1997 1,152,191
1998 1,172,432
1999 1,171,311
2000 1,165,478
2001 1,198,104
2002 1,161,751
2003 1,105,973
2004 1,091,445
2005 1,066,572
2006 1,038,286
2007 1,033,147
2008 1,018,461
2009 1,001,837
2010 970,738
2011 925,794
2012 913,383
2013 896,782
2014 884,326
2015 876,975
2016 858,441
2017 821,774
2018 824,441

Development Relevance: The cultivation of cereals varies widely in different countries and depends partly upon the development of the economy. Production depends on the nature of the soil, the amount of rainfall, irrigation, quality od seeds, and the techniques applied to promote growth. In developed countries, cereal crops are universally machine-harvested, typically using a combine harvester, which cuts, threshes, and winnows the grain during a single pass across the field. In many industrialized countries, particularly in the United States and Canada, farmers commonly deliver their newly harvested grain to a grain elevator or a storage facility that consolidates the crops of many farmers. In developing countries, a variety of harvesting methods are used in cereal cultivation, depending on the cost of labor, from small combines to hand tools such as the scythe or cradle. Crop production systems have evolved rapidly over the past century and have resulted in significantly increased crop yields, but have also created undesirable environmental side-effects such as soil degradation and erosion, pollution from chemical fertilizers and agrochemicals and a loss of bio-diversity. Factors such as the green revolution, has led to impressive progress in increasing cereals yields over the last few decades. This progress, however, is not equal across all regions. Continued progress depends on maintaining agricultural research and education. The cultivation of cereals varies widely in different countries and depends partly upon the development of the economy. Production depends on the nature of the soil, the amount of rainfall, irrigation, quality of seeds, and the techniques applied to promote growth. Agriculture is still a major sector in many economies, and agricultural activities provide developing countries with food and revenue. But agricultural activities also can degrade natural resources. Poor farming practices can cause soil erosion and loss of soil fertility. Efforts to increase productivity by using chemical fertilizers, pesticides, and intensive irrigation have environmental costs and health impacts. Salinization of irrigated land diminishes soil fertility. Thus, inappropriate use of inputs for agricultural production has far-reaching effects. There is no single correct mix of inputs to the agricultural land, as it is dependent on local climate, land quality, and economic development; appropriate levels and application rates vary by country and over time and depend on the type of crops, the climate and soils, and the production process used.

Limitations and Exceptions: The data are collected by the Food and Agriculture Organization of the United Nations (FAO) through annual questionnaires. They are supplemented with information from official secondary data sources. The secondary sources cover official country data from websites of national ministries, national publications and related country data reported by various international organizations. The FAO tries to impose standard definitions and reporting methods, but complete consistency across countries and over time is not possible. Thus, data on agricultural land in different climates may not be comparable. For example, permanent pastures are quite different in nature and intensity in African countries and dry Middle Eastern countries. Data on agricultural land are valuable for conducting studies on a various perspectives concerning agricultural production, food security and for deriving cropping intensity among others uses.

Statistical Concept and Methodology: Cereals production includes wheat, rice, maize, barley, oats, rye, millet, sorghum, buckwheat, and mixed grains. Production data on cereals relate to crops harvested for dry grain only. Cereal crops harvested for hay or harvested green for food, feed, or silage and those used for grazing are excluded. A cereal is a grass cultivated for the edible components of their grain, composed of the endosperm, germ, and bran. Cereal grains are grown in greater quantities and provide more food energy worldwide than any other type of crop; cereal crops therefore can also be called staple crops.

Aggregation method: Sum

Periodicity: Annual

Classification

Topic: Environment Indicators

Sub-Topic: Agricultural production