Soil quality and constraints in global rice production. Haefele, S. M., Nelson, A., & Hijmans, R. J. Geoderma, 235–236:250--259, 2014. bibtex: Haefele2014
Soil quality and constraints in global rice production [link]Paper  doi  abstract   bibtex   
We assessed soil quality in global rice production areas with the Fertility Capability Soil Classification (FCC) system adjusted to match the harmonized world soil database, established by the Food and Agriculture Organization and the International Institute for Applied Systems Analysis. We computed the distribution of 20 soil constraints, and used these to categorize soils as ‘good’, ‘poor’, ‘very poor’, or ‘problem soil’ for rice production. These data were then combined with data of global rice distribution to determine soil quality in the main rice production systems around the world. Most rice is grown in Asia (143.4 million ha), followed by Africa (10.5 million ha) and the Americas (7.2 million ha). Globally, one-third of the total rice area is grown on very poor soils, which includes 25.6 million ha of irrigated rice land, 18.5 million ha in rainfed lowlands, and 7.5 million ha of upland rice. At least 8.3 million ha of rice is grown on problem soils, including saline, alkaline/sodic, acid-sulfate, and organic soils. Asia has the largest percentage of rice on good soils (47%) whereas rice production on good soils is much less common in the Americas (28%) and accounts for only 18% in Africa. The most common soil chemical problems in rice fields are very low inherent nutrient status (35.8 million ha), very low pH (27.1 million ha), and high P fixation (8.1 million ha); widespread soil physical problems especially severe in rainfed environments are very shallow soils and low water-holding capacity. The results of the analysis can be used to better target crop improvement research, plant breeding, and the dissemination of stress-specific tolerant varieties and soil management technologies.
@article{haefele_soil_2014,
	title = {Soil quality and constraints in global rice production},
	volume = {235–236},
	issn = {0016-7061},
	url = {http://www.sciencedirect.com/science/article/pii/S0016706114002900},
	doi = {10.1016/j.geoderma.2014.07.019},
	abstract = {We assessed soil quality in global rice production areas with the Fertility Capability Soil Classification (FCC) system adjusted to match the harmonized world soil database, established by the Food and Agriculture Organization and the International Institute for Applied Systems Analysis. We computed the distribution of 20 soil constraints, and used these to categorize soils as ‘good’, ‘poor’, ‘very poor’, or ‘problem soil’ for rice production. These data were then combined with data of global rice distribution to determine soil quality in the main rice production systems around the world. Most rice is grown in Asia (143.4 million ha), followed by Africa (10.5 million ha) and the Americas (7.2 million ha). Globally, one-third of the total rice area is grown on very poor soils, which includes 25.6 million ha of irrigated rice land, 18.5 million ha in rainfed lowlands, and 7.5 million ha of upland rice. At least 8.3 million ha of rice is grown on problem soils, including saline, alkaline/sodic, acid-sulfate, and organic soils. Asia has the largest percentage of rice on good soils (47\%) whereas rice production on good soils is much less common in the Americas (28\%) and accounts for only 18\% in Africa. The most common soil chemical problems in rice fields are very low inherent nutrient status (35.8 million ha), very low pH (27.1 million ha), and high P fixation (8.1 million ha); widespread soil physical problems especially severe in rainfed environments are very shallow soils and low water-holding capacity. The results of the analysis can be used to better target crop improvement research, plant breeding, and the dissemination of stress-specific tolerant varieties and soil management technologies.},
	urldate = {2015-03-27TZ},
	journal = {Geoderma},
	author = {Haefele, S. M. and Nelson, A. and Hijmans, R. J.},
	year = {2014},
	note = {bibtex: Haefele2014},
	keywords = {Global rice production areas, P fixation, Problem soils, Soil quality, africa, basistext, geofaktoren, phd, ricemapping, ricesystems, soils, steuerungsartikel, tbr},
	pages = {250--259}
}
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