Testing the Rothamsted Carbon Model against data from long-term experiments on upland soils in Thailand

Testing the Rothamsted Carbon Model against data from long-term experiments on upland soils in Thailand

Summary We tested the Rothamsted Carbon Model (RothC) against three long‐term (27–28 years) experimental sites on Thai upland soils in order to see how this widely used ‘temperate’ soil carbon turnover model performed in a typical farming region in the tropics. We were able to verify – over a much l...

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Bibliographic Details
Published in:European journal of soil science Vol. 56; no. 2; pp. 179 - 188
Main Authors: Shirato, Y, Paisancharoen, K, Sangtong, P, Nakviro, C, Yokozawa, M, Matsumoto, N
Format: Journal Article
Language:English
Published: Oxford, UK; Malden, USA Blackwell Science Ltd 01-04-2005
Blackwell Science
Subjects:
Agronomy. Soil science and plant productions
Biological and medical sciences
carbon
carbon sequestration
cassava
Chemical, physicochemical, biochemical and biological properties
continuous cropping
corn
Earth sciences
Earth, ocean, space
Exact sciences and technology
Fundamental and applied biological sciences. Psychology
Geochemistry
long term experiments
Manihot esculenta
Organic matter
Physics, chemistry, biochemistry and biology of agricultural and forest soils
Rothamsted Carbon Model
Soil and rock geochemistry
soil nutrient dynamics
soil organic matter
soil organic matter turnover models
Soil science
temperate zones
tropical soils
tropics
upland soils
Zea mays
Thailand
Asia
South east Asia
Organic carbon
Monocotyledones
Organic matter
Upland area
Long term test
Tropical zone
Rothamsted Carbon Model
Model study
Modeling
Cereal crop
Tropical soil
Gramineae
Dicotyledones
Angiospermae
Turnover
Euphorbiaceae
Soil science
Simulation model
Validation
Experimental data
Zea mays
Manihot esculenta
Tropical crop
Agricultural soil
Earth science
Carbon
Carbon cycle
Biogeochemistry
Regional study
Spermatophyta
Tuber plant
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Summary:Summary We tested the Rothamsted Carbon Model (RothC) against three long‐term (27–28 years) experimental sites on Thai upland soils in order to see how this widely used ‘temperate’ soil carbon turnover model performed in a typical farming region in the tropics. We were able to verify – over a much longer period than had been examined in previous studies – that RothC performs well in a tropical region in plots used for continuous cropping experiments of maize and cassava without organic matter application. However, the model overestimated soil organic carbon (SOC) in some plots to which large amounts of organic matter (rice straw or cassava stalks) were applied. This overestimate could not be attributed to errors in estimating either the amount of C input to the soil or the ratio of decomposable plant materials to resistant plant materials entering the soil. Among many factors affecting SOC dynamics (e.g. weather conditions, soil characteristics, etc.), which are different in tropical regions from temperate regions, we conclude that the activity of soil fauna might be a major factor which makes the performance of RothC worse where much organic matter was applied. We suggest that care should be taken when applying RothC to tropical soils with large amounts of added organic matter.
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content type line 23
ISSN:1351-0754
1365-2389
DOI:10.1111/j.1365-2389.2004.00659.x