China LTFE Network - Changping

This experiment has been added by the GLTEN Curators using existing published sources.
Objective
To assess the sustainability of agricultural systems including: 1. whether acceptable crop yields can be maintained over a long period, 2. the nutrient inputs required to maintain crop yields and soil reserves of nutrients 3. understand costs of nutrient losses
Description
This experiment is part of the China National Soil Fertility and Fertilizer Efficiency Long-term Monitor Network which aims to address problems around sustainability of agricultural systems by studying cropping systems across nine highly diverse regions of China. The experiments represent approximately 86 Mha of arable land in China and are relevant to large areas in other parts of Asia and elsewhere.
Data Access Statement
Don't know
Data license
Don't know
Data policy
Don't know
Organization
China National Soil Fertility and Fertilizer Efficiency Long-term Monitor Network
research network
People

Site: Changping

Type
research station field
Location
Changping
Beijing
China
Geographic location
40.209444, 116.202222
© OpenStreetMap contributors
Elevation
44 Metres
Visits permitted?
No
Soil description
Drab fluvoaquic soil. Soil texture is silt loam.
Soil properties
VariableDepthValue (range)UnitsRef yearEstimated?Baseline?
sand content0 – 20 Centimetres20.3 Percent
silt content0 – 20 Centimetres65 Percent
clay content0 – 20 Centimetres14.7 Percent
soil density0 – 20 Centimetres1.5 gram per cubic centimetre
soil pH0 – 20 Centimetres8.2
soil organic carbon0 – 20 Centimetres7.1 gram per kilogram
total soil nitrogen0 – 20 Centimetres0.79 gram per kilogram
Climate properties
VariableTime periodValue (range)Units
air temperature11.8 degree Celsius
precipitation577 millimeter

Design period: (1989—)

Design description
The experiments have a single block with treatments randomized within it. Experiments are unreplicated. Plots measure 200 m2. The experiment uses a double cropping of a wheat-maize rotation with two crops per year.
Number of harvests per year
2
Crops
CropYears grown
wheat
maize
Factors
Factor name
Factor levels
nitrogen fertilizer exposure
N  (150 kgN/ha)
Chemical form: urea
Equal amounts to wheat and maize
phosphate fertilizer exposure
P  (33 kgP/ha)
Chemical form: single superphosphate
Equal amounts to wheat and maize
potassium fertilizer exposure
K  (37 kgK/ha)
Chemical form: potassium chloride
Equal amounts to wheat and maize
natural fertilizer exposure
St  (2.25 t/ha)
Applied to crop: wheat
Chemical form: maize straw
M  (22.5 t/ha)
Applied to crop: wheat
Chemical form: pig manure
M1.5  (33.75 )
Applied to crop: wheat
Chemical form: pig manure
Factor combinations
control
No inputs applied
N
nitrogen fertilizer exposure: N
NP
nitrogen fertilizer exposure: N
phosphate fertilizer exposure: P
NK
nitrogen fertilizer exposure: N
potassium fertilizer exposure: K
PK
phosphate fertilizer exposure: P
potassium fertilizer exposure: K
NPK
nitrogen fertilizer exposure: -
phosphate fertilizer exposure: P
potassium fertilizer exposure: K
NPK+M
nitrogen fertilizer exposure: N
phosphate fertilizer exposure: P
potassium fertilizer exposure: K
natural fertilizer exposure: M
NPK+1.5M
nitrogen fertilizer exposure: N
phosphate fertilizer exposure: P
potassium fertilizer exposure: K
natural fertilizer exposure: M1.5
NPK+St
nitrogen fertilizer exposure: N
phosphate fertilizer exposure: P
potassium fertilizer exposure: K
natural fertilizer exposure: St
Measurements
VariableMaterialUnitsFrequencyScaleComment
grain yield traitNot specified
nitrogen contentAll crops
phosphorous contentAll crops
potassium contentAll crops

Related publications

  • Zhao, B.-q., Li, X.-y., Li, X.-p., Shi, X.-j., Huang, S.-m., Wang, B.-r., Zhu, P., Yang, X.-y., Liu, H., Chen, Y., Poulton, P., Powlson, D., Todd, A. and Payne, R. (2010), Long-Term Fertilizer Experiment Network in China: Crop Yields and Soil Nutrient Trends. Agron. J., 102: 216-230.