Effect of management and age of ploughed out grass–clover on forage maize yield and residual soil nitrogen

Forage maize (Zea mays L.) is often grown year after year on the same land on many intensive dairy farms in north-west Europe. This results in agronomical problems such as weed resistance and decline of soil quality, which may be solved by ley-arable farming. In the current study, forage maize was g...

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Bibliographic Details
Published inThe Journal of agricultural science Vol. 156; no. 6; pp. 748 - 757
Main Authors Cougnon, M., Van Den Berge, K., D'Hose, T., Clement, L., Reheul, D.
Format Journal Article
LanguageEnglish
Published Cambridge, UK Cambridge University Press 01.08.2018
Subjects
Age
Agricultural land
Agricultural production
Agronomy
Arable land
Cereals
Clover
Corn
Crop rotation
Crop yield
Crops and Soils Research Paper
Cutting management
Dairy farms
Economics
Experiments
Farms
Fertilization
Fertilizers
Grasses
Grasslands
Hypotheses
Loam soils
Management
Nitrates
Nitrogen
Pasture management
Plant growth
Profitability
Soil properties
Soil quality
Soil resistance
Belgium
nitrate
ley-arable
soil organic matter
Clover
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Summary:Forage maize (Zea mays L.) is often grown year after year on the same land on many intensive dairy farms in north-west Europe. This results in agronomical problems such as weed resistance and decline of soil quality, which may be solved by ley-arable farming. In the current study, forage maize was grown at different nitrogen (N) fertilization levels for 3 years on permanent arable land and on temporary arable land after ploughing out different types of grass–clover swards. Swards differed in management (grazing or cutting) and age (temporary or permanent). Maize yield and soil residual mineral N content were measured after the maize harvest. There was no effect on maize yield of the management of ploughed-out grass–clover swards but a clear effect of the age of grass–clover swards. The N fertilizer replacement value (NFRV) of all ploughed grass–clover swards was >170 kg N/ha in the first year after ploughing. In the third year after ploughing, NFRV of the permanent sward still exceeded 200 kg N/ha, whereas that of the temporary swards decreased to 30 kg N/ha on average. Soil residual nitrate (NO3−) remained below the local, legal threshold of 90 kg NO3− N/ha except for the ploughed-out permanent sward in the third year after ploughing (166 kg NO3− N/ha). The current study highlights the potential of forage maize – ley rotations in saving fertilizer N. This is beneficial both for the environment and for the profitability of dairy production in north-western Europe.
ISSN:0021-8596
1469-5146
DOI:10.1017/S0021859618000631