The response of celeriac yield, quality and soil nitrate residue to nitrogen fertilization and supply
Despite major efforts to reduce nitrogen (N) losses, nitrate (NO3-) concentrations in surface and groundwater remain too high, especially in field grown vegetable production regions.
Stringent N fertilization rates stay the best strategy to increase N efficiency.
We collected data from 4 Flemish celeriac fields where crop and soil measurements were done during the cropping period.
We also re-analyzed 9 celeriac field experiments with various N fertilization rates and examined total and tuber yield and quality and soil NO3--N contents at harvest.
The seasonal patterns demonstrate that the first months after planting celeriac grows slowly and takes up very little N but growth and N uptake continue till the end of October/November.
Concurrently the soil NO3--N content keeps reducing.
On highly fertile soil an N supply (= applied effective N + NO3--N at planting (0-60 cm)) <100-150 kg N ha‑1, corresponding to <50-100 kg applied effective N ha‑1, can limit the tuber yield or quality parameter leaf color.
Thanks to the extra leaf production at high N supply and a good developed horizontal root system, the risk of a high NO3--N residue at the harvest is low.
Fractionated N fertilization can abate the NO3--N leaching risk below rooting depth caused by heavy rain in spring when N uptake is low and also minimizes the risk of N rich crop residue by improving the N mineralization amount estimation.
Due to impact of management and weather the N mineralization amount can differ largely between celeriac fields and is difficult to calculate, especially for hired fields.
A field database with soil measurements, fertilization information and crop rotations would facilitate the N fertilization rate calculations and would stimulate farmers to work on soil quality.
DHaene, K., Callens, D. and Hofman, G. (2023). The response of celeriac yield, quality and soil nitrate residue to nitrogen fertilization and supply. Acta Hortic. 1375, 53-60
DOI: 10.17660/ActaHortic.2023.1375.8
https://doi.org/10.17660/ActaHortic.2023.1375.8
DOI: 10.17660/ActaHortic.2023.1375.8
https://doi.org/10.17660/ActaHortic.2023.1375.8
nitrogen mineralization, late harvest, nitrate leaching losses, soil quality, field database
English
1375_8
53-60