Field-scale validation of a tractor based multispectral crop scanner to determine biomass and nitrogen uptake of winter wheat

U. Schmidhalter; S. Jungert; C. Bredemeier; R. Gutser; R. Manhart; B. Mistele; G. Gerl

Field-scale validation of a tractor based multispectral crop scanner to determine biomass and nitrogen uptake of winter wheat

U. Schmidhalter, S. Jungert, C. Bredemeier, R. Gutser, R. Manhart, B. Mistele, G. Gerl

Life Sciences

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

5 Scopus citations

Abstract

In spatially variable fields, nitrogen fertilisation should be site-specifically applied in the growing season. This can be achieved through on-the-go sensors detecting the nitrogen status of the plants combined with a fertilising algorithm to control the amount of nitrogen fertilizer being applied. The potential to detect the spatial variation of biomass, nitrogen content and nitrogen uptake in winter wheat was investigated in 2001 and 2002 with a tractor based multi-spectral scanner measuring crop reflectance. The results indicated that biomass and nitrogen uptake can be reliably detected with a tractor-based non-contacting sensor. Further, the spatial yield variation can be predicted based on spectral measurements at milk ripeness.

Original language	English
Title of host publication	Precision Agriculture
Publisher	Brill
Pages	615-619
Number of pages	5
ISBN (Electronic)	9789086865147
ISBN (Print)	9789076998213
State	Published - 1 Jan 2024

Keywords

biomass detection
nitrogen status
on-the-go sensor
spectral reflectance
yield monitoring

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Cite this

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abstract = "In spatially variable fields, nitrogen fertilisation should be site-specifically applied in the growing season. This can be achieved through on-the-go sensors detecting the nitrogen status of the plants combined with a fertilising algorithm to control the amount of nitrogen fertilizer being applied. The potential to detect the spatial variation of biomass, nitrogen content and nitrogen uptake in winter wheat was investigated in 2001 and 2002 with a tractor based multi-spectral scanner measuring crop reflectance. The results indicated that biomass and nitrogen uptake can be reliably detected with a tractor-based non-contacting sensor. Further, the spatial yield variation can be predicted based on spectral measurements at milk ripeness.",

keywords = "biomass detection, nitrogen status, on-the-go sensor, spectral reflectance, yield monitoring",

author = "U. Schmidhalter and S. Jungert and C. Bredemeier and R. Gutser and R. Manhart and B. Mistele and G. Gerl",

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T1 - Field-scale validation of a tractor based multispectral crop scanner to determine biomass and nitrogen uptake of winter wheat

AU - Schmidhalter, U.

AU - Jungert, S.

AU - Bredemeier, C.

AU - Gutser, R.

AU - Manhart, R.

AU - Mistele, B.

AU - Gerl, G.

N1 - Publisher Copyright: © Wageningen Academic Publishers The Netherlands, 2003.

PY - 2024/1/1

Y1 - 2024/1/1

N2 - In spatially variable fields, nitrogen fertilisation should be site-specifically applied in the growing season. This can be achieved through on-the-go sensors detecting the nitrogen status of the plants combined with a fertilising algorithm to control the amount of nitrogen fertilizer being applied. The potential to detect the spatial variation of biomass, nitrogen content and nitrogen uptake in winter wheat was investigated in 2001 and 2002 with a tractor based multi-spectral scanner measuring crop reflectance. The results indicated that biomass and nitrogen uptake can be reliably detected with a tractor-based non-contacting sensor. Further, the spatial yield variation can be predicted based on spectral measurements at milk ripeness.

AB - In spatially variable fields, nitrogen fertilisation should be site-specifically applied in the growing season. This can be achieved through on-the-go sensors detecting the nitrogen status of the plants combined with a fertilising algorithm to control the amount of nitrogen fertilizer being applied. The potential to detect the spatial variation of biomass, nitrogen content and nitrogen uptake in winter wheat was investigated in 2001 and 2002 with a tractor based multi-spectral scanner measuring crop reflectance. The results indicated that biomass and nitrogen uptake can be reliably detected with a tractor-based non-contacting sensor. Further, the spatial yield variation can be predicted based on spectral measurements at milk ripeness.

KW - biomass detection

KW - nitrogen status

KW - on-the-go sensor

KW - spectral reflectance

KW - yield monitoring

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M3 - Chapter

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BT - Precision Agriculture

PB - Brill

ER -

Field-scale validation of a tractor based multispectral crop scanner to determine biomass and nitrogen uptake of winter wheat

Abstract

Keywords

UN SDGs

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