Tuber yield, storability, and quality of Michigan cultivars in response to nitrogen management and seedpiece spacing

Information is required on nitrogen (N) fertility and seedpiece management for new cultivars and advanced breeding lines. Interactions amongst N fertilizer rate, genotype, and seedpiece spacing are complex, and can affect tuber yield, quality, and storability as well as N fertilizer efficiency. A fi...

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Bibliographic Details
Published in:American journal of potato research 2004-09, Vol.81 (5), p.347-357
Main Authors: Long, Chris M, Snapp, Sieg S, Douches, Dave S, Chase, Richard W
Format: Article
Language:English
Subjects:
Agronomy. Soil science and plant productions
Biological and medical sciences
breeding
breeding lines
color
crop yield
Cultivars
fertilizer rates
Fundamental and applied biological sciences. Psychology
General agronomy. Plant production
genotype
glucose
nitrate nitrogen
nitrogen
Nitrogen fertilization
nitrogen fertilizers
Nitrogen, phosphorus, potassium fertilizations
on-farm research
petioles
potatoes
Soil-plant relationships. Soil fertility. Fertilization. Amendments
spatial distribution
specific gravity
storage quality
sucrose
tubers
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Summary:Information is required on nitrogen (N) fertility and seedpiece management for new cultivars and advanced breeding lines. Interactions amongst N fertilizer rate, genotype, and seedpiece spacing are complex, and can affect tuber yield, quality, and storability as well as N fertilizer efficiency. A field study was carried out in 2001 2002 at MSU Montcalm Research Farm in central Michigan. Tuber yields and post-harvest quality characteristics were evaluated for five potato genotypes (MSG227-2, MSE192-8Rus, Jacqueline Lee, Liberator, and Snowden) in response to a factorial combination of three N levels (200 kg N ha-1, 300 kg N ha-1, and 400 kg N ha-1) and two seedpiece spacings, narrow (0.20 m or 0.25 m) and wide (0.33 m or 0.38 m). Narrow seedpiece spacing consistently produced the highest U.S. No. 1 yields in all genotypes tested (37 and 34 t ha-1, narrow vs wide spacing, respectively). There was a tradeoff between seedpiece spacing and N level in 2001 as tuber yields were enhanced by higher N levels at wide seedpiece spacing, but not at narrow spacing. In 2002, tuber yield was not enhanced, but petiole nitrate-N and tuber-N increased as N fertilization increased. Genotype was the major factor that influenced tuber quality characteristics at harvest and for stored tubers (e.g., specific gravity, internal defects, bruising, chip color rating, sucrose, and glucose). Spacing had minimal effects, whereas higher levels of N slightly reduced specific gravity both years, reduced internal defects in 2001 and enhanced sucrose at harvest in 2002. The cultivars tested demonstrated excellent storage characteristics for different N fertility levels and seedpiece spacing combinations. Overall, the recommended N fertilizer level for moderately long-duration potato cultivars in Michigan (200 kg N ha-1) and a narrow seedpiece spacing optimized yield and tuber quality performance while conserving N fertilizer.
ISSN:1099-209X
1874-9380
DOI:10.1007/BF02870181