TY - JOUR
T1 - Evaluation of tuber-bearing Solanum species for nitrogen use efficiency and biomass partitioning
AU - Errebhi, Mohamed
AU - Rosen, Carl J.
AU - Lauer, Florian I.
AU - Martin, Max W.
AU - Bamberg, John B.
PY - 1999
Y1 - 1999
N2 - Modern potato cultivars (Solanum tuberosum L.) require high rates of fertilizer nitrogen (N). This practice is costly and can pose a serious threat to surface and groundwater Previous evaluation of wild potato germplasm demonstrated the existence of species capable of producing high total biomass under low N conditions, with the ability to make maximum use of added N. Therefore, a two-year field experiment was conducted in 1994 and 1995 to investigate the response of selected wild potato accessions and their hybrids with the haploid USW551 (USW) to low and high N environments. The haploid USW and cultivars Russet Burbank, Red Norland, and Russet Norkotah were also included in the study, Uniform propagules and seedlings from the various Solanum species were transplanted to a Hubbard loamy sand (Udic Haploboroll) at Becker, Minn and were subjected to two N treatments: 0 and 225 kg N ha-1. At harvest, total dry biomass of wild and hybrid potato germplasm was equal to or higher than that of the cuitivars. However, cultivar biomass partitioning was 1% to roots, 15% to shoots, 0% to fruits, and 84% to tubers, whereas wild potato species partitioned 18% to roots plus nontuberized stolons, 52% to shoots, 23% to fruits, and only 7% to tubers. Hybrids were intermediate, allocating 9% of their biomass to roots plus nontuberized stolons, 39% to shoots, 14% to fruits, and 38% to tubers. Nitrogen use efficiencies for many of the species and crosses were comparable to that for Russet Burbank and greater than those for Red Norland and Russet Norkotah. Of the wild species tested, S. chacoense accessions had the highest biomass accumulation and N uptake efficiencies and may be the best source of gemplasm for improving NUE in a potato breeding program.
AB - Modern potato cultivars (Solanum tuberosum L.) require high rates of fertilizer nitrogen (N). This practice is costly and can pose a serious threat to surface and groundwater Previous evaluation of wild potato germplasm demonstrated the existence of species capable of producing high total biomass under low N conditions, with the ability to make maximum use of added N. Therefore, a two-year field experiment was conducted in 1994 and 1995 to investigate the response of selected wild potato accessions and their hybrids with the haploid USW551 (USW) to low and high N environments. The haploid USW and cultivars Russet Burbank, Red Norland, and Russet Norkotah were also included in the study, Uniform propagules and seedlings from the various Solanum species were transplanted to a Hubbard loamy sand (Udic Haploboroll) at Becker, Minn and were subjected to two N treatments: 0 and 225 kg N ha-1. At harvest, total dry biomass of wild and hybrid potato germplasm was equal to or higher than that of the cuitivars. However, cultivar biomass partitioning was 1% to roots, 15% to shoots, 0% to fruits, and 84% to tubers, whereas wild potato species partitioned 18% to roots plus nontuberized stolons, 52% to shoots, 23% to fruits, and only 7% to tubers. Hybrids were intermediate, allocating 9% of their biomass to roots plus nontuberized stolons, 39% to shoots, 14% to fruits, and 38% to tubers. Nitrogen use efficiencies for many of the species and crosses were comparable to that for Russet Burbank and greater than those for Red Norland and Russet Norkotah. Of the wild species tested, S. chacoense accessions had the highest biomass accumulation and N uptake efficiencies and may be the best source of gemplasm for improving NUE in a potato breeding program.
KW - Cultivars
KW - Hybrids
KW - Potato
KW - Wild germplasm
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U2 - 10.1007/bf02853579
DO - 10.1007/bf02853579
M3 - Article
AN - SCOPUS:0033019153
SN - 0003-0589
VL - 76
SP - 143
EP - 151
JO - American Journal of Potato Research
JF - American Journal of Potato Research
IS - 3
ER -