The influence of the duration of the storage period of aeroponic minitubers on the growth and development of potato varieties in field conditions

K. A. Koloshina, N. I. Polukhin, K. V. Avdeenko
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Abstract

When using minitubers as planting material in seed production, there is a problem of sparseness of seedlings, which is associated with different duration of the storage period of minitubers (since harvesting from an aeroponic installation to the appearance of the first single shoots). The purpose of the research is to establish the influence of the duration of the storage period of aeroponic minitubers on the growth, development and productivity of various potato varieties under field conditions. The research was carried out in 2020-2022 in the conditions of the Novosibirsk region, the soil is leached medium loamy chernozem. The objects of the research are aeroponic minitubers of early-ripening (Yuna, Terra, Legenda) and mid-ripening (Zlatka, Sokur) potato varieties for December, March and April harvesting periods. It was established that the storage period of minitubers of various varieties was 179-184 days when collected from an aeroponic installation in December, 91.7-118.3 days in March, 71.3-99.7 days in April. The use of minitubers as planting material for growing high-quality potato seeds is justified during the December and March harvesting periods. Potato plants from the December planting material had a germination rate of 98.5 %, germinated 20 days earlier, had a larger average leaf area, the initial yield on the first recording date was 2.6 times greater and the final yield was 1.4 times greater than the plants from the March planting material. Minitubers of the December period provided the highest yield (22.8 t/ha) and the yield of seed tubers (76.3 %), with March harvest time the corresponding values were lower by 6.8 t/ha and 15.9 %, with April harvest period – by 15.9 t/ha and 34,0 %. It is not practical to use minitubers of the April harvest time with a storage period of 91.7-118.3 days as planting material, since it is impossible to obtain yield for the most of the studied varieties. The Sokur (mid-ripening) and Terra (early-ripening) varieties showed the highest yields of 20.4 and 19.5 t/ha.
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气培微型管的储存期对马铃薯品种在田间条件下生长发育的影响
在种子生产中使用微型管作为种植材料时,会出现幼苗稀疏的问题,这与微型管的储存期(从从气培装置收获到出现第一个单芽)长短不同有关。研究的目的是确定在田间条件下,气培微型管的储存期对各种马铃薯品种的生长、发育和产量的影响。该研究于 2020-2022 年在新西伯利亚地区的土壤条件下进行,土壤为沥滤中壤土 Chernozem。研究对象是 12 月、3 月和 4 月收获期的早熟(尤娜、特拉、列根达)和中熟(兹拉特卡、索库尔)马铃薯品种的气培微型管。结果表明,12 月从气培装置中采集的不同品种迷你管的储存期为 179-184 天,3 月为 91.7-118.3 天,4 月为 71.3-99.7 天。在 12 月和 3 月的收获期,使用微型管作为种植材料来培育优质马铃薯种子是合理的。12 月种植材料的马铃薯植株发芽率为 98.5%,发芽时间提前 20 天,平均叶面积更大,第一个记录日期的初始产量是 3 月种植材料植株的 2.6 倍,最终产量是其 1.4 倍。12 月份收获的微型块茎产量最高(22.8 吨/公顷),块茎种子产量最高(76.3%),3 月份收获的微型块茎产量和种子产量分别低 6.8 吨/公顷和 15.9%,4 月份收获的微型块茎产量和种子产量分别低 15.9 吨/公顷和 34.0%。使用 4 月收获期、储存期为 91.7-118.3 天的迷你管作为种植材料是不切实际的,因为大多数研究品种都无法获得产量。Sokur(中熟)和 Terra(早熟)品种的产量最高,分别为 20.4 吨/公顷和 19.5 吨/公顷。
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