Shoot Growth Parameters of Potato Seedlings are Determined by Light and Temperature Conditions

IF 2.3 3区 农林科学 Q1 AGRONOMY
Olivia C. Kacheyo, Hannah M. Schneider, Michiel E. de Vries, Paul C. Struik
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Abstract

Raising quality hybrid potato true seedlings — derived from hybrid true potato seeds (TPS) — for field transplanting is a critical aspect contributing to the success in cultivating field-transplanted hybrid potato seedling-based crops. Various critical seedling vigour attributes must be defined and enhanced to improve plant performance as well as plant response and adaptation to field conditions after field transplanting. Moreover, additional attributes besides leaf number and stem length should be defined to design selection criteria for “transplantability” of potato seedlings. To assess these attributes and their robustness under different environmental conditions, seedlings of hybrid genotypes were raised under contrasting daylengths, light intensities and temperature regimes, and combinations of these factors, and the effects of these factors (or factor combinations) on seedling vigour and its attributes were quantified. Increased light intensity and daylight integral (DLI) enhanced leaf parameters and increased biomass under long-day conditions, but seedlings did not show conclusive responses under short-day conditions in most attributes. Higher temperatures increased biomass and constant day and night temperatures enhanced compaction of shoot architecture as did higher light intensities — to a greater extent. These results highlight additional seedling vigour attributes including leaf area parameters and seedling biomass which should be utilised to determine “transplantability” of hybrid potato seedlings. Additionally, the results provide a starting point for further research on optimising hybrid seedling production for field transplanting.

Abstract Image

光照和温度条件决定马铃薯幼苗的生长参数
培育优质杂交马铃薯实生苗--源自杂交马铃薯种子(TPS)--用于大田移栽,是成功培育大田移栽杂交马铃薯种苗作物的一个关键环节。必须确定和提高各种关键的幼苗活力属性,以改善植物性能以及植物对大田移栽后田间条件的反应和适应性。此外,除叶数和茎长外,还应定义其他属性,以设计马铃薯幼苗 "可移植性 "的选择标准。为了评估这些属性及其在不同环境条件下的稳健性,杂交基因型的幼苗在不同的昼长、光照强度和温度制度以及这些因素的组合下培育,并量化了这些因素(或因素组合)对幼苗活力及其属性的影响。在长日照条件下,增加光照强度和日光积分(DLI)可提高叶片参数并增加生物量,但在短日照条件下,幼苗在大多数属性方面并未表现出确定的反应。温度升高会增加生物量,昼夜恒温会增强嫩枝结构的压实度,光照强度升高也是如此,但程度更大。这些结果凸显了更多的幼苗活力属性,包括叶面积参数和幼苗生物量,应利用这些属性来确定杂交马铃薯幼苗的 "可移植性"。此外,这些结果还为进一步研究优化田间移植杂交秧苗生产提供了一个起点。
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来源期刊
Potato Research
Potato Research AGRONOMY-
CiteScore
5.50
自引率
6.90%
发文量
66
审稿时长
>12 weeks
期刊介绍: Potato Research, the journal of the European Association for Potato Research (EAPR), promotes the exchange of information on all aspects of this fast-evolving global industry. It offers the latest developments in innovative research to scientists active in potato research. The journal includes authoritative coverage of new scientific developments, publishing original research and review papers on such topics as: Molecular sciences; Breeding; Physiology; Pathology; Nematology; Virology; Agronomy; Engineering and Utilization.
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