Do Stimulate® and Ascophyllum nodosum seaweed promote the morphophysiological characteristics of Cordia alliodora seedlings?

Q3 Agricultural and Biological Sciences

Australian Journal of Crop Science Pub Date : 2023-05-01 DOI:10.21475/ajcs.23.17.05.p3832

Aline das Graças Souza, Oscar José Smiderle, Sonicley da Silva Maia

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引用次数: 0

Abstract

Biostimulants in native forest seedlings, when absorbed and assimilated by plants, can function as activators or inhibitors of their metabolic and physiological processes. In view of the above, the present study establishes the following research problem: Can doses of Ascophyllum nodosum seaweed extract and Stimulate® be effective in the promotion of initial growth and morphophysiological indices of Cordia alliodora seedlings? The experimental design used was completely randomized, in a 4 x 2 factorial scheme, corresponding to four doses (0, 0.2, 0.4 and 0.6 ml L-1) and two hormones (Ascophyllum nodosum and Stimulate®), with five replicates, each of which composed of five seedlings (one in each container). The morphological variables evaluated were shoot height (H), stem diameter (SD), increments in stem diameter (ΔSD) and shoot height (ΔH), shoot dry mass (SDM, g plant-1), root dry mass (RDM, g plant-1), total dry mass (TDM, g plant-1), and Dickson Quality Index (DQI). Physiological variables were: net assimilation rate (EA, g.m-2.day-1), leaf relative growth rate (RA, g.m-2.day-1), leaf area ratio (FA, m2.g-1), specific leaf area (SA, cm2.g-1) and leaf mass ratio (Fw, g.g-1). The bioregulator Ascophyllum nodosum at dose of 0.2 ml L-1 promotes increments in height (ΔH) and stem diameter (ΔSD) of Cordia alliodora seedlings. Ascophyllum nodosum at dose of 0.2 ml L-1 has positive influence on the physiological indices studied in Cordia alliodora seedlings at 120 days after transplanting. The bioregulator Stimulate® at dose of 0.6 ml L-1 is not indicated to obtain Cordia alliodora seedlings with better quality and sturdiness and shorter nursery time. The bioregulator Ascophyllum nodosum at dose of 0.2 ml L-1 is recommended to obtain increments in height (ΔH) and stem diameter (ΔSD) in Cordia alliodora seedlings

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刺激®和紫穗藻是否能促进黄貂草幼苗的形态生理特征?

原生森林幼苗中的生物刺激剂，当被植物吸收和同化时，可以作为其代谢和生理过程的激活剂或抑制剂。鉴于此，本研究建立了以下研究问题:大剂量的紫穗草提取物和stimulus®是否能有效促进黄菖蒲幼苗的初始生长和形态生理指标?试验设计采用完全随机的4 × 2因子设计，对应4种剂量(0、0.2、0.4和0.6 ml L-1)和2种激素(Ascophyllum nodosum和stimulation®)，5个重复，每个重复由5个幼苗组成(每个容器中有1个幼苗)。评价的形态变量为茎高(H)、茎粗(SD)、茎粗增量(ΔSD)和茎高增量(ΔH)、茎干质量(SDM, g plant-1)、根干质量(RDM, g plant-1)、总干质量(TDM, g plant-1)和Dickson质量指数(DQI)。生理指标为净同化率(EA, g.m-2.day-1)、叶片相对生长率(RA, g.m-2.day-1)、叶面积比(FA, m2.g-1)、比叶面积(SA, cm2.g-1)和叶质量比(Fw, g.g-1)。0.2 ml L-1剂量的生物调节剂Ascophyllum nodosum促进了黄菖蒲幼苗高度(ΔH)和茎粗(ΔSD)的增加。0.2 ml L-1剂量的藤茎叶对移植后120 d的黄菖蒲幼苗生理指标有积极影响。0.6 ml L-1剂量的生物调节剂stimulation®不能获得质量更好、更结实、苗圃时间更短的黄草幼苗。推荐使用0.2 ml L-1剂量的生物调节剂Ascophyllum nodosum来增加黄菖蒲(Cordia alliodora)幼苗的高度(ΔH)和茎粗(ΔSD)

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来源期刊

Australian Journal of Crop Science 农林科学-农艺学

CiteScore

1.20

自引率

0.00%

发文量

审稿时长

3.5 months

期刊介绍： Information not localized