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Dualex便攜式智能氣象-葉綠素-花青素-黃酮醇測量儀
摘要
馬鈴薯種薯生產系統(tǒng)可以改善馬鈴薯生產鏈。在有足夠植物營養(yǎng)的盆栽或水培系統(tǒng)中種植可以提高種薯產量。在這些營養(yǎng)物質中,Ag(Mg)在植物的一系列代謝過程和生化反應中發(fā)揮作用,例如葉綠素的形成。因此,這種營養(yǎng)素的充足供應至關重要。本研究旨在評估兩種栽培系統(tǒng)中鎂劑量對植株形態(tài)特征和種薯產量的影響。兩個實驗同時在溫室里進行。在實驗I中,這些植物生長在有機基質的盆栽中。在實驗II中,植物在水培系統(tǒng)中培養(yǎng),并評估了五種劑量的鎂。在這兩個試驗中,在21 DAE時評估的其他特征均未顯示出對鎂劑量的顯著反應,除了第四片葉片干物質中的鎂含量。在實驗I和II中,提供最高種薯產量的劑量(單位為每株)分別為0.0 g dm3 MgSO4和0.96 mmol L1 Mg2t。在這些劑量下,第四片葉片干物質中的鎂含量分別為24.4和11.0 g kg1。在試驗I中,對照組(不施用鎂)的馬鈴薯種子產量最高,在試驗II中,施用0.96 mmol L1的馬鈴薯種子產量最高。
Magnesium-influenced seed potato development and yield
ABSTRACT
Seed potato production in systems that provide higher amounts of planted material improves the potato production chain. Planting in a pot or hydroponic system with adequate plant nutrition may increase the seed potato yield. Among the nutrients, agnesium (Mg) has a role in a range of metabolic processes and biochemical reactions in plants, such as chlorophyll formation. Thus, the adequate supply of this nutrient is of fundamental importance. The study aimed to evaluate the effect of Mg dose on morphological characteristics of the plant and seed potato yield in two c*tion systems. Two experiments were installed simultaneously in a greenhouse. In experiment I, the plants were grown in a pot with organic substrate. In experiment II, the plants were c*ted in a hydroponic system, and five doses of Mg were evaluated. No other characteristics evaluated at 21 DAE showed significant response to Mg dose in both experiments, except for Mg content in the fourth leaf dry mass. The doses providing the highest seed potato yield, in units per plant, in experiments I and II were, respectively, 0.0 g dm3 of MgSO4 and 0.96 mmol L1 Mg2t.At these doses, the Mg content in the fourth leaf dry mass were 24.4 and 11.0 g kg1 , respectively. The highest seed potato yield was obtained in the control (without Mg application) in experiment I and with the dose of 0.96 mmol L1 in experiment II.
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