不同生长阶段干旱胁迫下大蒜的形态生理特征、品质和产量

IF 1.9 Q3 SOIL SCIENCE EGYPTIAN JOURNAL OF SOIL SCIENCE Pub Date : 2024-03-01 DOI:10.21608/ejss.2023.235375.1659
Mahmoud Moustafa, Ahmed Abd El-wahed, Asaad Awad, Mohamed Sheta
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引用次数: 1

摘要

由于水资源供应有限,而粮食需求不断增加,在气候变化的关键时刻,研究灌溉水量对作物的影响至关重要。因此,实验研究了不同灌溉水量(即需水量的 60、80、100 和 120)对大蒜(Allium sativum L.)克隆 Sids-40 的生长、球茎产量特性和水分状况的影响。数据是在种植 80 - 140 天后记录的,并对生长阶段和生长参数进行了多项式回归分析。同样,100% 的 WR 能显著增加株高、叶片数、叶片鲜重以及绝对生长率、比叶面积、叶面积指数、叶绿素 a、b 和类胡萝卜素总含量等生长属性。而 60% WR 的灌溉率会导致叶片水分饱和度不足、脯氨酸含量和抗坏血酸含量的内在上升。鳞茎参数,如重量、直径和每个鳞茎的丁香数,以及鳞茎等级为一级 G1(5.5 厘米以上)的产量、辛辣味丙酮酸和干物质含量,在灌溉 100%的可用水量时达到最高值。灌溉水量不足 60%时,第 4 级(小于 3.5 厘米)的减产率较高。皮尔逊相关性表明,球茎产量、特征和生长属性之间存在正相关。因此,大蒜植株对 100% WR 灌溉的反应是改善其形态生理、产量和鳞茎质量。
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Morpho-physiological traits, quality and productivity of garlic under drought stress of different growth stages
UE to the limited water supply and rising food demand, studying how applied irrigation rates affect crops at this critical time due to climate change is essential. Therefore, an experiment was carried out to examine the effect of different irrigation water rates, specifically 60, 80, 100, and 120 of the water requirements (WR), on the growth, bulb yield properties, and water status of garlic ( Allium sativum L.) clone Sids-40. The data was recorded after 80 - 140 days from planting, where polynomial regression analysis was estimated between the growth stages and growth parameters. Similarly, 100% of the WR considerably increases plant height, leaf number, leaf fresh weight, and growth attributes like absolute growth rate, specific leaf area, leaf area index, chlorophyll a, b, and total carotenoids contents. While the irrigation at a rate of 60% WR led to an intrinsic rise in leaf water saturation deficit, proline content, and ascorbic acid content. Bulb parameters such as weight, diameter, and number of cloves per bulb, besides yield quantity with bulb grade one G1 (above 5.5 cm), pyruvic acid as pungency, and dry matter contents were determined to be at their highest values with irrigation at 100% of the WR. A 60% of the WR water shortage represented the high yield reduction with grade 4 (less than 3.5 cm). Pearson's correlation revealed positive relationships between bulb yield, characteristics, and growth attributes. Hence, garlic plants respond to irrigation at 100% of the WR by improving their morpho-physiological, productivity and bulb quality.
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