{"title":"Effects of different irrigation levels and varying doses of silicon applications on yield and some physiological parameters in lettuce cultivation","authors":"Yusuf Çelik","doi":"10.24326/asphc.2023.5004","DOIUrl":null,"url":null,"abstract":"The study was repeated for two years to reduce the effects of water scarcity and drought stress in lettuce cultivation. The irrigation problem was created by applying 25% (I25), 50% (I50), 75% (I75) and 100% (I100) of the evaporation amounts formed in the class-A evaporation vessel. Si0 (0 kg ha–1), Si40 (40 kg ha–1), Si80 (80 kg ha–1) and Si120 (120 kg ha–1) silicon fertilisation was applied at four different doses. Head length, head diameter, head weight, root length, and leaf fresh and dry weight were measured in harvested plants. According to the data of 2020–2021, the best results in the effect of different doses of Si applications on plant head height, head diameter, head weight and root length at different irrigation levels were recorded from I75 × Si80, I75 × Si120, I100 × Si80, I100 × Si120 applications with the same severity level. While the Si40 dose gave good results at I75 and I100 irrigation levels, its effect decreased at I25 and I50 irrigation levels. At different irrigation levels where different doses of silicon were applied, I25 irrigation had the lowest leaf chlorophyll and relative moisture content and the most severe membrane damage, while I50 irrigation had a moderate effect. Leaf chlorophyll and moisture content increased, and membrane damage decreased in I75 × 80 kg ha–1 Si, I75 × 120 kg ha–1 Si, I100 × 80 kg ha–1 Si and I100 × 120 kg ha–1 Si applications. As a result, when the effects of the applications covering two years on plant growth and yield were evaluated, the most successful irrigation levels were determined as I75, I100, and the most successful silicon doses; were determined as 80 kg ha–1 and 120 kg ha–1.","PeriodicalId":7230,"journal":{"name":"Acta Scientiarum Polonorum Hortorum Cultus","volume":" ","pages":""},"PeriodicalIF":0.6000,"publicationDate":"2023-08-31","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Acta Scientiarum Polonorum Hortorum Cultus","FirstCategoryId":"97","ListUrlMain":"https://doi.org/10.24326/asphc.2023.5004","RegionNum":4,"RegionCategory":"农林科学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"HORTICULTURE","Score":null,"Total":0}
引用次数: 0
Abstract
The study was repeated for two years to reduce the effects of water scarcity and drought stress in lettuce cultivation. The irrigation problem was created by applying 25% (I25), 50% (I50), 75% (I75) and 100% (I100) of the evaporation amounts formed in the class-A evaporation vessel. Si0 (0 kg ha–1), Si40 (40 kg ha–1), Si80 (80 kg ha–1) and Si120 (120 kg ha–1) silicon fertilisation was applied at four different doses. Head length, head diameter, head weight, root length, and leaf fresh and dry weight were measured in harvested plants. According to the data of 2020–2021, the best results in the effect of different doses of Si applications on plant head height, head diameter, head weight and root length at different irrigation levels were recorded from I75 × Si80, I75 × Si120, I100 × Si80, I100 × Si120 applications with the same severity level. While the Si40 dose gave good results at I75 and I100 irrigation levels, its effect decreased at I25 and I50 irrigation levels. At different irrigation levels where different doses of silicon were applied, I25 irrigation had the lowest leaf chlorophyll and relative moisture content and the most severe membrane damage, while I50 irrigation had a moderate effect. Leaf chlorophyll and moisture content increased, and membrane damage decreased in I75 × 80 kg ha–1 Si, I75 × 120 kg ha–1 Si, I100 × 80 kg ha–1 Si and I100 × 120 kg ha–1 Si applications. As a result, when the effects of the applications covering two years on plant growth and yield were evaluated, the most successful irrigation levels were determined as I75, I100, and the most successful silicon doses; were determined as 80 kg ha–1 and 120 kg ha–1.
这项研究重复了两年,以减少生菜种植中缺水和干旱胁迫的影响。灌溉问题是通过施加A类蒸发容器中形成的蒸发量的25%(I25)、50%(I50)、75%(I75)和100%(I100)而产生的。施用四种不同剂量的Si0(0 kg ha–1)、Si40(40 kg ha–2)、Si80(80 kg ha–3)和Si120(120 kg ha–4)硅肥。在收获的植物中测量头部长度、头部直径、头部重量、根长度以及叶片鲜重和干重。根据2020-2021年的数据,在不同灌溉水平下,不同剂量的硅施用对植株头高、头径、头重和根长的影响最好的结果是相同严重程度的I75×Si80、I75×Si120、I100×Si80和I100×Si120。虽然Si40剂量在I75和I100灌溉水平下效果良好,但在I25和I50灌溉水平下其效果下降。在不同灌溉水平下,施用不同剂量的硅,I25灌溉的叶片叶绿素和相对含水量最低,膜损伤最严重,而I50灌溉的效果中等。施用I75×80 kg ha–1 Si、I75×120 kg ha–2 Si、I100×80 kg ha–1 Si和I100×120 kg ha–2 Si时,叶片叶绿素和水分含量增加,膜损伤减少。因此,当评估为期两年的施用对植物生长和产量的影响时,最成功的灌溉水平被确定为I75、I100和最成功的硅剂量;确定为80公斤公顷-1和120公斤公顷-1。
期刊介绍:
In Acta Scientiarum Polonorum Hortorum Cultus we publish original research papers and review articles containing new and significant information on broad aspects of horticulture and related disciplines. The papers are published in English only, in six issues yearly.