Determination of Yield and Quality Parameters in Pickling Hot Peppers Grown under Different Water Stress Conditions

Turkish Journal of Agriculture: Food Science and Technology Pub Date : 2023-10-24 DOI:10.24925/turjaf.v11i10.1953-1957.6404

Okan Erken, Fatma Çolak Levent

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Abstract

Plants are exposed to various adverse environmental conditions throughout their growth period. In recent years, drought, which has occurred and necessitated different measures, ranks among these adverse conditions. At the same time, plants synthesize certain biochemical compounds in response to the adverse conditions they will encounter. These compounds not only strengthen the immune system but also provide resistance against various diseases, and they tend to increase under adverse environmental conditions that plants will face during cultivation. This study was conducted to determine the changes in yield and some biochemical components in pickling hot peppers (Capsicum Annuum L.) grown under different water stress conditions. Two different levels of water stress (%70 and %30 irrigation) were applied in addition to full irrigation (%100 irrigation). At the end of the research, while a yield of 269.42 g per plant was obtained in the control group (%100 irrigation), 150.14 g and 93.33 g of pickling hot peppers were harvested in each water stress treatment, respectively. Total phenolic compound levels increased with water stress; it was determined to be 0.827 mg-1g in the trial irrigated with full irrigation water, 1.170 mg-1g in plants exposed to mild water stress, and up to 1.536 mg-1g in the trial subjected to severe water stress. In addition, total flavonoids and antioxidant compound levels also increased with increasing water stress. The amounts of flavonoid compounds obtained from the trial groups were 0.146, 0.373, and 0.412 mg-1g, respectively, while the antioxidant levels determined by the DPPH method increased in quantity with increasing water stress, similar to other biochemical compounds. According to these results, it was determined that the yield of pickling hot peppers decreased in the case of water shortage that the plants would face in cultivation, but there was an increase in some biochemical compounds.

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不同水分胁迫条件下酸洗辣椒产量及品质参数的测定

植物在整个生长时期都暴露在各种不利的环境条件下。近年来，干旱是这些不利条件之一，干旱已经发生，需要采取不同的措施。同时，植物合成某些生化化合物，以应对它们将遇到的不利条件。这些化合物不仅可以增强免疫系统，还可以抵抗各种疾病，并且在植物种植过程中面临的不利环境条件下，它们往往会增加。研究了不同水分胁迫条件下酸洗辣椒(Capsicum Annuum L.)产量及生化指标的变化。除了完全灌溉(%100灌溉)外，还施用了两种不同水平的水分胁迫(%70和%30灌溉)。研究结束时，对照组(%100灌溉)的单株产量为269.42 g，而每个水分胁迫处理的酸洗辣椒产量分别为150.14 g和93.33 g。总酚类化合物水平随水分胁迫而升高;经测定，全灌条件下，其含量为0.827 mg-1g;轻度水分胁迫下，其含量为1.170 mg-1g;重度水分胁迫下，其含量最高可达1.536 mg-1g。此外，总黄酮和抗氧化化合物水平也随水分胁迫的增加而升高。各组黄酮类化合物含量分别为0.146、0.373和0.412 mg-1g, DPPH法测定的抗氧化水平随水分胁迫的增加而增加，与其他生化化合物相似。根据这些结果，可以确定，在栽培中面临缺水的情况下，酸洗辣椒的产量会下降，但一些生化物质会增加。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Turkish Journal of Agriculture: Food Science and Technology

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