Saudy Hani S, Hamed Mohamed F, El-Mageed Taia A Abd, El-Bordeny Nasr E, Madkour Marwa A, Shokry Mohamed H, Gouda Gouda F, Jaremko Mariusz, Emwas Abdul-Hamid, Elgendy Abdelfattah T
Agronomy Department, Faculty of Agriculture, Ain Shams University, Hadayek Shoubra, P.O. Box 68, Cairo, 11241, Egypt.
Soil and Water Department, Faculty of Agriculture, Fayoum University, Fayoum, 63514, Egypt.
Sci Rep. 2025 Jun 27;15(1):20322. doi: 10.1038/s41598-025-05498-9.
The adoption of advanced and practical technologies to boost plant productivity and improve quality under challenging environmental conditions, such as salinity, has become an essential need in modern agriculture. Plasma technology can significantly improve the seed's resistance to stress factors like high salinity and dry environments. Thus, the current work aimed to improve the yield and quality of cowpea as an important forage crop grown in saline soil using a plasma coating approach. The seeds of cowpea were treated with three plasma doses expressed in different times of exposure (0.0, 1.0 and 2.0 min) and planted (for two seasons of 2022 and 2023) in three soil salinity levels expressed in electrical conductivity, EC (normal, 0.3 dS m, moderate salinity 5.5 dS m, and high salinity, 7.0 dS m, abbreviated as EC3.0, EC5.5 and EC7.0, respectively). The electron micrographs and elemental detection revealed that 2.0 min treatment resulted in deep cracking and topographical modulation with the best enhancements in cowpea seed surface nutrients. The agronomic findings revealed that compared to the corresponding check treatment (without plasma, 0.0 min), the exposure to plasma for 2.0 min in the first season was the efficient for enhancing forage yield under normal (1.37-fold increase) and medium salinity (1.79-fold increase). The in vitro data showed plasma-treated seeds for 2.0 min displayed higher acid detergent fiber content under EC3.0 or EC5.5 compared to the other treatments. Plants grown from seeds treated with plasma for 1.0 min showed higher dry matter degradability levels at EC7.0 compared to the other treatments. At EC7.0 the highest ammonia concentration was recorded in plants grown plasma-treated seeds for 1.0 min, while the lowest value was observed in 2.0-min. 2.0-min plasma-treated seeds produced the highest total volatile fatty acids across different salinity conditions, particularly at EC7.0. Plasma treatment, as a safe and innovative seed priming method, validates substantial potential in improving cowpea productivity under saline conditions. This study revealed that exposing cowpea seeds to a 2-min plasma treatment before sowing enhanced seed germination rate, and overall yield, even under challenging saline environments. Moreover, enhanced feed quality resulting from plasma-treated seeds offers direct benefits to livestock nutrition, supporting both human and animal food chains.
采用先进实用技术以提高植物生产力并在诸如盐渍化等具有挑战性的环境条件下改善品质,已成为现代农业的一项基本需求。等离子体技术可显著提高种子对高盐度和干旱环境等胁迫因素的抗性。因此,当前的工作旨在使用等离子体涂层方法提高豇豆(一种种植于盐渍土壤中的重要饲料作物)的产量和品质。将豇豆种子用三种以不同暴露时间表示的等离子体剂量(0.0、1.0和2.0分钟)进行处理,并在三种以电导率(EC)表示的土壤盐度水平下种植(2022年和2023年两个季节),即正常(0.3 dS m)、中度盐度(5.5 dS m)和高盐度(7.0 dS m),分别简称为EC3.0、EC5.5和EC7.0。电子显微镜照片和元素检测显示,2.0分钟的处理导致豇豆种子表面出现深度裂纹和形貌调制,且种子表面养分得到最佳增强。农艺学研究结果表明,与相应的对照处理(无等离子体处理,0.0分钟)相比,第一季中2.0分钟的等离子体暴露在正常盐度(增加1.37倍)和中度盐度(增加1.79倍)下对提高饲料产量最为有效。体外数据表明,与其他处理相比,在EC3.0或EC5.5条件下,经2.0分钟等离子体处理的种子显示出更高的酸性洗涤纤维含量。在EC7.0条件下,由经1.0分钟等离子体处理的种子长成的植株显示出比其他处理更高的干物质降解水平。在EC7.0条件下,经1.0分钟等离子体处理的种子长成的植株中氨浓度最高,而在2.0分钟处理的种子长成的植株中氨浓度最低。在不同盐度条件下,尤其是在EC7.0条件下,经2.0分钟等离子体处理的种子产生的总挥发性脂肪酸最高。等离子体处理作为一种安全且创新的种子引发方法,在提高盐渍条件下豇豆生产力方面具有巨大潜力。这项研究表明,即使在具有挑战性的盐渍环境下,播种前将豇豆种子进行2分钟的等离子体处理也能提高种子发芽率和总产量。此外,经等离子体处理的种子所带来的饲料品质提升对牲畜营养具有直接益处,支持了人类和动物的食物链。
