Alanaz Amjad R, Alatawi Eman A S, Alotaibi Rahaf S, Alatawi Eman A H, Albalawi Attaf D, Alhumayri Hadeel A, Alatawi Qasem S, Alharbi Basmah M
Department of Biology, Faculty of Science, University of Tabuk, Tabuk, Saudi Arabia.
Genomic and Biotechnology Unit, Faculty of Science, University of Tabuk, Tabuk, Saudi Arabia.
Front Plant Sci. 2023 Dec 5;14:1286105. doi: 10.3389/fpls.2023.1286105. eCollection 2023.
Weeds are considered one of the most serious problems limiting global agricultural production. As a result, chemical herbicides have been extensively used for weed control. However, overuse of synthetic herbicides, has resulted in public concerns over the effect of herbicides on the health of the ecosystems and humans. In the food system, innovative approaches are needed to foster sustainable practices that preserve biodiversity, conserve habitats, and mitigate climate change factors. Thus, alternatives are required to control the weeds. This study aimed to determine the impact of some wild plants' (, , and ) allelopathic potentials (at rates of 0, 15, 25, 35, and 50 g/L) on seed germination of selected local weeds (, , and ) collected from different locations in Tabuk region, Saudi Arabia. GC-MS analysis was used to evaluated the main compounds in the wild plants under study. The experimental design was completely randomized block design (CRBD) with three replicates. According to the results, phytochemical screening of the wild plants using GC-MS analysis showed a wide range of phytochemicals. exhibited the highest germination rate in the control group. In addition, applying 5 g/L and 20 g/L of extracts had no discernible effect on the rate of germination of seed; however, they were able to reduce the germination rate as compared to the control. As the extract concentration of rose to 20 g/L, the germination rate of dropped. Neither 35 g L-1 nor 50 g L-1 of extract inhibited the germinate of . The germination rate of decreased with increasing extract concentration of . The extract of at 50 g/L had the lowest rate. The germination rate of decreased with increasing extract concentration of . The highest germination rate of was observed in control, followed by 5g/L, while no germination was observed at 20, 35, and 50 g/L of extracts. root length shrank when the extract concentration of rose. control sample had the most extended root length, followed by 5 and 20 g/L, respectively. at 35 and 50 g/L showed no root elongation as this treatment inhibited radicle protrusion. High concentration of d-Glycero-d-galacto-heptose and pentane in aqueous extract may be the cause of ability to inhibit germination. The entire plant length decreased when treated with 5 g/L of extract. No growth was seen at any of the higher concentrations (20, 35, and 50 g/L). The present work revealed that cultivating allelopathic crops like the selected studied wild plants from the Tabuk region has a promising future as an antagonistic species in a biological weed control program or combined with integrated weed management in agricultural food production.
杂草被认为是限制全球农业生产的最严重问题之一。因此,化学除草剂已被广泛用于杂草控制。然而,合成除草剂的过度使用引发了公众对除草剂对生态系统和人类健康影响的担忧。在食品系统中,需要创新方法来促进可持续实践,以保护生物多样性、保护栖息地并减轻气候变化因素。因此,需要替代方法来控制杂草。本研究旨在确定一些野生植物(、和)的化感潜力(浓度分别为0、15、25、35和50克/升)对从沙特阿拉伯塔布克地区不同地点采集的选定当地杂草(、和)种子萌发的影响。采用气相色谱-质谱联用(GC-MS)分析来评估所研究野生植物中的主要化合物。实验设计为完全随机区组设计(CRBD),重复三次。根据结果,使用GC-MS分析对野生植物进行植物化学筛选显示出种类繁多的植物化学物质。在对照组中发芽率最高。此外,施加5克/升和20克/升的提取物对种子的发芽率没有明显影响;然而,与对照组相比,它们能够降低发芽率。随着提取物浓度升至20克/升,种子的发芽率下降。35克/升和50克/升的提取物均未抑制种子的萌发。种子的发芽率随着提取物浓度的增加而降低。50克/升的提取物发芽率最低。种子的发芽率随着提取物浓度的增加而降低。在对照组中观察到种子的最高发芽率,其次是5克/升,而在20、35和50克/升的提取物中未观察到发芽。当提取物浓度增加时,种子的根长缩短。对照样品的根最长,其次分别是5克/升和20克/升。在35克/升和50克/升时未观察到根伸长,因为该处理抑制了胚根突出。提取物中高浓度的d-甘油-d-半乳糖庚糖和戊烷可能是其抑制种子萌发的原因。用5克/升的提取物处理时,整个植物长度缩短。在任何更高浓度(20、35和50克/升)下均未观察到生长。目前的研究表明,种植像从塔布克地区选定的研究野生植物这样的化感作物,作为生物杂草控制计划中的拮抗物种或与农业食品生产中的综合杂草管理相结合,具有广阔的前景。
