Keçici Ayça İrem, Bozbuğa Refik, Öcal Atilla, Yüksel Ebubekir, Özer Göksel, Yildiz Şenol, Lahlali Rachid, Slaats Brigitte, Dababat Abdelfattah A, İmren Mustafa
Department of Plant Protection, Faculty of Agriculture, Bolu Abant Izzet Baysal University, Bolu 14030, Türkiye.
Department of Plant Protection, Faculty of Agriculture, Eskisehir Osmangazi University, Eskisehir 26160, Türkiye.
Microorganisms. 2022 Jul 29;10(8):1534. doi: 10.3390/microorganisms10081534.
Several nematode species can be found in different densities in almost any soil ecosystem, and their diversity in those ecosystems depends on numerous reasons, such as climatic conditions and host presence. Cereals are one of the main hosts of plant-parasitic nematodes (PPN), chiefly root-lesion nematodes (RLN, spp.) and cereal cyst nematodes (CCN, spp.). These nematodes are known as major parasites of the cereal crops; however, agricultural areas accommodate various nematodes showing biological variation. The diversity of parasitic nematodes on cereals in the Sakarya provinces of Türkiye, where cereals are intensively grown and located in the middle of two climatic zones, has not been well studied. Therefore, in this study, we aimed to determine the diversity, identification, and molecular phylogeny of PPNs in wheat-growing ecosystems in the Hendek, Pamukova, Geyve, Akyazı, and Central districts of Sakarya. The diversity of PPNs was calculated using the Shannon diversity index. Thirteen PPN genera were detected in 92% of soil samples. was identified in 24% of the soil samples using morphological, morphometrical, and molecular tools. In the morphological and molecular analyses, intraspecific polymorphism was observed in populations. The result indicated that the high infestation rate of was recorded from Geyve and Pamukova, followed by Hendek and Akyazı; however, a low infestation rate was detected in the Central district. The moderate value of the Shannon index of migratory nematode species was obtained in wheat fields as 2.31, whereas the value of evenness was 0.93, implying moderate diversity and high evenness of nematodes. This study is the first comprehensive report on from wheat cropping areas in the Sakarya province. Intensified cereal cropping systems with/without non-cereal rotations increased the risk of plant-parasitic nematodes, especially RLNs and infection of wheat production areas in the province.
在几乎任何土壤生态系统中都能发现几种线虫物种,其密度各异,而它们在这些生态系统中的多样性取决于众多因素,如气候条件和宿主的存在。谷物是植物寄生线虫(PPN)的主要宿主之一,主要是根腐线虫(RLN, spp.)和谷物孢囊线虫(CCN, spp.)。这些线虫是谷物作物的主要寄生虫;然而,农业地区存在各种表现出生物学差异的线虫。土耳其萨卡里亚省谷物种植密集,位于两个气候区的中间地带,该地区谷物上寄生线虫的多样性尚未得到充分研究。因此,在本研究中,我们旨在确定萨卡里亚省亨德克、帕穆科瓦、盖伊韦、阿克亚兹和中部地区小麦种植生态系统中PPN的多样性、鉴定及分子系统发育。使用香农多样性指数计算PPN的多样性。在92%的土壤样本中检测到13个PPN属。利用形态学、形态计量学和分子工具在24%的土壤样本中鉴定出 。在形态学和分子分析中,观察到 种群的种内多态性。结果表明,盖伊韦和帕穆科瓦的 侵染率较高,其次是亨德克和阿克亚兹;然而,中部地区的侵染率较低。小麦田中迁移性线虫物种的香农指数适中,为2.31,而均匀度值为0.93,这意味着线虫的多样性适中且均匀度较高。本研究是关于萨卡里亚省小麦种植区 的第一份综合报告。有无非谷物轮作的强化谷物种植系统增加了植物寄生线虫的风险,特别是根腐线虫和该省小麦产区的 感染风险。
