中文摘要：

从甜瓜枯萎病发病植株及其根际病土中分离到8株真菌,以甜瓜品种＂西甜1号＂为材料,采用回接试验和种子萌发试验确定真菌分离物对甜瓜的致病性和生长抑制作用;通过测定盆栽幼苗根系诱导酶活性、抗性物质含量及细胞膜相对透性,研究两株有害真菌粗毒素对甜瓜幼苗的化感作用;根据形态学特征及ITS序列分析对两株有害真菌进行初步鉴定.结果表明：两株有害真菌TF和HF粗毒素对甜瓜种子萌发以及胚轴、胚根生长具有抑制作用,可导致甜瓜幼苗根系丙二醛（MDA）含量、可溶性蛋白含量及细胞膜相对透性增加,其中TF粗毒素原液处理下甜瓜幼苗根系MDA含量和细胞膜相对透性较对照分别增加108.6%和40.6%.两株有害真菌粗毒素可提高甜瓜幼苗根系保护性诱导酶活性,其中,TF粗毒素10倍稀释液处理下根系苯丙氨酸解氨酶（PAL）和过氧化物酶（POD）活性较对照分别增加25.6%和23.2%;HF粗毒素原液处理下根系PAL活性较对照提高30.0%.两株有害真菌TF和HF初步鉴定为木贼镰孢菌（Fusarium equiseti）和层出镰孢菌（F.proliferatum）.两株镰孢菌虽然不能通过回接侵染甜瓜,但能通过分泌毒素影响甜瓜正常生长和生理生化代谢,同时提高甜瓜根系保护性诱导酶活性,具有有害和有益双重作用,其化感危害是引起甜瓜连作障碍的主要原因之一.

英文摘要：

Eight fungi isolates were obtained from Fusarium-infected Cucumis melo （melon） plants and their rhizosphere soils. Taking melon cultivar ＇ Xitian 1 ＇ as test material, the re-inoculation and seed germination experiments were conducted to investigate the pathogenicity and growth inhibition effect of these fungi isolates on melon. Through the determination of the induced enzyme activities, resistant substance contents, and cell membrane permeability of potted melon roots, the allelo- pathic effect of the crude toxins of two harmful fungi was studied, and according to the morphological characteristics and Internal Transcribed Spacer （ITS） sequencing, the two harmful fungi were identified. The crude toxins of the two harmful fungi TF and HF had strong inhibition effects on the germination and growth of the melon seeds. The MDA and soluble protein contents and the cell membrane permeability of the ＇Xitian 1 ＇ seedlings roots all increased, among which, the MDA content and cell membrane permeability increased by 108.6% and 40.6%, respectively when treated with the stock solution of TF toxin, compared with the control. The crude toxins of the two harmful fungi improved the induced enzyme activities of the melon roots, with the increment of the PAL and POD activities under the treatment of 10-fold dilution of TF crude toxin increased by 25.6% and 23.2%, respectively. When treated with the stock solution of HF toxin, the PAL activity significantly increased by 30.0%. The two harmful fungi TF and HF were primarily identified as Fusarium equisti and F. proliferatum, respectively. This study showed that the two Fusarium isolates could not infect melon via re-inoculation, but could negatively affect the melon＇ s normal growth and normal physiological and biochemical metabolism via toxins excretion, and in the meantime, improve the root protective enzyme activities, with the effects of both benefit and harmfulness on melon plants. The allelopathie hazard of the crude toxins of the isolates could be one of the