Watermelon Plants(西瓜植物)研究综述
Watermelon Plants 西瓜植物 - Twelve samples from watermelon plants with similar symptoms were analyzed by RT-PCR, six from a field in Mossoró, Rio Grande do Norte state collected in 2020, and six from the same field in Juazeiro, Bahia sampled in 2019. [1] The bottle gourd rootstock-grafted (RG) watermelon seedlings were highly resistant to FON compared with self-grafted (SG) watermelon plants, with a disease incidence of 3. [2] This study aimed to evaluate the growth and development of watermelon plants under different plant spacings in the Semi-arid region of Brazil. [3] In September 2019, brown, irregular shape to round lesions with concentric rings were observed on the leaves and stems of watermelon plants in Sonora State. [4] In this study, we tested 8 mycorrhizal consortiums to explore the best AMF conformation for watermelon plants. [5] During the 2020 and 2021 seasons, watermelon plants with foliar virus-like symptoms of yellow mottling and chlorosis, mild leaf wrinkling and thickened leaves were observed in commercial fields (40 to 150 ha) in five counties (Desoto, Glades, Osceola, Seminole, and Charlotte) at >50% field incidence. [6] The results of isolation and identification showed that 18 fungal isolates were isolated from the stems, crown, and roots of watermelon plants, they were identified morphologically and divided into 14 isolates belonged to F. [7] In brief, our fine mapping demonstrated that Cla015407 is a candidate gene controlling dwarfism of watermelon plants. [8] moschata hybrid rootstocks can improve crop performance in watermelon plants under alkaline conditions. [9] 54 dS m−1) applied to mini-watermelon plants, in an open hydroponic system, with four types of substrate and four replicates, with two plants per plot. [10] Surprisingly, CYSDV was only found in melon plants (20 of 52, 38%), whereas CCYV was only found in squash, pumpkin, and cucumber (26 of 109, 24%); no watermelon plants were infected with either virus, even though watermelon is a known host of both viruses. [11] Aims: In order to find out the mechanism of how salicylic acid signal recruit soil microorganisms to explain their cooperate resistance to Fusarium wilt disease in watermelon plants. [12] ABSTRACT The objective of this research was to know growth and the production of watermelon plants through the treatment of pruning time on shoots and the amount of residual fruit after thinning. [13] This research was aimed to isolate and identify microbes which antagonistic against Fusarium oxysporum, the causative agent of vascular wilt in watermelon plants. [14] ) to the productive development and quality of watermelon plants. [15] In this study, the effects of microbial community dynamics and the interactions between wheat and watermelon plants, particularly the effect of wheat root exudates on watermelon resistance against F. [16] That’s while we evaluated grafting on watermelon plants as an alternative to reduce the salinity effects. [17] The exposure of watermelon plants to severe deficit irrigation resulted in a reduction in dry biomass, total and marketable yield, average fruit weight, fruit number and harvest index, and without improvement of marketable fruit quality. [18] ) transplanted in a 15 by 15 cm square centered on watermelon plants at 0, 2, 3, 4, and 6 wk after watermelon transplanting (WATr) and remained until the final watermelon harvest at 11 WATr. [19] Watermelon plants were more susceptible to the pest at the vegetative stage than at the reproductive stage. [20] Pesticides were applied on field, on three varieties of watermelon plants (kaolack, F1-koloss, and F1-sugar dragon), before and during blooming. [21] Watermelon plants can be naturally infected by several viruses in single or mixed infections, of which the diagnosis is difficult and require specific techniques. [22] This study aimed to evaluate the gas exchanges and production of ‘Sugar Baby’ watermelon plants under strategies of irrigation with saline water and nitrogen fertilization. [23] The present work was carried out in Private Vegetable Farm at ElHeez, Al-Wahaat Al-Baharyia District, Giza Governorate, Egypt, during two successive summer seasons of 2016 and 2017, to study the effect of plant spacing and apical shoot pinching (ASP) stage on growth and productivity of watermelon plants under sandy soil conditions using drip irrigation system. [24] Symptomatic and non-symptomatic leaf samples of cucumber, zucchini, melon and watermelon plants were collected from three locations (Al-Ahsa in the East, Jizan in the South and Tabuk in the North) in the Kingdom of Saudi Arabia during 2013–2014. [25] 01 mg kg−1, respectively), and a fungicide (“Duofu”) on watermelon plants. [26]通过 RT-PCR 分析了来自具有相似症状的西瓜植物的 12 个样本,2020 年从北里奥格兰德州 Mossoró 的一个田地采集了 6 个样品,2019 年从巴伊亚州 Juazeiro 的同一田地采集了 6 个样品。 [1] 葫芦砧木嫁接(RG)西瓜幼苗对FON的抗性高于自嫁(SG)西瓜植株,发病率为3。 [2] 本研究旨在评估巴西半干旱地区不同株距下西瓜植株的生长发育情况。 [3] 2019 年 9 月,在索诺拉州的西瓜植株的叶和茎上观察到褐色、不规则形状至圆形的同心环病斑。 [4] 在这项研究中,我们测试了 8 个菌根联合体,以探索西瓜植物的最佳 AMF 构象。 [5] 在 2020 年和 2021 年季节,在五个县(德索托、格莱兹、奥西奥拉、塞米诺尔、和夏洛特)在> 50%的现场发生率。 [6] 分离鉴定结果表明,从西瓜植株的茎、冠、根中分离出18株真菌,经形态鉴定,分为14株F. [7] 简而言之,我们的精细定位表明 Cla015407 是控制西瓜植物矮化的候选基因。 [8] moschata 杂交砧木可以提高碱性条件下西瓜植株的作物生长性能。 [9] 54 dS m-1) 应用于小型西瓜植物,在开放式水培系统中,有四种类型的基质和四个重复,每块地有两株植物。 [10] 令人惊讶的是,CYSDV 仅在甜瓜植物中发现(52 株中的 20 株,38%),而 CCYV 仅在南瓜、南瓜和黄瓜中发现(109 株中的 26 株,24%);尽管西瓜是这两种病毒的已知宿主,但没有西瓜植物感染这两种病毒。 [11] 目的:探讨水杨酸信号如何招募土壤微生物来解释其协同抗西瓜枯萎病的机制。 [12] 摘要 本研究的目的是通过对新梢修剪时间和间苗后残果量的处理来了解西瓜植株的生长和产量。 [13] 本研究旨在分离和鉴定对抗尖孢镰刀菌的微生物,而尖孢镰刀菌是西瓜植物维管束枯萎病的病原体。 [14] ) 对西瓜植物的生产发展和质量。 [15] 在本研究中,微生物群落动态的影响以及小麦和西瓜植物之间的相互作用,特别是小麦根系分泌物对西瓜抗镰刀菌的影响。 [16] 那时我们评估了嫁接西瓜植物作为降低盐度影响的替代方法。 [17] 西瓜植株暴露于严重的亏缺灌溉导致干生物量、总产量和可销售产量、平均单果重、果实数量和收获指数减少,并且未改善可销售果实的质量。 [18] ) 在西瓜移栽 (WATr) 后的 0、2、3、4 和 6 周,移栽到以西瓜植物为中心的 15 x 15 厘米的正方形中,并一直保持到 11 WATr 的最终西瓜收获。 [19] 西瓜植物在营养阶段比在生殖阶段更容易受到害虫的侵害。 [20] 在开花前和开花期间,在田间、三种西瓜植物(kaalack、F1-koloss 和 F1-sugar dragon)上施用了农药。 [21] 西瓜植株可自然感染多种病毒,单独感染或混合感染,诊断困难,需要特殊技术。 [22] 本研究旨在评估在盐水和氮肥灌溉策略下“糖宝宝”西瓜植株的气体交换和产量。 [23] 目前的工作是在 2016 年和 2017 年的两个连续夏季期间,在埃及吉萨省 Al-Wahaat Al-Baharyia 区 ElHeez 的私人蔬菜农场进行,以研究株距和顶梢挤压 (ASP) 的影响滴灌系统对沙质土壤条件下西瓜植株生长和生产力的影响。 [24] 2013-2014 年期间,从沙特阿拉伯王国的三个地点(东部的 Al-Ahsa、南部的 Jizan 和北部的 Tabuk)收集了黄瓜、西葫芦、甜瓜和西瓜植物的有症状和无症状叶片样本。 [25] 01 mg kg-1)和西瓜植物上的杀菌剂(“Duofu”)。 [26]
plastic mulch combined
Planting patterns applied were: 1) chili using plastic mulch without the combination of other plants and the use of pesticides, 2) chili using plastic mulch combined with corn plants, 3) chili without plastic mulch combined with watermelon plants, 4) chili without plastic mulch combined with watermelon and corn plants, 5) chili without plastic mulch combined with corn plants and 6) chili using plastic mulch and pesticides (according to farmers' treatment). [1]应用的种植模式为:1)辣椒使用地膜,不与其他植物结合使用农药,2)辣椒与地膜结合玉米植物,3)辣椒与地膜结合西瓜植物,4)辣椒无地膜地膜与西瓜和玉米植株相结合,5)辣椒与玉米植株相结合,6)地膜与农药相结合(根据农民处理)。 [1]
Infected Watermelon Plants
Infected watermelon plants showed symptoms such as vascular discoloration, brown necrotic lesions to the soil line or the crown, one-sided wilt of a plant, or a runner or the whole plant. [1] Virus-infected watermelon seeds were collected from virus-infected watermelon plants. [2] Electropenetrography, or electrical penetration graph (both abbreviated EPG), was used to assess differences in feeding behaviors of whitefly on mock-inoculated, 5–6 and 10–12 DPI infected watermelon plants. [3] 10) collected from infected watermelon plants in numerous regions of Tunisia; were subjected to PCR identification using ITS1-ITS4 primers pair, and Inter-simple sequence repeat (ISSR) technique. [4]受感染的西瓜植株表现出维管变色、土线或冠部出现褐色坏死病斑、植株单侧枯萎、匍匐茎或全株等症状。 [1] 从病毒感染的西瓜植物中收集病毒感染的西瓜种子。 [2] 电穿透图或电穿透图(均缩写为 EPG)用于评估粉虱在模拟接种、5-6 和 10-12 DPI 感染的西瓜植物上的摄食行为的差异。 [3] nan [4]