Importance of temperature in evaluating cotton for resistance to Fusarium wilt caused by<i>Fusarium oxysporum</i>f. sp.<i>vasinfectum</i>race 4

Zhang, Jinfa; Abdelraheem, Abdelraheem; Wheeler, Terry A.; Dever, Jane K.; Nichols, Robert L.; Wedegaertner, Tom

doi:10.1002/csc2.20446

Cited by 23 publications

(19 citation statements)

References 37 publications

(67 reference statements)

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“…Further research should determine how blocking is best implemented (based on ranges or planting rows) in a field to reflect the distribution gradient of FOV4 inoculum density. Because of the low temperature requirement (Zhang, Abdelraheem, Dever, Nichols, Wedegaertner, Wheeler, & Zhu, 2021), plant mortality caused by FOV4 is not influenced by year‐to‐year differences in production practices (Zhang, Abdelraheem, Dever, Elkins‐Arce, Wheeler, Zhu et al., 2020). Therefore, the results obtained from the two fields each with two trials should have broad applications.…”

Section: Discussionmentioning

confidence: 99%

Use of a Latin square design to assess experimental errors in field evaluation of cotton for resistance to Fusarium wilt Race 4

et al. 2022

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Field evaluation of cotton for resistance to Fusarium oxysporum f. sp. vasinfectum Race 4 (FOV4) is important in breeding. In this study, an 8 × 8 Latin square design was arranged in two FOV4‐infested fields each with two trials to evaluate eight cotton (Gossypium hirstum) cultivars based on mortality rate (MR) and root vascular staining (RVS). For a comparison, two trials of the same design were grown in the greenhouse. Consistent with the mapping pattern of MR in the Texas field, the analysis of variance confirmed the existence of effects due to tiers not planting rows in the Texas location only. Significant variation due to cultivars was consistently detected in the two trials of both locations. The repeatability was confirmed by significant correlation coefficients between most tiers (replications) and between the two trials in each field. The greenhouse test had the highest mean MR (72–78%) and lowest coefficients of variation (CV; 17–28%), followed by the Texas field with a lower MR (36–57%) and similar CV (22–29%); and the New Mexico test had the highest CV (59–73%) and the lowest MR (13–18%). The MR between the two fields and between the fields and the greenhouse were significantly correlated. ‘Pima S‐7’ had the highest MR (79–93%), whereas ‘FM 2334GLT’ had the lowest (15–35%), consistent with RVS at crop maturity. Among randomized complete block designs (RCBD) with three to seven replications, the mean squared error and CV were the lowest in RCBD with three replications.

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Section: Discussionmentioning

confidence: 99%

Use of a Latin square design to assess experimental errors in field evaluation of cotton for resistance to Fusarium wilt Race 4

et al. 2022

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“…The experimental results obtained highlight a significant effect of a w , temperature, and the interactions of these factors on the radial growth of F. oxysporum isolates. Notably, the mycelial growth of isolates of different special forms of Fusarium oxysporum has been investigated in previous works [51][52][53], and the optimal temperature ranges are very similar for the different special forms studied, where the mycelial growth rate was greater at 23/26 • C. In some cases, the mycelial growth rate was not directly studied and only the manifestation of symptoms was monitored following inoculation (in different temperature ranges). There, cotton seedlings manifested more severe symptoms and higher mortality when maintained at 23 • C, followed by 20/26 • C and 29 • C in descending order [51].…”

Section: Discussionmentioning

confidence: 99%

Geographical Origin Does Not Modulate Pathogenicity or Response to Climatic Variables of Fusarium oxysporum Associated with Vascular Wilt on Asparagus

Brizuela

Lalak-Kańczugowska

Koczyk

et al. 2021

JoF

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Asparagus crop is distributed worldwide, covering very different climatic regions. Among the different diseases that affect asparagus, vascular Fusarium wilt, caused by Fusarium oxysporum f. sp. aparagi (Foa), stands out. It is not only the cause of large economic losses due to a decrease in yield and shortened longevity of the plantation, but also prevents replanting. This work aimed to determine if F. oxysporum isolates associated with vascular wilt on asparagus have adapted differentially to the different agro-environmental conditions. The potential correlation between origin and mycelial growth under different temperatures and humidity conditions was analysed for isolates from asparagus fields cultivated in northern and southern Europe. The genetic and pathogenic variability were also analysed. While a clear effect of water activity on mycelial growth was observed, all isolates responded in a similar way to changes in water activity in the medium, regardless of their geographical origin. The results revealed a low genetic variability of F. oxysporum isolates associated with vascular wilt on asparagus without signs of differentiation correlated to geographical origin. The southernmost isolates of the two cultivated varieties inoculated did not express more pathogenicity than those isolated from the colder region.

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“…The inoculum was pipetted onto the soil surface with no root wounding, and pots were lightly watered immediately after inoculation. Fungal culture, spore quanti cation, and inoculation techniques followed Zhang et al (2021).…”

Section: Methodsmentioning

confidence: 99%

“…be different, and they may have high seedling death rates Zhang et al (2020b). suggested that the low temperature conditions allow detection of high levels of qualitative FOV4 resistance, while the high temperature conditions detect low levels of quantitative resistance to FOV4 Zhang et al (2021). con rmed that FW caused by FOV4 is a temperature dependent disease with an optimal temperature of 22-23 o C to cause mortality.…”

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A GWAS Identified a Major QTL for Resistance to Fusarium Wilt (Fusarium Oxysporum f. sp. Vasinfectum) Race 4 in a MAGIC Population of Upland Cotton and a Meta-Analysis of QTLs for Fusarium Wilt Resistance

Thyssen

Abdelraheem

Teng

et al. 2022

Preprint

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Numerous studies have been conducted to investigate the genetic basis of Fusarium wilt (FW) resistance using bi-parental and association mapping populations in cotton. In this study, a multi-parent advanced generation inter-cross (MAGIC) population of 550 recombinant inbred lines (RILs), together with their 11 Upland cotton (Gossypium hirsutum) parents, was used to identify QTLs for FW race 4 (FOV4) resistance. Among the parents, Acala Ultima, M240, and Stoneville 474 were the most resistant, while Deltapine Acala 90, Coker 315, and Stoneville 825 were the most susceptible. Twenty-two MAGIC lines were consistently resistant to FOV4. Through a genome-wide association study (GWAS) based on 473,516 polymorphic SNPs, a major FOV4 resistance QTL within a narrow region on chromosomes D02 was detected, allowing identification of 14 candidate genes. Additionally, a meta-analysis of 101 published FW resistance QTLs showed a D subgenome and individual chromosome bias and no correlation between homeologous chromosome pairs. This study represents the first GWAS study using a largest genetic population and the most comprehensive meta-analysis for FW resistance in cotton. The results illustrated that 550 lines are not enough for high resolution mapping to pinpoint a candidate gene, and experimental errors in phenotyping cotton for FW resistance further compromise the accuracy and precision in QTL localization and identification of candidate genes. This study identified FOV4 resistant parents, MAGIC lines, and the first major QTL for FOV4 resistance, providing useful information for developing FOV4 resistant cultivars and further genomic studies towards identification of causal genes for FOV4 resistance in cotton.

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Importance of temperature in evaluating cotton for resistance to Fusarium wilt caused byFusarium oxysporumf. sp.vasinfectumrace 4

Cited by 23 publications

References 37 publications

Use of a Latin square design to assess experimental errors in field evaluation of cotton for resistance to Fusarium wilt Race 4

Use of a Latin square design to assess experimental errors in field evaluation of cotton for resistance to Fusarium wilt Race 4

Geographical Origin Does Not Modulate Pathogenicity or Response to Climatic Variables of Fusarium oxysporum Associated with Vascular Wilt on Asparagus

A GWAS Identified a Major QTL for Resistance to Fusarium Wilt (Fusarium Oxysporum f. sp. Vasinfectum) Race 4 in a MAGIC Population of Upland Cotton and a Meta-Analysis of QTLs for Fusarium Wilt Resistance

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