Quantitative detection of economically important Fusarium oxysporum f. sp. cubense strains in Africa in plants, soil and water

Matthews, Megan Ceris; Mostert, Diane; Ndayihanzamaso, Privat; Rose, Lindy Joy; Viljoen, Altus

doi:10.1371/journal.pone.0236110

Cited by 14 publications

(22 citation statements)

References 52 publications

(83 reference statements)

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“…This result shows irrigation water to be another source of inoculum of pathogenic Fusarium species. In accordance with this result, rivers and irrigation systems have previously been identified as potential sources of inoculum for pathogenic fungi, 20,29 including Fusarium species 30,31 . In this scenario, monitoring for pathogenic Fusarium species in pre‐planting soil, starting plant material and irrigation water prior to the establishment of an asparagus crop is desirable to prevent ADS and replanting problems.…”

Section: Discussionmentioning

confidence: 69%

Potential inoculum sources of Fusarium species involved in asparagus decline syndrome and evaluation of soil disinfestation methods by qPCR protocols

Lastra

Marín-Guirao

López‐Moreno

et al. 2021

Pest Management Science

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BACKGROUND Asparagus decline syndrome (ADS), one of the most important diseases affecting asparagus crops, causes important yield losses worldwide. Fusarium proliferatum, F. oxysporum and F. redolens are among the main species associated with ADS. To explore their potential inoculum sources and the effectiveness of soil disinfestation practices for ADS management, molecular methods based on a quantitative real‐time polymerase chain reaction (qPCR) were developed. qPCR‐based molecular tools demonstrated advantages in the sensitive and specific detection and quantification of fungal pathogens in comparison with less‐accurate and time‐consuming traditional culture methods. RESULTS F. proliferatum, F. oxysporum and F. redolens could be specifically detected and accurately quantified in asparagus plants, soil and irrigation water collected from asparagus fields with ADS symptoms by means of the designed TaqMan qPCR protocols. Furthermore, these molecular tools were successfully applied for evaluation of the efficacy of diverse soil disinfestation treatments. Chemical fumigation with dazomet and biosolarization with pellets of Brassica carinata contributed to a significant reduction in the inoculum densities of the three Fusarium species in treated soils, which was correlated with production increases. CONCLUSIONS The capability to accurately detect and quantify the main Fusarium species involved in ADS in plants, soil and water samples by means of qPCR will allow identification of high‐risk fields that can be avoided or managed to reduce yield losses. Quantification of pathogen densities in the soil may also provide essential insights into the effectiveness of soil disinfestation methods for ADS management. © 2021 Society of Chemical Industry.

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Section: Discussionmentioning

confidence: 69%

Potential inoculum sources of Fusarium species involved in asparagus decline syndrome and evaluation of soil disinfestation methods by qPCR protocols

Lastra

Marín-Guirao

López‐Moreno

et al. 2021

Pest Management Science

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“…Foc abundance was quantified with absolute quantification-based qPCR as previously published (Matthews et al, 2020 ), except for the use of SsoAdvanced SYBR ® SuperMix (BioRad), which has been shown to increase reaction efficiency compared to other qPCR master mixes (Browne et al, 2020 ). Briefly, Foc-specific DNA sequences were targeted using the forward priming sequence (5′-GACATTTGACGACTTTCTGA-3′), the reverse sequence (5′-GACATTTGACGACTTTCTGA-3′) (Matthews et al, 2020 ). Each 10 μl total-volume reaction contained 5 ng of extracted DNA, 0.3 μM of desalt-grade primers (Sigma-Aldrich), 5 μl of SsoAdvanced SYBR ® SuperMix, and 2 μl molecular grade Ultra-Pure H 2 O™ (Invitrogen) water.…”

Section: Methodsmentioning

confidence: 99%

Nitrogen fertilizer rate but not form affects the severity of Fusarium wilt in banana

et al. 2022

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Nitrogen (N) fertilizers are routinely applied to bananas (Musa spp.) to increase production but may exacerbate plant diseases like Fusarium wilt of banana (FWB), which is the most economically important disease. Here, we characterized the effects of N rate and form on banana plant growth, root proteome, bacterial and fungal diversity in the rhizosphere, the concentration of Fusarium oxysporum f.sp. cubense (Foc) in the soil, and the FWB severity. Banana plants (Musa subgroup ABB) were grown under greenhouse conditions in soil with ammonium or nitrate supplemented at five N rates, and with or without inoculation with Foc. The growth of non-inoculated plants was positively correlated with the N rate. In bananas inoculated with Foc, disease severity increased with the N rate, resulting in the Foc-inoculated plant growth being greatest at intermediate N rates. The abundance of Foc in the soil was weakly related to the treatment conditions and was a poor predictor of disease severity. Fungal diversity was consistently affected by Foc inoculation, while bacterial diversity was associated with changes in soil pH resulting from N addition, in particular ammonium. N rate altered the expression of host metabolic pathways associated with carbon fixation, energy usage, amino acid metabolism, and importantly stress response signaling, irrespective of inoculation or N form. Furthermore, in diseased plants, Pathogenesis-related protein 1, a key endpoint for biotic stress response and the salicylic acid defense response to biotrophic pathogens, was negatively correlated with the rate of ammonium fertilizer but not nitrate. As expected, inoculation with Foc altered the expression of a wide range of processes in the banana plant including those of defense and growth. In summary, our results indicate that the severity of FWB was negatively associated with host defenses, which was influenced by N application (particularly ammonium), and shifts in microbial communities associated with ammonium-induced acidification.

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“…Presence/absence of SIX genes in the Colombian Foc TR4 genomes During the last ten years, several studies have developed molecular markers for detection of Foc TR4 (Matthews et al 2020;Magdama et al 2019;Ndayihanzamaso et al 2020;Dita et al 2010;Aguayo et al 2017;Lin et al 2013;Li et al 2013;Carvalhais et al 2019). This raises an important question: Are the existing molecular markers present in the Colombian Foc TR4 genomes?…”

Section: Genome Sequencing Of Colombian Foc Tr4 Isolatesmentioning

confidence: 99%

Genome Sequence Data Reveal at Least Two Distinct Incursions of the Tropical Race 4 Variant of Fusarium Wilt into South America

et al. 2023

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The global banana industry is threatened by one of the most devastating diseases: Fusarium wilt (FWB). FWB is caused by the soil-borne fungus Fusarium oxysporum f. sp. cubense (Foc), which almost annihilated the banana production in the late 1950s. A new strain of Foc, known as tropical race 4 (TR4), attacks a wide range of banana varieties including Cavendish clones which are the source of 99% of banana exports. In 2019, Foc TR4 was reported in Colombia, and more recently (2021) in Peru. In this study, we sequenced three fungal isolates identified as Foc TR4 from La Guajira (Colombia) and compared them against 19 whole-genome sequences of Foc TR4 publicly available, including four genome sequences recently released from Peru. To understand the genetic relatedness of the Colombian Foc TR4 isolates and those from Peru, we conducted a phylogenetic analysis based on a genome-wide set of single nucleotide polymorphisms (SNPs). Additionally, we compared the genomes of the 22 available Foc TR4 isolates looking for the presence-absence of gene polymorphisms and genomic regions. Our results reveal that (i) the Colombian and Peruvian isolates are genetically distant, which could be better explained by independent incursions of the pathogen to the continent, and (ii) there is a high correspondence between the genetic relatedness and geographic origin of Foc TR4. The profile of present/absent genes and the distribution of missing genomic regions showed a high correspondence to the clades recovered in the phylogenetic analysis, supporting the results obtained by SNP-based phylogeny.

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Quantitative detection of economically important Fusarium oxysporum f. sp. cubense strains in Africa in plants, soil and water

Cited by 14 publications

References 52 publications

Potential inoculum sources of Fusarium species involved in asparagus decline syndrome and evaluation of soil disinfestation methods by qPCR protocols

Potential inoculum sources of Fusarium species involved in asparagus decline syndrome and evaluation of soil disinfestation methods by qPCR protocols

Nitrogen fertilizer rate but not form affects the severity of Fusarium wilt in banana

Genome Sequence Data Reveal at Least Two Distinct Incursions of the Tropical Race 4 Variant of Fusarium Wilt into South America

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