Cesar U. Valencia scite author profile

Studies of fungi in upland cotton (Gossypium hirsutum) cultivated in the United States have largely focused on monitoring and controlling plant pathogens. Given increasing interest in asymptomatic fungal endophytes as potential biological control agents, surveys are needed to better characterize their diversity, distribution patterns and possible applications in integrated pest management. We sampled multiple varieties of cotton in Texas, USA and tested for temporal and spatial variation in fungal endophyte diversity and community composition, as well as for differences associated with organic and conventional farming practices. Fungal isolates were identified by morphological and DNA identification methods. We found members of the genera Alternaria, Colletotrichum and Phomopsis, previously isolated as endophytes from other plant species. Other recovered species such as Drechslerella dactyloides (formerly Arthrobotrys dactyloides) and Exserohilum rostratum have not, to our knowledge, been previously reported as endophytes in cotton. We also isolated many latent pathogens, but some species such as Alternaria tennuissima, Epicoccum nigrum, Acremonium alternatum, Cladosporium cladosporioides, Chaetomium globosum and Paecilomyces sp., are known to be antagonists against plant pathogens, insects and nematode pests. We found no differences in endophyte species richness or diversity among different cotton varieties, but did detect differences over time and in different plant tissues. No consistent patterns of community similarity associated with variety, region, farming practice, time of the season or tissue type were observed regardless of the ecological community similarity measurements used. Results indicated that local fungal endophyte communities may be affected by both time of the year and plant tissue, but the specific community composition varies across sites. In addition to providing insights into fungal endophyte community structure, our survey provides candidates for further evaluation as potential management tools against a variety of pests and diseases when present as endophytes in cotton and other plants.

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A fungal endophyte defensive symbiosis affects plant-nematode interactions in cotton

Zhou

Wheeler

Starr

et al. 2016

Plant Soil

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A Beneficial Plant-Associated Fungus Shifts the Balance toward Plant Growth over Resistance, Increasing Cucumber Tolerance to Root Herbivory

Rivera-Vega

Grunseich

Aguirre

et al. 2022

Plants

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Plants allocate their limited resources toward different physiological processes, dynamically adjusting their resource allocation in response to environmental changes. How beneficial plant-associated microbes influence this allocation is a topic that continues to interest plant biologists. In this study, we examined the effect of a beneficial fungus, Phialemonium inflatum, on investment in growth and anti-herbivore resistance traits in cucumber plants (Cucumis sativus). We inoculated cucumber seeds with P. inflatum spores and measured several growth parameters, including germination rate, above and belowground biomass, and number of flowers. We also examined plant resistance to adult and larval striped cucumber beetles (Acalymma vitattum), and quantified levels of defense hormones in leaves and roots. Our results indicate that P. inflatum strongly enhances cucumber plant growth and reproductive potential. Although fungus treatment did not improve plant resistance to cucumber beetles, inoculated plants were more tolerant to root herbivory, experiencing less biomass reduction. Together, these findings document how a beneficial plant-associated fungus shifts plant investment in growth over herbivore resistance, highlighting the importance of microbes in mediating plant-herbivore interactions. These findings also have important implications for agricultural systems, where beneficial microbes are often introduced or managed to promote plant growth or enhance resistance.

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Plant-associated fungi affect above- and belowground pest responses to soybean plants

Rivera-Vega

Zhou

Buchman

et al. 2022

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Aim:The objective of this research was to screen fungal isolates originally isolated from cotton plants and measure their effects on the interactions between soybean and two aboveground pests (cabbage looper; Trichoplusia ni and soybean looper;Chrysodeixis includens) as well as a belowground pest (soybean cyst nematode; Heterodera glycines).Methods and Results: For aboveground pests, we measured the leaf area consumed and larval weight. For our belowground pest tests, we measured shoot height, shoot fresh weight, root fresh weight and number of cysts. Out of the 50 fungal isolates tested, we tested 30 fungi in the interaction with cabbage looper, 36 for soybean looper, 41 for soybean cyst nematode. We tested 23 isolates against all pests and identified multiple isolates that significantly changed the response of pests on inoculated soybean plants versus controls. Conclusions:We identified three fungal isolates that significantly reduced both leaf area consumed aboveground by caterpillars and number of cysts produced belowground by nematodes. These isolates were an Epicoccum italicum, a Chaetomium undulatum and a Stemphylium majusculum. Significance and Impact of Study:Overall, this study provides important insights into plant-fungal interactions and their effect on both above-and belowground pests. This study also highlights an important first step towards harnessing the potential of microbial inoculates as a tool for integrated pest management in soybeans.

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Resin cast impressions as a tool for microscopic observations of fungal epiphytes on leaves

Valencia

Sword

2021

Journal of Microbiological Methods

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Cesar U. Valencia

Spatial and Temporal Variation in Fungal Endophyte Communities Isolated from Cultivated Cotton (Gossypium hirsutum)

A fungal endophyte defensive symbiosis affects plant-nematode interactions in cotton

A Beneficial Plant-Associated Fungus Shifts the Balance toward Plant Growth over Resistance, Increasing Cucumber Tolerance to Root Herbivory

Plant-associated fungi affect above- and belowground pest responses to soybean plants

Resin cast impressions as a tool for microscopic observations of fungal epiphytes on leaves

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