TAR SPOT OF CORN: POPULATION DYNAMICS, ECONOMIC IMPACT AND MANAGEMENT IN MIDWESTERN UNITED STATES

Tiffanna J Ross (12428763)

19 April 2022

<p>  </p> <p>Tar spot is a new foliar disease of corn in the United States. Tar spot was first detected in 2015 and is now among the most important corn diseases in the Midwest. Tar spot is caused by the obligate biotrophic fungus, <em>Phyllachora maydis</em> Maubl, from the genus, <em>Phyllachora </em>which consist of over 1,200 species of host-specific fungi. Due to the recent emergence, studies relating to <em>P. maydis</em> population dynamics in the U.S. are limited. How much genetic diversity, variation, and level of gene flow are occurring within and among these populations? Knowledge of the population dynamics is imperative for understanding the pathogen’s biology, ecology, epidemiology, and management. Currently, no corn hybrid is fully resistant to tar spot. Foliar fungicides are currently the most effective option for disease management, but best practices for fungicide management remain unknown. Better information is needed on fungicide efficacy and fungicide application timing to reduce tar spot severity, protect yield, and increase profitability for Indiana corn growers. </p> <p>This research dissertation presents four chapters to answers those questions and bridge the gaps between the knowns and unknows of this novel corn-<em>Phyllachora maydis</em> pathosystem. <strong>Chapter 1</strong> presents a literature review on tar spot of corn, its economic impact, the causal pathogen, its host, lifecycle, distribution, and known management strategies as a resource for understanding the pathosystem in the U.S. <strong>Chapter 2</strong> examines the genetic population structure, diversity, geneflow and mode of reproduction in Midwest U.S. by employing microsatellite (SSR) markers. <strong>Chapter 3</strong> presents results from multi-year, multi-location, small-plot field trials on the net return of foliar fungicides and fungicide timing on tar spot management in Indiana. Lastly, <strong>Chapter 4</strong> concludes by evaluating of an integrated management strategy for tar spot by examining the integration of tillage, corn hybrids and fungicide application in reducing tar spot severity while protecting yields.</p> <p>Results provided in this research dissertation will be used to guide future studies and provide stakeholders such as researchers, corn growers, extension personnel in academia and industry with valuable information needed to guide effective disease management decisions. </p>

Botany

Tar spot of corn

Zea mays

Phyllachora maydis

Population dynamics

Genetic diversity

Microsatellite markers

Fungicide efficacy

Fungicide timing

Net returns

Integrated disease management

FUNGICIDE TIMING, RESISTANCE MONITORING, AND PHYTOPATHOMETRY FOR FIELD CROP DISEASES IN INDIANA

Kaitlin G Waibel (15353782)

26 April 2023

<p>  </p> <p>Protecting crops from disease requires continuous research because plant pathogen incidence, geographical range, and pathogenicity, are constantly shifting variables as agronomic practices and climate continue to evolve. The objectives of this research are to i.) evaluate field-scale fungicide timing programs for corn (<em>Zea mays L.</em>) diseases at multiple locations in Indiana; ii.) evaluate field-scale fungicide timing programs for soybean (<em>Glycine Max</em> (L.) Merr.) diseases at multiple locations in Indiana; iii.) continue to identify, document, and confirm the distribution of populations of the soybean frogeye leaf spot pathogen (<em>Cercospora sojina)</em> that contain the G143A mutation conferring resistance to quinone outside inhibitor (QoI) fungicides in Indiana; and iv.) assess the incidence, severity, and prevalence of tar spot (<em>Phyllachora maydis</em>) in Indiana. For the first and second objectives, field scale trials were established at three locations in Indiana from 2019 to 2022. No application timings at any location provided significant yield protection for corn or soybeans. To achieve the third objective, 165 isolates of <em>C. Sojina </em>were tested. In total, 24 out of the 32 counties sampled in 2021 and 2022 were documented with QoI-resistance. The fourth objective was accomplished by surveying Indiana counties for incidence and severity of tar spot. As of 2022, 86 out of 92 Indiana counties have been confirmed for the presence of tar spot.</p>

Agronomy

Plant pathology

fungicide timing

Cercospora sojina

Phyllachora maydis

Tar spot of corn

Frogeye leaf spot

quinone outside inhibitor

QoI resistance

fungicide resistance detection

Phytopathometry

Gray leaf spot (GLS)

corn

soybean

corn diseases

soybean diseases