Adrienne Gorny
Assistant Professor
Extension Specialist, Plant Nematology
Headhouse Unit 3 at Method Road, 207
Bio
Research Overview
My research interests encompass the biology and epidemiology of plant-parasitic nematodes problematic in North Carolina and the southeastern United States, including research on integrated management tactics, enhanced nematode diagnostics, crop loss analysis, and spatiotemporal analysis. Within this, my goal is to use knowledge gained from studies conducted in the laboratory, field, and greenhouse to drive informed monitoring programs and management decisions, thereby supporting economically and environmentally sustainable nematode management options. North Carolina produces a diverse array of agricultural commodities – my lab’s research primarily focuses on root-knot nematode (Meloidogyne spp., including M. enterolobii) and additional plant parasitic nematode species in sweetpotato, soybean, cotton, and tobacco.
Education
BS Plant Biology Purdue University
Ph.D. Plant Pathology Cornell University
Publications
- A 2‐year, multi‐county survey of plant‐parasitic nematodes in North Carolina flue‐cured tobacco , Agronomy Journal (2024)
- A Comparison of Three Automated Root-Knot Nematode Egg Counting Approaches Using Machine Learning, Image Analysis, and a Hybrid Model , PLANT DISEASE (2024)
- Discovery of a major QTL for resistance to the guava root-knot nematode (Meloidogyne enterolobii) in 'Tanzania', an African landrace sweetpotato (Ipomoea batatas) , THEORETICAL AND APPLIED GENETICS (2024)
- Evaluation of Weed Species for Host Status to the Root-Knot Nematodes Meloidogyne enterolobii and M. incognita Race 4 , JOURNAL OF NEMATOLOGY (2024)
- Influence of Cropping Sequence and Tillage System on Plant-Parasitic Nematodes and Peanut (Arachis hypogaea) Response to Fluopyram Applied at Planting , AGRONOMY-BASEL (2024)
- Occurrence and Distribution of Meloidogyne spp. in Fields Rotated with Sweetpotato and Host Range of a North Carolina Population of Meloidogyne enterolobii , PLANT DISEASE (2024)
- Evaluation of Soybean Genotypes (Glycine max and G. soja) for Resistance to the Root-Knot Nematode, Meloidogyne enterolobii , PLANT DISEASE (2023)
- Prevalence, Spatial Distribution, and Population Density of Plant-Parasitic Nematodes in Vegetable Fields of North Carolina, South Carolina, and Tennessee Counties , Plant Health Progress (2023)
- Reaction of Winter Cover Crops to Meloidogyne enterolobii and Glasshouse Bioassay for Evaluating Utility in Managing M. enterolobii in Soybeans , JOURNAL OF NEMATOLOGY (2023)
- A Risk Tool and Production Log Created using Microsoft Excel to Manage Pests in Peanut (Arachis hypogaea) , JOURNAL OF INTEGRATED PEST MANAGEMENT (2022)
Grants
Award will fund 6 individual projects related to Guava Root-Knot Nematode: a)Renovation of Method Road Nematology Laboratory and Greenhouse Range facilities for work with the Guava Root-Knot Nematode (Meloidogyne enterolobii) b)Research Towards a Rapid, Species-specific, Field Deployable Test for GRKN and Advancement of Molecular Diagnostics for Soil and Sweetpotato Samples c)Evaluating Integrated Use of Fumigants, Nematicides, and Rotational Crops for Management of GRKN in Sweetpotato in the Field, Storage, and Pack House d)On-Farm Crop Rotation and Cover Crop Evaluations, and Sweetpotato Clone Evaluations to Manage Guava Root-Knot Nematode d)Breeding Resistance to GRKN and SRKN into a New Generation of High Quality, Marketable Sweetpotato Cultivars for NC Growers e)Guava Root-Knot Nematode: A County Operations Action Plan
This project will develop integrated strategies to address trade barriers for export sweetpotatoes in the United States.
We propose to deploy genomic and phenomic tools as an integrated approach for the development of superior sweetpotato varieties with robust resistance to M. enterolobii and M. incognita, and high storage root yield, shape and quality attributes that command a high market value. Beyond identifying the genetic components underpinning these traits, a breeding approach that accounts for the complex genetics of polyploidy (e.g. allele dose-dependent phenotypes) will be designed for combining multiple desirable traits in a single genetic background (i.e. multi-trait selection). This is particularly important in sweetpotato where a single important trait can break an otherwise remarkable variety. Resistance to GRKN and SRKNwill be studied within the context of a holistic nematode management strategy that maximizes economic and farm sustainability
Meloidogyne enterolobii (syn. M. mayaguensis), commonly known as the Guava Root Knot Nematode (GRKN), is a newly introduced root-knot nematode (RKN) that is highly virulent against widely-used RKN resistant crop varieties. M. enterolobii has been reported in Florida, North Carolina, South Carolina and Louisiana. In North Carolina, it has been detected in fields in Columbus, Johnston, Wayne and Wilson counties. These counties are located in the sweetpotato growing belt in North Carolina and significant damage to sweetpotato production can be caused by GRKN. Resistant sweetpotato varieties need to be developed to help NC sweetpotato growers to win the battle against M. enterolobii. In this research project, we are going to: 1) develop an efficient screening protocol for selection of GRKN-resistant sweetpotato clones from breeding populations; 2) conduct studies to identify DNA markers for M. enterolobii resistance in sweetpotato by screening a genetic mapping population from Tanzania x Beauregard with known resistance to GRKN derive from the African land race cultivar Tanzania; 3) initiate preliminary work to establish DNA marker-assisted selection for GRKN-resistant sweetpotato clones.
Meloidogyne enterolobii (syn. M. mayaguensis), commonly known as the Guava Root Knot Nematode (GRKN), is a newly introduced root-knot nematode (RKN) that is highly virulent against widely-used RKN resistant crop varieties. M. enterolobii has been reported in Florida, North Carolina, South Carolina and Louisiana. In North Carolina, it has been detected in fields in Columbus, Johnston, Wayne and Wilson counties. These counties are located in the sweetpotato growing belt in North Carolina and significant damage to sweetpotato production can be caused by GRKN. Resistant sweetpotato varieties need to be developed to help NC sweetpotato growers to win the battle against M. enterolobii. In this research project, we are going to: 1) develop an efficient screening protocol for selection of GRKN-resistant sweetpotato clones from breeding populations; 2) conduct studies to identify DNA markers for M. enterolobii resistance in sweetpotato by screening a genetic mapping population from Tanzania x Beauregard with known resistance to GRKN derive from the African land race cultivar Tanzania; 3) initiate preliminary work to establish DNA marker-assisted selection for GRKN-resistant sweetpotato clones.
Plant-parasitic nematodes are reported to cause 12.3% annual crop losses worldwide, resulting in economic losses worth $157 billion (USD). Among these soil-borne pests, root-knot nematodes (RKN) are considered the most devastating due to their world-wide distribution, broad host range, and high potential to cause extensive qualitative and quantitative crop loss. Cotton annual yield losses worth nearly $74 million (USD) is attributed to RKN damage, in the U.S. alone. To mitigate the losses caused by these nematodes, especially southern root-knot nematodes (Meloidogyne incognita), host resistance has been bred into several varieties of major agricultural crops, including cotton. However, an aggressive species of RKN, guava root-knot nematode (M. enterolobii), can overcome the host resistance and cause serious damage to the M. incognita-resistant varieties of several crops. Since its first detection in the U.S. in 2001 in Florida, this nematode has spread at an alarming rate and has now been identified in North Carolina, South Carolina, Florida, and Georgia. Compounding the problem further, M. enterolobii has an exceptionally wide host range, including cotton and its common rotational crops The objectives of this research are to: 1. Evaluate the susceptibility of 30 cotton commercial varieties and breeding lines, differing in genetic background and/or susceptibility to RKN, against isolates of M. enterolobii from Georgia, North Carolina, and South Carolina, and an isolate of M. floridensis from Georgia under greenhouse conditions. 2. Evaluate ten cotton varieties and breeding lines differing in their susceptibility to M. eneterolobii under field conditions at the Guava Root-knot Nematode Research Nursery field at the Border Belt Tobacco Research Station in Whiteville, NC.
The general objectives are to search for the presence of GRKN in the southeast United States (the Carolinas, Florida, Georgia), to screen accessions of cucurbit (cucumber and watermelon), pepper and sweetpotato germplasm for resistance, and to demonstrate that GRKN can be managed and contained efficiently and effectively.
The NC SweetPotato Commission Foundation will mitigate the spread of Guava Root-Knot Nematode (GRKN) in packing facilities through a three-fold approach. In cooperation with NC State University, nematode specialist Adrienne Gorny will develop a rapid-response test to identify the presence of GRKN in sweetpotatoes prior to their being packed or stored for later shipment. Second, the project will support the identification and development of best practices to be used at the packing house to reduce the inadvertent transmission of GRKN and to prevent shipping infested product that can result in North Carolina Sweetpotato growers losing market share. Third, we will work with a maximum of six packing houses who agree to be part of a pilot project to determine both the cost effectiveness and the reduction of nematode population as a result of gassing storage facilities prior to moving sweetpotatoes to the packing line for preparation for shipping. Our end goals are to (a) make it easier and more cost effective to identify the presence of the nematode in harvested crop; (b) raise packer awareness of actions they may be inadvertently taking that unknowingly spreads GRKN in fields; and (c) identify additional tools that packers can use to protect the integrity of stored sweetpotatoes.
Guava Root Knot nematode (GRKN) is a pest that poses severe threat to NC agriculture, particularly to the sweet potato industry. Many of our crops are host species to this nematode and solutions are needed to mitigate the incidence and spread of GRKN. Preliminary work by this research group has shown some sesame varieties are resistant or tolerant to GRKN. We propose to study sesame as a rotational alternative to other summer crops in order to reduce GRKN populations and keep sweet potato land in North Carolina productive.
Plant-parasitic nematodes are microscopic soilborne roundworms that impact crop production by feeding on plant roots. Several genera of plant-parasitic nematode are yield limiting in soybean, including Southern root-knot (Meloidogyne incognita), stubby-root (Tylenchus spp.), stunt (Tylenchorhynchus spp.), sting (Belonolaimus spp.), and lesion nematodes (Pratylenchus spp.). In the short term, identifying nematicide options that are most effective in reducing nematode damage and protecting soybean profitability in North Carolina is imperative. Biological nematicides are popular for the environmental and economic sustainability, and additional data on their efficacy will support informed decision making on the farm. Further, ���alternative products��� (defined here at non-chemical products that are not be traditionally thought of as a nematicide, but may possess nematicide properties) are understudied and their utility in managing our more difficult-to-manage nematodes remains unknown. The overarching goal of this project is to add to our knowledge of applied nematode management under field conditions using a variety of products. The specific objectives of this project are to 1) evaluate the efficacy of certain biological and alternative nematicide products in managing sting nematode (Belonolaimus longicaudatus) and guava root-knot nematode (Meloidogyne spp.) in soybean production, and 2) Develop extension and outreach materials, including developing an expanded factsheet on sting nematode in soybean.