Megan Schall

April 21, 2025 - April 24, 2025

Oral Presentations
Invasion of large predatory catfish (Pylodictus olivaris) leads to expansion of isotopic niches in a riverine food web
Northeast Association of Fish and Wildlife Agencies
Bretton Woods, NH

Flathead catfish (Pylodictus olivaris; FHC) were first detected in the Susquehanna River, Pennsylvania, USA, in 2002. Since then, they have established a rapidly expanding population. Although the predatory effects of invasive catfishes have been documented, the effects of invasion on riverine food webs are poorly understood. This study quantified the effects of FHC on the trophic position (TP) and isotopic niche of Susquehanna River food web components by comparing invaded and non-invaded sites. The food web components examined included FHC, crayfish, minnows, smallmouth bass (Micropterus dolomieu), and channel catfish (Ictalurus punctatus). We found that FHC occupied the highest TP. The largest FHC sampled in this study (total length = 1119 mm) had a posterior mean TP of 3.33 (95% credible interval = [2.96, 3.71]), which was significantly greater in comparison to the two naturalized fish predators, smallmouth bass and channel catfish. Evidence of TP shifts was found for resident fish species, particularly for channel catfish, which occupies a similar ecological niche to FHC. The posterior probability that the TP of channel catfish was higher at non-invaded sites than invaded sites was 0.92. A Bayesian bivariate ellipses analysis provided evidence of isotopic niche expansion and overlap for all components of the food web in the presence of FHC. Our results indicate that FHC invasion is altering food web structure and energy flow in a large riverine ecosystem. This disruption extends beyond immediate ecological effects, as such shifts in food web structure may also influence the movement and bioaccumulation of emerging contaminants, such as per- and polyfluoroalkyl substances (PFAS). Our ongoing research investigates the trophodynamics of PFAS in food webs invaded by FHC. We aim to provide insights into the risks posed by invasive species and persistent pollutants to aquatic ecosystems and human health.

April 21, 2025 - April 23, 2025

Oral Presentations
Immune Function Assays Reveal Disease Vulnerability and Risk Factors in Wild Smallmouth Bass
Northeast Association of Fish and Wildlife Agencies
Bretton Woods, NH

Smallmouth bass (Micropterus dolomieu), an economically important recreational sportfish, are vital indicators of ecosystem health because of their sensitivity to certain environmental disturbances. However, ongoing concerns such as pathogenic infections, mortality episodes with limited recruitment, and male endocrine disruption historically reduced catch rates and prompted protective fishing regulations in the Potomac and Susquehanna rivers. Since 2013, a collaborative fish health monitoring effort in the Chesapeake Bay watershed has integrated land use analyses, water chemistry, plasma vitellogenin, histopathology, and gene expression to identify risk factors for disease. This study incorporated immune function assays to investigate the resilience of wild smallmouth bass facing emerging and persistent health challenges in the Chesapeake Bay Watershed. Immune response evaluations using anterior kidney leukocytes, were added from 2016-2018 and included bactericidal and respiratory burst activities, lymphocyte mitogenesis, and the expression of over 100 contaminant- and immune-related genes. Integrating immune responses with land use, water contaminants, and histopathology revealed significant variations by site, season, and sex. Respiratory burst and mitogenesis assays, in particular, allowed differentiation of baseline (“background”) immune activity from stimulated responses. Results showed that background responses, often overlooked, can be as critical as lab-stimulated responses. High background responses suggested ongoing cellular defenses against pathogens, parasites, contaminants, or poor water quality, potentially limiting further stimulation. Consequently, cells already engaged in defense may struggle to respond to new threats, heightening vulnerability to disease. These findings emphasize the value of immune responses in identifying disease risk factors for ecologically and economically important fish populations. Further research is expanding on these insights by exploring precise drivers of immune responses and their implications for smallmouth bass populations through advanced modeling, laboratory exposures, and the development of nonlethal sampling techniques.

November 8, 2024 - November 9, 2024

Posters
FOOD WEB ALTERATIONS IN SUSQUEHANNA RIVER BY NON-NATIVE FLATHEAD CATFISH (PYLODICTUS OLIVARIS).
Susquehanna River Symposium
Lewisburg, PA

November 8, 2024 - November 9, 2024

Posters
OCCURRENCE AND CONCENTRATIONS OF PER- AND POLYFLUOROALKYL SUBSTANCES IN INVASIVE CHANNA ARGUS POPULATIONS: A TRANSCRIPTOMICS APPROACH FOR DETECTING CONTAMINANT EXPOSURE
Susquehanna River Symposium
Lewisburg, PA

August 20, 2023 - August 24, 2023

Posters
Trophic Impacts of the Invasive Flathead Catfish (Pylodictis olivaris) in the Susquehanna River Basin, PA
American Fisheries Society, Annual Meeting
Grand Rapids, MI

May, 2023

Oral Presentations
Investigating angler perception of invasive Flathead Catfish in the Susquehanna River Basin, Pennsylvania
Northeast Association of Fish and Wildlife Agencies
Hershey, Pennsylvania

May, 2023

Oral Presentations
Investigating community level impacts and trophic positioning of invasive Flathead Catfish, Pylodictis olivaris, in the Susquehanna River
Northeast Association of Fish and Wildlife Agencies
Hershey, Pennsylvania

May, 2023

Oral Presentations
Variables influencing the occurrence of melanistic lesions in Smallmouth Bass in the Susquehanna River Basin, Pennsylvania
Northeast Association of Fish and Wildlife Agencies
Hershey, Pennsylvania

February, 2023

Oral Presentations
Diet analysis of invasive Flathead Catfish in the Susquehanna River Basin
Pennsylvania American Fisheries Society Spring Technical Meeting
Lock Haven, Pennsylvania

February, 2023

Posters
Piloting the use of stable isotope analysis to understand trophic dynamics of invasive Flathead Catfish Pylodictis olivaris
Pennsylvania American Fisheries Society Spring Technical Meeting
Lock Haven, Pennsylvania

November 4, 2022 - November 5, 2022

Posters
Using stable isotope analysis to investigate trophic positioning of Flathead Catfish in the Susquehanna River Basin, PA
17th Annual Susquehanna River Symposium
Lewisburg, PA

June 6, 2022 - June 8, 2022

Oral Presentations
Investigating Spatiotemporal Variability in Visual Health Assessments for Adult Smallmouth Bass
Chesapeake Community Research Symposium 2022
Annapolis, MD and Online

April 3, 2022 - April 5, 2022

Oral Presentations
Comparison of Collection Methods for Diet Studies of Invasive Flathead Catfish
2022 Annual Northeast Association of Fish and Wildlife Agencies (NEAFWA)
Long Branch, NJ and Online

February 25, 2022

Oral Presentations
Preliminary diet analysis of the invasive Flathead Catfish in the Susquehanna River Basin
2022 Keystone Coldwater Conference & PA American Fisheries Society Joint Meeting
State College, PA

November, 2021

Oral Presentations
Ecological risk assessment of environmental stress and bioactive chemicals to riverine fish populations: an individual based model of smallmouth bass Micropterus dolomieu
American Fisheries Society Annual Meeting
Baltimore, Maryland

November, 2021

Oral Presentations
Patterns in melanistic lesions in Smallmouth Bass in the Susquehanna River Basin, Pennsylvania
American Fisheries Society Annual Meeting
Baltimore, Maryland

November, 2021

Oral Presentations
Preliminary diet analysis of the invasive Flathead Catfish in the Susquehanna River Basin
American Fisheries Society Annual Meeting
Baltimore, Maryland

November, 2021

Oral Presentations
Where do we go from here?: Quantifying spatiotemporal variability in fish health observations from Smallmouth Bass Micropterus dolomieu after disease and population declines.
American Fisheries Society Annual Meeting

April, 2021

Oral Presentations
Comparing the use of multiple molecular techniques for identification of prey items in invasive Flathead Catfish (Pylodictis olivaris) diets
Southern Division of the American Fisheries Society Annual Meeting
Virtual

Flathead Catfish are a piscivorous invasive fish species introduced throughout the United States. It is important to understand how Flathead Catfish introductions alter ecosystem function and disrupt community structure through predation. Flathead Catfish are commonly collected with empty stomachs or degraded prey items in stomach contents making it difficult to identify prey using meristic or morphometric techniques. Molecular identification of individual prey items using DNA barcoding and Sanger sequencing is a more suitable approach for unidentifiable items but could be complicated when the diet is comprised of an inseparable slurry of prey. We investigated the use of universal fish DNA barcoding primers and both Sanger sequencing and next generation sequencing in the identification of prey items from a subset of Flathead Catfish diet samples (n=5). Sanger sequencing of individual prey items produced consistent species level identification. Sample preparation for next generation sequencing was labor intensive and it was often difficult to get desired DNA amplification from diet slurries. Next generation sequencing has been completed and samples are currently being analyzed through a bioinformatics pipeline for species identification. Next generation sequencing may be most advantageous to use in samples where contents are inseparable, whereas Sanger sequencing may be an easier and more direct approach for samples with separable prey items. Prey identification from fish species with degraded diet samples likely requires different methods to accommodate varying sample quality and quantity.

April, 2021

Oral Presentations
Let’s eat! A look at the diet of the invasive Flathead Catfish (Pylodictis olivaris) in the Susquehanna River Basin, PA
Southern Division American Fisheries Society Annual Meeting
virtual

February, 2021

Posters
Evaluating sampling techniques of Flathead Catfish, Plyodictis olivaris, in the Susquehanna River Basin for dietary analysis
Pennsylvania Chapter of the American Fisheries Society Spring Technical Meeting
Virtual

Introduced species often alter the community structure of the ecosystems they invade through direct and indirect effects, such as predation and competition. The Flathead Catfish, Pylodictis olivaris, is a large piscivorous fish prized by anglers, however the species can alter the structure and function of native aquatic communities when introduced outside its native range. Flathead Catfish were first documented in the Susquehanna River Basin in 2002; however, the effects of this introduction on native and naturalized fish and invertebrate communities are unknown. We initiated a multi-year molecular diet study in 2020 to investigate predatory impacts of Flathead Catfish in the Susquehanna River Basin. Flathead catfish were sampled from July through October in the Susquehanna River using low and high frequency boat electrofishing and baited tandem hoop nets. Out of 161 fish collected, 155 fish were included in our diet analysis and 63 had prey items in their stomachs. Visual analysis of stomach contents revealed that 25 of these samples contained fish, 24 contained crayfish, 6 were mixed crayfish and fish, and 7 had unidentifiable contents. With respect to gear type, Flathead Catfish collected using low and high frequency electrofishing had a higher percentage of stomachs containing prey (53% and 54%, respectively) compared to hoop nets (24%). High frequency electrofishing caught smaller fish (mean ± s.d.; 408± 195mm) when compared to hoop nets (700± 124mm) and low frequency electrofishing (667± 197mm). Molecular analysis of prey items is currently underway to determine which species are preyed upon to understand how Flathead Catfish diets vary temporally and by gear type. Our results suggest electrofishing (both high and low frequency) is more effective than hoop nets for sampling Flathead Catfish for diet collections. A combination of the two techniques would be best for collecting a broader size range, which is critical for understanding potential effects of this species as it continues to spread throughout the Pennsylvania river systems.

February 18, 2020 - February 20, 2020

Oral Presentations
Evaluation of molecular methods to identify diet contents of invasive Flathead Catfish Pylodictis olivaris in the Susquehanna River Basin, Pennsylvania
The Third International Catfish Symposium
Little Rock, Arkansas

Abstract—Flathead Catfish Pylodictis olivaris are an introduced, invasive species in the Susquehanna River Basin. The species range is expanding causing management agencies to be concerned about the predatory effects of Flathead Catfish on prey communities, including recreational sport fisheries, native and established fish species, species of greatest conservation need, and diadromous species that are the focus of restoration efforts. Currently, there is little information available on the prey species being consumed by Flathead Catfish in the Susquehanna River. Preliminary data suggests a variety of prey items in stomach contents including a mixture of partially digested fish and invertebrates which are not easily identifiable. The use of DNA barcoding is one approach that can be used to identify diet contents that are no longer visually identifiable. For this study, we are investigating the feasibility of DNA barcoding and the use of multiple molecular approaches to identify prey items in Flathead Catfish stomachs. To do so, we are testing the reliability of previously used DNA barcoding markers for both fish and invertebrates against potential prey items in the Susquehanna River Basin. We are comparing multiple methods for analysis including Sanger sequencing and next-generation sequencing for analysis of catfish diets. Findings from this study will validate methods that provide important information relevant to the management of Flathead Catfish in the Susquehanna River Basin.

February 6, 2020

Posters
Evaluating the Utility of Otolith Microchemistry to Determine Smallmouth Bass Environmental Life History Throughout the Susquehanna River Basin
Pennsylvania American Fisheries Society Spring Technical Meeting
Huntington, Pa

The Susquehanna River, previously noted as being one of the most imperiled rivers in the United States, has been of great interest in terms of ecological restoration efforts in recent years. The Smallmouth Bass is a popular and locally economically important recreational fishery in the Susquehanna River. Smallmouth Bass have exhibited disease and population changes including periods of decline since 2005. These recent disease-related mortality events and population fluctuations lead to an increased focus on fish health, contaminant exposure, and various aspects of life history and ontogeny. Previous studies using radio telemetry suggest that Smallmouth Bass utilize habitats in both the main-stem river and tributaries. However, minimal information exists as it relates to movement during early life history and how main-stem river and tributary spawned fish contribute to the larger population. Understanding more during this critical life stage may provide insight into the aforementioned declines and differential exposure to environmental stressors (e.g., contaminant and pathogen exposure) Because telemetry is not feasible for early life stages in Smallmouth bass, we sought to determine the feasibility of using otolith microchemistry to determine the environmental life history strategy of Smallmouth Bass in the Susquehanna River. Naturally occuring chemical markers in otoliths have shown to be a useful tool in describing environmental life history of numerous fishes in various environments. Laser ablation of individual otoliths was used to obtain Strontium (Sr86) to Calcium (Ca43) ratios for respective Smallmouth Bass samples from river and tributary sites in the Susquehanna River Basin. Different elemental signatures in otoliths were documented indicating fish may be moving and inhabiting different sites throughout their life. However, current data does not allow for identifying a specific main-stem reach or tributary. Further analyses of the otolith chemistry coupled with water chemistry will allow assignment of specific location these individuals. The continuation of this study and the information garnered will allow us to construct a database that will be valuable in directing future adaptive management schemes for the recovery of Smallmouth Bass in the Susquehanna River.

February 6, 2020

Posters
Investigating water quality and trout population changes in two acid mine drainage impaired streams after remediation
Pennsylvania American Fisheries Society Spring Technical Meeting
Huntington, Pa

Acid mine drainage (AMD) impairs streams throughout the state of Pennsylvania resulting in acidic stream conditions, toxic metals, and metal precipitates. Streams impaired by AMD represent important lost habitat for many species of conservation need in Pennsylvania including our state fish, the brook trout (Salvelinus fontinalis). Cooks Run and its tributaries, Rock and Camp runs located in Clinton County, Pennsylvania are wild trout streams impaired by AMD. In the late 1970s, a mining operation resulted in the impairment of over five miles of streams in Rock and Camp runs and Cooks Run, proper, eliminating fish populations. Remediation techniques have been tested over the years with little success leading to a more recent approach (2018-2019) to neutralize the AMD source through remining and source abatement. Between 1978-2019 water quality data (pH, total aluminum, total iron) and brook trout biomass data were collected at multiple points in time for Camp and Rock runs above and below mine discharges. Surface water samples were collected and sent to state approved laboratories, and brook trout were collected using backpack electrofishing in one-pass, 100- meter sections. Recent data demonstrated improvements in water quality below mine discharges including increasing pH levels, and declining concentrations of total iron and aluminum. During 2019 fish collections, one brook trout was collected below the AMD discharge point on one of the tributaries in an area previously uninhabited by trout. Yet, limited sampling (one season) and sample sizes (one fish) warrant future investigation and monitoring to evaluate potential trout recovery. In addition to trout and water quality monitoring, benthic macroinvertebrate samples have been collected to further evaluate remediation efforts. Future monitoring will help evaluate the success of remining and source abatement as a remediation technique for this site and provide insight for consideration of this technique for use elsewhere.

October 19, 2019

Panels
Life Below Water: Complexities of large river ecosystems
Susquehanna River Symposium
Lewisburg, PA

Co-led a breakout discussion following a plenary talk on collaborative research in science. Fielded meeting participant questions and discussed various parts of interdisciplinary research.

October 18, 2019 - October 19, 2019

Keynotes/Plenary Addresses
It takes a village: using collaborative and interdisciplinary science to unravel the complex dynamics of a Susquehanna River Fishery
Susquehanna River Symposium
Lewisburg, PA

Served as a co-author for a collaborative plenary talk at the 14th annual Susquehanna River Symposium. Helped put together the talk, assisted with figures, slides, etc., attended the conference and co-led a discussion after the plenary session.

June 10, 2019 - June 14, 2019

Oral Presentations
Spatial variability in young of year Smallmouth Bass infections in the Chesapeake Bay Watershed
International Association of Great Lakes Research 2019-Large Lakes Research: Connecting People & Ideas
Brockport, NY

Potential disease-causing agents including bacterial and viral pathogens and parasites have been found to co-occur in young of year (YOY) smallmouth bass in the Susquehanna River Basin, Chesapeake Bay Watershed, Pennsylvania. It is not well understood, however, how co-occurrence of infection (coinfection) varies with respect to site-specific characteristics. To evaluate prevalence of infection in YOY smallmouth bass using histology, 1,426 YOY smallmouth bass were collected during 2013-2016 from 46 in- and out-of-basin sites. A hierarchical model was used to quantify spatial variability of specific individual infection prevalence, prevalence of YOY with coinfections, and investigate land use relationships (agriculture and development) with infection. Prevalence of three or more infections was generally higher in the Susquehanna River Basin than out-of-basin sites within Pennsylvania. Coinfection prevalence had a high probability of being positively related to agriculture land use (probability =0.86) and negatively related to development (probability = 0.96) at the catchment scale. To expand modeling efforts, a joint distribution model is being used to partition relationships between infections at multiple spatial scales. Quantifying potential underlying factors for coinfection in YOY smallmouth bass provides insight on risk for future disease outbreaks and prioritization of potential management areas

February 22, 2019

Oral Presentations
Population status of Smallmouth Bass in the Susquehanna River Basin: consideration of population dynamics and fish health characteristics
Pennsylvania Chapter of the Wildlife Society and Pennsylvania Chapter of the American Fisheries Society 2019 Annual Conference
State College, PA

June 12, 2018 - June 14, 2018

Oral Presentations
Investigating occurrence of disease characteristics and trends in smallmouth bass abundance in rivers within the Chesapeake Bay Watershed.
Chesapeake Consortium Research and Modeling Symposium
Annapolis, MD

April 3, 2017 - April 7, 2017

Oral Presentations
Evaluating differences in field observations and histological prevalence of Myxozoan parasites in young-of-the-year smallmouth bass (Micropterus dolomieu) in the Susquehanna River Basin, PA
Fish Health Section Meeting
East Lansing, Michigan

February 9, 2017 - February 10, 2017

Oral Presentations
Investigating trends in riverine smallmouth bass catch per effort data in Pennsylvania
Pennsylvania and West Virginia Joint American Fisheries Society Technical Meeting
California University, California, PA

November 11, 2016 - November 12, 2016

Posters
Investigating movement dynamics and population genetics of smallmouth bass in the Susquehanna River Basin
Susquehanna River Symposium
Bucknell University, Lewisburg, PA

February 11, 2016 - February 12, 2016

Oral Presentations
Investigation of smallmouth bass population genetic structure in the Susquehanna River basin.
Pennsylvania American Fisheries Society Spring Technical Meeting
Susquehanna University, Selinsgrove, PA

November 13, 2015 - November 14, 2015

Posters
. Local and Regional Evaluation of Smallmouth Bass Population Genetic Structure in the Susquehanna River Basin
Susquehanna River Symposium
Bucknell University, Lewisburg, PA

July, 2015

Oral Presentations
Investigation of contaminants and disease characteristics of young of the year smallmouth bass in the Susquehanna River basin, PA.
Eastern Fish Health Meeting
Ithaca, NY

February 25, 2015 - February 27, 2015

Oral Presentations
Movement dynamics of smallmouth bass in the Susquehanna River Basin
Pennsylvania and Ohio Joint American Fisheries Society Technical Meeting
Erie, PA

August 31, 2014 - September 4, 2014

Oral Presentations
Evaluation of potential disease causing agents in young of the year smallmouth bass in the Chesapeake Bay watershed.
International Symposium on Aquatic Animal Health
Portland, OR

April, 2013

Oral Presentations
Comparative bioenergetics modeling of two representative strains of lean and humper lake trout (Salvelinus namaycush) morphotypes
Northeast Fish and Wildlife Conference
Saratoga Springs, NY

September 12, 2010 - September 16, 2010

Oral Presentations
Spatial and Temporal variation in Great Lakes catch-per-effort data
American Fisheries Society National Meeting
Pittsburgh, PA