Michael A. Eggleton Data-verified
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Researcher
faculty
Research Areas
Biography and Research Information
OverviewAI-generated summary
Michael A. Eggleton's research focuses on aquatic ecosystems, water quality, and the ecological impacts of anthropogenic activities. His work includes investigating the spatial and temporal patterns of heavy metals in lakes, particularly in regions like Central Yangtze lakes in China, and assessing potential human health impacts. Eggleton also studies water quality, habitat conditions, and fish assemblages in various stream types within the Mississippi Alluvial Plain, examining relationships between environmental factors and aquatic life. His research extends to the establishment and impact of invasive species, such as bigheaded carp, on native fish populations in Arkansas river systems. Additionally, he has explored the use of otolith microchemistry to trace the natal origins of invasive fish species in the Mississippi River basin. Eggleton's scholarship metrics include an h-index of 13 with 36 publications and 499 citations. He has collaborated with Matthew Skoog at the University of Arkansas at Pine Bluff.
Metrics
- h-index: 13
- Publications: 36
- Citations: 506
Selected Publications
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Use of otolith microchemistry to determine natal origin for Silver Carp Hypophthalmichthys molitrix in the lower Mississippi River basin (2024)
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Biodiversity and aquatic ecosystems conservation in global large river basins: a synthesis of the 5th Mississippi-Yangtze International Symposium (2024)
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Water quality, habitat, and fish assemblage relationships in middle-order agriculture and forest streams of the Mississippi Alluvial Plain (2024)
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Comparisons of oxbow lake fish assemblages in relation to bigheaded carp establishment in the lower White River, Arkansas (2024)
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Spatial and temporal patterns of heavy metals and potential human impacts in Central Yangtze lakes, China (2022)
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Valuation of Wetland Restoration: Evidence from the Housing Market in Arkansas (2022)
Collaboration Network
Top Collaborators
- Spatial and temporal patterns of heavy metals and potential human impacts in Central Yangtze lakes, China
- Water quality, habitat, and fish assemblage relationships in middle-order agriculture and forest streams of the Mississippi Alluvial Plain
- Biodiversity and aquatic ecosystems conservation in global large river basins: a synthesis of the 5th Mississippi-Yangtze International Symposium
- A Major New Find of Fluorite at the Blanchard Mine, Socorro County, New Mexico
- A Major New Fluorite Find At the Blanchard Mine, Hansonburg Mining District, Socorro County, New Mexico, Spring 2023
- A Major New Find of Fluorite at the Blanchard Mine, Socorro County, New Mexico
- A Major New Fluorite Find At the Blanchard Mine, Hansonburg Mining District, Socorro County, New Mexico, Spring 2023
- Valuation of Wetland Restoration: Evidence from the Housing Market in Arkansas
- Valuation of Wetland Restoration: Evidence from the Housing Market in Arkansas
- Spatial and temporal patterns of heavy metals and potential human impacts in Central Yangtze lakes, China
- Spatial and temporal patterns of heavy metals and potential human impacts in Central Yangtze lakes, China
- Spatial and temporal patterns of heavy metals and potential human impacts in Central Yangtze lakes, China
- Spatial and temporal patterns of heavy metals and potential human impacts in Central Yangtze lakes, China
- Spatial and temporal patterns of heavy metals and potential human impacts in Central Yangtze lakes, China
- Spatial and temporal patterns of heavy metals and potential human impacts in Central Yangtze lakes, China
- Comparisons of oxbow lake fish assemblages in relation to bigheaded carp establishment in the lower White River, Arkansas
- Comparisons of oxbow lake fish assemblages in relation to bigheaded carp establishment in the lower White River, Arkansas
- Comparisons of oxbow lake fish assemblages in relation to bigheaded carp establishment in the lower White River, Arkansas
- Water quality, habitat, and fish assemblage relationships in middle-order agriculture and forest streams of the Mississippi Alluvial Plain
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