Adam C. Ryan
About
Adam C. Ryan is a scholar working on Health, Toxicology and Mutagenesis, Pollution and Water Science and Technology.
According to data from OpenAlex, Adam C. Ryan has authored 36 papers receiving a total of 926 indexed citations (citations by other indexed papers that have themselves been cited), including 32 papers in Health, Toxicology and Mutagenesis, 28 papers in Pollution and 15 papers in Water Science and Technology. Recurrent topics in Adam C. Ryan's work include Environmental Toxicology and Ecotoxicology (32 papers), Heavy metals in environment (25 papers) and Water Quality and Pollution Assessment (15 papers). Adam C. Ryan is often cited by papers focused on Environmental Toxicology and Ecotoxicology (32 papers), Heavy metals in environment (25 papers) and Water Quality and Pollution Assessment (15 papers). Adam C. Ryan collaborates with scholars based in United States, Australia and Belgium. Adam C. Ryan's co-authors include Robert C. Santore, Stephen J. Klaine, Joseph R. Tomasso, Kevin V. Brix, William J. Adams, Eirik Nordheim, William A. Stubblefield, Robert W. Gensemer, Martin Grosell and Edward M. Mager and has published in prestigious journals such as Environmental Science & Technology, Environmental Pollution and Environmental Science and Pollution Research.
In The Last Decade
Adam C. Ryan
34 papers receiving 876 citations
Peers — A (Enhanced Table)
Peers by citation overlap · career bar shows stage (early→late) cites · hero ref
| Name | h | Career | Trend | Papers | Cites | |||||
|---|---|---|---|---|---|---|---|---|---|---|
| Adam C. Ryan United States | 19 | 635 | 555 | 254 | 122 | 109 | 36 | 926 | ||
| Patrick Van Sprang Belgium | 11 | 533 0.8× | 554 1.0× | 110 0.4× | 95 0.8× | 39 0.4× | 30 | 822 | ||
| Brita T.A. Muyssen Belgium | 21 | 818 1.3× | 609 1.1× | 137 0.5× | 163 1.3× | 85 0.8× | 27 | 1.1k | ||
| Marina G. Pintado‐Herrera Spain | 20 | 667 1.1× | 753 1.4× | 129 0.5× | 152 1.2× | 63 0.6× | 36 | 1.3k | ||
| Bart Bossuyt Belgium | 13 | 439 0.7× | 375 0.7× | 117 0.5× | 173 1.4× | 42 0.4× | 18 | 650 | ||
| Sivakumar Rajeshkumar China | 9 | 678 1.1× | 626 1.1× | 246 1.0× | 62 0.5× | 46 0.4× | 12 | 1.2k | ||
| Séverine Le Faucheur Switzerland | 15 | 540 0.9× | 465 0.8× | 141 0.6× | 100 0.8× | 50 0.5× | 35 | 969 | ||
| Adam Peters United Kingdom | 16 | 359 0.6× | 383 0.7× | 180 0.7× | 68 0.6× | 27 0.2× | 49 | 611 | ||
| James Odendaal South Africa | 16 | 501 0.8× | 432 0.8× | 90 0.4× | 70 0.6× | 35 0.3× | 46 | 815 | ||
| Monique T. Binet Australia | 16 | 370 0.6× | 527 0.9× | 106 0.4× | 106 0.9× | 39 0.4× | 34 | 869 | ||
| Heinrich Reincke Germany | 14 | 700 1.1× | 726 1.3× | 112 0.4× | 119 1.0× | 20 0.2× | 20 | 1.1k |
Countries citing papers authored by Adam C. Ryan
Since
Specialization
Citations
This map shows the geographic impact of Adam C. Ryan's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Adam C. Ryan with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Adam C. Ryan more than expected).
Fields of papers citing papers by Adam C. Ryan
Since
Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences
This network shows the impact of papers produced by Adam C. Ryan. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Adam C. Ryan. The network helps show where Adam C. Ryan may publish in the future.
Co-authorship network of co-authors of Adam C. Ryan
This figure shows the co-authorship network connecting the top 25 collaborators of Adam C. Ryan. A scholar is included among the top collaborators of Adam C. Ryan based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Adam C. Ryan. Adam C. Ryan is excluded from the visualization to improve readability, since they are connected to all nodes in the network.
All Works
1.
Bielmyer‐Fraser, Gretchen K., et al.. (2025). Temporal and Spatial Changes in Water Quality and Phytoplankton Populations in the Lower St. Johns River, Florida. Archives of Environmental Contamination and Toxicology. 89(1). 61–77.
2.
Merrington, Graham, Robert W. Gensemer, Iain Wilson, et al.. (2025). Bioavailability and risk assessment of metals in freshwaters: is global regulatory implementation keeping pace with scientific developments?. Integrated Environmental Assessment and Management. 21(4). 870–881.
3.
Paolo, Carolina Di, Jennifer L. Stauber, Caroline Whalley, et al.. (2024). Implementation of the CREED approach for environmental assessments. Integrated Environmental Assessment and Management. 20(4). 1019–1034.
4.
Stauber, Jennifer L., et al.. (2023). Development and Validation of Multiple Linear Regression Models for Predicting Chronic Zinc Toxicity to Freshwater Microalgae. Environmental Toxicology and Chemistry. 42(12). 2630–2641.
5.
Peters, Adam, et al.. (2023). Evaluating the Protectiveness of a Bioavailability-Based Environmental Quality Standard for the Protection of Aquatic Communities from Zinc Toxicity Based on Field Evidence. Environmental Toxicology and Chemistry. 42(5). 1010–1021.
6.
Stauber, Jennifer L., Anthony M. Evans, Aleicia Holland, et al.. (2023). Applicability of Chronic Multiple Linear Regression Models for Predicting Zinc Toxicity in Australian and New Zealand Freshwaters. Environmental Toxicology and Chemistry. 42(12). 2614–2629.
7.
Stauber, Jennifer L., et al.. (2022). Natural organic matter source, concentration, and pH influences the toxicity of zinc to a freshwater microalga. Environmental Pollution. 318. 120797–120797.
8.
Stauber, Jennifer L., et al.. (2022). The influence of hardness at varying pH on zinc toxicity and lability to a freshwater microalga, Chlorella sp.. Environmental Science Processes & Impacts. 24(5). 783–793.
9.
Stauber, Jennifer L., et al.. (2021). The Influence of pH on Zinc Lability and Toxicity to a Tropical Freshwater Microalga. Environmental Toxicology and Chemistry. 40(10). 2836–2845.
10.
Merrington, Graham, Adam Peters, Iain Wilson, et al.. (2020). Deriving a bioavailability-based zinc environmental quality standard for France. Environmental Science and Pollution Research. 28(2). 1789–1800.
11.
Garman, Emily, Joseph S. Meyer, Christine M. Bergeron, et al.. (2019). Validation of Bioavailability-Based Toxicity Models for Metals. Environmental Toxicology and Chemistry. 39(1). 101–117.
12.
DeForest, David K., et al.. (2017). Development of biotic ligand model–based freshwater aquatic life criteria for lead following US Environmental Protection Agency guidelines. Environmental Toxicology and Chemistry. 36(11). 2965–2973.
13.
DeForest, David K., et al.. (2017). Retrospective on The United States Environmental Protection Agency's guidelines for deriving ambient water quality criteria. Integrated Environmental Assessment and Management. 13(6). 1125–1126.
14.
Santore, Robert C., et al.. (2014). Acute toxicity of copper, lead, cadmium, and zinc to early life stages of white sturgeon (Acipenser transmontanus) in laboratory and Columbia River water. Environmental Science and Pollution Research. 21(13). 8176–8187.
15.
Mager, Edward M., Andrew J. Esbaugh, Kevin V. Brix, Adam C. Ryan, & Martin Grosell. (2010). Influences of water chemistry on the acute toxicity of lead to Pimephales promelas and Ceriodaphnia dubia. Comparative Biochemistry and Physiology Part C Toxicology & Pharmacology. 153(1). 82–90.
16.
Mager, Edward M., Kevin V. Brix, Robert M. Gerdes, Adam C. Ryan, & Martin Grosell. (2010). Effects of water chemistry on the chronic toxicity of lead to the cladoceran, Ceriodaphnia dubia. Ecotoxicology and Environmental Safety. 74(3). 238–243.
17.
Rosen, Gunther, Ignacio Rivera‐Duarte, D. B. Chadwick, et al.. (2008). Critical tissue copper residues for marine bivalve (Mytilus galloprovincialis) and echinoderm (Strongylocentrotus purpuratus) embryonic development: Conceptual, regulatory and environmental implications. Marine Environmental Research. 66(3). 327–336.
18.
Antunes, Paula M.C., Beverley Hale, & Adam C. Ryan. (2007). Toxicity versus accumulation for barley plants exposed to copper in the presence of metal buffers: Progress towards development of a terrestrial biotic ligand model. Environmental Toxicology and Chemistry. 26(11). 2282–2289.
19.
Genderen, Eric van, et al.. (2007). Evaluation of the Biotic Ligand Model relative to other site-specific criteria derivation methods for copper in surface waters with elevated hardness. Aquatic Toxicology. 84(2). 279–291.
20.
Ryan, Adam C., et al.. (2005). Evaluation of acute copper toxicity to larval fathead minnows (Pimephales promelas) in soft surface waters. Environmental Toxicology and Chemistry. 24(2). 408–414.
Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.
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