31 results on '"Krabbenhoft, Corey A."'
Search Results
2. What’s in a Name? Patterns, Trends, and Suggestions for Defining Non-Perennial Rivers and Streams
- Author
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Busch, Michelle H, Costigan, Katie H, Fritz, Ken M, Datry, Thibault, Krabbenhoft, Corey A, Hammond, John C, Zimmer, Margaret, Olden, Julian D, Burrows, Ryan M, Dodds, Walter K, Boersma, Kate S, Shanafield, Margaret, Kampf, Stephanie K, Mims, Meryl C, Bogan, Michael T, Ward, Adam S, Rocha, Mariana Perez, Godsey, Sarah, Allen, George H, Blaszczak, Joanna R, Jones, C Nathan, and Allen, Daniel C
- Subjects
non-perennial ,intermittent ,ephemeral ,temporary ,stream ,river ,literature review ,latent Dirichlet allocation ,text mining ,synthesis - Abstract
Rivers that cease to flow are globally prevalent. Although many epithets have been used for these rivers, a consensus on terminology has not yet been reached. Doing so would facilitate a marked increase in interdisciplinary interest as well as critical need for clear regulations. Here we reviewed literature from Web of Science database searches of 12 epithets to learn (Objective 1-O1) if epithet topics are consistent across Web of Science categories using latent Dirichlet allocation topic modeling. We also analyzed publication rates and topics over time to (O2) assess changes in epithet use. We compiled literature definitions to (O3) identify how epithets have been delineated and, lastly, suggest universal terms and definitions. We found a lack of consensus in epithet use between and among various fields. We also found that epithet usage has changed over time, as research focus has shifted from description to modeling. We conclude that multiple epithets are redundant. We offer specific definitions for three epithets (non-perennial, intermittent, and ephemeral) to guide consensus on epithet use. Limiting the number of epithets used in non-perennial river research can facilitate more effective communication among research fields and provide clear guidelines for writing regulatory documents.
- Published
- 2020
3. Zero or not? Causes and consequences of zero‐flow stream gage readings
- Author
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Zimmer, Margaret A, Kaiser, Kendra E, Blaszczak, Joanna R, Zipper, Samuel C, Hammond, John C, Fritz, Ken M, Costigan, Katie H, Hosen, Jacob, Godsey, Sarah E, Allen, George H, Kampf, Stephanie, Burrows, Ryan M, Krabbenhoft, Corey A, Dodds, Walter, Hale, Rebecca, Olden, Julian D, Shanafield, Margaret, DelVecchia, Amanda G, Ward, Adam S, Mims, Meryl C, Datry, Thibault, Bogan, Michael T, Boersma, Kate S, Busch, Michelle H, Jones, C Nathan, Burgin, Amy J, and Allen, Daniel C
- Subjects
aquatic network ,non-perennial ,stream gages ,streamflow ,zero flow - Abstract
Streamflow observations can be used to understand, predict, and contextualize hydrologic, ecological, and biogeochemical processes and conditions in streams. Stream gages are point measurements along rivers where streamflow is measured, and are often used to infer upstream watershed-scale processes. When stream gages read zero, this may indicate that the stream has fully dried; however, zero-flow readings can also be caused by a wide range of other factors. Our ability to identify whether or not a zero-flow gage reading indicates a dry fluvial system has far reaching environmental implications. Incorrect identification and interpretation by the data user can lead to hydrologic, ecological, and/or biogeochemical predictions from models and analyses. Here, we describe several causes of zero-flow gage readings: frozen surface water, flow reversals, instrument error, and natural or human-driven upstream source losses or bypass flow. For these examples, we discuss the implications of zero-flow interpretations. We also highlight additional methodss for determining flow presence, including direct observations, statistical methods, and hydrologic models, which can be applied to interpret causes of zero-flow gage readings and implications for reach- and watershed-scale dynamics. Such efforts are necessary to improve our ability to understand and predict surface flow activation, cessation, and connectivity across river networks. Developing this integrated understanding of the wide range of possible meanings of zero-flows will only attain greater importance in a more variable and changing hydrologic climate.
- Published
- 2020
4. Invasion success of a freshwater fish corresponds to low dissolved oxygen and diminished riparian integrity
- Author
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Krabbenhoft, Corey A. and Kashian, Donna R.
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- 2022
- Full Text
- View/download PDF
5. Assessing placement bias of the global river gauge network
- Author
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Krabbenhoft, Corey A., Allen, George H., Lin, Peirong, Godsey, Sarah E., Allen, Daniel C., Burrows, Ryan M., DelVecchia, Amanda G., Fritz, Ken M., Shanafield, Margaret, Burgin, Amy J., Zimmer, Margaret A., Datry, Thibault, Dodds, Walter K., Jones, C. Nathan, Mims, Meryl C., Franklin, Catherin, Hammond, John C., Zipper, Sam, Ward, Adam S., Costigan, Katie H., Beck, Hylke E., and Olden, Julian D.
- Published
- 2022
- Full Text
- View/download PDF
6. Synthesizing Professional Opinion and Published Science to Build a Conceptual Model of Walleye Recruitment
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Krabbenhoft, Corey A., primary, Ludsin, Stuart A., additional, Marschall, Elizabeth A., additional, Budnik, Richard R., additional, Almeida, L. Zoe, additional, Cahill, Christopher L., additional, Embke, Holly S., additional, Feiner, Zachary S., additional, Schmalz, Patrick J., additional, Thorstensen, Matt J., additional, Weber, Michael J., additional, Wuellner, Melissa R., additional, and Hansen, Gretchen J.A., additional
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- 2023
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- View/download PDF
7. Retrospective stable isotope analysis reveals ecosystem responses to river regulation over the last century
- Author
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Turner, Thomas F., Krabbenhoft, Trevor J., Collyer, Michael L., Krabbenhoft, Corey A., Edwards, Melanie S., and Sharp, Zachary D.
- Published
- 2015
8. Assessing placement bias of the global gauge network (data)
- Author
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Krabbenhoft, Corey and Lin, Peirong
- Abstract
Data associated with Krabbenhoft et al. 2022, Nature Sustainability
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- 2022
- Full Text
- View/download PDF
9. Reconceptualizing the hyporheic zone for nonperennial rivers and streams
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DelVecchia, Amanda G., primary, Shanafield, Margaret, additional, Zimmer, Margaret A., additional, Busch, Michelle H., additional, Krabbenhoft, Corey A., additional, Stubbington, Rachel, additional, Kaiser, Kendra E., additional, Burrows, Ryan M., additional, Hosen, Jake, additional, Datry, Thibault, additional, Kampf, Stephanie K., additional, Zipper, Samuel C., additional, Fritz, Ken, additional, Costigan, Katie, additional, and Allen, Daniel C., additional
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- 2022
- Full Text
- View/download PDF
10. It’s complicated and it depends: A review of the effects of ecosystem changes on Walleye and Yellow Perch Populations in North America
- Author
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Hansen, Gretchen J.A., primary, Ruzich, Jenna, additional, Krabbenhoft, Corey A., additional, Kundel, Holly, additional, Mahlum, Shad, additional, Rounds, Christopher I., additional, Van Pelt, Amanda O., additional, Eslinger, Lawrence D., additional, Logsdon, Dale E., additional, and Isermann, Daniel A., additional
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- 2022
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- View/download PDF
11. Pervasive changes in stream intermittency across the United States
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Zipper, Samuel C, primary, Hammond, John C, additional, Shanafield, Margaret, additional, Zimmer, Margaret, additional, Datry, Thibault, additional, Jones, C Nathan, additional, Kaiser, Kendra E, additional, Godsey, Sarah E, additional, Burrows, Ryan M, additional, Blaszczak, Joanna R, additional, Busch, Michelle H, additional, Price, Adam N, additional, Boersma, Kate S, additional, Ward, Adam S, additional, Costigan, Katie, additional, Allen, George H, additional, Krabbenhoft, Corey A, additional, Dodds, Walter K, additional, Mims, Meryl C, additional, Olden, Julian D, additional, Kampf, Stephanie K, additional, Burgin, Amy J, additional, and Allen, Daniel C, additional
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- 2021
- Full Text
- View/download PDF
12. Pervasive changes in stream intermittency across the United States
- Author
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Zipper, Samuel C., Hammond, John C., Shanafield, Margaret, Zimmer, Margaret, Datry, Thibault, Jones, C. Nathan, Kaiser, Kendra E., Godsey, Sarah E., Burrows, Ryan M., Blaszczak, Joanna R., Busch, Michelle H., Price, Adam N., Boersma, Kate S., Ward, Adam S., Costigan, Katie, Allen, George H., Krabbenhoft, Corey A., Dodds, Walter K., Mims, Meryl C., Olden, Julian D., Kampf, Stephanie K., Burgin, Amy J., Allen, Daniel C., Zipper, Samuel C., Hammond, John C., Shanafield, Margaret, Zimmer, Margaret, Datry, Thibault, Jones, C. Nathan, Kaiser, Kendra E., Godsey, Sarah E., Burrows, Ryan M., Blaszczak, Joanna R., Busch, Michelle H., Price, Adam N., Boersma, Kate S., Ward, Adam S., Costigan, Katie, Allen, George H., Krabbenhoft, Corey A., Dodds, Walter K., Mims, Meryl C., Olden, Julian D., Kampf, Stephanie K., Burgin, Amy J., and Allen, Daniel C.
- Abstract
Non-perennial streams are widespread, critical to ecosystems and society, and the subject of ongoing policy debate. Prior large-scale research on stream intermittency has been based on long-term averages, generally using annually aggregated data to characterize a highly variable process. As a result, it is not well understood if, how, or why the hydrology of non-perennial streams is changing. Here, we investigate trends and drivers of three intermittency signatures that describe the duration, timing, and dry-down period of stream intermittency across the continental United States (CONUS). Half of gages exhibited a significant trend through time in at least one of the three intermittency signatures, and changes in no-flow duration were most pervasive (41% of gages). Changes in intermittency were substantial for many streams, and 7% of gages exhibited changes in annual no-flow duration exceeding 100 days during the study period. Distinct regional patterns of change were evident, with widespread drying in southern CONUS and wetting in northern CONUS. These patterns are correlated with changes in aridity, though drivers of spatiotemporal variability were diverse across the three intermittency signatures. While the no-flow timing and duration were strongly related to climate, dry-down period was most strongly related to watershed land use and physiography. Our results indicate that non-perennial conditions are increasing in prevalence over much of CONUS and binary classifications of 'perennial' and 'non-perennial' are not an accurate reflection of this change. Water management and policy should reflect the changing nature and diverse drivers of changing intermittency both today and in the future.
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- 2021
- Full Text
- View/download PDF
13. Spatial Patterns and Drivers of Nonperennial Flow Regimes in the Contiguous United States
- Author
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Hammond, John C., Zimmer, Margaret A., Shanafield, Margaret, Kaiser, Kendra E., Godsey, Sarah E., Mims, Meryl C., Zipper, Samuel C., Burrows, Ryan M., Kampf, Stephanie K., Dodds, Walter K., Jones, C. Nathan, Krabbenhoft, Corey A., Boersma, Kate S., Datry, Thibault, Olden, Julian D., Allen, George H., Price, Adam N., Costigan, Katie H., Hale, Rebecca, Ward, Adam S., Allen, Daniel C., Hammond, John C., Zimmer, Margaret A., Shanafield, Margaret, Kaiser, Kendra E., Godsey, Sarah E., Mims, Meryl C., Zipper, Samuel C., Burrows, Ryan M., Kampf, Stephanie K., Dodds, Walter K., Jones, C. Nathan, Krabbenhoft, Corey A., Boersma, Kate S., Datry, Thibault, Olden, Julian D., Allen, George H., Price, Adam N., Costigan, Katie H., Hale, Rebecca, Ward, Adam S., and Allen, Daniel C.
- Abstract
Over half of global rivers and streams lack perennial flow, and understanding the distribution and drivers of their flow regimes is critical for understanding their hydrologic, biogeochemical, and ecological functions. We analyzed nonperennial flow regimes using 540 U.S. Geological Survey watersheds across the contiguous United States from 1979 to 2018. Multivariate analyses revealed regional differences in no-flow fraction, date of first no flow, and duration of the dry-down period, with further divergence between natural and human-altered watersheds. Aridity was a primary driver of no-flow metrics at the continental scale, while unique combinations of climatic, physiographic and anthropogenic drivers emerged at regional scales. Dry-down duration showed stronger associations with nonclimate drivers compared to no-flow fraction and timing. Although the sparse distribution of nonperennial gages limits our understanding of such streams, the watersheds examined here suggest the important role of aridity and land cover change in modulating future stream drying. Plain Language Summary A majority of global streams are nonperennial, flowing only part of the year, and are critical for sustaining flow downstream, providing habitat for many organisms, and regulating chemical and biological processes. Using long-term U.S. Geological Survey measurements for 540 watersheds across the contiguous United States, we mapped patterns and examined the causes of no-flow fraction, the fraction of each climate year with no flow, no-flow timing, the date of the climate year on which the first recorded no flow takes place, and length of the dry-down period, the average number of days from a local peak in daily flow to the first occurrence of no flow. We found differences in patterns of no-flow characteristics between regions, with higher no-flow fraction, earlier timing, and shorter dry-down duration in the western United States. No-flow fractions were greater and less variable in natural w
- Published
- 2021
- Full Text
- View/download PDF
14. Spatial Patterns and Drivers of Nonperennial Flow Regimes in the Contiguous United States
- Author
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Biological Sciences, Hammond, John C., Zimmer, Margaret A., Shanafield, Margaret, Kaiser, Kendra E., Godsey, Sarah E., Mims, Meryl C., Zipper, Samuel C., Burrows, Ryan M., Kampf, Stephanie K., Dodds, Walter K., Jones, C. Nathan, Krabbenhoft, Corey A., Boersma, Kate S., Datry, Thibault, Olden, Julian D., Allen, George H., Price, Adam N., Costigan, Katie H., Hale, Rebecca, Ward, Adam S., Allen, Daniel C., Biological Sciences, Hammond, John C., Zimmer, Margaret A., Shanafield, Margaret, Kaiser, Kendra E., Godsey, Sarah E., Mims, Meryl C., Zipper, Samuel C., Burrows, Ryan M., Kampf, Stephanie K., Dodds, Walter K., Jones, C. Nathan, Krabbenhoft, Corey A., Boersma, Kate S., Datry, Thibault, Olden, Julian D., Allen, George H., Price, Adam N., Costigan, Katie H., Hale, Rebecca, Ward, Adam S., and Allen, Daniel C.
- Abstract
Over half of global rivers and streams lack perennial flow, and understanding the distribution and drivers of their flow regimes is critical for understanding their hydrologic, biogeochemical, and ecological functions. We analyzed nonperennial flow regimes using 540 U.S. Geological Survey watersheds across the contiguous United States from 1979 to 2018. Multivariate analyses revealed regional differences in no-flow fraction, date of first no flow, and duration of the dry-down period, with further divergence between natural and human-altered watersheds. Aridity was a primary driver of no-flow metrics at the continental scale, while unique combinations of climatic, physiographic and anthropogenic drivers emerged at regional scales. Dry-down duration showed stronger associations with nonclimate drivers compared to no-flow fraction and timing. Although the sparse distribution of nonperennial gages limits our understanding of such streams, the watersheds examined here suggest the important role of aridity and land cover change in modulating future stream drying. Plain Language Summary A majority of global streams are nonperennial, flowing only part of the year, and are critical for sustaining flow downstream, providing habitat for many organisms, and regulating chemical and biological processes. Using long-term U.S. Geological Survey measurements for 540 watersheds across the contiguous United States, we mapped patterns and examined the causes of no-flow fraction, the fraction of each climate year with no flow, no-flow timing, the date of the climate year on which the first recorded no flow takes place, and length of the dry-down period, the average number of days from a local peak in daily flow to the first occurrence of no flow. We found differences in patterns of no-flow characteristics between regions, with higher no-flow fraction, earlier timing, and shorter dry-down duration in the western United States. No-flow fractions were greater and less variable in natural w
- Published
- 2021
15. Zero or not? Causes and consequences of zero-flow stream gage readings
- Author
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Zimmer, Margaret A., Kaiser, Kendra E., Blaszczak, Joanna R., Zipper, Samuel C., Hammond, John C., Fritz, Ken M., Costigan, Katie H., Hosen, Jacob, Godsey, Sarah E., Allen, George H., Kampf, Stephanie K., Burrows, Ryan M., Krabbenhoft, Corey A., Dodds, Walter K., Hale, Rebecca, Olden, Julian D., Shanafield, Margaret, DelVecchia, Amanda G., Ward, Adam S., Mims, Meryl C., Datry, Thibault, Bogan, Michael T., Boersma, Kate S., Busch, Michelle H., Jones, C. Nathan, Burgin, Amy J., Allen, Daniel C., Zimmer, Margaret A., Kaiser, Kendra E., Blaszczak, Joanna R., Zipper, Samuel C., Hammond, John C., Fritz, Ken M., Costigan, Katie H., Hosen, Jacob, Godsey, Sarah E., Allen, George H., Kampf, Stephanie K., Burrows, Ryan M., Krabbenhoft, Corey A., Dodds, Walter K., Hale, Rebecca, Olden, Julian D., Shanafield, Margaret, DelVecchia, Amanda G., Ward, Adam S., Mims, Meryl C., Datry, Thibault, Bogan, Michael T., Boersma, Kate S., Busch, Michelle H., Jones, C. Nathan, Burgin, Amy J., and Allen, Daniel C.
- Abstract
Streamflow observations can be used to understand, predict, and contextualize hydrologic, ecological, and biogeochemical processes and conditions in streams. Stream gages are point measurements along rivers where streamflow is measured, and are often used to infer upstream watershed-scale processes. When stream gages read zero, this may indicate that the stream has dried at this location; however, zero-flow readings can also be caused by a wide range of other factors. Our ability to identify whether or not a zero-flow gage reading indicates a dry fluvial system has far reaching environmental implications. Incorrect identification and interpretation by the data user can lead to inaccurate hydrologic, ecological, and/or biogeochemical predictions from models and analyses. Here, we describe several causes of zero-flow gage readings: frozen surface water, flow reversals, instrument error, and natural or human-driven upstream source losses or bypass flow. For these examples, we discuss the implications of zero-flow interpretations. We also highlight additional methods for determining flow presence, including direct observations, statistical methods, and hydrologic models, which can be applied to interpret causes of zero-flow gage readings and implications for reach- and watershed-scale dynamics. Such efforts are necessary to improve our ability to understand and predict surface flow activation, cessation, and connectivity across river networks. Developing this integrated understanding of the wide range of possible meanings of zero-flows will only attain greater importance in a more variable and changing hydrologic climate. This article is categorized under: Science of Water > Methods Science of Water > Hydrological Processes Water and Life > Conservation, Management, and Awareness
- Published
- 2020
- Full Text
- View/download PDF
16. What’s in a Name? Patterns, Trends, and Suggestions for Defining Non-Perennial Rivers and Streams
- Author
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Busch, Michelle H., Costigan, Katie H., Fritz, Ken M., Datry, Thibault, Krabbenhoft, Corey A., Hammond, John C., Zimmer, Margaret A., Olden, Julian D., Burrows, Ryan M., Dodds, Walter K., Boersma, Kate S., Shanafield, Margaret, Kampf, Stephanie K., Mims, Meryl C., Bogan, Michael T., Ward, Adam S., Perez Rocha, Mariana, Godsey, Sarah E., Allen, George H., Blaszczak, Joanna R., Jones, C. Nathan, Allen, Daniel C., Busch, Michelle H., Costigan, Katie H., Fritz, Ken M., Datry, Thibault, Krabbenhoft, Corey A., Hammond, John C., Zimmer, Margaret A., Olden, Julian D., Burrows, Ryan M., Dodds, Walter K., Boersma, Kate S., Shanafield, Margaret, Kampf, Stephanie K., Mims, Meryl C., Bogan, Michael T., Ward, Adam S., Perez Rocha, Mariana, Godsey, Sarah E., Allen, George H., Blaszczak, Joanna R., Jones, C. Nathan, and Allen, Daniel C.
- Abstract
Rivers that cease to flow are globally prevalent. Although many epithets have been used for these rivers, a consensus on terminology has not yet been reached. Doing so would facilitate a marked increase in interdisciplinary interest as well as critical need for clear regulations. Here we reviewed literature from Web of Science database searches of 12 epithets to learn (Objective 1—O1) if epithet topics are consistent across Web of Science categories using latent Dirichlet allocation topic modeling. We also analyzed publication rates and topics over time to (O2) assess changes in epithet use. We compiled literature definitions to (O3) identify how epithets have been delineated and, lastly, suggest universal terms and definitions. We found a lack of consensus in epithet use between and among various fields. We also found that epithet usage has changed over time, as research focus has shifted from description to modeling. We conclude that multiple epithets are redundant. We offer specific definitions for three epithets (non-perennial, intermittent, and ephemeral) to guide consensus on epithet use. Limiting the number of epithets used in non-perennial river research can facilitate more effective communication among research fields and provide clear guidelines for writing regulatory documents.
- Published
- 2020
- Full Text
- View/download PDF
17. What’s in a Name? Patterns, Trends, and Suggestions for Defining Non-Perennial Rivers and Streams
- Author
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Biological Sciences, Busch, Michelle H., Costigan, Katie H., Fritz, Ken M., Datry, Thibault, Krabbenhoft, Corey A., Hammond, John C., Zimmer, Margaret A., Olden, Julian D., Burrows, Ryan M., Dodds, Walter K., Boersma, Kate S., Shanafield, Margaret, Kampf, Stephanie K., Mims, Meryl C., Bogan, Michael T., Ward, Adam S., Perez Rocha, Mariana, Godsey, Sarah E., Allen, George H., Blaszczak, Joanna R., Jones, C. Nathan, Allen, Daniel C., Biological Sciences, Busch, Michelle H., Costigan, Katie H., Fritz, Ken M., Datry, Thibault, Krabbenhoft, Corey A., Hammond, John C., Zimmer, Margaret A., Olden, Julian D., Burrows, Ryan M., Dodds, Walter K., Boersma, Kate S., Shanafield, Margaret, Kampf, Stephanie K., Mims, Meryl C., Bogan, Michael T., Ward, Adam S., Perez Rocha, Mariana, Godsey, Sarah E., Allen, George H., Blaszczak, Joanna R., Jones, C. Nathan, and Allen, Daniel C.
- Abstract
Rivers that cease to flow are globally prevalent. Although many epithets have been used for these rivers, a consensus on terminology has not yet been reached. Doing so would facilitate a marked increase in interdisciplinary interest as well as critical need for clear regulations. Here we reviewed literature from Web of Science database searches of 12 epithets to learn (Objective 1—O1) if epithet topics are consistent across Web of Science categories using latent Dirichlet allocation topic modeling. We also analyzed publication rates and topics over time to (O2) assess changes in epithet use. We compiled literature definitions to (O3) identify how epithets have been delineated and, lastly, suggest universal terms and definitions. We found a lack of consensus in epithet use between and among various fields. We also found that epithet usage has changed over time, as research focus has shifted from description to modeling. We conclude that multiple epithets are redundant. We offer specific definitions for three epithets (non-perennial, intermittent, and ephemeral) to guide consensus on epithet use. Limiting the number of epithets used in non-perennial river research can facilitate more effective communication among research fields and provide clear guidelines for writing regulatory documents.
- Published
- 2020
18. Zero or not? Causes and consequences of zero-flow stream gage readings
- Author
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Biological Sciences, Zimmer, Margaret A., Kaiser, Kendra E., Blaszczak, Joanna R., Zipper, Samuel C., Hammond, John C., Fritz, Ken M., Costigan, Katie H., Hosen, Jacob, Godsey, Sarah E., Allen, George H., Kampf, Stephanie K., Burrows, Ryan M., Krabbenhoft, Corey A., Dodds, Walter K., Hale, Rebecca, Olden, Julian D., Shanafield, Margaret, DelVecchia, Amanda G., Ward, Adam S., Mims, Meryl C., Datry, Thibault, Bogan, Michael T., Boersma, Kate S., Busch, Michelle H., Jones, C. Nathan, Burgin, Amy J., Allen, Daniel C., Biological Sciences, Zimmer, Margaret A., Kaiser, Kendra E., Blaszczak, Joanna R., Zipper, Samuel C., Hammond, John C., Fritz, Ken M., Costigan, Katie H., Hosen, Jacob, Godsey, Sarah E., Allen, George H., Kampf, Stephanie K., Burrows, Ryan M., Krabbenhoft, Corey A., Dodds, Walter K., Hale, Rebecca, Olden, Julian D., Shanafield, Margaret, DelVecchia, Amanda G., Ward, Adam S., Mims, Meryl C., Datry, Thibault, Bogan, Michael T., Boersma, Kate S., Busch, Michelle H., Jones, C. Nathan, Burgin, Amy J., and Allen, Daniel C.
- Abstract
Streamflow observations can be used to understand, predict, and contextualize hydrologic, ecological, and biogeochemical processes and conditions in streams. Stream gages are point measurements along rivers where streamflow is measured, and are often used to infer upstream watershed-scale processes. When stream gages read zero, this may indicate that the stream has dried at this location; however, zero-flow readings can also be caused by a wide range of other factors. Our ability to identify whether or not a zero-flow gage reading indicates a dry fluvial system has far reaching environmental implications. Incorrect identification and interpretation by the data user can lead to inaccurate hydrologic, ecological, and/or biogeochemical predictions from models and analyses. Here, we describe several causes of zero-flow gage readings: frozen surface water, flow reversals, instrument error, and natural or human-driven upstream source losses or bypass flow. For these examples, we discuss the implications of zero-flow interpretations. We also highlight additional methods for determining flow presence, including direct observations, statistical methods, and hydrologic models, which can be applied to interpret causes of zero-flow gage readings and implications for reach- and watershed-scale dynamics. Such efforts are necessary to improve our ability to understand and predict surface flow activation, cessation, and connectivity across river networks. Developing this integrated understanding of the wide range of possible meanings of zero-flows will only attain greater importance in a more variable and changing hydrologic climate. This article is categorized under: Science of Water > Methods Science of Water > Hydrological Processes Water and Life > Conservation, Management, and Awareness
- Published
- 2020
19. Spatial Patterns and Drivers of Nonperennial Flow Regimes in the Contiguous United States
- Author
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Hammond, John C., primary, Zimmer, Margaret, additional, Shanafield, Margaret, additional, Kaiser, Kendra, additional, Godsey, Sarah E., additional, Mims, Meryl C., additional, Zipper, Samuel C., additional, Burrows, Ryan M., additional, Kampf, Stephanie K., additional, Dodds, Walter, additional, Jones, C. Nathan, additional, Krabbenhoft, Corey A., additional, Boersma, Kate S., additional, Datry, Thibault, additional, Olden, Julian D., additional, Allen, George H., additional, Price, Adam N., additional, Costigan, Katie, additional, Hale, Rebecca, additional, Ward, Adam S., additional, and Allen, Daniel C., additional
- Published
- 2021
- Full Text
- View/download PDF
20. Citizen science data are a reliable complement to quantitative ecological assessments in urban rivers
- Author
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Krabbenhoft, Corey A., primary and Kashian, Donna R., additional
- Published
- 2020
- Full Text
- View/download PDF
21. Zero or not? Causes and consequences of zero‐flow stream gage readings
- Author
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Zimmer, Margaret A., primary, Kaiser, Kendra E., additional, Blaszczak, Joanna R., additional, Zipper, Samuel C., additional, Hammond, John C., additional, Fritz, Ken M., additional, Costigan, Katie H., additional, Hosen, Jacob, additional, Godsey, Sarah E., additional, Allen, George H., additional, Kampf, Stephanie, additional, Burrows, Ryan M., additional, Krabbenhoft, Corey A., additional, Dodds, Walter, additional, Hale, Rebecca, additional, Olden, Julian D., additional, Shanafield, Margaret, additional, DelVecchia, Amanda G., additional, Ward, Adam S., additional, Mims, Meryl C., additional, Datry, Thibault, additional, Bogan, Michael T., additional, Boersma, Kate S., additional, Busch, Michelle H., additional, Jones, C. Nathan, additional, Burgin, Amy J., additional, and Allen, Daniel C., additional
- Published
- 2020
- Full Text
- View/download PDF
22. Science Gets Up to Speed on Dry Rivers
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Shanafield, Margaret, primary, Godsey, Sarah, additional, Datry, Thibault, additional, Hale, Rebecca, additional, Zipper, Samuel, additional, Costigan, Katie, additional, Krabbenhoft, Corey, additional, Dodds, Walter, additional, Zimmer, Margaret, additional, Allen, Daniel, additional, Bogan, Michael, additional, Kaiser, Kendra, additional, Burrows, Ryan, additional, Hammond, John, additional, Busch, Michelle, additional, Kampf, Stephanie, additional, Mims, Meryl, additional, Burgin, Amy, additional, and Olden, Julian, additional
- Published
- 2020
- Full Text
- View/download PDF
23. Evaluation of an Educational Campaign to Improve the Conscious Consumption of Recreationally Caught Fish
- Author
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Krabbenhoft, Corey, primary, Manente, Susan, additional, and Kashian, Donna, additional
- Published
- 2019
- Full Text
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24. Otolith microchemistry and diadromy in Patagonian river fishes
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Alò, Dominique, primary, Correa, Cristian, additional, Samaniego, Horacio, additional, Krabbenhoft, Corey A., additional, and Turner, Thomas F., additional
- Published
- 2019
- Full Text
- View/download PDF
25. Improving the Conscious Consumption of Fish Through an Educational Campaign on the Detroit River (Michigan, USA)
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Krabbenhoft, Corey A., primary, Manente, Susan, additional, and Kashian, Donna R., additional
- Published
- 2018
- Full Text
- View/download PDF
26. Otolith microchemistry identifies diadromous populations of Patagonian river fishes
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Alò, Dominique, primary, Correa, Cristián, additional, Samaniego, Horacio, additional, Krabbenhoft, Corey A., additional, and Turner, Thomas F., additional
- Published
- 2017
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27. Direct and indirect effects of predatory young‐of‐year fishes in a dryland river food web
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Krabbenhoft, Corey A., primary, Burdett, Ayesha S., additional, and Turner, Thomas F., additional
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- 2017
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28. A quarter-century decline in walleye recruitment.
- Author
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Krabbenhoft, Corey A., Ludsin, Stuart A., Marschall, Elizabeth, Almeida, L. Zoe, Feiner, Zachary, Honsey, Andrew E., and Hansen, Gretchen J. A.
- Subjects
CLIMATE change - Abstract
Climate change and other anthropogenic stressors have been linked to walleye (Sandervitreus) recruitment declines. However, individual walleye populations can be expected to differentially respond to such stressors because their effects are mediated by local environmental context (e.g., lake size). To test the hypothesis that the relationship between walleye recruitment and climate varies with environmental context, we analyzed recruitment synchrony in long-term walleye datasets collected across this species' North American range. Walleye recruitment was highly variable during the 1980s through the early 1990s and has declined on average throughout its range since the late 1990s. Although recruitment variation was highest in the largest lakes, patterns of decline have largely been driven by populations in relatively small inland lakes. Lake surface area and geographic location explained the most variation in recruitment, but climate conditions were also important, with moderate growing degree days, moderate winter severity, and high spring warming rates being associated with high recruitment. Our work illustrates potential shifts in walleye population sustainability as environments continue to change, and highlights the utility of long-term datasets in guiding future management and conservation strategies. [ABSTRACT FROM AUTHOR]
- Published
- 2023
29. The United States Needs Sustainable River Policy Now.
- Author
-
Shanafield, Margaret, Godsey, Sarah, Datry, Thibault, Hale, Rebecca, Zipper, Samuel C., Costigan, Katie, Krabbenhoft, Corey A., Dodds, Walter K., Zimmer, Margaret, Allen, Daniel C., Bogan, Michael, Kaiser, Kendra E., Burrows, Ryan M., Hammond, John C., Busch, Michelle, Kampf, Stephanie, Mims, Meryl C., Burgin, Amy, and Olden, Julian D.
- Published
- 2020
30. The contribution of young-of-year fishes to aquatic food web dynamics in an arid-land river system (Rio Grande, New Mexico)
- Author
-
Turner, Thomas, Dahm, Clifford, Wolf, Blair, Krabbenhoft, Corey, Turner, Thomas, Dahm, Clifford, Wolf, Blair, and Krabbenhoft, Corey
- Subjects
- Food web
- Abstract
1. Larval fishes have a rich history in ichthyological research. However, relatively little attention has been given to the role of young-of-year (YOY) fishes in ecosystem processes. Despite difficulties of sampling and identifying these small fishes, YOY may serve an important role in the dynamics of some aquatic communities. The specific role of YOY fishes in aquatic, desert food webs remains largely uncharacterized. 2. We hypothesize that YOY fishes may control abundance and community composition of lower trophic levels (i.e., aquatic invertebrates) because they are numerically dominant predators during the growing season. The goal of this study is to determine the role of YOY fishes in aquatic food webs and the impact they have on trophic dynamics of dryland river food webs using the Rio Grande as an example. 3. A mesocosm experiment was designed to assess the effect of YOY fish predators on meio- and micro- faunal invertebrate prey density and diversity. We manipulated presence and absence of YOY fishes and leaf litter, and compared invertebrate diversity and abundance across an array of 24 stock tanks. 4. Data showed that YOY fishes significantly influence the composition of invertebrate communities, as does allochthonous carbon. Community composition varied among treatments both because fishes preferred some taxa over others and because of instances of avoidance by invertebrates. Stable isotope analyses (carbon and nitrogen) suggest important indirect effects on the behavior of invertebrates in fish-treated mesocosms. 5. Results suggest that YOY fishes play an important role in aquatic food web dynamics and that community composition of aquatic invertebrates is, in part, subject to direct and indirect changes induced by the presence of YOY fishes.
- Published
- 2012
31. The contribution of young-of-year fishes to aquatic food web dynamics in an arid-land river system (Rio Grande, New Mexico)
- Author
-
Krabbenhoft, Corey
- Subjects
- Food web, Stable isotopes, Rio Grande, Young-of-year, Invertebrate, Fish
- Abstract
1. Larval fishes have a rich history in ichthyological research. However, relatively little attention has been given to the role of young-of-year (YOY) fishes in ecosystem processes. Despite difficulties of sampling and identifying these small fishes, YOY may serve an important role in the dynamics of some aquatic communities. The specific role of YOY fishes in aquatic, desert food webs remains largely uncharacterized. 2. We hypothesize that YOY fishes may control abundance and community composition of lower trophic levels (i.e., aquatic invertebrates) because they are numerically dominant predators during the growing season. The goal of this study is to determine the role of YOY fishes in aquatic food webs and the impact they have on trophic dynamics of dryland river food webs using the Rio Grande as an example. 3. A mesocosm experiment was designed to assess the effect of YOY fish predators on meio- and micro- faunal invertebrate prey density and diversity. We manipulated presence and absence of YOY fishes and leaf litter, and compared invertebrate diversity and abundance across an array of 24 stock tanks. 4. Data showed that YOY fishes significantly influence the composition of invertebrate communities, as does allochthonous carbon. Community composition varied among treatments both because fishes preferred some taxa over others and because of instances of avoidance by invertebrates. Stable isotope analyses (carbon and nitrogen) suggest important indirect effects on the behavior of invertebrates in fish-treated mesocosms. 5. Results suggest that YOY fishes play an important role in aquatic food web dynamics and that community composition of aquatic invertebrates is, in part, subject to direct and indirect changes induced by the presence of YOY fishes.
- Published
- 2012
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