Robert Mollenhauer, PhD (Former Employee)
Science and Products
Filter Total Items: 20
Relationships between landscape constraints and a crayfish assemblage with consideration of competitor presence Relationships between landscape constraints and a crayfish assemblage with consideration of competitor presence
Aim Crayfish are globally diverse and one of the most important taxa in North American streams. Despite their importance, many species are of conservation concern and efforts to improve conditions are limited. Here, we address two major impediments to improving conditions: (a) our lack of knowledge of the interplay among natural landscape and human-induced changes; and (b) a very limited
Authors
J.B. Mouser, Robert Mollenhauer, Shannon K. Brewer
Efficiency of sampling sunfishes using snorkeling in clear, warmwater streams of the south-central United States Efficiency of sampling sunfishes using snorkeling in clear, warmwater streams of the south-central United States
The continued evaluation of fish-sampling gears and methods is essential to identify their applicability across environmental conditions and among species. Although limited by visibility, snorkeling has potential advantages relative to other fish-sampling gears in wadeable streams (e.g., minimally intrusive, cost effective, and appropriate in deeper areas). Clear water is common to warm...
Authors
Robert Mollenhauer, Shannon K. Brewer
Groundwater flux estimation in streams: A thermal equilibrium approach Groundwater flux estimation in streams: A thermal equilibrium approach
Stream and groundwater interactions play an essential role in regulating flow, temperature, and water quality for stream ecosystems. Temperature gradients have been used to quantify vertical water movement in the streambed since the 1960s, but advancements in thermal methods are still possible. Seepage runs are a method commonly used to quantify exchange rates through a series of...
Authors
Yan Zhou, Garey A. Fox, Ron B. Miller, Robert Mollenhauer, Shannon K. Brewer
Synthesizing models useful for ecohydrology and ecohydraulic approaches: An emphasis on integrating models to address complex research questions Synthesizing models useful for ecohydrology and ecohydraulic approaches: An emphasis on integrating models to address complex research questions
Ecohydrology combines empiricism, data analytics, and the integration of models to characterize linkages between ecological and hydrological processes. A challenge for practitioners is determining which models best generalizes heterogeneity in hydrological behaviour, including water fluxes across spatial and temporal scales, integrating environmental and socio‐economic activities to...
Authors
Shannon K. Brewer, Thomas Worthington, Robert Mollenhauer, David Stewart, Ryan McManamay, Lucie Guertault, Desiree Moore
Sampling the stream landscape: Improving the applicability of an ecoregion-level capture probability model for stream fishes Sampling the stream landscape: Improving the applicability of an ecoregion-level capture probability model for stream fishes
Temporal and spatial variability in streams result in heterogeneous gear capture probability (i.e., the proportion of available individuals identified) that confounds interpretation of data used to monitor fish abundance. We modeled tow-barge electrofishing capture probability at multiple spatial scales for nine Ozark Highland stream fishes. In addition to fish size, we identified seven...
Authors
Robert Mollenhauer, Joshua B. Mouser, Shannon K. Brewer
Quantifying seining detection probability for fishes of Great Plains sand‐bed rivers Quantifying seining detection probability for fishes of Great Plains sand‐bed rivers
Species detection error (i.e., imperfect and variable detection probability) is an essential consideration when investigators map distributions and interpret habitat associations. When fish detection error that is due to highly variable instream environments needs to be addressed, sand‐bed streams of the Great Plains represent a unique challenge. We quantified seining detection...
Authors
Robert Mollenhauer, Daniel R. Logue, Shannon K. Brewer
Multinomial N-mixture models improve the applicability of electrofishing for developing population estimates of stream-dwelling Smallmouth Bass Multinomial N-mixture models improve the applicability of electrofishing for developing population estimates of stream-dwelling Smallmouth Bass
Failure to account for variable detection across survey conditions constrains progressive stream ecology and can lead to erroneous stream fish management and conservation decisions. In addition to variable detection’s confounding long-term stream fish population trends, reliable abundance estimates across a wide range of survey conditions are fundamental to establishing species...
Authors
Robert Mollenhauer, Shannon K. Brewer
Advancing environmental flow science: Developing frameworks for altered landscapes and integrating efforts across disciplines. Advancing environmental flow science: Developing frameworks for altered landscapes and integrating efforts across disciplines.
Environmental flows represent a legal mechanism to balance existing and future water uses and sustain non-use values. Here, we identify current challenges, provide examples where they are important, and suggest research advances that would benefit environmental flow science. Specifically, environmental flow science would benefit by (1) developing approaches to address streamflow needs in...
Authors
Shannon K. Brewer, Ryan A. McManamay, Andrew D. Miller, Robert Mollenhauer, Thomas A. Worthington, Tom Arsuffi
Science and Products
Filter Total Items: 20
Relationships between landscape constraints and a crayfish assemblage with consideration of competitor presence Relationships between landscape constraints and a crayfish assemblage with consideration of competitor presence
Aim Crayfish are globally diverse and one of the most important taxa in North American streams. Despite their importance, many species are of conservation concern and efforts to improve conditions are limited. Here, we address two major impediments to improving conditions: (a) our lack of knowledge of the interplay among natural landscape and human-induced changes; and (b) a very limited
Authors
J.B. Mouser, Robert Mollenhauer, Shannon K. Brewer
Efficiency of sampling sunfishes using snorkeling in clear, warmwater streams of the south-central United States Efficiency of sampling sunfishes using snorkeling in clear, warmwater streams of the south-central United States
The continued evaluation of fish-sampling gears and methods is essential to identify their applicability across environmental conditions and among species. Although limited by visibility, snorkeling has potential advantages relative to other fish-sampling gears in wadeable streams (e.g., minimally intrusive, cost effective, and appropriate in deeper areas). Clear water is common to warm...
Authors
Robert Mollenhauer, Shannon K. Brewer
Groundwater flux estimation in streams: A thermal equilibrium approach Groundwater flux estimation in streams: A thermal equilibrium approach
Stream and groundwater interactions play an essential role in regulating flow, temperature, and water quality for stream ecosystems. Temperature gradients have been used to quantify vertical water movement in the streambed since the 1960s, but advancements in thermal methods are still possible. Seepage runs are a method commonly used to quantify exchange rates through a series of...
Authors
Yan Zhou, Garey A. Fox, Ron B. Miller, Robert Mollenhauer, Shannon K. Brewer
Synthesizing models useful for ecohydrology and ecohydraulic approaches: An emphasis on integrating models to address complex research questions Synthesizing models useful for ecohydrology and ecohydraulic approaches: An emphasis on integrating models to address complex research questions
Ecohydrology combines empiricism, data analytics, and the integration of models to characterize linkages between ecological and hydrological processes. A challenge for practitioners is determining which models best generalizes heterogeneity in hydrological behaviour, including water fluxes across spatial and temporal scales, integrating environmental and socio‐economic activities to...
Authors
Shannon K. Brewer, Thomas Worthington, Robert Mollenhauer, David Stewart, Ryan McManamay, Lucie Guertault, Desiree Moore
Sampling the stream landscape: Improving the applicability of an ecoregion-level capture probability model for stream fishes Sampling the stream landscape: Improving the applicability of an ecoregion-level capture probability model for stream fishes
Temporal and spatial variability in streams result in heterogeneous gear capture probability (i.e., the proportion of available individuals identified) that confounds interpretation of data used to monitor fish abundance. We modeled tow-barge electrofishing capture probability at multiple spatial scales for nine Ozark Highland stream fishes. In addition to fish size, we identified seven...
Authors
Robert Mollenhauer, Joshua B. Mouser, Shannon K. Brewer
Quantifying seining detection probability for fishes of Great Plains sand‐bed rivers Quantifying seining detection probability for fishes of Great Plains sand‐bed rivers
Species detection error (i.e., imperfect and variable detection probability) is an essential consideration when investigators map distributions and interpret habitat associations. When fish detection error that is due to highly variable instream environments needs to be addressed, sand‐bed streams of the Great Plains represent a unique challenge. We quantified seining detection...
Authors
Robert Mollenhauer, Daniel R. Logue, Shannon K. Brewer
Multinomial N-mixture models improve the applicability of electrofishing for developing population estimates of stream-dwelling Smallmouth Bass Multinomial N-mixture models improve the applicability of electrofishing for developing population estimates of stream-dwelling Smallmouth Bass
Failure to account for variable detection across survey conditions constrains progressive stream ecology and can lead to erroneous stream fish management and conservation decisions. In addition to variable detection’s confounding long-term stream fish population trends, reliable abundance estimates across a wide range of survey conditions are fundamental to establishing species...
Authors
Robert Mollenhauer, Shannon K. Brewer
Advancing environmental flow science: Developing frameworks for altered landscapes and integrating efforts across disciplines. Advancing environmental flow science: Developing frameworks for altered landscapes and integrating efforts across disciplines.
Environmental flows represent a legal mechanism to balance existing and future water uses and sustain non-use values. Here, we identify current challenges, provide examples where they are important, and suggest research advances that would benefit environmental flow science. Specifically, environmental flow science would benefit by (1) developing approaches to address streamflow needs in...
Authors
Shannon K. Brewer, Ryan A. McManamay, Andrew D. Miller, Robert Mollenhauer, Thomas A. Worthington, Tom Arsuffi