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1. Impacts of Vegetation Removal on Urban Mediterranean Stream Hydrology and Hydraulics

   https://doi.org/10.3390/hydrology9100170  

   Eckermann, Trevor K.; Hunt, Danielle S.; Kinoshita, Alicia M. (October 2022, Hydrology)

   Given the widespread presence of non-native vegetation in urban and Mediterranean watersheds, it is important to evaluate how these sensitive ecosystems will respond to activities to manage and restore native vegetation conditions. This research focuses on Del Cerro, a tributary of the San Diego River in California, where non-native vegetation dominates the riparian zone, creating flooding and fire hazards. Field data were collected in 2018 to 2021 and consisted of water depth, streamflow, and stream temperature. Our data set also captured baseline conditions in the floodplain before and after the removal of burned non-native vegetation in November 2020. Observed changes in hydrologic and geomorphic conditions were used to parameterize and calibrate a two-dimensional hydraulic model to simulate urban floodplain hydraulics after vegetation removal. We utilized the U.S. Army Corps of Engineers’ Hydrologic Engineering Center River Assessment System (HEC-RAS) model to simulate the influence of canopy loss and vegetation disturbance and to assess the impacts of vegetation removal on stream restoration. We simulated streamflow, water depth, and flood extent for two scenarios: (1) 2019; pre-restoration where non-native vegetation dominated the riparian area, and (2) 2021; post-restoration following the removal of non-native vegetation and canopy. Flooding after restoration in 2021 was more frequent compared to 2019. We also observed similar flood extents and peak streamflow for storm events that accumulated half the amount of precipitation as pre-restoration conditions. Our results provide insight into the responses of small urban stream reaches to the removal of invasive vegetation and canopy cover. 

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2. Grass versus trees: A proxy debate for deeper anxieties about competing stream worlds

   https://doi.org/10.1177/25148486231210408  

   Gottschalk Druschke, Caroline; Booth, Eric G.; Lave, Rebecca; Widell, Sydney; Lundberg, Emma; Sellers, Ben; Stork, Paige (November 2023, Environment and Planning E: Nature and Space)

   Stream restoration has become an increasingly important focus in southwestern Wisconsin's Driftless Area, an unglaciated, hilly pocket of the Upper Mississippi River Basin rich in groundwater-driven coldwater streams, recreationally important trout species, and agricultural communities. Climate change is driving a major increase in precipitation and flooding across this rural and often under-resourced region, effects complicated by the ongoing legacies of white settlement and the changes it wrought to area streams, including the burial of floodplains in sediment displaced off area hillslopes. As managers work to consider how to “restore” Driftless streams, riparian vegetation—grass versus trees—has become a central and surprisingly controversial node. Current stream restoration practice typically includes the removal of riparian trees, though that practice has come under increasing criticism. Grounded in more than 5 years of qualitative and biophysical fieldwork in the region, we build from interviews gathered with 18 Driftless Area stream restoration managers from 2018 to 2020 to point to the ways that managers leverage arguments about erosion, flooding, habitat, and angler access, among other things, in service of grass and trees. Indexing the surface flows and underflows of this restoration debate, we introduce the rhetorical concept of the proxy debate to argue that debates about grass versus trees are tethered to competing perspectives on scale, temporality, and dynamism, surficial distractions from much deeper anxieties about what a stream is and should be. We turn to the ways that these distractions serve to further distance the stream restoration enterprise from acknowledging the ongoing human and hydrologic legacies of settler colonialism, and we close by suggesting that careful attention to rhetorical power—both to what arguments say and do, and to what they elide—offers a tentative first step toward restoring lands and relations by questioning what is taken for granted and what lies beneath. 

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3. Abstract 1094 Validation of Biomolecular Visualization Assessments through Large Scale Field Testing and Student Focus Groups

   https://doi.org/10.1016/j.jbc.2024.105896  

   Beckham, Josh; Mertz, Pamela; Acevedo, Roderico; Burch, Charmita; Mitton-Fry, Rachel; Austin, Shane; Fox, Kristin; Agrawal, Swati; Procko, Kristen “KP” (March 2024, Journal of Biological Chemistry)

   A brief glance through molecular biology and biochemistry textbooks underscores the importance of interpreting visual images in the molecular life sciences. In fact, biomolecular visual literacy has been deemed a threshold concept, essential for student success in the field. As one example, grasping the information displayed in visual representations is a gateway to a deep understanding of structure-function relationships, a core concept in biology education. Despite much interest, few studies have examined the assessment of visual literacy skills in the area of biomolecules. Ten years ago, BioMolViz began an initiative to improve biomolecular visualization instruction and assessment, which focused on developing validated assessments to probe students' visual literacy skills. In 2023, we introduced the BioMolViz Library, a repository where instructors can access the instruments built by our community. A subset of these assessments were administered in classrooms in a pilot field test during the 2022–2023 academic year. We gained invaluable information from both quantitative and qualitative data collected. Lessons learned from this first classroom test guided the design of the 2023–2024 large-scale field testing we describe here with over ten partner institutions, high enrollment classes, and an increased number of items per survey. We present the results of our analysis of item difficulty, discrimination, and distractor analysis, alongside a robust analysis of the influence of gender and race/ethnicity on student performance. To improve the statistical power of the study, we exchanged open-ended written feedback for an increased number of assessment items administered on each survey. However, recognizing the value of student feedback obtained through a mixed methods analysis from our 2022–2023 study, we followed up with focus groups to explore the perceptions and problem solving process of both low- and high-performing students. We present the results of our assessment validation, including an analysis of the influence of learner level, gender identity, and race/ethnicity on performance. We include suggestions for equitable and inclusive assessment methods as we continue to strive to improve visual literacy instruction. This material is supported by the National Science Foundation (NSF) under grants RCN-UBE #1920270 and NSF-IUSE #1712268. 

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4. Seeing the light: high temporal frequency (5-10min resolution) measurements of dissolved oxygen, photosynthetically active radiation, temperature, and depth used to estimate metabolism in restored and unrestored Baltimore streams.

   https://doi.org/10.6073/pasta/2a230f0c3dba1cf7a3cd1af2c3fb7a3b  

   Reisinger, Alexander J; Groffman, Peter M; Rosi, Emma J (January 2019, Environmental Data Initiative)

   The continually increasing global population residing in urban landscapes impacts numerous ecosystem functions and services provided by urban streams. Urban stream restoration is often employed to offset these impacts and conserve or enhance the various functions and services these streams provide. Despite the assumption that ‘if you build it, [the function] will come’, current understanding of the effects of urban stream restoration on stream ecosystem functions are based on short term studies which may not capture variation in restoration effectiveness over time. We quantified the impact of stream restoration on nutrient and energy dynamics of urban streams by studying 10 urban stream reaches (five restored, five unrestored) in the Baltimore, Maryland, USA, region over a two-year period. We measured gross primary production (GPP) and ecosystem respiration (ER) at the whole-stream scale continuously throughout the study and nitrate (NO3-N) spiraling rates seasonally (spring, summer, autumn) across all reaches. There was no significant restoration effect on NO3-N spiraling across reaches. However, there was a significant canopy cover effect on NO3-N spiraling, and directly comparing paired sets of unrestored-restored reaches showed that restoration does affect NO3-N spiraling after accounting for other environmental variation. Furthermore, there was a change in GPP:ER seasonality, with restored and open-canopied reaches exhibiting higher GPP:ER during summer. The restoration effect, though, appears contingent upon altered canopy cover, which is likely to be a temporary effect of restoration and is a driver of multiple ecosystem services, e.g., habitat, riparian nutrient processing. Our results suggest that decision-making about stream restoration, including evaluations of nutrient benefits, clearly needs to consider spatial and temporal dynamics of canopy cover and tradeoffs among multiple ecosystem services. Here we provide the raw dissolved oxygen, temperature, light, depth, and discharge data used to estimate whole-stream metabolism from 10 sites throughout the greater Baltimore area. These estimates are included in the manuscript “Seeing the light: Urban stream restoration affects stream metabolism and nitrate uptake via changes in canopy cover” by A.J. Reisinger, T.R. Doody, P.M. Groffman, S.S. Kaushal, and Emma J. Rosi, which is currently accepted for publication in Ecological applications. 

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5. A hybrid model for post-earthquake performance assessments in challenging contexts

   https://doi.org/10.1007/s10518-024-01927-8  

   Kijewski-Correa, Tracy; Canales, Eric; Hamburger, Rachel; Lochhead, Meredith; Mbabazi, Angelique; Presuma, Lamarre (May 2024, Bulletin of Earthquake Engineering)

   Abstract Disasters provide an invaluable opportunity to evaluate contemporary design standards and construction practices; these evaluations have historically relied upon experts, which inherently limited the speed, scope and coverage of post-disaster reconnaissance. However, hybrid assessments that localize data collection and engage remote expertise offer a promising alternative, particularly in challenging contexts. This paper describes a multi-phase hybrid assessment conducting rapid assessments with wide coverage followed by detailed assessments of specific building subclasses following the 2021 M7.2 earthquake in Haiti, where security issues limited international participation. The rapid assessment classified and assigned global damage ratings to over 12,500 buildings using over 40 non-expert local data collectors to feed imagery to dozens of remote engineers. A detailed assessment protocol then conducted component-level evaluations of over 200 homes employing enhanced vernacular construction, identified via machine learning from nearly 40,000 acquired images. A second mobile application guided local data collectors through a systematic forensic documentation of 30 of these homes, providing remote engineers with essential implementation details. In total, this hybrid assessment underscored that performance in the 2021 earthquake fundamentally depended upon the type and consistency of the bracing scheme. The developed assessment tools and mobile apps have been shared as a demonstration of how a hybrid approach can be used for rapid and detailed assessments following major earthquakes in challenging contexts. More importantly, the open datasets generated continue to inform efforts to promote greater use of enhanced vernacular architecture as a multi-hazard resilient typology that can deliver life-safety in low-income countries. 

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