Kaelin M. Cawley
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View article: Too much and not enough data: Challenges and solutions for generating information in freshwater research and monitoring
Too much and not enough data: Challenges and solutions for generating information in freshwater research and monitoring Open
Evaluating progress toward achieving freshwater conservation and sustainability goals requires transforming diverse types of data into useful information for scientists, managers, and other interest groups. Despite substantial increases in…
View article: Gas transfer velocity (k600) increases with discharge in steep streams but not in low‐slope streams
Gas transfer velocity (k600) increases with discharge in steep streams but not in low‐slope streams Open
Gas transfer velocity () controls gas fluxes between aquatic ecosystems and the atmosphere. In streams, is controlled by turbulence and, thus, local hydrology and geomorphology. Resultantly, variability in can be large and modeling from ph…
View article: Gas exchange velocities ( <i>k</i> <sub>600</sub> ), gas exchange rates ( <i>K</i> <sub>600</sub> ), and hydraulic geometries for streams and rivers derived from the NEON Reaeration field and lab collection data product (DP1.20190.001)
Gas exchange velocities ( <i>k</i> <sub>600</sub> ), gas exchange rates ( <i>K</i> <sub>600</sub> ), and hydraulic geometries for streams and rivers derived from the NEON Reaeration field and lab collection data product (DP1.20190.001) Open
Air–water gas exchange is essential to understanding and quantifying many biogeochemical processes in streams and rivers, including greenhouse gas emissions and metabolism. Gas exchange depends on two factors, which are often quantified se…
View article: Gas exchange velocities (k <sub>600</sub> ), gas exchange rates (K <sub>600</sub> ), and hydraulic geometries for streams and rivers derived from the NEON Reaeration field and lab collection data product (DP1.20190.001)
Gas exchange velocities (k <sub>600</sub> ), gas exchange rates (K <sub>600</sub> ), and hydraulic geometries for streams and rivers derived from the NEON Reaeration field and lab collection data product (DP1.20190.001) Open
Air-water gas exchange is essential to understanding and quantifying many biogeochemical processes in streams and rivers, including greenhouse gas emissions and metabolism. Gas exchange depends on two factors, which are often quantified se…
View article: Examining the Impact of Stream Permanence on Headwater Stream Carbon Emissions&#160;
Examining the Impact of Stream Permanence on Headwater Stream Carbon Emissions  Open
Quantifying headwater stream carbon emissions is important for our understanding of the global carbon cycle because these emissions (an estimated 0.93-1.15 Pg C year) can be substantial compared to the terrestrial flux. Headwater stream ne…
View article: Seasonality Drives Carbon Emissions Along a Stream Network
Seasonality Drives Carbon Emissions Along a Stream Network Open
Headwater stream networks contribute substantially to the global carbon dioxide terrestrial flux because of high turbulence and coupling with terrestrial environments. Heterogeneity within headwater stream networks, both spatially and temp…
View article: Identification of next-generation International Humic Substances Society reference materials for advancing the understanding of the role of natural organic matter in the Anthropocene
Identification of next-generation International Humic Substances Society reference materials for advancing the understanding of the role of natural organic matter in the Anthropocene Open
Many challenges remain before we can fully understand the multifaceted role that natural organic matter (NOM) plays in soil and aquatic systems. These challenges remain despite the considerable progress that has been made in understanding …
View article: Hacking Limnology Workshop and <scp>DSOS22</scp>: Creating a Community of Practice for the Nexus of Data Science, Open Science, and the Aquatic Sciences
Hacking Limnology Workshop and <span>DSOS22</span>: Creating a Community of Practice for the Nexus of Data Science, Open Science, and the Aquatic Sciences Open
The 2nd Aquatic Ecosystem Modeling-Junior (AEMON-J) Hacking Limnology Workshop and 3rd Virtual Summit: Incorporating Data Science and Open Science in the Aquatic Sciences (DSOS) took place on 25–29 July 2022. These virtual events were deve…
View article: A process approach to quality management doubles <scp>NEON</scp> sensor data quality
A process approach to quality management doubles <span>NEON</span> sensor data quality Open
A quality management system is critical for ensuring that the data and services provided by an organization meet the needs of its mission. With a mission to collect long‐term open‐access ecological data to better understand how US ecosyste…
View article: Reimagine fire science for the anthropocene
Reimagine fire science for the anthropocene Open
Fire is an integral component of ecosystems globally and a tool that humans have harnessed for millennia. Altered fire regimes are a fundamental cause and consequence of global change, impacting people and the biophysical systems on which …
View article: Using large, open datasets to understand spatial and temporal patterns in lotic ecosystems: <scp>NEON</scp> case studies
Using large, open datasets to understand spatial and temporal patterns in lotic ecosystems: <span>NEON</span> case studies Open
Leveraging big, open data is the next frontier in ecology. The National Ecological Observatory Network (NEON) is a network of monitoring sites collecting ecological data from across the United States. Using a case study approach, we provid…
View article: The <scp>AEMON‐J</scp> “Hacking Limnology” Workshop Series & Virtual Summit: Incorporating Data Science and Open Science in Aquatic Research
The <span>AEMON‐J</span> “Hacking Limnology” Workshop Series & Virtual Summit: Incorporating Data Science and Open Science in Aquatic Research Open
Following the 2020 “Virtual Summit: Incorporating Data Science and Open Science in Aquatic Research” (DSOS; Meyer and Zwart 2020), a grassroots group of scientists convened the 2nd Virtual DSOS Summit on 22–23 July 2021. DSOS combined forc…
View article: A comparison of water quality sensor deployment designs in wadeable streams
A comparison of water quality sensor deployment designs in wadeable streams Open
The design of infrastructure used for deploying water quality sensors can potentially impact data quality. Despite this, sensor infrastructure design has not been well discussed in the peer‐reviewed literature. Here, we present side‐by‐sid…
View article: AEMON-J/DSOS Archive: "Hacking Limnology" Workshop + Virtual Summit in Data Science & Open Science in Aquatic Research
AEMON-J/DSOS Archive: "Hacking Limnology" Workshop + Virtual Summit in Data Science & Open Science in Aquatic Research Open
This OSF project is meant to serve as a long-term storage repository for presentations and workshop materials for the Aquatic Ecosystem Modeling-Junior (AEMON-J) and Virtual Summit: Incorporating Data Science and Open Science (DSOS) commun…
View article: Linking Hydrology and Dissolved Organic Matter Characteristics in a Subtropical Wetland: A Long‐Term Study of the Florida Everglades
Linking Hydrology and Dissolved Organic Matter Characteristics in a Subtropical Wetland: A Long‐Term Study of the Florida Everglades Open
Dissolved organic matter (DOM) acts as an important biogeochemical component of aquatic ecosystems that controls nutrient cycling, influences water quality, and links terrestrial and oceanic carbon pools, yet long‐term studies of how chang…
View article: Comparison of Microbial Communities in the Sediments and Water Columns of Frozen Cryoconite Holes in the McMurdo Dry Valleys, Antarctica
Comparison of Microbial Communities in the Sediments and Water Columns of Frozen Cryoconite Holes in the McMurdo Dry Valleys, Antarctica Open
Although cryoconite holes, sediment-filled melt holes on glacier surfaces, appear small and homogenous, their microbial inhabitants may be spatially partitioned. This partitioning could be particularly important for maintaining biodiversit…
View article: The National Ecological Observatory Network: Creating stage-discharge rating curves by combining physical channel inputs with probabilistic modeling techniques
The National Ecological Observatory Network: Creating stage-discharge rating curves by combining physical channel inputs with probabilistic modeling techniques Open
A detailed characterization of channel geometry is a critical component in developing stage-discharge rating curves that can enhance the forecasting of hydrologic events. The National Ecological Observatory Network (NEON) collects physical…
View article: Molecular characterization of dissolved organic matter from subtropical wetlands: a comparative study through the analysis of optical properties, NMR and FTICR/MS
Molecular characterization of dissolved organic matter from subtropical wetlands: a comparative study through the analysis of optical properties, NMR and FTICR/MS Open
Wetlands provide quintessential ecosystem services such as maintenance of water quality, water supply and biodiversity, among others; however, wetlands are also among the most threatened ecosystems worldwide. Natural dissolved organic matt…