Article
Marine & Freshwater Biology
Jason R. Neuswanger, Erik R. Schoen, Mark S. Wipfli, Carol J. Volk, James W. Savereide
Summary: Invertebrate drift is a crucial process for controlling the distribution of aquatic invertebrates and their availability as prey for fish in riverine ecosystems. However, accurately quantifying drifting invertebrates of all sizes is challenging due to the clogging of fine-mesh nets. To address this issue, a gas-powered pump system was developed to sample drifting invertebrates using nested nets. The results showed that the pump system yielded higher concentrations of drifting invertebrates, especially small ones, compared to the conventional drift net method.
Article
Environmental Sciences
Jenni Velichka, Karen A. Kidd, Kelly Munkittrick, Meera Shanmuganathan, Philip Britz-McKibbin, R. Allen Curry
Summary: Damming of a river can alter the accumulation of sediment-bound elements, food web dynamics, and the chemical composition of fish. This study found that the dam altered the uptake of contaminants and nutrients by fish, indicating the importance of location and species when considering the risks and benefits of consuming wild fish from an impacted system.
ENVIRONMENTAL POLLUTION
(2023)
Article
Computer Science, Interdisciplinary Applications
A. A. G. Tefs, T. A. Stadnyk, K. A. Koenig, S. J. Dery, M. K. MacDonald, P. Slota, J. Crawford, M. Hamilton
Summary: This study develops a novel reservoir regulation routine, incorporated into a continental-scale hydrologic model, to improve reservoir regulation performance. By implementing daily timestep regulation routine, improvements were made in simulation skill, enhancing the model's performance in reservoir regulation.
ENVIRONMENTAL MODELLING & SOFTWARE
(2021)
Article
Environmental Sciences
Calin Latiu, Tudor Papuc, George Muntean, Paul Uiuiu, Radu Constantinescu, Maria-Catalina Matei-Latiu, Alexandru-Sabin Nicula, Cristina Craioveanu, Vioara Miresan, Daniel Cocan
Summary: This study analyzed the impact of cascade dam constructions on fish species composition, distribution, and diversity in Somesul Cald River, Romania. The Beta diversity showed no significant differences between T1 and T2, while Alpha diversity was higher in T2 section. Environmental variables influenced the distribution of some fish species.
FRONTIERS IN ENVIRONMENTAL SCIENCE
(2022)
Review
Geosciences, Multidisciplinary
Remi Loire, Herve Piegay, Jean-Rene Malavoi, G. Mathias Kondolf, Leah A. Beche
Summary: Flushing flows, also known as morphogenic releases, are high-flow releases that mimic floods to remove fine sediment from downstream aquatic habitats. These releases can lead to biophysical changes in channel characteristics to improve aquatic and riparian habitats, but implementing them may face challenges and require practical solutions based on local conditions and stakeholder interests.
EARTH-SCIENCE REVIEWS
(2021)
Article
Ecology
Gilberto N. Salvador, Luciano F. A. Montag, Robert M. Hughes, Sara M. Almeida, Bruno S. Prudente, Tiago C. Pessali, Tobias A. Barroso, Marcus Cianciaruso, Raphael Ligeiro, Leandro Juen, Marcos B. Carlucci
Summary: The Mariana disaster had a significant impact on the Rio Doce in southeastern Brazil, leading to channel siltation, increased turbidity, riparian damage, and a massive fish kill. This study analyzed the effects of a run-of-the-river hydroelectric dam construction and the rupture of a tailings storage facility on native and non-native fish populations in the middle Rio Doce. The results showed increased non-native fish abundances after the tailings storage facility rupture and changes in fish assemblage composition after both the dam construction and the rupture.
FRESHWATER BIOLOGY
(2022)
Article
Environmental Sciences
Ana Raquel Calapez, Sonia R. Q. Serra, Rui Rivaes, Francisca C. Aguiar, Maria Joao Feio
Summary: The study found distinct differences in taxonomic structure and trait composition of macroinvertebrate assemblages between regulated and unregulated flow sites, with the differences being more evident between different mesohabitats. Flow regulation effects were mainly detected in run-type mesohabitats, suggesting a selective macroinvertebrate assessment in these habitats would be valuable in detecting the impact of regulated flows on ecosystems impaired by dams. Additionally, respiration and locomotion traits were identified as potentially effective tools for identifying damming flow alterations.
SCIENCE OF THE TOTAL ENVIRONMENT
(2021)
Article
Ecology
Erin F. Abernethy, Jeffrey D. Muehlbauer, Theodore A. Kennedy, Jonathan D. Tonkin, Richard Van Driesche, David A. Lytle
Summary: The management of hydropower dams has a significant impact on the biodiversity of aquatic invertebrates downstream, leading to a decrease in species diversity and limiting the abundance and biomass of certain insect and sensitive groups. The presence of hydropeaking can support high abundances of aquatic invertebrates in tailwaters, but the overall diversity of these communities is low.
Article
Environmental Sciences
Jeongwoo Hwang, Hemant Kumar, Albert Ruhi, Arumugam Sankarasubramanian, Naresh Devineni
Summary: Dams have a significant impact on the frequencies of natural streamflow in highly regulated river networks, leading to changes in river flow regimes with varying trends along different sections of the river.
WATER RESOURCES RESEARCH
(2021)
Article
Multidisciplinary Sciences
David C. Mahan, Joel T. Betts, Eric Nord, Fred Van Dyke, Jessica M. Outcalt
Summary: Dam removal is an important method for stream restoration, but the effects of removal on stream ecosystems are still not well understood. This study in the Boardman River in Michigan, USA, showed that removal of the Brown Bridge Dam led to changes in macroinvertebrate communities, with downstream recovery of sensitive taxa and unique community composition in new channel sites. Long-term monitoring after dam removal is crucial to understand and mitigate potential impacts on invasive species colonization.
Article
Engineering, Environmental
J. C. White, R. Fornaroli, M. J. Hill, D. M. Hannah, A. House, I Colley, M. Perkins, P. J. Wood
Summary: Groundwater and surface water management operations globally have transformed river flow regimes, impacting freshwater ecosystems. However, most relationships between flow alterations and ecology were not statistically significant. Some aquatic invertebrate communities displayed relative declines in response to severe groundwater abstraction and artificial hydrological inputs, with the strongest flow-ecology relationships recorded during spring months.
Article
Environmental Sciences
Hossein Hamidifar, Farzaneh Akbari, Pawel M. Rowinski
Summary: This study investigates the impact of constructing a hydroelectric dam on the natural flow regime and environmental conditions of the Kor River in Iran. The research uses various methods to determine the environmental water requirement of the river and introduces indices to evaluate the allocation of environmental flow in anthropogenic rivers. The results show a deficiency in the allocation of environmental water requirement after the dam construction, leading to the disruption of the river's ecological balance and habitat state.
Article
Environmental Sciences
Carolina R. C. Doria, Jynessa Dutka-Gianelli, Mariluce Paes de Souza, Kai Lorenzen, Simone Athayde
Summary: Hydroelectric dams have significant impacts on freshwater fisheries, with changes in river hydrology and fish ecology playing a major role. Stakeholders perceive that governance arrangements for fisheries have weakened in the face of hydropower development, leading to insufficient mitigation of negative impacts on fisheries. Perspectives on the implications of governance arrangements and the impact of hydropower development vary among stakeholder groups.
FRONTIERS IN ENVIRONMENTAL SCIENCE
(2021)
Review
Geosciences, Multidisciplinary
Huayong Chen, Hechun Ruan, Jiangang Chen, Xiao Li, Yunhan Yu
Summary: The research on the hazard chain triggered by debris flows in the Tibetan Plateau is still in its early stages, with fragmented studies among different types of hazards. The understanding of the mechanism of debris flow blocking the river is insufficient, and existing models have limited applicability. Several key scientific issues are raised, including the need for accurate discriminant and numerical models of debris flow blocking the river, further study on the failure mechanism of debris-flow dams, and the development of a comprehensive risk assessment system for the hazard chain.
FRONTIERS IN EARTH SCIENCE
(2022)
Article
Geosciences, Multidisciplinary
Qinghe Zhao, Zhendong Hong, Yaru Jing, Mengwen Lu, Zihan Geng, Pengwei Qiu, Peng Wang, Xunling Lu, Shengyan Ding
Summary: Sediment regulation through dam operations is effective for addressing reservoir siltation and downstream channel incision, but it may lead to higher nutrient transformation.
Article
Environmental Sciences
Sonja C. Jaehnig, Viktor Baranov, Florian Altermatt, Peter Cranston, Martin Friedrichs-Manthey, Juergen Geist, Fengzhi He, Jani Heino, Daniel Hering, Franz Hoelker, Jonas Jourdan, Gregor Kalinkat, Jens Kiesel, Florian Leese, Alain Maasri, Michael T. Monaghan, Ralf B. Schaefer, Klement Tockner, Jonathan D. Tonkin, Sami Domisch
Summary: A recent global meta-analysis showed a decrease in terrestrial insect abundance but an increase in freshwater insect abundance. The authors suggested that water quality improvement may have contributed to this trend. However, total abundance and biomass alone are not sufficient indicators of freshwater insect assemblages, and many datasets used in the analysis may not accurately represent global trends.
WILEY INTERDISCIPLINARY REVIEWS-WATER
(2021)
Article
Ecology
Sydne Record, Nicole M. Voelker, Phoebe L. Zarnetske, Nathan I. Wisnoski, Jonathan D. Tonkin, Christopher Swan, Luca Marazzi, Nina Lany, Thomas Lamy, Aldo Compagnoni, Max C. N. Castorani, Riley Andrade, Eric R. Sokol
Summary: The loss of global biodiversity and its associated ecosystem services is accelerating at an alarming rate. Metacommunity theory offers a framework for understanding the multi-scale processes driving changes in biodiversity over time and space. Coordinated research and observation networks, such as the United States Long Term Ecological Research program, present an opportunity to advance our understanding of biodiversity patterns and improve conservation efforts.
FRONTIERS IN ECOLOGY AND EVOLUTION
(2021)
Article
Environmental Sciences
Zhengfei Li, Xiao Chen, Xiaoming Jiang, Jonathan D. Tonkin, Zhicai Xie, Jani Heino
Summary: Environmental heterogeneity and physical distances play important roles in driving beta diversity in montane streams, with environmental gradients generally prevailing over physical distances. Species replacement is more influenced by environmental gradients, while richness difference is more affected by physical distances.
SCIENCE OF THE TOTAL ENVIRONMENT
(2021)
Article
Ecology
Jonathan D. Tonkin, Julian D. Olden, David M. Merritt, Lindsay Reynolds, Jane S. Rogosch, David A. Lytle
Summary: Research shows that designing flow regimes for specific ecosystem outcomes may lead to trade-offs among different species, causing non-target species to become locally extinct within short timespans. By incorporating multiple flow frequencies, from intra-annual-scale pulses to large decadal-scale floods, a simulated natural flow regime can achieve balanced population sizes across different ecosystem components, averaging at 72% of that achieved by designer flow regimes.
FRONTIERS IN ECOLOGY AND THE ENVIRONMENT
(2021)
Review
Ecology
Emily B. Graham, Colin Averill, Ben Bond-Lamberty, Joseph E. Knelman, Stefan Krause, Ariane L. Peralta, Ashley Shade, A. Peyton Smith, Susan J. Cheng, Nicolas Fanin, Cathryn Freund, Patricia E. Garcia, Sean M. Gibbons, Marc W. Van Goethem, Marouen Ben Guebila, Julia Kemppinen, Robert J. Nowicki, Juli G. Pausas, Samuel P. Reed, Jennifer Rocca, Aditi Sengupta, Debjani Sihi, Marie Simonin, Michal Slowinski, Seth A. Spawn, Ira Sutherland, Jonathan D. Tonkin, Nathan I. Wisnoski, Samuel C. Zipper
Summary: Disturbances cause fundamental changes in ecosystem functions, but there is a lack of unified foundation for discussing and quantifying the complexity of disturbances across interdisciplinary perspectives. By identifying a key limitation in disturbance ecology, researchers have developed a generalizable framework to understand disturbances and their impacts, which can be supplemented by discipline-specific variables to benefit both inter- and intra-disciplinary research. This framework provides a baseline standard for comparing disturbances across different fields and encourages explicit definition of disturbance drivers and impacts to support future syntheses and meta-analyses of disturbance research.
FRONTIERS IN ECOLOGY AND EVOLUTION
(2021)
Article
Environmental Sciences
Gabrielle Koerich, Giulia Burle Costa, Marina Nasri Sissini, Carlos Lopez Ortiz, Beatriz Feltrin Canever, Willian Oliveira, Jonathan D. Tonkin, Paulo Antunes Horta
Summary: This study investigated the effects of future environmental conditions on the performance of the rhodolith-forming species Lithothamnion crispatum and predicted its habitat suitability along the Brazilian coast using an ecological niche model. Experimental results showed a reduction in photosynthetic performance under stress, but individuals were able to recover once stressors were removed. The model predicted an expansion of habitat suitability for this species in the future, which was supported by physiological responses to experimental conditions.
MARINE ENVIRONMENTAL RESEARCH
(2021)
Article
Ecology
Thomas Lamy, Nathan Wisnoski, Riley Andrade, Max C. N. Castorani, Aldo Compagnoni, Nina Lany, Luca Marazzi, Sydne Record, Christopher M. Swan, Jonathan D. Tonkin, Nicole Voelker, Shaopeng Wang, Phoebe L. Zarnetske, Eric R. Sokol
Summary: The study introduces a novel framework for quantifying aggregate and compositional variability of communities and ecosystems through space and time. It demonstrates that compositional variability of a metacommunity depends on spatial synchrony in compositional trajectories among local communities. The conceptual framework combines compositional variability of the metacommunity through time and among local communities into four archetype scenarios.
Article
Biodiversity Conservation
Theophile L. Mouton, Fabien Leprieur, Mathieu Floury, Fabrice Stephenson, Piet Verburg, Jonathan D. Tonkin
Summary: Understanding temporal changes in species community composition is crucial for conservation management. This study assessed the patterns and drivers of taxonomic and functional temporal diversity in river macroinvertebrate communities over 26 years in New Zealand. Climate and land-use changes were found to drive differences in community composition, with species shifting their ranges towards higher latitudes. Functional traits were related to population trends and latitudinal range shifts, with species with more reproductive cycles and longer adult lifespans increasing their population size and larger species with more descendants per reproductive cycle shifting their range towards more southern latitudes.
Article
Ecology
Alain Maasri, Sonja C. Jaehnig, Mihai C. Adamescu, Rita Adrian, Claudio Baigun, Donald J. Baird, Angelica Batista-Morales, Nuria Bonada, Lee E. Brown, Qinghua Cai, Joao Campos-Silva, Viola Clausnitzer, Topiltzin Contreras-MacBeath, Steven J. Cooke, Thibault Datry, Gonzalo Delacamara, Luc De Meester, Klaus-Douwe B. Dijkstra, Van Tu Do, Sami Domisch, David Dudgeon, Tibor Eros, Hendrik Freitag, Joerg Freyhof, Jana Friedrich, Martin Friedrichs-Manthey, Juergen Geist, Mark O. Gessner, Peter Goethals, Matthew Gollock, Christopher Gordon, Hans-Peter Grossart, Georges Gulemvuga, Pablo E. Gutierrez-Fonseca, Peter Haase, Daniel Hering, Hans Juergen Hahn, Charles P. Hawkins, Fengzhi He, Jani Heino, Virgilio Hermoso, Zeb Hogan, Franz Hoelker, Jonathan M. Jeschke, Meilan Jiang, Richard K. Johnson, Gregor Kalinkat, Bakhtiyor K. Karimov, Aventino Kasangaki, Ismael A. Kimirei, Bert Kohlmann, Mathias Kuemmerlen, Jan J. Kuiper, Benjamin Kupilas, Simone D. Langhans, Richard Lansdown, Florian Leese, Francis S. Magbanua, Shin-ichiro S. Matsuzaki, Michael T. Monaghan, Levan Mumladze, Javier Muzon, Pierre A. Mvogo Ndongo, Jens C. Nejstgaard, Oxana Nikitina, Clifford Ochs, Oghenekaro Nelson Odume, Jeffrey J. Opperman, Harmony Patricio, Steffen U. Pauls, Rajeev Raghavan, Alonso Ramirez, Bindiya Rashni, Vere Ross-Gillespie, Michael J. Samways, Ralf B. Schaefer, Astrid Schmidt-Kloiber, Ole Seehausen, Deep Narayan Shah, Subodh Sharma, Janne Soininen, Nike Sommerwerk, Jason D. Stockwell, Frank Suhling, Ram Devi Tachamo Shah, Rebecca E. Tharme, James H. Thorp, David Tickner, Klement Tockner, Jonathan D. Tonkin, Mireia Valle, Jean Vitule, Martin Volk, Ding Wang, Christian Wolter, Susanne Worischka
Summary: Global freshwater biodiversity is declining dramatically, with investments in research and conservation lagging behind terrestrial and marine realms. Through a global consultation, 15 pressing priority needs have been identified to support informed stewardship of freshwater biodiversity. The proposed agenda aims to advance freshwater biodiversity research globally for its sustainable management and conservation.
Article
Biodiversity Conservation
Theophile L. Mouton, Fabrice Stephenson, Leigh G. Torres, Will Rayment, Tom Brough, Matthew McLean, Jonathan D. Tonkin, Camille Albouy, Fabien Leprieur
Summary: This study assesses the biodiversity of cetaceans in New Zealand's Exclusive Economic Zone and their overlap with marine protected areas (MPAs). The results show that taxonomic and phylogenetic diversity of cetaceans are poorly matched with MPAs, while functional diversity shows a higher level of congruence. Several species are identified as having significant contributions to biodiversity.
BIOLOGICAL CONSERVATION
(2022)
Article
Biodiversity Conservation
Zhengfei Li, Jonathan D. Tonkin, Xingliang Meng, Zhenyuan Liu, Junqian Zhang, Xiao Chen, Zhicai Xie, Jani Heino
Summary: This study focuses on benthic macroinvertebrates collected seasonally in Dongting Lake, China, and examines the variation in metacommunity structure and underlying mechanisms among different seasons. The results show that metacommunity dynamics shift significantly between seasons due to changes in hydrological conditions, highlighting the importance of considering temporal aspects in understanding metacommunity organization.
ECOLOGICAL INDICATORS
(2022)
Review
Ecology
Gabrielle Koerich, Ceridwen I. Fraser, Charles K. Lee, Fraser J. Morgan, Jonathan D. Tonkin
Summary: Antarctic ecosystems are facing increasing anthropogenic pressure, and predicting the impact of environmental change on Antarctic biodiversity is challenging due to data limitations. However, new data capture technologies provide opportunities to sample Antarctic biodiversity at broader scales. Integration of data sets through frameworks such as point process and hierarchical models can improve predictions and increase confidence. Further improvement in models through increased process knowledge and the use of hybrid modeling frameworks can enhance forecasts for data-limited species. Leveraging these advanced tools can overcome data scarcity challenges in Antarctica and facilitate more robust short-term and long-term forecasts.
TRENDS IN ECOLOGY & EVOLUTION
(2023)
Article
Ecology
Abigail S. L. Lewis, Christine R. Rollinson, Andrew J. Allyn, Jaime Ashander, Stephanie Brodie, Cole B. Brookson, Elyssa Collins, Michael C. Dietze, Amanda S. Gallinat, Noel Juvigny-Khenafou, Gerbrand Koren, Daniel J. McGlinn, Hassan Moustahfid, Jody A. Peters, Nicholas R. Record, Caleb J. Robbins, Jonathan Tonkin, Glenda M. Wardle
Summary: This article introduces a conceptual framework that describes how ecological forecasting can energize and advance ecological theory. The authors emphasize the potential for future progress through increased forecast development, comparison, and synthesis. They envision a future where forecasting is integrated as part of the toolset used in fundamental ecology, and aim to decrease barriers to entry and broaden the community of researchers using forecasting for fundamental ecological insight.
METHODS IN ECOLOGY AND EVOLUTION
(2023)
Article
Biology
Thibault Datry, Amelie Truchy, Julian D. Olden, Michelle H. Busch, Rachel Stubbington, Walter K. Dodds, Sam Zipper, Songyan Yu, Mathis L. Messager, Jonathan D. Tonkin, Kendra E. Kaiser, John C. Hammond, Eric K. Moody, Ryan M. Burrows, Romain Sarremejane, Amanda G. DelVecchia, Megan L. Fork, Chelsea J. Little, Richard H. Walker, Annika W. Walters, Daniel Allen
Summary: Intermittent rivers are the predominant type of running waters on Earth, and human-induced flow intermittence (AFI) has unique hydrological and biological impacts. This review examines the causes and alterations of drying in AFI compared to natural flow intermittence (NFI), evaluates the differences in biodiversity responses, ecological functions, and ecosystem services between the two, and highlights knowledge gaps and management needs related to AFI.
Article
Ecology
Benjamin S. Halpern, Carl Boettiger, Michael C. Dietze, Jessica A. Gephart, Patrick Gonzalez, Nancy B. Grimm, Peter M. Groffman, Jessica Gurevitch, Sarah E. Hobbie, Kimberly J. Komatsu, Kristy J. Kroeker, Heather J. Lahr, David M. Lodge, Christopher J. Lortie, Julie S. S. Lowndes, Fiorenza Micheli, Hugh P. Possingham, Mary H. Ruckelshaus, Courtney Scarborough, Chelsea L. Wood, Grace C. Wu, Lina Aoyama, Eva E. Arroyo, Christie A. Bahlai, Erin E. Beller, Rachael E. Blake, Karrigan S. Bork, Trevor A. Branch, Norah E. M. Brown, Julien Brun, Emilio M. Bruna, Lauren B. Buckley, Jessica L. Burnett, Max C. N. Castorani, Samantha H. Cheng, Sarah C. Cohen, Jessica L. Couture, Larry B. Crowder, Laura E. Dee, Arildo S. Dias, Ignacio J. Diaz-Maroto, Martha R. Downs, Joan C. Dudney, Erle C. Ellis, Kyle A. Emery, Jacob G. Eurich, Bridget E. Ferriss, Alexa Fredston, Hikaru Furukawa, Sara A. Gagne, Sarah R. Garlick, Colin J. Garroway, Kaitlyn M. Gaynor, Angelica L. Gonzalez, Eliza M. Grames, Tamar Guy-Haim, Ed Hackett, Lauren M. Hallett, Tamara K. Harms, Danielle E. Haulsee, Kyle J. Haynes, Elliott L. Hazen, Rebecca M. Jarvis, Kristal Jones, Gaurav S. Kandlikar, Dustin W. Kincaid, Matthew L. Knope, Anil Koirala, Jurek Kolasa, John S. Kominoski, Julia Koricheva, Lesley T. Lancaster, Jake A. Lawlor, Heili E. Lowman, Frank E. Muller-Karger, Kari E. A. Norman, Nan Nourn, Casey C. O'Hara, Suzanne X. Ou, Jacqueline L. Padilla-Gamino, Paula Pappalardo, Ryan A. Peek, Dominique Pelletier, Stephen Plont, Lauren C. Ponisio, Cristina Portales-Reyes, Diogo B. Provete, Eric J. Raes, Carlos Ramirez-Reyes, Irene Ramos, Sydne Record, Anthony J. Richardson, Roberto Salguero-Gomez, Erin Satterthwaite, Chloe Schmidt, Aaron J. Schwartz, Craig R. See, Brendan D. Shea, Rachel S. Smith, Eric R. Sokol, Christopher T. Solomon, Trisha Spanbauer, Paris Stefanoudis, Beckett W. Sterner, Vitor Sudbrack, Jonathan D. Tonkin, Ashley R. Townes, Mireia Valle, Jonathan A. Walter, Kathryn Wheeler, William R. Wieder, David R. Williams, Marten Winter, Barbora Winterova, Lucy C. Woodall, Adam S. Wymore, Casey Youngflesh
Summary: Synthesis research in ecology and environmental science is important for improving understanding, advancing theory, identifying research priorities, and supporting management strategies. A virtual workshop with participants from different countries and disciplines was held to discuss how synthesis can address key questions and themes in the field in the next decade. Seven priority research topics and two issues regarding synthesis practices were identified, providing a strategic vision for future synthesis in ecology and environmental science.
