Your search keyword '"Coco, Giovanni"' showing total 16 results

1. Introduction to Volume 10. Quantitative Modelling in Geomorphology

Author

Coco, Giovanni, primary

Published

2021

2. Rhythmic Coastal Landforms

Author

Coco, Giovanni, primary, Calvete, Daniel, additional, Bryan, K.R., additional, and Murray, A.B., additional

Published

2021

3. Modeling Nearshore, Barrier, Cliff, and Coastline Morphodynamics

Author

Murray, A. Brad, primary, Coco, Giovanni, additional, Ashton, Andrew D., additional, Moore, Laura J., additional, McNamara, Dylan, additional, and Limber, Pat, additional

Published

2021

4. From cusps to capes: self-organised shoreline shapes

Author

Murray, Brad, primary, Ashton, Andrew D., additional, and Coco, Giovanni, additional

Published

2020

5. Rhythmic patterns in the surfzone

Author

Coco, Giovanni, primary, Murray, Brad, additional, and D. Ashton, Andrew, additional

Published

2020

6. Contributors

Author

Aarninkhof, Stefan, primary, Ashton, Andrew D., additional, Baldock, Tom E., additional, Beuzen, Tom, additional, Bosboom, Judith, additional, R. Bryan, Karin, additional, Burningham, Helene, additional, Castelle, Bruno, additional, Coco, Giovanni, additional, Vila-Concejo, Ana, additional, da Silva, Ana P., additional, de Vries, Sierd, additional, den Heijer, Kees, additional, Fernandez-Nunez, Miriam, additional, Ferreira, Óscar, additional, Flemming, Burghard, additional, Gallop, Shari L., additional, Gawehn, Matthijs, additional, Gómez-Pujol, Lluís, additional, D. Goodwin, Ian, additional, Guisado-Pintado, Emilia, additional, Harley, Mitchell, additional, Houser, Chris, additional, Hughes, Michael G., additional, J. Hein, Christopher, additional, Jackson, Derek W.T., additional, Klein, Antonio H.F., additional, López-Ruiz, Alejandro, additional, Largier, John L., additional, Lee, Mark, additional, Locknick, Summer, additional, Losada, Miguel Á., additional, Loureiro, Carlos, additional, Luijendijk, Arjen, additional, J. Méndez, Fernando, additional, Mortlock, Thomas, additional, Murray, Brad, additional, Orfila, Alejandro, additional, Ortega-Sánchez, Miguel, additional, Pereira, Luci, additional, Power, Hannah E., additional, Ribó, Marta, additional, Rueda, Ana, additional, Ruiz de Alegría-Arzaburu, Amaia, additional, Senechal, Nadia, additional, Short, Andrew D., additional, Splinter, Kristen, additional, Taborda, Rui, additional, Thom, Bruce, additional, Ton, Anne, additional, Trimble, Sarah, additional, Trindade, Wellington, additional, Vieira da Silva, Guilherme, additional, Vos, Sander, additional, Walker, Ian J., additional, Wengrove, Meagan, additional, Wernette, Phil, additional, and Winter, Gundula, additional

Published

2020

7. List of Reviewers

Author

Anderson, Iris, primary, Cahoon, Donald R., additional, Callaway, John, additional, Coco, Giovanni, additional, Davis, Steve, additional, Day, John, additional, Drude de Lacerda, Luiz, additional, Dundas, Steven, additional, Fitz, Carl, additional, Fitzgerald, Duncan, additional, Gao, Shu, additional, Grant, John, additional, Hopkinson, Charles S., additional, Kennedy, Chris, additional, Kentula, Mary, additional, Krauss, Ken W., additional, LaPeyre, Megan, additional, Madden, Christopher, additional, Marani, Marco, additional, Middleton, Beth, additional, Onorevole, Kathleen, additional, Osland, Michael, additional, Pejrup, Morten, additional, Pennings, Steven, additional, Perillo, Gerardo M.E., additional, Polasky, Stephen, additional, Roman, Charles, additional, Seitz, Rochelle, additional, Spencer, Tom, additional, Tobias, Craig, additional, Torres, Raymond, additional, Uncles, Reginald, additional, Ward, Bethney, additional, and Wolanski, Eric, additional

Published

2019

8. Observations of dune interactions from DEMs using through-water Structure from Motion

Author

Biogeomorphology of Rivers and Estuaries, Coastal dynamics, Fluvial systems and Global change, Terwisscha van Scheltinga, Renske C., Coco, Giovanni, Kleinhans, Maarten G., Friedrich, Heide, Biogeomorphology of Rivers and Estuaries, Coastal dynamics, Fluvial systems and Global change, Terwisscha van Scheltinga, Renske C., Coco, Giovanni, Kleinhans, Maarten G., and Friedrich, Heide

Published

2020

9. Infragravity waves: from driving mechanisms to impacts

Author

Proceskunde, Coastal dynamics, Fluvial systems and Global change, Bertin, Xavier, de Bakker, A.T.M., van Dongeren, Ap, Coco, Giovanni, Andre, Gael, Ardhuin, F., Bonneton, P., Bouchette, Frederic, Castelle, B., Crawford, Wayne, Davidson, M., Deen, Martha, Dodet, Guillaume, Guerin, Thomas, Inch, Kris, Leckler, Fabien, McCall, Robert, Muller, Heloise, Olabarrieta, Maintane, Roelvink, Dano, Ruessink, B.G., Sous, Damien, Stutzmann, Eleonore, Tissier, M.F.S., Proceskunde, Coastal dynamics, Fluvial systems and Global change, Bertin, Xavier, de Bakker, A.T.M., van Dongeren, Ap, Coco, Giovanni, Andre, Gael, Ardhuin, F., Bonneton, P., Bouchette, Frederic, Castelle, B., Crawford, Wayne, Davidson, M., Deen, Martha, Dodet, Guillaume, Guerin, Thomas, Inch, Kris, Leckler, Fabien, McCall, Robert, Muller, Heloise, Olabarrieta, Maintane, Roelvink, Dano, Ruessink, B.G., Sous, Damien, Stutzmann, Eleonore, and Tissier, M.F.S.

Published

2018

10. On the use of variance images for runup and shoreline detection

Author

Ministerio de Economía y Competitividad (España), Simarro, Gonzalo, Bryant, Karin R., Guedes, Rafael M.C., Sancho-García, Amanda, Guillén, Jorge, Coco, Giovanni, Ministerio de Economía y Competitividad (España), Simarro, Gonzalo, Bryant, Karin R., Guedes, Rafael M.C., Sancho-García, Amanda, Guillén, Jorge, and Coco, Giovanni

Abstract

The use of variance images for runup and shoreline detection is analyzed in this work. A methodology based on the variance images is first motivated with synthetic time stacks and then confirmed with real images. A total of 55 time stack images from five different cameras at three video stations (in Spain and New Zealand) were digitized and used for the study. These images include different tide and wave conditions. From the time stack images we: 1) obtained the mean shoreline position and maximum runup manually digitizing the water/sand interface and, 2) computed the variance function. The variance function is shown to have a particular cross-shore shape, with two characteristic positions which allow us to satisfactorily recover the mean shoreline position and maximum runup obtained in the first step. Variance images were shown to be useful both for detecting mean shoreline, and for evaluating runup, providing a potential alternative for timex images. The method did not work well when runup occurred within the groundwater seepage face. © 2015 Elsevier B.V.

Published

2015

11. Transport and retention of sinking microplastics in a well-mixed estuary.

Author

Li G, Chen Z, Bowen M, and Coco G

Subjects

Particle Size, Rivers chemistry, Hydrodynamics, Estuaries, Microplastics analysis, Water Pollutants, Chemical analysis, Environmental Monitoring, Water Movements

Abstract

Estuaries have been shown to be potential hotspots of microplastic accumulation, but the hydrodynamic conditions and particle properties that control this process need further investigation. We have designed a series of numerical particle-tracking experiments to examine the sensitivity of retention in estuaries to particle size, particle density and varying tides and freshwater flow. At the end of the simulation, over 90 % of sinking particles are retained in the estuary, and the retention rate is further increased by high river runoff. In contrast, increased river discharge increases the number of marginally-buoyant (i.e. density close to estuarine water) particles that escape the estuary. Larger particle size tends to limit the downstream transport of sinking particles but can facilitate the transport of marginally-buoyant particles. Tidal asymmetry, vertical turbulent mixing and the vertical structure of the subtidal circulation are proposed as the underlying mechanisms controlling the fate of particles., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

12. Polyester microfiber impacts on coastal sediment organic matter consumption.

Author

Ladewig SM, Bianchi TS, Coco G, Ferretti E, Gladstone-Gallagher RV, Hillman J, Hope JA, Savage C, Schenone S, and Thrush SF

Subjects

Geologic Sediments chemistry, Polyesters analysis, Environmental Monitoring, Water Pollutants, Chemical analysis, Ecosystem, Plastics analysis

Abstract

As plastic pollution continues to accumulate at the seafloor, concerns around benthic ecosystem functionality heightens. This research demonstrates the systematic effects of polyester microfibers on seafloor organic matter consumption rates, an important benthic ecosystem function connected to multiple reactions and processes. We used a field-based assay to measure the loss of organic matter, both with and without polyester microfiber contamination. We identified sediment organic matter content, mud content, and mean grain size as the main drivers of organic matter consumption, however, polyester microfiber contamination decoupled ecosystem relationships and altered observed organic matter cycling dynamics. Organic matter consumption rates varied across horizontal and vertical spaces, highlighting that consumption and associated plastic effects are dependent on environmental heterogeneity at both small (within sites) and larger (between sites) scales. Our results emphasize the important role habitat heterogeneity plays in seafloor organic matter consumption and the associated effects of plastic pollution on ecosystem function., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Samantha Ladewig reports financial support was provided by The International Yachting Fellowship of Rotarians. Samantha Ladewig reports financial support was provided by Anonymous philanthropic donors, provide through the Microphytes and Microplastics project. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

13. Retention of buoyant plastic in a well-mixed estuary due to tides, river discharge and winds.

Author

Chen Z, Li G, Bowen M, and Coco G

Subjects

Estuaries, Fresh Water, Plastics, Rivers, Wind

Abstract

Estuaries can act as plastic retention hotspots, but the hydrodynamic controls on retention are not well understood. This study investigates the retention of river-sourced buoyant plastics in a well-mixed estuary, the Waitematā Estuary, using validated numerical simulations of floats with different tides, winds, and freshwater discharge. The proportion of floats grounded on the shore in all seven simulations is higher than 60 % and over 90 % in five simulations after ten days. <20 % of the floats leave the estuarine mouth in any of the simulations. An increase of two orders of magnitude in freshwater discharge doubles the likelihood for floats to reach the lower estuary. However, we find increased freshwater discharge doubles the lateral circulation towards the shore and results in similar proportions of grounding (90 %) as the low discharge cases. These findings challenge the conventional view that plastics preferentially enter the open ocean after high river discharge., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2023

14. Real-world impacts of microplastic pollution on seafloor ecosystem function.

Author

Ladewig SM, Coco G, Hope JA, Vieillard AM, and Thrush SF

Subjects

Ecosystem, Plastics, Oxygen, Microplastics toxicity, Automobile Driving

Abstract

Emerging research shows that microplastic pollution could be impacting seafloor ecosystem function, but this has been primarily demonstrated without environmental and ecological context. This causes uncertainty in the real-world effects of microplastic pollution and leaves out essential information guiding policy and mitigation. In this study, we take a well-supported sampling design and statistical approach commonly employed in benthic ecology to evaluate real-world effects of microplastic pollution on coastal, benthic ecosystem function. We utilised environmental gradients in the Waitemata Harbour of Auckland, New Zealand to evaluate the importance of commonly assessed biological, chemical, and geological sediment variables and the characteristics of microplastic contaminants in driving essential ecosystem functions. Our results showed that models including microplastic terms were more accurate and explained more variability than those without microplastic terms, highlighting that microplastics impact real-world seafloor ecosystem function. Specifically, microplastic fibers significantly influenced oxygen flux (p < 0.03) and the diverse forms of microplastics (i.e., richness) significantly influenced ammonium flux (p < 0.02). Additionally, interactions between microplastic fiber concentrations and mollusc abundances significantly contributed to oxygen flux (p < 0.02). These results provide the first evaluation of in situ relationships between microplastics and ecosystem function. Even more importantly, this study suggests the value of environmental and ecological context for addressing microplastic impacts on benthic ecosystems and argues for further field examination., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2023

15. Creating communities and communicating science during COVID-19: From Coast2Coast to Coast2Cast.

Author

Vila-Concejo A, Splinter KD, Harley MD, Lowe R, Fellowes TE, McCarroll RJ, and Coco G

Abstract

The global COVID-19 pandemic has seen extended lockdowns, isolation periods and travel restrictions across many countries around the world since early 2020. Some countries, such as Australia and New Zealand, closed their international borders in early 2020 preventing researchers travelling to other parts of the world. To facilitate the exposure of our students' work, and for them to meet international researchers, as well as foster a sense of coastal community, we started a zoominar series (seminars via Zoom) in April 2020. The Coast2Coast zoominar series had therefore humble origins but we soon discovered that there was an appetite for more widely sharing science across the coastal research disciplines. The Coast2Coast zoominar grew rapidly, attracting researchers from many countries around the world who presented and attended fortnightly online seminars. In just one year and a half we had 38 presentations with roughly 1900 attendees, creating a sense of community and belonging for the researchers involved. In early 2021, two of the co-authors, Giovanni (GC) and Ana (AVC) decided to expand and take this sense of community further creating the Coast2Cast podcast series, where researchers are asked research and non-research questions. In only 7 months, the podcasts have attracted more than 3700 listeners. Importantly, while the main prerequisite was high-quality and impactful research, diversity and inclusion were also a priority in selecting and inviting speakers for the zoominars and guests for the podcast. Importantly, our survey results suggest that there is a place for online events similar to Coast2Coast and Coast2Cast in a pandemic-free future, and that the coastal community involved has greatly benefited from such initiatives., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2022 Elsevier Ltd. All rights reserved.)

Published

2022

16. Retention and dispersion of buoyant plastic debris in a well-mixed estuary from drifter observations.

Author

Chen Z, Bowen M, Li G, Coco G, and Hall B

Subjects

Environmental Monitoring methods, Rivers, Seasons, Estuaries, Plastics

Abstract

Buoyant plastics enter estuaries largely from urban streams and an unknown fraction is retained before further transport to the open ocean. Plastic drifters were launched in a well-mixed estuary to simulate the movement of surface buoyant plastics. Two experiments were conducted, one during spring tides and one during neap tides, both with similar river flows and winds. Stronger tidal currents during spring tides resulted in larger dispersion and further downstream transport of the drifters. Half of the drifters were grounded within two tidal cycles. During the neap experiment, even more of the drifters (87%) were retained in the estuary. The grounding of such a high proportion of drifters suggests that much of the plastic pollution in estuaries of this type remains close to the riverine source. These findings imply that local clean-up programs removing grounded litter can reduce over half of the plastic pollution input to these estuaries., (Copyright © 2021. Published by Elsevier Ltd.)

Published

2022