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  • image/svg+xml art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos Open Access logo, converted into svg, designed by PLoS. This version with transparent background. http://commons.wikimedia.org/wiki/File:Open_Access_logo_PLoS_white.svg art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos http://www.plos.org/
    Authors: V. A. Flood; K. Strong; C. H. Whaley; K. A. Walker; +30 Authors

    This study evaluates tropospheric columns of methane, carbon monoxide, and ozone in the Arctic simulated by 11 models. The Arctic is warming at nearly 4 times the global average rate, and with changing emissions in and near the region, it is important to understand Arctic atmospheric composition and how it is changing. Both measurements and modelling of air pollution in the Arctic are difficult, making model validation with local measurements valuable. Evaluations are performed using data from five high-latitude ground-based Fourier transform infrared (FTIR) spectrometers in the Network for the Detection of Atmospheric Composition Change (NDACC). The models were selected as part of the 2021 Arctic Monitoring and Assessment Programme (AMAP) report on short-lived climate forcers. This work augments the model–measurement comparisons presented in that report by including a new data source: column-integrated FTIR measurements, whose spatial and temporal footprint is more representative of the free troposphere than in situ and satellite measurements. Mixing ratios of trace gases are modelled at 3-hourly intervals by CESM, CMAM, DEHM, EMEP MSC-W, GEM-MACH, GEOS-Chem, MATCH, MATCH-SALSA, MRI-ESM2, UKESM1, and WRF-Chem for the years 2008, 2009, 2014, and 2015. The comparisons focus on the troposphere (0–7 km partial columns) at Eureka, Canada; Thule, Greenland; Ny Ålesund, Norway; Kiruna, Sweden; and Harestua, Norway. Overall, the models are biased low in the tropospheric column, on average by −9.7 % for CH4, −21 % for CO, and −18 % for O3. Results for CH4 are relatively consistent across the 4 years, whereas CO has a maximum negative bias in the spring and minimum in the summer and O3 has a maximum difference centered around the summer. The average differences for the models are within the FTIR uncertainties for approximately 15 % of the model–location comparisons.

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    Chalmers Research
    Article . 2024
    Data sources: Chalmers Research
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    Atmospheric Chemistry and Physics (ACP)
    Article . 2024 . Peer-reviewed
    License: CC BY
    Data sources: Crossref
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    Atmospheric Chemistry and Physics
    Article . 2024
    Data sources: DOAJ
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      image/svg+xml art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos Open Access logo, converted into svg, designed by PLoS. This version with transparent background. http://commons.wikimedia.org/wiki/File:Open_Access_logo_PLoS_white.svg art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos http://www.plos.org/ Chalmers Researcharrow_drop_down
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      Chalmers Research
      Article . 2024
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      Atmospheric Chemistry and Physics (ACP)
      Article . 2024 . Peer-reviewed
      License: CC BY
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      Atmospheric Chemistry and Physics
      Article . 2024
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  • image/svg+xml art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos Open Access logo, converted into svg, designed by PLoS. This version with transparent background. http://commons.wikimedia.org/wiki/File:Open_Access_logo_PLoS_white.svg art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos http://www.plos.org/
    Authors: Greco-Coppi, Martin; Dinkova, Anna; Hofmann, Carina; Walter, Diethelm; +3 Authors

    Lime is crucial for many sectors of the economy including construction, agriculture, power generation, and manufacture. Lime plants are responsible of about 1.4 % of the global anthropogenic emissions of CO2. The majority of these emissions (over 60 %, according to IEA 2020), generated by the calcination of CaCO3 (i.e. process emissions), can only be avoided through efficient CO2 capture. To capture the CO2 process emissions, post-combustion and oxy-fuel combustion technologies have the potential to be deployed industrially. Among them, Carbonate Looping (CaL) is one of the most promising processes because of its competitive CO2 avoidance costs and low energy requirements (i.e. specific primary energy consumption per CO2 avoided, SPECCA) (e.g. Astolfi et al. 2019). It uses CaO as sorbent to bind CO2 in a carbonator. The CO2 is released in an oxy-fired calciner, operating at around 900 °C, exiting in a high purity stream. For the particular case of the cement and lime industry, the CaL process can exploit the synergies of the calcination; thus, increasing the overall economic and thermodynamic efficiency. To avoid the manifold penalties associated with oxy-firing the calciner (e.g. capital and operation cost of an air separation unit, contamination of CO2 stream, and increase in SPECCA), the heat can be provided indirectly through an external combustor. A proven way to do this is via heat pipes, which transfer heat by means of evaporation and condensation of a working fluid, e.g. sodium. The viability of this Indirectly Heated Carbonate Looping (IHCaL) process was demonstrated with more than 1000 hours of operation in a 300 kWth pilot facility at the Technical University of Darmstadt, Germany. Some of the most important milestones were: capturing CO2 from real combustion flue gas, with more than 85 % capture rate in the carbonator; recirculation of combustor flue gases into the carbonator; and fuelling of the combustor with propane, coal, and solid recovered fuel (SRF) (Hofmann et al. 2022; Reitz et al. 2016). Nevertheless, still some key elements have to be demonstrated in order to deploy the IHCaL technology into the industrial scale (cf. Greco-Coppi et al. 2021). This work presents the design of a 2 MWth demonstration facility with the main objective of driving the IHCaL forward into the full-scale application for the decarbonization of lime and cement production. Lime Plant Hönnetal, in Germany, was selected as the host facility. For the design of the demonstration plant, reactor and process simulations were performed. The sorbent reaction and deactivation models were developed using data from thermogravimetric analysis (TGA). The reactor models were validated with the results from the pilot testing in the 300 kWth scale. These models were integrated in the Aspen PlusTM process models and used to optimize the design of the demonstration facility. The objectives of the demonstration plant are: (i) demonstrate the application of the IHCaL into an industrially relevant environment; (ii) optimize and validate the utilization of solid fuels (including SRF) in the combustor with capture rates higher than 90 %; (iii) deploy a solid/solid heat exchanger to recover heat between the solid circulating streams; and (iv) demonstrate the feasibility to operate the indirectly heated calciner in industrially-relevant conditions (CO2 recirculation and steam fluidization). Within this work, the methods for the scale-up will be discussed, the design of the plant will be presented, and the operating conditions will be reported. The construction of the demonstration plant may take place within a follow-up project to the ACT ANICA project, starting in the year 2024. In that case, the demonstration facility would be operative by 2026; thus, enabling a first IHCaL industrial application into a lime or cement plant by 2030.

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    https://doi.org/10.26083/tupri...
    Other literature type . 2024
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      https://doi.org/10.26083/tupri...
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  • image/svg+xml art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos Open Access logo, converted into svg, designed by PLoS. This version with transparent background. http://commons.wikimedia.org/wiki/File:Open_Access_logo_PLoS_white.svg art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos http://www.plos.org/
    Authors: Politikos, Dimitrios; Huret, Martin; Petitgas, Pierre;

    No abstracts are to be cited without prior reference to the author. Modelling of fish movement behaviour within a heterogeneous marine environment is a challenging but also key issue for understanding the effect of environmental factors and climatic change on fish processes (growth, distribution, mortality, reproduction). Fish movement models have the capability to encompass the combined effect of environment and empirical knowledge of fish individuals as energy requirements, known preys and predators, swimming capacities into a unified framework (Planque et al., 2011). Following an Individual Based Model (IBM) approach, a fish movement model has been developed to simulate the active movement of adult anchovy in the Bay of Biscay (BoB) in response to the spatio-temporal variations of both biotic and abiotic factors, as well as its internal conditions based on a bioenergetics model

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    https://doi.org/10.17895/ices....
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    Authors: Baulier, Loïc; Pawlowski, Lionel; Lorance, Pascal; Trenkel, Verena M.;

    No abstracts are to be cited without prior reference to the author.Deep-sea fisheries in the West of the British Isles have experienced in only two decades many changes regarding the size of the fleets, engine power and fishing gears, fishing grounds and depth while signs of depletion of deep-water stocks and damages to the seabed have led to an increasing number of management rules aiming at ecosystem conservation and at protecting stocks from unsustainable fishing pressure. As deep-water scientific surveys are scarce, abundance indices have been lately estimated using a database containing the catch composition of 29 000 hauls and provided by two organizations from the French fishing industry through a science–industry partnership. Catch composition reflects the combination of the influence of the above factors and the “true” species distribution, itself depending on environmental factors varying in space and time. It is therefore impossible to treat haul-by-haul datasets by standard analyses as they generally require independent observations and normal distributions of continuous variables. Various multivariate analyses and clustering methods were applied in an attempt to characterize the spatio-temporal variability in species abundance and to identify structuring factors and species associations in the catches. Two temporal scales were considered: seasonal and interannual. The relevance of the different methods employed and the information they provide were discussed and results were analysed with stock assessment and management options for those mixed fisheries in perspective.

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    https://doi.org/10.17895/ices....
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      https://doi.org/10.17895/ices....
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  • image/svg+xml art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos Open Access logo, converted into svg, designed by PLoS. This version with transparent background. http://commons.wikimedia.org/wiki/File:Open_Access_logo_PLoS_white.svg art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos http://www.plos.org/
    Authors: Lorance, Pascal; Pawlowski, Lionel; Trenkel, Verena M.;

    No abstracts are to be cited without prior reference to the author.A database of tallybooks, from skippers' own logbooks, provided by the French industry involved in deep-water fishing to the west of the British Isles was used to standardise blue ling Landings per Unit of Effort (LPUEs). The data covered the years 1992-2008 with more extensive data for the period 2000-2007. For each haul, landings by species, tow duration, depth and location were reported. Compared to EU logbooks, this database is on a haul by haul basis instead of being aggregated by fishing sub-trips combining hauls from the same day, ICES rectangle and gear. Moreover, it includes depth, which is a major factor for catch rates in deepwater fisheries. LPUEs were estimated from Generalised Additive Models (GAMs) with depth, vessel, statistical rectangle and zone by year as explanatory variables. Owing to the statistical distribution of landings rates, landings were modelled by a Tweedie distribution, which is a compound Poisson distribution and allows to handle data with many zeros, as it is typical for catch data. In order to investigate how to reliably track stock trends, LPUEs were estimated in five regions for different subsets including or not the spawning season, when blue ling aggregates, or considering tows where blue ling was only a bycatch. The results based on the tallybook data indicated that blue ling LPUEs have been mainly stable over the past decade. This is consistent with stable mean length in the landings. Haul by haul data are suitable to derive abundance indices for deep-water fisheries assessment.

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      https://doi.org/10.17895/ices....
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    Authors: Fengjiao Zou; Jennifer Ogle; Weimin Jin; Patrick Gerard; +2 Authors

    One of the main challenges autonomous vehicles (AVs) will face is interacting with pedestrians, especially at unmarked midblock locations where the right-of-way is unspecified. This study investigates pedestrian crossing behavior given different roadway centerline features (i.e., undivided, two-way left-turn lane (TWLTL), and median) and various AV operational schemes portrayed to pedestrians through on-vehicle signals (i.e., no signal, yellow negotiating indication, and yellow/blue negotiating/no-yield indications). This study employs virtual reality to simulate an urban unmarked midblock environment where pedestrians interact with AVs. Results demonstrate that both roadway centerline design features and AV operations and signaling significantly impact pedestrian unmarked midblock crossing behavior, including the waiting time at the curb, waiting time in the middle of the road, and the total crossing time. But only the roadway centerline features significantly impact the walking time. Participants in the undivided scene spent a longer time waiting at the curb and walking on the road than in the median and TWLTL scenes, but they spent a shorter time waiting in the middle. Compared to the AV without a signal, the design of yellow signal significantly reduced pedestrian waiting time at the curb and in the middle. But yellow/blue significantly increased the pedestrian waiting time. Interaction effects between roadway centerline design features and AV operations and signaling are significant only for waiting time in the middle. For middle waiting time, yellow/blue signals had the most impact on the median road type and the least on the undivided road. Demographics, past behaviors, and walking exposure are also explored. Older individuals tend to wait longer, and pedestrian past crossing behaviors and past walking exposures do not significantly impact pedestrian walking behavior.

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    arXiv.org e-Print Archive
    Other literature type . Preprint . 2023
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    Transportation Research Part F Traffic Psychology and Behaviour
    Article . 2024 . Peer-reviewed
    License: Elsevier TDM
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    https://doi.org/10.48550/arxiv...
    Article . 2023
    License: arXiv Non-Exclusive Distribution
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      Other literature type . Preprint . 2023
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      Transportation Research Part F Traffic Psychology and Behaviour
      Article . 2024 . Peer-reviewed
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      Article . 2023
      License: arXiv Non-Exclusive Distribution
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    Authors: Gustin, Mae Sexauer; Dunham-cheatham, Sarrah M.; Allen, Natalie; Choma, Nicole; +7 Authors

    The Hg research community needs methods to more accurately measure atmospheric Hg concentrations and chemistry. The Reactive Mercury Active System (RMAS) uses cation exchange, nylon, and PTFE membranes to determine reactive mercury (RM), gaseous oxidized mercury, and particulate-bound mercury (PBM) concentrations and chemistry, respectively. New data for Atlanta, Georgia (NRGT) demonstrated that particulate-bound Hg was dominant and the chemistry was primarily N and S HgII compounds. At Great Salt Lake, Utah (GSL), RM was predominately PBM, with NS > organics > halogen > O HgII compounds. At Guadalupe Mountains National Park, Texas (GUMO), halogenated compound concentrations were lowest when air interacting with the site was primarily derived from the Midwest, and highest when the air was sourced from Mexico. At Amsterdam Island, Southern Indian Ocean, compounds were primarily halogenated with some N, S, and organic HgII compounds potentially associated with biological activity. The GEOS-Chem model was applied to see if it predicted measurements at five field sites. Model values were higher than observations at GSL, slightly lower at NRGT, and observations were an order of magnitude higher than modeled values for GUMO and Reno, Nevada. In general, data collected from 13 locations indicated that N, S, and organic RM compounds were associated with city and forest locations, halogenated compounds were sourced from the marine boundary layer, and O compounds were associated with long-range transport. Data being developed currently, and in the past, suggest there are multiple forms of RM that modelers must consider, and PBM is an important component of RM.

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    The Science of The Total Environment
    Article . 2023 . Peer-reviewed
    License: Elsevier TDM
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      The Science of The Total Environment
      Article . 2023 . Peer-reviewed
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    Authors: Luna M. van der Loos; Quinten Bafort; Samuel Bosch; Enric Ballesteros; +40 Authors

    Effective monitoring of non-indigenous seaweeds and combatting their effects relies on a solid confirmation of the non-indigenous status of the respective species. We critically analysed the status of presumed non-indigenous seaweed species reported from the Mediterranean Sea, the Northeast Atlantic Ocean and Macaronesia, resulting in a list of 140 species whose non-indigenous nature is undisputed. For an additional 87 species it is unclear if they are native or non-indigenous (cryptogenic species) or their identity requires confirmation (data deficient species). We discuss the factors underlying both taxonomic and biogeographic uncertainties and outline recommendations to reduce uncertainty about the non-indigenous status of seaweeds. Our dataset consisted of over 19,000 distribution records, half of which can be attributed to only five species (Sargassum muticum, Bonnemaisonia hamifera, Asparagopsis armata, Caulerpa cylindracea and Colpomenia peregrina), while 56 species (40%) are recorded no more than once or twice. In addition, our analyses revealed considerable variation in the diversity of non-indigenous species between the geographic regions. The Eastern Mediterranean Sea is home to the largest fraction of non-indigenous seaweed species, the majority of which have a Red Sea or Indo-Pacific origin and have entered the Mediterranean Sea mostly via the Suez Canal. Non-indigenous seaweeds with native ranges situated in the Northwest Pacific make up a large fraction of the total in the Western Mediterranean Sea, Lusitania and Northern Europe, followed by non-indigenous species with a presumed Australasian origin. Uncertainty remains, however, regarding the native range of a substantial fraction of non-indigenous seaweeds in the study area. In so far as analyses of first detections can serve as a proxy for the introduction rate of non-indigenous seaweeds, these do not reveal a decrease in the introduction rate, indicating that the current measures and policies are insufficient to battle the introduction and spread of non-indigenous species in the study area. European Marine Biological Resource Centre Belgium [GOH3817N]; European Marine Biological Resource Centre Belgium [I001621N]; Fonds Wetenschappelijk Onderzoek [3F020119]; POR PUGLIA FESR-FSE 2014/2020 [Asse VI, Action 6.5]; RESTORESEAS [EU-BiodivERsA BiodivRestore-253]; Institut des Sciences de l’Évolution – Montpellier [ISEM 2023-173]; Italian National Recovery and Resilience Plan [Mission 4, Component 2, ‘From research to business’: 1. NBFC, Investment 1.4, Project CN00000033]; IDEALG [ANR-10-BTBR-04; Institut des Sciences de l’Évolution – Montpellier Institut des Sciences de l’Évolution – Montpellier [ISEM 2023-173]. info:eu-repo/semantics/publishedVersion

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    European Journal of Phycology
    Article . 2023 . Peer-reviewed
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      European Journal of Phycology
      Article . 2023 . Peer-reviewed
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    Authors: Olivier Magand; Hélène Angot; Yann Bertrand; Jeroen E. Sonke; +5 Authors

    The Minamata Convention, a global and legally binding treaty that entered into force in 2017, aims to protect human health and the environment from harmful mercury (Hg) effects by reducing anthropogenic Hg emissions and environmental levels. The Conference of the Parties is to periodically evaluate the Convention's effectiveness, starting in 2023, using existing monitoring data and observed trends. Monitoring atmospheric Hg levels has been proposed as a key indicator. However, data gaps exist, especially in the Southern Hemisphere. Here, we present over a decade of atmospheric Hg monitoring data at Amsterdam Island (37.80°S, 77.55°E), in the remote southern Indian Ocean. Datasets include gaseous elemental and oxidised Hg species ambient air concentrations from either active/continuous or passive/discrete acquisition methods, and annual total Hg wet deposition fluxes. These datasets are made available to the community to support policy-making and further scientific advancements. International audience

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    Scientific Data
    Article . 2023
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    Scientific Data
    Article . 2023 . Peer-reviewed
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      Scientific Data
      Article . 2023 . Peer-reviewed
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    Authors: Metzger, Marc J; Keller, Rose; Lo, Veronica; Filyushkina, Anna; +4 Authors

    Forest biodiversity studies conduct Visions help to understand common ground and tensions among citizens and stakeholders, supporting inclusive land management and conservation solutions to the climate emergency and biodiversity crisis. With careful design and sufficient resource, it is possible to bring together communities and other stakeholders to share perspectives and deliberate desired futures, identifying more acceptable alternatives and avoiding costly delays. We evaluated researcher and participant experiences of illustration-based interviews to understand land management visions using four studies in Scotland, The Netherlands and Spain. These studies used STREAMLINE, a visual mixed-method interview format using thematic illustrated canvases designed to provide an inclusive and creative framing for participants to contemplate their desired future. Participants enjoyed the informal visual format, which reduced pressure, increased comfort through the research process, and helped their thinking and reflection about complex topics. They also valued being listened to and having the opportunity to share their views. Researchers appreciated the ability to triangulate rich qualitative data with a variety of quantitative measure through the mixed-method format and the flexibility to adapt the canvases to suit their research aims. Positive participant experience made facilitation easier and was stimulating for the researchers. The credibility and legitimacy of illustration-based interviews will ultimately depend on specific research design-decisions and testing, which can make the approach more resource intensive than conventional interviews. While organisal barriers should be considered realistically, illustration-based interviews can have high saliency by providing useful and usable insights that strengthen land management policy and planning. Inclusive Conservation Participatory planning Governance Visions Visual methods Participatory methods d across Europe use a multitude of forestry terms, often inconsistently. This hinders the comparability across studies and makes the assessment of the impacts of forest management on biodiversity highly context-dependent. Recent attempts to standardize forestry and stand description terminology mostly used a top-down approach that did not account for the perspectives and approaches of forest biodiversity experts. This work aims to establish common standards for silvicultural and vegetation definitions, creating a shared conceptual framework for a consistent study on the effects of forest management on biodiversity. We have identified both strengths and weaknesses of the silvicultural and vegetation information provided in forest biodiversity studies. While quantitative data on forest biomass and dominant tree species are frequently included, information on silvicultural activities and vegetation composition is often lacking, shallow, or based on broad and heterogeneous classifications. We discuss the existing classifications and their use in European forest biodiversity studies through a novel bottom-up and top-driven review process, and ultimately propose a common framework. This will enhance the comparability of forest biodiversity studies in Europe, and puts the basis for effective implementation and monitoring of sustainable forest management policies. The standards here proposed are potentially adaptable and applicable to other geographical areas and could be extended to other forest interventions.

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    NINA Brage
    Article . 2023
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    Landscape and Urban Planning
    Article . 2023 . Peer-reviewed
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  • image/svg+xml art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos Open Access logo, converted into svg, designed by PLoS. This version with transparent background. http://commons.wikimedia.org/wiki/File:Open_Access_logo_PLoS_white.svg art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos http://www.plos.org/
    Authors: V. A. Flood; K. Strong; C. H. Whaley; K. A. Walker; +30 Authors

    This study evaluates tropospheric columns of methane, carbon monoxide, and ozone in the Arctic simulated by 11 models. The Arctic is warming at nearly 4 times the global average rate, and with changing emissions in and near the region, it is important to understand Arctic atmospheric composition and how it is changing. Both measurements and modelling of air pollution in the Arctic are difficult, making model validation with local measurements valuable. Evaluations are performed using data from five high-latitude ground-based Fourier transform infrared (FTIR) spectrometers in the Network for the Detection of Atmospheric Composition Change (NDACC). The models were selected as part of the 2021 Arctic Monitoring and Assessment Programme (AMAP) report on short-lived climate forcers. This work augments the model–measurement comparisons presented in that report by including a new data source: column-integrated FTIR measurements, whose spatial and temporal footprint is more representative of the free troposphere than in situ and satellite measurements. Mixing ratios of trace gases are modelled at 3-hourly intervals by CESM, CMAM, DEHM, EMEP MSC-W, GEM-MACH, GEOS-Chem, MATCH, MATCH-SALSA, MRI-ESM2, UKESM1, and WRF-Chem for the years 2008, 2009, 2014, and 2015. The comparisons focus on the troposphere (0–7 km partial columns) at Eureka, Canada; Thule, Greenland; Ny Ålesund, Norway; Kiruna, Sweden; and Harestua, Norway. Overall, the models are biased low in the tropospheric column, on average by −9.7 % for CH4, −21 % for CO, and −18 % for O3. Results for CH4 are relatively consistent across the 4 years, whereas CO has a maximum negative bias in the spring and minimum in the summer and O3 has a maximum difference centered around the summer. The average differences for the models are within the FTIR uncertainties for approximately 15 % of the model–location comparisons.

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    Chalmers Research
    Article . 2024
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    Atmospheric Chemistry and Physics (ACP)
    Article . 2024 . Peer-reviewed
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    Atmospheric Chemistry and Physics
    Article . 2024
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      Chalmers Research
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      Atmospheric Chemistry and Physics (ACP)
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      Atmospheric Chemistry and Physics
      Article . 2024
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    Authors: Greco-Coppi, Martin; Dinkova, Anna; Hofmann, Carina; Walter, Diethelm; +3 Authors

    Lime is crucial for many sectors of the economy including construction, agriculture, power generation, and manufacture. Lime plants are responsible of about 1.4 % of the global anthropogenic emissions of CO2. The majority of these emissions (over 60 %, according to IEA 2020), generated by the calcination of CaCO3 (i.e. process emissions), can only be avoided through efficient CO2 capture. To capture the CO2 process emissions, post-combustion and oxy-fuel combustion technologies have the potential to be deployed industrially. Among them, Carbonate Looping (CaL) is one of the most promising processes because of its competitive CO2 avoidance costs and low energy requirements (i.e. specific primary energy consumption per CO2 avoided, SPECCA) (e.g. Astolfi et al. 2019). It uses CaO as sorbent to bind CO2 in a carbonator. The CO2 is released in an oxy-fired calciner, operating at around 900 °C, exiting in a high purity stream. For the particular case of the cement and lime industry, the CaL process can exploit the synergies of the calcination; thus, increasing the overall economic and thermodynamic efficiency. To avoid the manifold penalties associated with oxy-firing the calciner (e.g. capital and operation cost of an air separation unit, contamination of CO2 stream, and increase in SPECCA), the heat can be provided indirectly through an external combustor. A proven way to do this is via heat pipes, which transfer heat by means of evaporation and condensation of a working fluid, e.g. sodium. The viability of this Indirectly Heated Carbonate Looping (IHCaL) process was demonstrated with more than 1000 hours of operation in a 300 kWth pilot facility at the Technical University of Darmstadt, Germany. Some of the most important milestones were: capturing CO2 from real combustion flue gas, with more than 85 % capture rate in the carbonator; recirculation of combustor flue gases into the carbonator; and fuelling of the combustor with propane, coal, and solid recovered fuel (SRF) (Hofmann et al. 2022; Reitz et al. 2016). Nevertheless, still some key elements have to be demonstrated in order to deploy the IHCaL technology into the industrial scale (cf. Greco-Coppi et al. 2021). This work presents the design of a 2 MWth demonstration facility with the main objective of driving the IHCaL forward into the full-scale application for the decarbonization of lime and cement production. Lime Plant Hönnetal, in Germany, was selected as the host facility. For the design of the demonstration plant, reactor and process simulations were performed. The sorbent reaction and deactivation models were developed using data from thermogravimetric analysis (TGA). The reactor models were validated with the results from the pilot testing in the 300 kWth scale. These models were integrated in the Aspen PlusTM process models and used to optimize the design of the demonstration facility. The objectives of the demonstration plant are: (i) demonstrate the application of the IHCaL into an industrially relevant environment; (ii) optimize and validate the utilization of solid fuels (including SRF) in the combustor with capture rates higher than 90 %; (iii) deploy a solid/solid heat exchanger to recover heat between the solid circulating streams; and (iv) demonstrate the feasibility to operate the indirectly heated calciner in industrially-relevant conditions (CO2 recirculation and steam fluidization). Within this work, the methods for the scale-up will be discussed, the design of the plant will be presented, and the operating conditions will be reported. The construction of the demonstration plant may take place within a follow-up project to the ACT ANICA project, starting in the year 2024. In that case, the demonstration facility would be operative by 2026; thus, enabling a first IHCaL industrial application into a lime or cement plant by 2030.

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    https://doi.org/10.26083/tupri...
    Other literature type . 2024
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    Authors: Politikos, Dimitrios; Huret, Martin; Petitgas, Pierre;

    No abstracts are to be cited without prior reference to the author. Modelling of fish movement behaviour within a heterogeneous marine environment is a challenging but also key issue for understanding the effect of environmental factors and climatic change on fish processes (growth, distribution, mortality, reproduction). Fish movement models have the capability to encompass the combined effect of environment and empirical knowledge of fish individuals as energy requirements, known preys and predators, swimming capacities into a unified framework (Planque et al., 2011). Following an Individual Based Model (IBM) approach, a fish movement model has been developed to simulate the active movement of adult anchovy in the Bay of Biscay (BoB) in response to the spatio-temporal variations of both biotic and abiotic factors, as well as its internal conditions based on a bioenergetics model

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    Authors: Baulier, Loïc; Pawlowski, Lionel; Lorance, Pascal; Trenkel, Verena M.;

    No abstracts are to be cited without prior reference to the author.Deep-sea fisheries in the West of the British Isles have experienced in only two decades many changes regarding the size of the fleets, engine power and fishing gears, fishing grounds and depth while signs of depletion of deep-water stocks and damages to the seabed have led to an increasing number of management rules aiming at ecosystem conservation and at protecting stocks from unsustainable fishing pressure. As deep-water scientific surveys are scarce, abundance indices have been lately estimated using a database containing the catch composition of 29 000 hauls and provided by two organizations from the French fishing industry through a science–industry partnership. Catch composition reflects the combination of the influence of the above factors and the “true” species distribution, itself depending on environmental factors varying in space and time. It is therefore impossible to treat haul-by-haul datasets by standard analyses as they generally require independent observations and normal distributions of continuous variables. Various multivariate analyses and clustering methods were applied in an attempt to characterize the spatio-temporal variability in species abundance and to identify structuring factors and species associations in the catches. Two temporal scales were considered: seasonal and interannual. The relevance of the different methods employed and the information they provide were discussed and results were analysed with stock assessment and management options for those mixed fisheries in perspective.

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      https://doi.org/10.17895/ices....
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    Authors: Lorance, Pascal; Pawlowski, Lionel; Trenkel, Verena M.;

    No abstracts are to be cited without prior reference to the author.A database of tallybooks, from skippers' own logbooks, provided by the French industry involved in deep-water fishing to the west of the British Isles was used to standardise blue ling Landings per Unit of Effort (LPUEs). The data covered the years 1992-2008 with more extensive data for the period 2000-2007. For each haul, landings by species, tow duration, depth and location were reported. Compared to EU logbooks, this database is on a haul by haul basis instead of being aggregated by fishing sub-trips combining hauls from the same day, ICES rectangle and gear. Moreover, it includes depth, which is a major factor for catch rates in deepwater fisheries. LPUEs were estimated from Generalised Additive Models (GAMs) with depth, vessel, statistical rectangle and zone by year as explanatory variables. Owing to the statistical distribution of landings rates, landings were modelled by a Tweedie distribution, which is a compound Poisson distribution and allows to handle data with many zeros, as it is typical for catch data. In order to investigate how to reliably track stock trends, LPUEs were estimated in five regions for different subsets including or not the spawning season, when blue ling aggregates, or considering tows where blue ling was only a bycatch. The results based on the tallybook data indicated that blue ling LPUEs have been mainly stable over the past decade. This is consistent with stable mean length in the landings. Haul by haul data are suitable to derive abundance indices for deep-water fisheries assessment.

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    https://doi.org/10.17895/ices....
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      https://doi.org/10.17895/ices....
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    Authors: Fengjiao Zou; Jennifer Ogle; Weimin Jin; Patrick Gerard; +2 Authors

    One of the main challenges autonomous vehicles (AVs) will face is interacting with pedestrians, especially at unmarked midblock locations where the right-of-way is unspecified. This study investigates pedestrian crossing behavior given different roadway centerline features (i.e., undivided, two-way left-turn lane (TWLTL), and median) and various AV operational schemes portrayed to pedestrians through on-vehicle signals (i.e., no signal, yellow negotiating indication, and yellow/blue negotiating/no-yield indications). This study employs virtual reality to simulate an urban unmarked midblock environment where pedestrians interact with AVs. Results demonstrate that both roadway centerline design features and AV operations and signaling significantly impact pedestrian unmarked midblock crossing behavior, including the waiting time at the curb, waiting time in the middle of the road, and the total crossing time. But only the roadway centerline features significantly impact the walking time. Participants in the undivided scene spent a longer time waiting at the curb and walking on the road than in the median and TWLTL scenes, but they spent a shorter time waiting in the middle. Compared to the AV without a signal, the design of yellow signal significantly reduced pedestrian waiting time at the curb and in the middle. But yellow/blue significantly increased the pedestrian waiting time. Interaction effects between roadway centerline design features and AV operations and signaling are significant only for waiting time in the middle. For middle waiting time, yellow/blue signals had the most impact on the median road type and the least on the undivided road. Demographics, past behaviors, and walking exposure are also explored. Older individuals tend to wait longer, and pedestrian past crossing behaviors and past walking exposures do not significantly impact pedestrian walking behavior.

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    arXiv.org e-Print Archive
    Other literature type . Preprint . 2023
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    Transportation Research Part F Traffic Psychology and Behaviour
    Article . 2024 . Peer-reviewed
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    https://doi.org/10.48550/arxiv...
    Article . 2023
    License: arXiv Non-Exclusive Distribution
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      arXiv.org e-Print Archive
      Other literature type . Preprint . 2023
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      Transportation Research Part F Traffic Psychology and Behaviour
      Article . 2024 . Peer-reviewed
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      https://doi.org/10.48550/arxiv...
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    Authors: Gustin, Mae Sexauer; Dunham-cheatham, Sarrah M.; Allen, Natalie; Choma, Nicole; +7 Authors

    The Hg research community needs methods to more accurately measure atmospheric Hg concentrations and chemistry. The Reactive Mercury Active System (RMAS) uses cation exchange, nylon, and PTFE membranes to determine reactive mercury (RM), gaseous oxidized mercury, and particulate-bound mercury (PBM) concentrations and chemistry, respectively. New data for Atlanta, Georgia (NRGT) demonstrated that particulate-bound Hg was dominant and the chemistry was primarily N and S HgII compounds. At Great Salt Lake, Utah (GSL), RM was predominately PBM, with NS > organics > halogen > O HgII compounds. At Guadalupe Mountains National Park, Texas (GUMO), halogenated compound concentrations were lowest when air interacting with the site was primarily derived from the Midwest, and highest when the air was sourced from Mexico. At Amsterdam Island, Southern Indian Ocean, compounds were primarily halogenated with some N, S, and organic HgII compounds potentially associated with biological activity. The GEOS-Chem model was applied to see if it predicted measurements at five field sites. Model values were higher than observations at GSL, slightly lower at NRGT, and observations were an order of magnitude higher than modeled values for GUMO and Reno, Nevada. In general, data collected from 13 locations indicated that N, S, and organic RM compounds were associated with city and forest locations, halogenated compounds were sourced from the marine boundary layer, and O compounds were associated with long-range transport. Data being developed currently, and in the past, suggest there are multiple forms of RM that modelers must consider, and PBM is an important component of RM.

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    The Science of The Total Environment
    Article . 2023 . Peer-reviewed
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      The Science of The Total Environment
      Article . 2023 . Peer-reviewed
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    Authors: Luna M. van der Loos; Quinten Bafort; Samuel Bosch; Enric Ballesteros; +40 Authors

    Effective monitoring of non-indigenous seaweeds and combatting their effects relies on a solid confirmation of the non-indigenous status of the respective species. We critically analysed the status of presumed non-indigenous seaweed species reported from the Mediterranean Sea, the Northeast Atlantic Ocean and Macaronesia, resulting in a list of 140 species whose non-indigenous nature is undisputed. For an additional 87 species it is unclear if they are native or non-indigenous (cryptogenic species) or their identity requires confirmation (data deficient species). We discuss the factors underlying both taxonomic and biogeographic uncertainties and outline recommendations to reduce uncertainty about the non-indigenous status of seaweeds. Our dataset consisted of over 19,000 distribution records, half of which can be attributed to only five species (Sargassum muticum, Bonnemaisonia hamifera, Asparagopsis armata, Caulerpa cylindracea and Colpomenia peregrina), while 56 species (40%) are recorded no more than once or twice. In addition, our analyses revealed considerable variation in the diversity of non-indigenous species between the geographic regions. The Eastern Mediterranean Sea is home to the largest fraction of non-indigenous seaweed species, the majority of which have a Red Sea or Indo-Pacific origin and have entered the Mediterranean Sea mostly via the Suez Canal. Non-indigenous seaweeds with native ranges situated in the Northwest Pacific make up a large fraction of the total in the Western Mediterranean Sea, Lusitania and Northern Europe, followed by non-indigenous species with a presumed Australasian origin. Uncertainty remains, however, regarding the native range of a substantial fraction of non-indigenous seaweeds in the study area. In so far as analyses of first detections can serve as a proxy for the introduction rate of non-indigenous seaweeds, these do not reveal a decrease in the introduction rate, indicating that the current measures and policies are insufficient to battle the introduction and spread of non-indigenous species in the study area. European Marine Biological Resource Centre Belgium [GOH3817N]; European Marine Biological Resource Centre Belgium [I001621N]; Fonds Wetenschappelijk Onderzoek [3F020119]; POR PUGLIA FESR-FSE 2014/2020 [Asse VI, Action 6.5]; RESTORESEAS [EU-BiodivERsA BiodivRestore-253]; Institut des Sciences de l’Évolution – Montpellier [ISEM 2023-173]; Italian National Recovery and Resilience Plan [Mission 4, Component 2, ‘From research to business’: 1. NBFC, Investment 1.4, Project CN00000033]; IDEALG [ANR-10-BTBR-04; Institut des Sciences de l’Évolution – Montpellier Institut des Sciences de l’Évolution – Montpellier [ISEM 2023-173]. info:eu-repo/semantics/publishedVersion

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    European Journal of Phycology
    Article . 2023 . Peer-reviewed
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      European Journal of Phycology
      Article . 2023 . Peer-reviewed
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    Authors: Olivier Magand; Hélène Angot; Yann Bertrand; Jeroen E. Sonke; +5 Authors

    The Minamata Convention, a global and legally binding treaty that entered into force in 2017, aims to protect human health and the environment from harmful mercury (Hg) effects by reducing anthropogenic Hg emissions and environmental levels. The Conference of the Parties is to periodically evaluate the Convention's effectiveness, starting in 2023, using existing monitoring data and observed trends. Monitoring atmospheric Hg levels has been proposed as a key indicator. However, data gaps exist, especially in the Southern Hemisphere. Here, we present over a decade of atmospheric Hg monitoring data at Amsterdam Island (37.80°S, 77.55°E), in the remote southern Indian Ocean. Datasets include gaseous elemental and oxidised Hg species ambient air concentrations from either active/continuous or passive/discrete acquisition methods, and annual total Hg wet deposition fluxes. These datasets are made available to the community to support policy-making and further scientific advancements. International audience

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    Scientific Data
    Article . 2023
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    Article . 2023
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    Authors: Metzger, Marc J; Keller, Rose; Lo, Veronica; Filyushkina, Anna; +4 Authors

    Forest biodiversity studies conduct Visions help to understand common ground and tensions among citizens and stakeholders, supporting inclusive land management and conservation solutions to the climate emergency and biodiversity crisis. With careful design and sufficient resource, it is possible to bring together communities and other stakeholders to share perspectives and deliberate desired futures, identifying more acceptable alternatives and avoiding costly delays. We evaluated researcher and participant experiences of illustration-based interviews to understand land management visions using four studies in Scotland, The Netherlands and Spain. These studies used STREAMLINE, a visual mixed-method interview format using thematic illustrated canvases designed to provide an inclusive and creative framing for participants to contemplate their desired future. Participants enjoyed the informal visual format, which reduced pressure, increased comfort through the research process, and helped their thinking and reflection about complex topics. They also valued being listened to and having the opportunity to share their views. Researchers appreciated the ability to triangulate rich qualitative data with a variety of quantitative measure through the mixed-method format and the flexibility to adapt the canvases to suit their research aims. Positive participant experience made facilitation easier and was stimulating for the researchers. The credibility and legitimacy of illustration-based interviews will ultimately depend on specific research design-decisions and testing, which can make the approach more resource intensive than conventional interviews. While organisal barriers should be considered realistically, illustration-based interviews can have high saliency by providing useful and usable insights that strengthen land management policy and planning. Inclusive Conservation Participatory planning Governance Visions Visual methods Participatory methods d across Europe use a multitude of forestry terms, often inconsistently. This hinders the comparability across studies and makes the assessment of the impacts of forest management on biodiversity highly context-dependent. Recent attempts to standardize forestry and stand description terminology mostly used a top-down approach that did not account for the perspectives and approaches of forest biodiversity experts. This work aims to establish common standards for silvicultural and vegetation definitions, creating a shared conceptual framework for a consistent study on the effects of forest management on biodiversity. We have identified both strengths and weaknesses of the silvicultural and vegetation information provided in forest biodiversity studies. While quantitative data on forest biomass and dominant tree species are frequently included, information on silvicultural activities and vegetation composition is often lacking, shallow, or based on broad and heterogeneous classifications. We discuss the existing classifications and their use in European forest biodiversity studies through a novel bottom-up and top-driven review process, and ultimately propose a common framework. This will enhance the comparability of forest biodiversity studies in Europe, and puts the basis for effective implementation and monitoring of sustainable forest management policies. The standards here proposed are potentially adaptable and applicable to other geographical areas and could be extended to other forest interventions.

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    Landscape and Urban Planning
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