Latest Articles from Food and Ecological Systems Modelling Journal Latest 13 Articles from Food and Ecological Systems Modelling Journal https://fesmj.pensoft.net/ Fri, 29 Mar 2024 10:38:59 +0200 Pensoft FeedCreator https://fesmj.pensoft.net/i/logo.jpg Latest Articles from Food and Ecological Systems Modelling Journal https://fesmj.pensoft.net/ Managing large and complex population operations with agent-based models: The ALMaSS Population_Manager https://fesmj.pensoft.net/article/117593/ Food and Ecological Systems Modelling Journal 5: e117593

DOI: 10.3897/fmj.5.117593

Authors: Christopher John Topping, Xiaodong Duan

Abstract: We describe the method used to manage large and complicated populations of autonomous agent-based animal models in the Animal Landscape and Man Simulation System, as implemented in the ALMaSS Population_Manager class. Using three examples, we show how this approach facilitates the representation of populations in a mixed serial and parallel computer model, contributes to the efficiency of code operation and allows detailed behavioural representations to be modelled.

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Methods Wed, 6 Mar 2024 16:30:00 +0200
Modelling foraging strategies of honey bees as agents in a dynamic landscape representation https://fesmj.pensoft.net/article/99103/ Food and Ecological Systems Modelling Journal 5: e99103

DOI: 10.3897/fmj.5.99103

Authors: Nuno Capela, Xiaodong Duan, Elżbieta Ziółkowska, Christopher John Topping

Abstract: Introduction: Both intrinsic colony mechanisms and external environmental variables affect the honey bee colony development rates and response and a key aspect of this is the use of resources within the landscape by honey bees. Although several models have been developed to explore the foraging behaviour of bees, none fully considered the spatial and temporal dynamics of landscape resources and the role of the colony in the process.Methodology: Here, we introduce a new honey bee foraging model being developed as a part of the ApisRAM honey bee colony model. Based on agent-based modelling, we used a dynamic ALMaSS landscape model enhanced with floral resource modelling to assess the impacts of weather conditions and resource availability on the possible foraging behaviour of honey bees. Several possible mechanisms (defined, based on honey bee traits) for scouting and foraging were investigated, separately for nectar and pollen collection, including prioritising foraging polygons for nectar foraging according to their distance to the colony, the quality or the energetic efficiency and, for pollen foraging, according to their distance to the colony and pollen quantity.Results: If model foraging bees prioritised the polygons, based on their distance from the colony, the number of unsuccessful flights increased compared to other tested strategies and the total amount of sugar collected showed a high variability. Contrary to expectations, the energetic efficiency strategy did not provide the colony with the highest amount of sugar. Overall, the tested strategies provide different outcomes on the collection of resources, the number of performed flights and their success rate, evidencing that the model's outcome at the colony level arises from the individual types of behaviour.Conclusions and Relevance: Variability in the mass of collected nectar and pollen was found mostly when scout bees applied the distance strategy. This higher variability in sugar collection means that model bees were not able to find the most profitable foraging sites at the landscape level, but only at the local level. Other strategies showed less dependence on the surrounding landscape (i.e. quality or random), but it comes at a cost (i.e. lower production for both nectar and pollen collection). These outputs help us evaluate which strategies could be used for future model development and confirm the models' ability to create dynamic responses. These responses at the colony level were only possible thanks to the implementation of a dynamic landscape model and dynamic spatiotemporal resource model, as well as implementing a social communication mechanism for bees to share information about the resources. Plant nectar production and quality information is essential to predict honey bee foraging distribution. In future model development, the implementation of pollen quality should also be explored to evaluate if it influences the overall pollen collection.

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Research Article Wed, 6 Mar 2024 16:30:00 +0200
Quantitative risk assessment of Haemolytic and Uremic Syndrome (HUS) from consumption of raw milk soft cheese https://fesmj.pensoft.net/article/109502/ Food and Ecological Systems Modelling Journal 5: e109502

DOI: 10.3897/fmj.5.109502

Authors: Subhasish Basak, Janushan Christy, Laurent Guillier, Frederique Audiat-Perrin, Moez Sanaa, Fanny Tenenhaus-Aziza, Julien Bect, Emmanuel Vazquez

Abstract: The aim of this quantitative risk assessment model is to estimate the risk of Haemolytic Uremic Syndrome (HUS) caused by Shiga-toxin producing Escherichia coli (STEC) in raw milk soft cheese and explore intervention strategies to minimise this risk. Building upon previous work from literature, the model considers microbial contamination of raw milk at the farm level, as well as STEC growth and survival during cheese production, ripening and storage, along with intervention strategies in both pre- and post-harvest scenarios. It allows for the assessment of intervention steps at the farm level or during cheese production. Besides estimating the risk of HUS, it also assesses the production losses associated with interventions.

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FSKX (Food Safety Knowledge) Wed, 6 Mar 2024 16:00:00 +0200
Modelling dynamic pesticide amounts in multiple environmental compartments at landscape scales in ALMaSS https://fesmj.pensoft.net/article/107849/ Food and Ecological Systems Modelling Journal 4: e107849

DOI: 10.3897/fmj.4.107849

Authors: Trine Poulsen, Xiaodong Duan, Christopher Topping

Abstract: A dynamic model of the pesticide amount at a landscape scale (10 km x 10 km with the finest spatial resolution of 1 m2) is implemented in the ALMaSS (Animal, Landscape and Man Simulation System) framework. The spatial resolution can be configured, allowing the user to control how detailed the simulation should be according to the specific needs. Three application types, spray, seed coating treatment and granular, can be applied through the pesticide engine according to the management plan of crops in ALMaSS. A drift model is implemented for the spray application to include the effect on adjacent unsprayed areas. After applying a pesticide, the pesticide module controls transfer amongst different environmental compartments and follows the fate of up to ten different pesticides simultaneously. It enables ALMaSS to be used for complex risk assessment through impact studies of pesticides on many species, including pollinators.

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Methods Wed, 13 Dec 2023 09:10:27 +0200
GeSoN: A Geo-Social Network model applying bounded rationality to farmers in socio-ecological simulations https://fesmj.pensoft.net/article/100714/ Food and Ecological Systems Modelling Journal 4: e100714

DOI: 10.3897/fmj.4.100714

Authors: Antonio Paparella, Luigi Cembalo, Christopher Topping

Abstract:

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Formal Model Article Format Thu, 29 Jun 2023 11:46:18 +0300
The Formal Model for the solitary bee Osmia bicornis L. agent‑based model https://fesmj.pensoft.net/article/102102/ Food and Ecological Systems Modelling Journal 4: e102102

DOI: 10.3897/fmj.4.102102

Authors: Elżbieta Ziółkowska, Agnieszka Bednarska, Ryszard Laskowski, Christopher Topping

Abstract: Solitary bees provide an important ecological and agricultural service by pollinating both wild plants and crops, often more effectively than honey bees. In the context of worldwide pollinators' declines, it is important to better understand the functioning of populations under multiple stressors at larger spatial and temporal scales. Here we propose building a detailed, spatially-explicit agent-based model of one of the best-studied species of solitary bees, Osmia bicornis L. In this Formal Model, we review various aspects of O. bicornis biology and ecology in detail and provide descriptions of their planned implementations in the model. We also discuss the model gaps and limitations, as well as inclusions and exclusions, allowing a dialogue with the reviewers about the model's design.The ALMaSS model of O. bicornis aims to provide a realistic and detailed representation of O. bicornis populations in space and time in European agricultural landscapes. The model will be a part of the Animal, Landscape and Man Simulation System (ALMaSS); thus will be able to utilise a highly detailed, dynamic ALMaSS landscape model. It will consider the behaviour of all bee life stages daily and use state transitions to allow each individual to decide their behaviour. The development of egg-to-pupa stages in the nest will be temperature-driven. Adult bees, after they emerge from the nest in spring, will interact with the environment. They will be able to search for suitable nesting locations, provision their brood cells with pollen and reproduce. Modelled females will balance offspring size and number following the optimal allocation theory, but local environmental factors will modify their actual parental investment decisions. The model will include the daily mortality rate for the egg-to-pupa stages, overwintering mortality, and background mortality outside the nest. We will also consider the risk of open-cell parasitism as increasing with the time the brood cell is open.With the level of detail suggested, the model will be able to simulate population-level dynamics in response to multiple factors at the landscape scale over long periods. The European Food Safety Authority (EFSA) has suggested O. bicornis as a model organism for non-Apis solitary bees in the pesticide risk assessment scheme. Therefore, we hope our model will be a first step in building future landscape risk assessments for solitary bees.

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Formal Model Article Format Tue, 6 Jun 2023 09:16:43 +0300
Data from an online survey on lentil consumption practices in France in 2022 https://fesmj.pensoft.net/article/91025/ Food and Ecological Systems Modelling Journal 3: e91025

DOI: 10.3897/fmj.3.91025

Authors: Aïssétou Yabré, Jeanne-Marie Membré

Abstract: In a context of transition towards plant-based protein diet, a survey aiming to collect the lentil consumer practices in France in 2022 was performed. There were 607 responses to the survey, of which a large majority (556) were lentil consumers. Amongst those, 283 people indicated that they currently eat more lentils than 5 years ago.The questions were related to type of lentil meals, frequency of consumption, type of preparation, storage duration once cooked etc. (Table 1). There were also general questions on age, gender and region. The survey may be used to obtain information on what type of lentils is consumed (and how often) in France, how it is cooked and stored. This information may be then plugged into a food safety risk assessment to refine, for instance, a microbial exposure model.In particular, of the 21 questions asked, four were about possible leftovers and their duration and two about cooling practices for hot meals. This information is crucial for lentils because consumer information about legumes, especially those prepared at home, is still scarce.

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Data Paper (Biosciences) Wed, 5 Oct 2022 11:55:48 +0300
The Formal Model article format: justifying modelling intent and a critical review of data foundations through publication https://fesmj.pensoft.net/article/91024/ Food and Ecological Systems Modelling Journal 3: e91024

DOI: 10.3897/fmj.3.91024

Authors: Christopher John Topping, Luna Kondrup Marcussen, Peet Thomsen, Jordan Chetcuti

Abstract: Documenting complex models has long been a problem. Models are currently developed, implemented, and applied before review. Combined this leads to details hidden in the appendices or too little detail in the methods section to be reproducible. Modellers involve reviewers too late in the process. This does not allow them to flag issues, suggesting redesigns and reruns only after the analysis is complete. We propose splitting the model documentation, before analysis, into three steps: the Formal Model, Implementation Documentation, and Evaluation and Testing. Researchers can then use the well-built model for analysis. We introduce the first of these, the Formal Model as a peer-reviewed paper format that lays out the intentions for the model. The Formal Model includes reviewed literature that identifies the components of the model. Lays out the theoretical framework, modelling approaches and externalities. Plans to implement each process, with equations, descriptions, state variables and scales. Finally, the Formal Model gives the model’s strengths, weaknesses, exclusions, and place in the literature. We provide a flexible template for a Formal Model to aid in establishing a new common format.The Formal Model aims to improve transparency and provide a formal approach to documentation. Reviewers can help improve the model by identifying problems early. The Formal model contains the details needed to allow for reproducibility. It also encourages modellers to think about the consequences of what is and is not included within the model. And finally, it gives the credit that modellers deserve for the involved process of creating a model.

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Formal Model Article Format Tue, 4 Oct 2022 15:47:28 +0300
A network model of the egg supply chain in Germany implemented as a FSKX compliant object https://fesmj.pensoft.net/article/74171/ Food and Ecological Systems Modelling Journal 2: e74171

DOI: 10.3897/fmj.2.74171

Authors: Petra Ganas, Marcel Fuhrmann, Matthias Filter

Abstract: In our days, food supply chains are becoming more and more complex, generating global networks involving production, processing, distribution and sale of food products. To follow the "farm to fork" paradigm when assessing risks from various hazards linked to food products, supply chain network models are useful and versatile tools.The objective of the present "egg supply chain network model" is to allow users to predict and visualise the spatial commodity flow within the German egg supply chain. The network model provides for the user the option to select values for the input parameter "actor" in order to allow simulation of estimates for different supply chain scenarios. It generates a data frame as output regarding the estimates of food flows for the product "chicken eggs" in Germany on NUTS-3 level according to the selected parameter and a chloropleth map for illustrating the distribution of product quantities.The network model and all required resources are provided as a fully annotated file compliant to the community standard Food Safety Knowledge Exchange (FSKX) and can be executed online or with the desktop FSK-Lab software.

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FSKX (Food Safety Knowledge) Wed, 17 Nov 2021 12:30:00 +0200
An FSKX compliant source attribution model for salmonellosis and a look at its major hidden pitfalls https://fesmj.pensoft.net/article/70008/ Food and Ecological Systems Modelling Journal 2: e70008

DOI: 10.3897/fmj.2.70008

Authors: Esther M. Sundermann, Guido Correia Carreira, Annemarie Käsbohrer

Abstract: To reduce the burden of human society that is caused by zoonotic diseases, it is important to attribute sources to human illnesses. One powerful approach in supporting any intervention decision is mathematical modelling. This paper presents a source attribution model which considers five sources (broilers, laying hens, pigs, turkeys) for salmonellosis and uses two datasets from Germany collected over two time periods; one from 2004 to 2007 and one from 2010 to 2011. The model uses a Bayesian modelling approach derived from the so-called Hald model and is based on microbial subtyping. In this case, Salmonella isolates from humans and animals were subtyped with respect to serovar and phage type. Based on that typing, the model estimates how many human salmonellosis cases can be attributed to each of the considered sources. A reference description of the model is available under DOI: 10.1111/zph.12645. Here, we present this model as a ready-to-use resource in the Food Safety Knowledge Exchange (FSKX) format. This open information exchange format allows to re-use, modify, and further develop the model and uses model metadata and controlled vocabulary to harmonise the annotation. In addition to the model, we discuss some technical pitfalls that might occur when running this Bayesian model based on Markov chain Monte Carlo calculations. As source attribution of zoonotic disease is one useful tool for the One Health approach, our work facilitates the exchange, adjustment, and re-usage of this source attribution model by the international and multi-sectoral community.

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FSKX (Food Safety Knowledge) Wed, 3 Nov 2021 09:15:00 +0200
A ready-to-use dose-response model of Campylobacter jejuni implemented in the FSKX-standard https://fesmj.pensoft.net/article/63309/ Food and Ecological Systems Modelling Journal 2: e63309

DOI: 10.3897/fmj.2.63309

Authors: Esther M. Sundermann, Maarten Nauta, Arno Swart

Abstract: Dose-response models are an important part of quantitative microbiological risk assessments. In this paper, we present a transparent and ready-to-use version of a published dose-response model that estimates the probability of infection and illness after the consumption of a meal that is contaminated with the pathogen Campylobacter jejuni. To this end, model and metadata are implemented in the fskx-standard. The model parameter values are based on data from a set of different studies on the infectivity and pathogenicity of Campylobacter jejuni. Both, challenge studies and outbreaks are considered, users can decide which of these is most suitable for their purpose. We present examples of results for typical ingested doses and demonstrate the utility of our ready-to-use model re-implementation by supplying an executable model embedded in this manuscript.

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FSKX (Food Safety Knowledge) Thu, 3 Jun 2021 11:00:00 +0300
Quantitative microbial risk assessment for Salmonella in eggs https://fesmj.pensoft.net/article/39643/ Food and Ecological Systems Modelling Journal 1: e39643

DOI: 10.3897/fmj.1.39643

Authors: Virginie Desvignes, Tasja Buschhardt, Laurent Guillier, Moez Sanaa

Abstract: The scope of this quantitative risk assessment model is to estimate the number of salmonellosis cases per million servings of table egg, as well as the probability of illness when ingesting a random serving of table egg. The model describes the potential egg contamination by Salmonella Enteritidis from farm to fork according to time/temperature storage conditions, as well as consumption practices.

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FSKX (Food Safety Knowledge) Mon, 23 Dec 2019 16:50:00 +0200
Open Science meets Food Modelling: Introducing the Food Modelling Journal (FMJ) https://fesmj.pensoft.net/article/46561/ Food and Ecological Systems Modelling Journal 1: e46561

DOI: 10.3897/fmj.1.46561

Authors: Matthias Filter, Leonardo Candela, Laurent Guillier, Maarten Nauta, Teodor Georgiev, Pavel Stoev, Lyubomir Penev

Abstract: This Editorial describes the rationale, focus, scope and technology behind the newly launched, open access, innovative Food Modelling Journal (FMJ). The Journal is designed to publish those outputs of the research cycle that usually precede the publication of the research article, but have their own value and re-usability potential. Such outputs are methods, models, software and data. The Food Modelling Journal is launched by the AGINFRA+ community and is integrated with the AGINFRA+ Virtual Research Environment (VRE) to facilitate and streamline the authoring, peer review and publication of the manuscripts via the ARPHA Publishing Platform.

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Editorial Tue, 17 Sep 2019 16:06:39 +0300