The International Congress of Entomology 2024 (ICE2024), which took place on August 25-30 2024 in Kyoto, Japan, was arguably the biggest entomology event of the year. For the Pensoft team, it was an excellent chance to catch up with our authors and editors and discuss new partnerships.
At the Kyoto International Conference Center, entomologists visited lectures, symposia, and poster presentations, but they also enjoyed insect-themed haikus, origami, and artworks, and got to sample some edible insects.
— International Congress of Entomology 2024 Kyoto JP (@ice2024kyoto_jp) August 27, 2024
Meeting our authors in person was a chance for us to gather valuable feedback and make sure we are doing our best to provide entomologists with a frictionless process that makes their published research shine.
Robin Kundrata, author in ZooKeys
Deepa Pureswaran, author and editor in NeoBiota
Alain Roques, author and editor in NeoBiota
Jessica Gillung, author in ZooKeys
Ranjith AP, editor in Check List and author in ZooKeys and Journal of Hymenoptera Research
Scientific illustrator Denitsa Peneva’s beautiful works adorned Pensoft’s stand; Mostafa Ghafouri Moghaddam, subject editor at ZooKeys and Biodiversity Data Journal and author at a number of Pensoft-published journals even got to take one of her prints home after winning a raffle that Pensoft organised. He won a beautiful illustration of Bombus fragrans on Trifolium pratense.
Pensoft’s founder and CEO and one of the founding editors of the company’s flagship journal ZooKeys, Prof. Lyubomir Penev, was there representing the company and meeting with fellow entomologists.
Prof. Penev with Evgeny Zakharov of the Centre for Biodiversity Genomics
Prof. Penev with researchers Jadranka Rota, Niklas Wahlberg, Alexander Konstantinov, and Michael Schmidt
Prof. Penev with researcher Caroline S. Chaboo
They also got the chance to learn about the ARPHA Platform, a next-generation publishing solution that offers a streamlined and efficient workflow for authors, reviewers, and editors.
At ICE2024, Pensoft also presented its newest open-access jorunal, Natural History Collections and Museomics. A peer-reviewed journal for research, discussion and innovation of natural history collections, NHCM will publish under a diamond open access model, allowing free access to published content without any fees for authors or readers.
In addition to its publishing endeavors, Pensoft also presented some of the EU-funded pollinator projects that it takes part in such as Safeguard, PollinERA, and WildPosh.
ICE2024 was a chance to advance entomological science and foster collaboration within the global scientific community. For those who missed the chance to connect with Pensoft in Kyoto, the company’s journals and platforms remain accessible online, offering opportunities to read and produce groundbreaking research in insect diversity and ecology.
Invasive plant species pose a major threat to biodiversity and ecosystem health worldwide. However, predicting the exact impact of these invasions is challenging due to the complexity of interactions between invading species, native communities, and impacted ecosystems.
Outlined in a study published in the open-access journal NeoBiota, the framework combines new technologies and techniques to learn and predict how invasive plants alter ecosystems over time and in different environments.
Animated model visualisation of spatial-temporal dynamics of invader impacts. Click here to download a detailed explanation of the model.
The new framework integrates several modern advancements:
Environmental mapping: Progress in remote sensing and ecological monitoring allow researchers to capture detailed information about the environmental conditions of invaded areas. Drones, satellites, and advanced sensory networks can be used to create detailed ecosystem maps, which show how invasive species interact with their environment.
Functional tracers: These are specific indicators that reflect changes in ecosystem functions caused by invasive species. For example, researchers can track the impact of nitrogen-fixing invasive plants on ecosystems using nitrogen isotopes.
Spatio-temporal modelling: By combining environmental data with new modelling techniques, such as AI, researchers can create detailed models showing the spread and impact of invasive species on ecosystems over time. Such models can predict how changes in environmental conditions, such as climate change, might influence an invasive species’ success.
Mechanisms determining plant invasion impact.
Beyond scientific analysis, novel technologies also facilitate communication of ecological impacts, as the authors demonstrate in an animated 3D-video visualisation.
“The framework we’ve introduced offers researchers deeper insights into how invasive plant species interact with their environments, enabling more targeted management to lessen their ecological impact. We advocate for stronger collaboration between ecologists and technical experts to refine and expand these methods.
“Going forward, further research and integration of the wide range of recent methods and tools are needed to enhance the framework’s effectiveness.”
The research team behind the new framework: Christiane Werner, Christine Hellmann and André Große-Stoltenberg.
At the Pensoft’s stand, delegates learned about the scientific publisher’s versatile open-access journal portfolio, as well as related publishing services and the Horizon project where Pensoft is a partner.
Here’s a fun fact: the University of Bologna is the oldest one still in operation in the world. It is also etched in history for being the first institution to award degrees of higher learning.
This year, the annual event themed “Biodiversity positive by 2030” took place in the stunning Italian city of Bologna famous for its historical and cultural heritage, in a way building a bridge between the past of European civilisation and the future, which is now in our hands.
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At the Pensoft’s stand, delegates learned about the scientific publisher’s versatile open-access journal portfolio of over 30 journals covering the fields of ecology and biodiversity, as well as other related services and products offered by Pensoft, including the end-to-end full-featured scholarly publishing platform ARPHA, which hosts and powers all Pensoft journals, in addition to dozens other academic outlets owned by learned societies, natural history museums and other academic institutions.
In addition to its convenient collaborative online environment, user interface and automated export/import workflows, what ARPHA’s clients enjoy perhaps the most, are the various human-provided services that come with the platform, including graphic and web design, assistance in journal indexing, typesetting, copyediting and science communication.
Visitors at the stand could also be heard chatting with Pensoft’s Head of Journal development, Marketing and PR: Iva Boyadzhieva about the publisher’s innovative solutions for permanent preservation and far-reaching dissemination and communication of academic outputs that do not match the traditional research article format.
For example, the Research Ideas and Outcomes (RIO) journal was launched in 2015 by Pensoft as an open-science journal that would publish ‘unconventional’ research outputs, such as Grant proposals, Policy briefs, Project reports, Data management plans, Research ideas etc. Its project-branded open-science collections are in fact one of the Pensoft’s products that enjoys particular attention to participants in scientific projects funded by the likes of the European Commission’s Horizon programme.
Another innovation by Pensoft that easily becomes a talking point at forums like ECCB, is the ARPHA Conference Abstract (ACA) platform, which is basically a journal for conference abstracts, where abstracts are treated and published much like regular journal articles (a.k.a. ‘mini papers’) to enable permanent preservation, but also accessibility, discoverability and citability. Furthermore, ACA has been designed to act as an abstracts submission portal, where the abstracts undergo review and receive feedback before being published and indexed at dozens of relevant scientific databases.
On Wednesday, delegates also got a chance to hear the talk by renowned vegetation ecologist at the ZHAW Zurich University of Applied Sciences and Editor-in-Chief at the Vegetation Classification and Survey journal: Prof. Dr. Jürgen Dengler. He presented findings and conclusions concerning neophytes in Switzerland, while drawing comparisons with other European countries and regions.
🌱 Presence of #neophytes is not necesarily problematic, and can actually have positive effect, concludes recent research on 🇨🇭Swiss #grasslands diversity.
At this year’s ECCB, Pensoft took a stand as an active Horizon project participant too. At the publisher’s booth, the delegates could explore various project outputs produced within REST-COAST, SpongeBoost and BioAgora. Each of these initiatives has been selected by the European Commission to work on the mitigation of biodiversity decline, while aiming for sustainable ecosystems throughout the Old continent.
In all three projects, Pensoft is a consortium member, who contributes with expertise in science communication, dissemination, stakeholder engagement and technological development.
Having started earlier this year, SpongeBoost is to build upon existing solutions and their large-scale implementation by implementing innovative approaches to improve the functional capacity of sponge landscapes. The project is coordinated by the Helmholtz Centre for Environmental Research (UFZ) and will be developed with the active participation of 10 partnering institutions from seven countries across Europe.
In the meantime, since 2022, the five-year BioAgora project has been working towards setting up the Science Service for Biodiversity platform, which will turn into an efficient forum for dialogue between scientists, policy actors and other knowledge holders. BioAgora is a joint initiative, which brings together 22 partners from 13 European countries led by the Finnish Environment Institute (SYKE).
4/🧵 The @HorizonEU project @BioAgoraEU is to create an efficient platform for dialogue between #scientists, policy actors & other knowledge holders.
Still, REST-COAST, SpongeBoost and BioAgora were not the only Horizon projects involving Pensoft that made an appearance at ECCB this year thanks to the Pensoft team.
On behalf of OBSGESSION – another Horizon-funded project, Nikola Ganchev, Communications officer at Pensoft, presented a poster about the recently started project. Until the end of 2027, the OBSGESSION project, also led by the Finnish Environment Institute (SYKE) and involving a total of 12 partnering organisations, will be tasked with the integration of different biodiversity data sources, including Earth Observation, in-situ research, and ecological models. Eventually, these will all be made into a comprehensive product for biodiversity management in both terrestrial and freshwater ecosystems.
On Tuesday evening, the CO-OP4CBD (abbreviation for Co-operation for the Convention on Biological Diversity) team: another Horizon Europe project, where Pensoft contributes with expertise in science communication and dissemination, held a workshop dedicated to what needs to be done to promote CBD activities in Central and Eastern Europe.
On the next day, scientists from the EuropaBON consortium: another project involving Pensoft that had concluded only about a month ago, held a session to report on the final conclusions from the project concerning the state and progress in biodiversity monitoring.
📌Eastern Europe and countries outside Europe underrepresented in the @EuropaBon_H2020 network, reports Christian Langer at #eccb2024bologna.
Scholarly publisher Pensoft is excited to announce it is now on Chinese social media platform Weibo. The move is aimed at fostering stronger connections with researchers, academics, and enthusiasts in China, which in turn will enhance the dissemination of scientific knowledge and facilitate international collaboration.
With over half a billion active users, Weibo is a powerful social media platform that combines the functionalities of microblogging and social networking. The Pensoft team is looking forward to engaging in real-time conversations with its Chinese audience, sharing insights, and receiving their feedback.
The launch coincides with the Dragon Boat Festival, a significant cultural event in China that commemorates the ancient poet Qu Yuan and symbolizes unity and teamwork.
The move aims to make Pensoft’s publications and updates more accessible to Chinese researchers, allowing them to stay informed about the latest scientific discoveries and advancements. In addition, it offers an excellent opportunity for Pensoft to foster collaborations with Chinese institutions, researchers, and academic societies.
As a pioneer in open-access publishing, Pensoft will also use its Weibo account to promote the benefits of open access, making sure Chinese research reaches a global audience without paywalls.
“China, with its rapidly growing research output and a burgeoning community of scholars, represents a significant segment of the global academic landscape. Recognizing the importance of engaging with this vibrant community, Pensoft’s decision to establish a presence on Weibo underscores its commitment to inclusivity and accessibility in scientific publishing,” says Lyubomir Penev, CEO and founder of Pensoft.
We invite you to join Pensoft’s Weibo account to learn all about our latest scientific discoveries and publishing updates.
Within theBiodiversity Community Integrated Knowledge Library (BiCIKL) project, 14 European institutions from ten countries, spent the last three years elaborating on services and high-tech digital tools, in order to improve the findability, accessibility, interoperability and reusability (FAIR-ness) of various types of data about the world’s biodiversity. These types of data include peer-reviewed scientific literature, occurrence records, natural history collections, DNA data and more.
By ensuring all those data are readily available and efficiently interlinked to each other, the project consortium’s intention is to provide better tools to the scientific community, so that it can more rapidly and effectively study, assess, monitor and preserve Earth’s biological diversity in line with the objectives of the likes of the EU Biodiversity Strategy for 2030 and the European Green Deal. Their targets require openly available, precise and harmonised data to underpin the design of effective measures for restoration and conservation, reminds the BiCIKL consortium.
Since 2021, the project partners at BiCIKL have been working together to elaborate existing workflows and links, as well as create brand new ones, so that their data resources, platforms and tools can seamlessly communicate with each other, thereby taking the burden off the shoulders of scientists and letting them focus on their actual mission: paving the way to healthy and sustainable ecosystems across Europe and beyond.
Now that the three-year project is officially over, the wider scientific community is yet to reap the fruits of the consortium’s efforts. In fact, the end of the BiCIKL project marks the actual beginning of a European- and global-wide revolution in the way biodiversity scientists access, use and produce data. It is time for the research community, as well as all actors involved in the study of biodiversity and the implementation of regulations necessary to protect and preserve it, to embrace the lessons learned, adopt the good practices identified and build on the knowledge in existence.
This is why amongst the BiCIKL’s major final research outputs, there are two Policy Briefs meant to summarise and highlight important recommendations addressed to key policy makers, research institutions and funders of research. After all, it is the regulatory bodies that are best equipped to share and implement best practices and guidelines.
Most recently, the BiCIKL consortium published two particularly important policy briefs, both addressed to the likes of the European Commission’s Directorate-General for Environment; the European Environment Agency; the Joint Research Centre; as well as science and policy interface platforms, such as the EU Biodiversity Platform; and also organisations and programmes, e.g. Biodiversa+ and EuropaBON, which are engaged in biodiversity monitoring, protection and restoration. The policy briefs are also to be of particular use to national research funds in the European Union.
One of the newly published policy briefs, titled “Uniting FAIR data through interlinked, machine-actionable infrastructures”, highlights the potential benefits derived from enhanced connectivity and interoperability among various types of biodiversity data. The publication includes a list of recommendations addressed to policy-makers, as well as nine key action points. Understandably, amongst the main themes are those of wider international cooperation; inclusivity and collaboration at scale; standardisation and bringing science and policy closer to industry. Another major outcome of the BiCIKL project: the Biodiversity Knowledge Hub portal is noted as central to many of these objectives and tasks in its role of a knowledge broker that will continue to be maintained and updated with additional FAIR data-compliant services as a living legacy of the collaborative efforts at BiCIKL.
The second policy brief, titled “Liberate the power of biodiversity literature as FAIR digital objects”, shares key actions that can liberate data published in non-machine actionable formats and non-interoperable platforms, so that those data can also be efficiently accessed and used; as well as ways to publish future data according to the best FAIR and linked data practices. The recommendations highlighted in the policy brief intend to support decision-making in Europe; expedite research by making biodiversity data immediately and globally accessible; provide curated data ready to use by AI applications; and bridge gaps in the life cycle of research data through digital-born data. Several new and innovative workflows, linkages and integrative mechanisms and services developed within BiCIKL are mentioned as key advancements created to access and disseminate data available from scientific literature.
While all policy briefs and factsheets – both primarily targeted at non-expert decision-makers who play a central role in biodiversity research and conservation efforts – are openly and freely available on the project’s website, the most important contributions were published as permanent scientific records in a BiCIKL-branded dedicated collection in the peer-reviewed open-science journal Research Ideas and Outcomes (RIO). There, the policy briefs are provided as both a ready-to-print document (available as supplementary material) and an extensive academic publication.
Currently, the collection: “Towards interlinked FAIR biodiversity knowledge: The BiCIKL perspective” in the RIO journal contains 60 publications, including policy briefs, project reports, methods papers, conference abstracts, demonstrating and highlighting key milestones and project outcomes from along the BiCIKL’s journey in the last three years. The collection also features over 15 scientific publications authored by people not necessarily involved in BiCIKL, but whose research uses linked open data and tools created in BiCIKL. Their publications were published in a dedicated article collection in the Biodiversity Data Journal.
As climate change continues its relentless march, the world faces not only rising temperatures and extreme weather, but also an insidious threat to our homes: invasive termites. And the bill could be steep – invasive termites currently cost over 40 billion USD annually.
In a new study published in the open-access journal Neobiota, PhD student Edouard Duquesne and Professor Denis Fournier from the Evolutionary Biology & Ecology lab (Université libre de Bruxelles) unveil the unsettling reality of invasive termites’ potential expansion into new territories.
Their research reveals that as temperatures rise and climate patterns shift, cities worldwide, from tropical hotspots like Miami, Sao Paulo, Lagos, Jakarta or Darwin to temperate metropolises like Paris, Brussels, London, New York or Tokyo, could soon find themselves under siege by these tiny yet destructive pests.
But how do termites, typically associated with tropical climates, find their way into cities far beyond their natural habitat? The answer lies in the interconnectedness of our modern world. Urbanisation, with its dense populations and bustling trade networks, provides the perfect breeding ground for termite invasions.
Moreover, the global movement of goods, including wooden furniture transported by private vessels, offers unsuspecting pathways for these silent invaders to hitch a ride into our homes.
“A solitary termite colony, nestled within a small piece of wood, could clandestinely voyage from the West Indies to your Cannes apartment. It might lurk within furniture aboard a yacht moored at the Cannes Film Festival marina.”
“Mating is coming. Termite queens and kings, attracted by lights, may initiate reproduction, laying the groundwork for new colonies to conquer dry land.”
Researchers Edouard Duquesne and Denis Fournier.
Duquesne and Fournier’s research emphasises the need for a paradigm shift in how we approach invasive species modelling. By integrating connectivity variables like trade, transport, and population density, their study highlights the importance of understanding the intricate interactions that facilitate termite spread.
In light of these findings, the researchers urge swift action from policymakers and citizens alike. Major cities, regardless of their climate zone, must implement strict termite control measures to protect homes and infrastructure.
“Citizens can play a crucial role by leveraging technology, such as AI-assisted apps like iNaturalist, to detect and report potential termite sightings, turning ordinary residents into vigilant guardians of their environment,” say the researchers.
“As we confront the challenges of a rapidly changing climate, awareness and proactive measures are our best defence against the creeping menace of invasive termites,” they conclude.
Research from Wageningen University and Research, the Netherlands, reveals invasive lionfish are rapidly expanding their territory in the Mediterranean sea, causing severe ecological damage.
Published in the open-access journal NeoBiota, the study shows the lionfish species Pterois miles – known as the devil firefish – has established presence in the eastern Mediterranean, with observations now extending to colder waters previously thought to be unsuitable for the species.
Map of years of first sighting of Pterois miles by dive centres. Credit: Bottacini et al.
Originating from the Indo-Pacific region, the lionfish species Pterois miles and Pterois volitans are regarded as the most successful and lethal invasive fishes in marine ecosystems, with the capacity to drastically affect local fish communities and biodiversity in invaded areas.
The invasion of Pterois miles in the Mediterranean Sea began around ten years ago. Genetic studies reveal the invasive fish originated from the Red Sea and likely entered through the Suez Canal.
The beautiful but deadly devil firefish. Credit: Kora27 via Wikimedia Commons.
Lionfish are generalist predators and impact ecosystems by preying extensively on local fishes, including endemics of high conservation value. As they are unaccustomed to lionfish, native prey species usually do not flee from this new predator.
“After years studying these predators, I find it amazing how they can easily adjust to so many different environments and be successful in areas so different from where they evolve.”
“It is always impressive to see how such a flamboyant and–to us–conspicuous predator can approach its prey without being noticed”
The study’s lead author, Davide Bottacini.
The fin spines of Pterois miles are highly venomous. A sting can cause extreme pain, sickness, convulsions, minor paralysis, and breathing difficulties in humans. Immediate emergency medical attention is recommended for anyone stung by the species.
By reviewing existing scientific data, researchers identified gaps in current understanding of the lionfish’s interactions with Mediterranean ecosystems.
They suggest that, while they consider the eradication of invasive lionfish impossible, tackling questions such as the community-level impact of them in the Mediterranean, and the evolutionary and learned responses in prey, will add to the body of knowledge on the best documented invasion in marine ecosystems.
Maps of dive centre respondents and lionfish sightings. Credit: Bottacini et al.
Such information provides insights vital for biodiversity conservation, with practical implications for policy makers aiming to devise efficient mitigation plans.
Citizen science initiatives for tracking and reporting lionfish sightings are encouraged to provide valuable data that supports ongoing research efforts. Such community involvement is essential for enhancing understanding of the invasion dynamics and devising effective control measures.
Original source
Bottacini D, Pollux BJA, Nijland R, Jansen PA, Naguib M, Kotrschal A (2024) Lionfish (Pterois miles) in the Mediterranean Sea: a review of the available knowledge with an update on the invasion front. NeoBiota 92: 233–257. https://doi.org/10.3897/neobiota.92.110442
Leiden – also known as the ‘City of Keys’ and the ‘City of Discoveries’ – was aptly chosen to host the third Empowering Biodiversity Research (EBR III) conference. The two-day conference – this time focusing on the utilisation of biodiversity data as a vehicle for biodiversity research to reach to Policy – was held in a no less fitting locality: the Naturalis Biodiversity Center.
On 25th and 26th March 2024, the delegates got the chance to learn more about the latest discoveries, trends and innovations from scientists, as well as various stakeholders, including representatives of policy-making bodies, research institutions and infrastructures. The conference also ran a poster session and a Biodiversity Informatics market, where scientists, research teams, project consortia, and providers of biodiversity research-related services and tools could showcase their work and meet like-minded professionals.
BiCIKL stops at the Naturalis Biodiversity Center
The main outcome of the BiCIKL project: the Biodiversity Knowledge Hub, a one-stop knowledge portal to interlinked and machine-readable FAIR data.
The famous for its bicycle friendliness country also made a suitable stop for BiCIKL (an acronym for the Biodiversity Community Integrated Knowledge Library): a project funded under the European Commission’s Horizon 2020 programme that aimed at triggering a culture change in the way users access, (re)use, publish and share biodiversity data. To do this, the BiCIKL consortium set off on a 3-year journey to build on the existing biodiversity data infrastructures, workflows, standards and the linkages between them.
Many of the people who have been involved in the project over the last three years could be seen all around the beautiful venue. Above all, Naturalis is itself one of the partnering institutions at BiCIKL. Then, on Tuesday, on behalf of the BiCIKL consortium and the project’s coordinator: the scientific publisher and technology innovator: Pensoft, Iva Boyadzhieva presented the work done within the project one month ahead of its official conclusion at the end of April.
As she talked about the way the BiCIKL consortium took to traverse obstacles to wider use and adoption of FAIR and linked biodiversity data, she focused on BiCIKL’s main outcome: the Biodiversity Knowledge Hub (BKH).
Key results from the BiCIKL project three years into its existence presented by Pensoft’s Iva Boyadzhieva at the EBR III conference.
Intended to act as a knowledge broker for users who wish to navigate and access sources of open and FAIR biodiversity data, guidelines, tools and services, in practicality, the BKH is a one-stop portal for understanding the complex but increasingly interconnected landscape of biodiversity research infrastructures in Europe and beyond. It collates information, guidelines, recommendations and best practices in usage of FAIR and linked biodiversity data, as well as a continuously expanded catalogue of compliant relevant services and tools.
At the core of the BKH is the FAIR Data Place (FDP), where users can familiarise themselves with each of the participating biodiversity infrastructures and network organisations, and also learn about the specific services they provide. There, anyone can explore various biodiversity data tools and services by browsing by their main data type, e.g. specimens, sequences, taxon names, literature.
While the project might be coming to an end, she pointed out, the BKH is here to stay as a navigation system in a universe of interconnected biodiversity research infrastructures.
To do this, not only will the partners continue to maintain it, but it will also remain open to any research infrastructure that wishes to feature its own tools and services compliant with the linked and FAIR data requirements set by the BiCIKL consortium.
Indisputably, the ‘hot’ topics at the EBR III were the novel technologies for remote and non-invasive, yet efficient biomonitoring; the utilisation of data and other input sourced by citizen scientists; as well as leveraging different types and sources of biodiversity data, in order to better inform decision-makers, but also future-proof the scientific knowledge we have collected and generated to date.
Project’s coordinator Dr Quentin Groom presents the B-Cubed’s approach towards standardised access to biodiversity data for the use of policy-making at the EBR III conference.
Amongst the other Horizon Europe projects presented at the EBR III conference was B-Cubed (Biodiversity Building Blocks for policy). On Monday, the project’s coordinator Dr Quentin Groom (Meise Botanic Garden) familiarised the conference participants with the project, which aims to standardise access to biodiversity data, in order to empower policymakers to proactively address the impacts of biodiversity change.
You can find more about B-Cubed and Pensoft’s role in it in this blog post.
Dr France Gerard (UK Centre for Ecology & Hydrology) talks about the challenges in using raw data – including those provided by drones – to derive habitat condition metrics.
MAMBO: another Horizon Europe project where Pensoft has been contributing with expertise in science communication, dissemination and exploitation, was also an active participant at the event. An acronym for Modern Approaches to the Monitoring of BiOdiversity, MAMBO had its own session on Tuesday morning, where Dr Vincent Kalkman (Naturalis Biodiversity Center), Dr France Gerard (UK Centre for Ecology & Hydrology) and Prof. Toke Høye (Aarhus University) each took to the stage to demonstrate how modern technology developed within the project is to improve biodiversity and habitat monitoring. Learn more about MAMBO and Pensoft’s involvement in this blog post.
MAMBO’s project coordinator Prof. Toke T. Høye talked about smarter technologies for biodiversity monitoring, including camera traps able to count insects at a particular site.
On the event’s website you can access the MAMBO’s slides presentations by Kalkman, GerardandHøye, as presented at the EBR III conference.
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The EBR III conference also saw a presentation – albeit remote – from Prof. Dr. Florian Leese (Dean at the University of Duisburg-Essen, Germany, and Editor-in-Chief at the Metabarcoding and Metagenomics journal), where he talked about the promise, but also the challenges for DNA-based methods to empower biodiversity monitoring.
Amongst the key tasks here, he pointed out, are the alignment of DNA-based methods with the Global Biodiversity Framework; central push and funding for standards and guidance; publication of data in portals that adhere to the best data practices and rules; and the mobilisation of existing resources such as the meteorological ones.
He also made a reference to the Forum Paper “Introducing guidelines for publishing DNA-derived occurrence data through biodiversity data platforms” by R. Henrik Nilsson et al., where the international team provided a brief rationale and an overview of guidelines targeting the principles and approaches of exposing DNA-derived occurrence data in the context of broader biodiversity data. In the study, published in the Metabarcoding and Metagenomics journal in 2022, they also introduced a living version of these guidelines, which continues to encourage feedback and interaction as new techniques and best practices emerge.
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You can find the programme on the conference website and see highlights on the conference hashtag: #EBR2024.
Invasive species spread through human activities are one of the main causes of the ongoing biodiversity crisis.
Even on South Georgia, a remote island located in the very south of the Atlantic Ocean, exotic species are present. Many of which were inadvertently introduced by whalers and sealers in the 19th and early 20th century.
The invasive carabid ground beetle, Merizodus soledadinus, is present on sites that have been recently exposed by melting glaciers.
In a new study published in the open-access journal Neobiota and funded by Darwin Plus, researchers explored how living organisms colonise new ground provided by melting glaciers.
Like other cold regions of the world, South Georgia is losing its glaciers because of climate change, leaving behind large areas of newly uncovered bare ground.
Invasive annual meadow grass colonising ground only a few years after the glacier disappeared.
Researchers surveyed the foreland biodiversity of six glaciers, creating an inventory of the flora and fauna that colonise forelands at different stages of glacial retreat.
A survey site near a former whaling station (Grytviken).
They found that, just a few years after bare ground is exposed by a glacier melting, pioneer plants arrive, progressively covering more ground with time, followed by an increasing number of species.
Rocky terrain by Glacier Col.
Native and exotic plants, as well as invertebrates, take advantage of this opportunity. Surprisingly, two temperate plant species from the Northern Hemisphere, annual meadow grass and mouse-ear chickweed, colonise sites faster than any other species.
The team suggests their results indicate invasive species will likely spread on South Georgia as fast as glaciers are retreating. Whether this has or will have negative consequences on local species needs to be investigated to help protect this unique ecosystem.
In a leap towards managing the ecological challenge posed by alien plant species, a recent study outlines a methodology for integrating and harmonising data on plant invasions across Australia.
Published in NeoBiota, the researchers created a standardised and unified database at the Australian national level, known as the Alien Flora of Australia, which will help monitoring and early-warning of alien flora, prevent species introduction, streamline decision-making, and bolster biosecurity efforts.
Harmonised workflow to unify terminology on biological invasions across Australian data sources. Credit: Dr Irene Martín-Forés.
Focusing on Australia, a federally managed country, they identified mismatches in definitions and records of invasion status for vascular plant taxa across different jurisdictions. They then proposed prioritisation procedures to tackle those mismatches and to integrate information from ten data sources into a harmonised workflow at the national scale.
“The importance of harmonising terminology on biological invasions cannot be overstated. It is not merely an academic pursuit but a practical necessity, essential for realising meaningful advancements in invasion ecology.”
Dr Irene Martín-Forés
The authors recognise that the words used to describe alien species profoundly influence how humans perceive, study, and manage biological invasions. In federally managed countries, the problem is worse, as fragmented terminologies across different jurisdictions create confusion and inconsistencies in species classification and invasion statuses, therefore hindering effective communication among researchers, policymakers, and stakeholders.
Prioritisation procedure to assign the most conservative invasion status for a given species in a given Australian state after comparing the records in the corresponding state census and in the Australian Plant Census (APC). Credit: Dr Irene Martín-Forés.
The benefits of harmonising terminology on invasion ecology and combining contrasting data sources into a unified dataset at the Australian national scale extend far beyond semantic clarity. It enhances the accuracy of available datasets, and subsequently the reliability of scientific research focused on plant invasion. It also streamlines communication across jurisdictional borders and disciplines and empowers evidence-based decision-making in biosecurity management.
The workflow developed and its associated R script can be easily adapted to be used in any federally managed country, saving future efforts into trying to deal with inconsistencies in species’ invasion statuses.
Original source:
Martín-Forés I, Guerin GR, Lewis D, Gallagher RV, Vilà M, Catford JA, Pauchard A, Sparrow B (2024) Towards integrating and harmonising information on plant invasions across Australia. NeoBiota 92: 61-83. https://doi.org/10.3897/neobiota.92.113013
