Tag: ecosystems

Call Me Invasive: New Evidence Confirms the Status of the Giant Asian Mantis in Europe

These mantises are increasingly threatening local biodiversity through aggressive predation and reproductive competition.

In the realm of entomology, few creatures command as much fascination as the mantis. Throughout history, these striking insects have been deeply woven into local myths and legends, sometimes respected as mystical soothsayers that can guide lost travelers home, and other times feared as little devils. 

Today they remain captivating animals, serving as excellent bioindicators of biodiversity, and helping us identify rich and diverse ecosystems when present as native species. 

However, a new study published in the open-access Journal of Orthoptera Research reports that two mantis species identified in Europe – Hierodula tenuidentata and Hierodula patellifera – have been formally recognised as Invasive Alien Species (IAS). This shift in status highlights a growing threat to the biodiversity that native mantises typically help us protect. Led by Roberto Battiston of the Museum of Archaeology and Natural Sciences “G. Zannato”, a team of researchers investigated the impacts of these native to Asia species on European ecosystems which, until now, were largely unknown.

According to Battiston, these mantises have been present in Europe for about a decade, but their numbers have recently exploded in the Mediterranean and continental regions. 

“They are pushing increasingly further north, thanks to climate change,” Battiston explains, noting that viable populations are now frequently spotted by the public in local parks and gardens. Because they are large and fascinating, they often inspire more curiosity than concern, with members of the public frequently wondering if these striking insects are a positive sign for their local environment.

“This study was born to give people those answers and to develop strategies to contain them.”

  • Hierodula patellifera eating a wasp and honeybee. (Photo credit: Roberto Battiston).
  • Hierodula eating Mantis religiosa. (Photo credit: Massimiliano Bonatti).

Hierodula tenuidentata and Hierodula patellifera are large and adaptable tree-dwelling predators, characterised by their high reproductive potential. They are capable of hatching an average of around 200 nymphs per egg case, which is almost double that of the native European mantis (Mantis religiosa). Coupled with their low rate of cannibalism among young nymphs, they are able to grow very rapidly. 

  • Size comparison of patellifera (on the left) and tenuidentata (on the right). (Photo credit: Roberto Battiston).
  • Roberto Battiston (left) and William Di Pietro (right) conducting field research. (Photo Credit: Roberto Battiston).

These species are considered particularly dangerous to local biodiversity because they fatally lure native males into mating attempts that end in the males being eaten, potentially depressing native populations. They additionally consume a wide range of other native species, including essential pollinators like honeybees, and small protected vertebrates such as lizards and tree frogs. These negative interactions demonstrate the need for urgent assessments, particularly in Mediterranean islands with endemic species of invertebrates and vertebrates.

  • Negative interactions of Hierodula preying on vertebrates – Wall lizard. (Photo credit: Flavio Basilico).
  • Negative interactions of Hierodula preying on vertebrates – Wall lizard. (Photo credit: Primo Chittaro and Caterina Biscaro).
  • Negative interactions of Hierodula preying on invertebrates. (Photo credit: Antonella Bianchi, Sebastiano Mattia Silenzi, Davide Maistrello, Simona Tenani and Matteo Algeri Bricoli).

Interestingly, domestic cats have emerged as the primary vertebrate predator of the invasive Asian mantises, accounting for 45% of recorded positive predation events. Battiston notes that while cats serve as an effective means of containment for these invaders, they are unable to distinguish between alien and native species. Consequently, roaming cats also prey on native species like the European mantis, which already suffer competition from their exotic cousins in peri-urban environments and are in decline. 

  • Positive interactions of vertebrates preying on Hierodula – Domestic cat. (Photo credit: Patrizia Ruggeri).
  • Athene noctua – The Little Owl. (Photo credit: Marina Zambelli).
  • Cyanistes caeruleus – Eurasian blue tit. (Photo credit: Alessandra Previtali).
  • Dendrocopos major – Great Spotted Woodpecker. (Photo credit: Alessandra Previtali).

Human-modified environments, particularly in urban and suburban areas, significantly facilitate the expansion of Hierodula mantises. These insects utilise artificial structures, such as insect hotels, as concentrated hunting grounds, and leverage urban heat islands to survive longer into colder months. Thus, by exploiting human infrastructure and localised warming, these mantises are successfully extending their range and survival beyond natural limits.

To mitigate the spread of Hierodula, Battiston mentions the following initiative:

“My colleagues William di Pietro and Antonio Fasano (GRIO) have managed to set up a huge citizen science project and collect over 2,300 reports from enthusiasts and citizens. Citizen science is a fundamental tool not only for monitoring but also for raising awareness and informing people in an active and participatory way about these issues.”

Hierodula patellifera. (Video credit: Roberto Battiston).

Beyond reporting sightings, the public can also take direct action by intervening during the winter months when trees and shrubs are leafless. During this time, the oothecae – brownish, spongy egg cases about 2-3 cm in size – are well-exposed and easily recognisable on branches. While these cases are easy to remove and their destruction is painless, Battiston cautions that the public should always consult a specialist before removal to ensure that they are not accidentally targeting native mantises.

Hierodula patellifera eating a wasp and a bee at the same time. (Video credit: Roberto Battiston).

The expansion of the Asian mantis is a powerful reminder of how human activity shifts natural boundaries and makes active community-led conservation more important than ever. As these adaptable invaders continue to reshape European ecosystems, our collective vigilance and participation in citizen science are effective tools for protecting Europe’s native biodiversity.

Original source:

Battiston R, Di Pietro W, Boscato F, Fasano A (2026) Call me invasive: Testing the first impacts of the alien mantises Hierodula patellifera and Hierodula tenuidentata on European biodiversity. Journal of Orthoptera Research 35(1): 179-190. https://doi.org/10.3897/jor.35.165233

For more interesting articles on orthoptera, visit the Journal of Orthoptera Research website and follow us on Bluesky and Facebook.

New Horizon Europe project supports land-coast-sea systems under climate change

“COAST-SCAPES is a collective effort to rethink how we coexist with coastal systems”, explains project coordinator Prof. Manel Grifoll.

COAST-SCAPES: a newly launched project, funded by the European Commission, is to propose a reconsideration of the current coastal ecosystem to enhance resilience and biodiversity protection through nature-based solutions.

Leading maritime engineering specialists, marine ecologists, and biodiversity experts, gathered in Barcelona (Spain) between 7 and 9 October to officially kick start the project’s vision on climate-resilient coastal landscapes. Hosted by the Maritime Engineering Laboratory from the Polytechnic University of Catalonia, the meeting focused on setting the strategic direction of the project, aligning the scientific, technical and communication objectives and establishing synergies between project partners across Europe and beyond. 

In the span of two days, consortium partners were given the opportunity to present their missions with the COAST-SCAPES project, showcasing how each partner institution will contribute to building science-based and community-driven resilience pathways. 

The project coordinator, Prof. Manel Grifoll, navigated the discussions, which centered around key deliverables and milestones, future challenges and plans on work-related activities, highlighting the crucial role of the project’s Core and Replicating Pilots for scalable resilience plans for replication and export. 

A group photo of the COAST-SCAPES consortium at the project’s kick-off (Barcelona, October 2025).

Officially started on 1 September 2025, the COAST-SCAPES project has major ambitions to co-design systemic resilience solutions for coastal landscapes by developing integrated indicators, proactive climate warning systems, as well as knowledge-based strategies for business and maintenance in order to reduce the risks of climate change and improve land-sea interactions. To achieve this, COAST-SCAPES will promote the utilisation of nature-based solutions (NbS), seeking biodiversity gains and reduction of the environmental footprint under scarce natural resources. 

The project brings together a diverse group of partners, including research institutions, universities and technological organisations from Europe, Africa and Latin America. Their shared goal is to restore vulnerable coastal areas and apply resilience through adaptation. Due to human intervention, which drastically altered the evolution of coastal ecosystems, the ecological role of such areas is becoming crucial. By harnessing their low-carbon adaptation potential, coastal ecosystems can mitigate climate-related risks and boost biodiversity.

COAST-SCAPES is a collective effort to rethink how we coexist with coastal systems. By integrating natural processes, technology, and community knowledge, we aim to create adaptive landscapes that safeguard biodiversity and support sustainable livelihoods. Our ambition is to build resilient coasts that can thrive, not just survive, under climate change.

says Prof. Manel Grifoll, project coordinator.

The selected project’s Core Pilots, among which the Mar Menor lagoon in the Iberian Peninsula, will serve as a starting point for leading experts to carry out large-scale resilience plans, while protecting coastal biodiversity and addressing existing infrastructure challenges. 

Supported by social and technical innovation, as well as a governance shift, these plans will connect scientists, citizens, policy-makers, environmental activists, and the industry with administrations responsible for local implementations for an increased cross-sectoral engagement. Contributing to a balanced land-to-sea ecosystem and a sustainable biodiversity protection, COAST-SCAPES reminds us that coastal restoration is vital for our adaptation to climate change.

Pensoft’s contribution to COAST-SCAPES:

Pensoft will lead two tasks within the COAST-SCAPES’ Work Package dedicated to dissemination and communication for practical exploitation. The objectives of these tasks are focused on the identification of key exploitable results of the project. Together with other consortium members, Pensoft will be working on establishing the most suitable exploitation pathways for each result. The experienced communication team at the scholarly publishing and technology providing company will also be actively raising societal and technical awareness necessary to transform governance for systemic resilience through yearly newsletters and policy briefs. In addition, Pensoft takes part in Work Package 6, where it will be responsible for the project’s visual identity and ensuring constant visibility of project results, as well as proper data management

List of project consortium members: 

Coordinated by the Polytechnic University of Catalonia, the project brings together 30 partner organisations from 15 countries to develop coastal resilience through nature-based solutions (NbS).

  1. Polytechnic University of Catalonia (UPC) 
  2. EURECAT Technology Centre 
  3. The New Water Culture Foundation (FNCA)
  4. National Research and Development Institute for Marine Geology and Geoecology (GeoEcoMar) 
  5. Consortium for the coordination of research relating to the Venice lagoon system (CORILA) 
  6. National Institute of Oceanography and Experimental Geophysics (OGS) 
  7. Euro-Mediterranean Center on Climate Change (CMCC)
  8. Scottish Association for Marine Science (SAMS)
  9. Royal Melbourne Institute of Technology Spain SL (RMIT Spain)
  10.  University of Aveiro (UA) 
  11.  Pensoft Publishers (Pensoft) 
  12.  Ludwig-Maximilians-Universität München (LMU)
  13.  Lower Saxony State Office for Water Management, Coastal Protection and Nature Conservation (NLWKN) 
  14.  University of Save (USV)
  15.  Northern University Foundation (UNR) 
  16.  Mohammed Premier University (UMP) 
  17.  Assane-Seck University of Ziguinchor (UASZ)  
  18.  Global Climate Forum (GCF) 
  19.  Helmholtz-Zentrum Hereon GMBH 
  20.  Odesa I.I. Mechnykov National University 
  21.  International Center for Coastal Resources Research of Spain 
  22.  Can Tho University 
  23.  Ministry of Infrastructure and of Transport of Italy 
  24.  Spanish National Research Council (CSIC) 
  25.  University of San Francisco de Quito (USFQ) 
  26.  WWF Romania 
  27.  Association for the Defense of Nature/WWF – Spain 
  28.  Royal Melbourne Institute of Technology – RMIT University (RMIT Uni) 
  29.  Ministry for Ecological Transition and the Demographic Challenge of Spain (MITECO) 
  30.  Portuguese Environment Agency (APA)
For more information:

Follow the COAST-SCAPES project on Bluesky and LinkedIn.

Project website coming soon!

Funded by the European Union under grant agreement No. 101213138, COAST-SCAPES (rethinking COASTal landSCAPES with climate-resilient interventions: systemic land-to-sea solutions).

Views and opinions expressed are, however, those of the author(s) only and do not necessarily reflect those of the European Union or the European Research Executive Agency (REA). Neither the EU, nor the REA can be held responsible for them.

Elephant instead of wild boar? What could have been in Europe

Even under today’s climatic conditions, the long-extinct straight-tusked elephant could still live in Europe.

Elephants are among the largest land mammals on Earth and are often referred to as “ecosystem engineers” because they sustainably alter their surroundings through grazing, trampling, and digging. Europe, too, had an elephant: the straight-tusked elephant (Palaeoloxodon antiquus) lived on our continent for around 700,000 years. The species survived multiple ice ages before becoming extinct during the last one due to additional hunting pressure from humans. Throughout its existence, the straight-tusked elephant helped shape Europe’s landscape, maintaining open spaces and light woodlands. Many native plant species are still adapted to these conditions today. 

A photo of a towering elephant statue standing on grassy terrain under a blue sky with fluffy clouds, its trunk raised and tusks visible.
A sculpture of Palaeoloxodon antiquus next to the paleontological museum of Ambrona (Soria, Spain). Photo credit: PePeEfe under a CC BY-SA 3.0 license.

“The German name Waldelefant (forest elephant) originates from the assumption that this species primarily lived in the wooded regions of Europe. However, fossil evidence shows that P. antiquus often inhabited open or semi-open habitats with mosaic-like vegetation, similar to modern elephants,” explains Prof. Dr. Manuel Steinbauer, Chair of Sport Ecology at the University of Bayreuth. 

What for?

Our perception of nature is shaped by what we experience in our surroundings. Ecosystems without direct human influence are often perceived as “natural.” However, when considering insights gained from fossils, it becomes clear that today’s ecosystems— even without direct human intervention—differ significantly from those in which the species of our landscapes evolved thousands of years ago. Studies like the one carried out by the Bayreuth research team highlight the importance of studying past ecosystems for conservation. Understanding how climate and environmental changes have historically affected large mammals can provide valuable insights for modern conservation strategies.

To reconstruct the way of life of P. antiquus and, in particular, its actual habitat—known as the realised niche—the research team examined scientific literature and palaeontological databases for fossil finds of P. antiquus that could be assigned to specific Marine Isotope Stages. Marine Isotope Stages are periods in the earth’s history that reflect climate history, representing warm and cold stages. The Bayreuth research team assigned fossil finds from across Europe to either a warm or cold stage and used climate models from these periods to reconstruct the realised niche of the straight-tusked elephant. A comparison with modern climate data suggests that straight-tusked elephants would still be able to live in Europe today. The climate in Western and Central Europe would be particularly suitable, except for mountainous regions such as the Alps and the Caucasus. 

Map of Europe showing occurrence probability with black points indicating data locations, overlaid on a gradient green background.
Current potential distribution of the straight-tusked elephant (Palaeoloxodon antiquus) in Europe. The colouring represents the probability of occurrence, with grey indicating “very unlikely” and dark green “very likely”. The black dots mark the fossil finds on which the prediction is based.

“In the past, megafauna like the straight-tusked elephant and their regulatory mechanisms—such as grazing—were omnipresent. Many European species, particularly plants that thrive in open habitats, likely established in their diversity in Europe because they benefited from these ecological influences. Traditional conservation strategies in Europe primarily aim to protect biodiversity by shielding habitats from human activities. However, this strategy alone is unlikely to restore the lost ecological functions of megafauna,” says Franka Gaiser, a doctoral student in the Sport Ecology research team and lead author of the study. 

Modern conservation projects actively reintroduce large herbivores to Europe. However, this comes with challenges, as the ecological processes that have shaped modern ecosystems are not yet fully understood. Additionally, today’s large herbivores cannot entirely replace the role of extinct megafauna, as both the animals themselves and the landscape structures, as well as species interactions, have changed significantly.

Original publication:

Gaiser F, Müller C, Phan P, Mathes G, Steinbauer MJ (2025) Europe’s lost landscape sculptors: Today’s potential range of the extinct elephant Palaeoloxodon antiquus. Frontiers of Biogeography 18: e135081. https://doi.org/10.21425/fob.18.135081

Research stations across Europe presented in a photo exhibition in Sofia

The exhibition was organised by Pensoft as part of the communication and dissemination activities for the EC Horizon project eLTER (European Long-Term Ecosystem Research)

In the past months, a unique photo exhibition showcasing European long-term ecosystem research sites was presented in the Bulgarian capital: Sofia.

This visually striking exhibition was not only a celebration of science and nature, but also an illustrative example of Pensoft’s integrated approach to communication, dissemination, and community engagement under the EU-funded eLTER project.

Coordinated by Pensoft’s Communications team, the initiative demonstrates how a carefully curated campaign can be transformed into a multi-layered outreach success. From conceptualization to realization, the team worked closely with the eLTER Coordination and Head Office to create what is now known as the eLTER Grand Campaign—a journey across Europe to visually document the human and ecological stories behind the research stations.

The eLTER photo exhibition was displayed at the ‘Lover’s bridge’ in Sofia, Bulgaria.

Over the course of three months, photographer Evgeni Dimitrov and his team traveled across 23 European countries, visiting some of the continent’s most advanced long-term ecosystem research sites. Using both drone and handheld cameras, the team captured nearly 3,000 photographs and 50 videos, bringing an artistic lens to the world of environmental science. The visual materials created during the Grand Campaign will be integrated into the eLTER database, becoming a valuable resource for researchers and stakeholders across Europe. These assets will support ongoing efforts in data visualisation, educational outreach, and long-term documentation of ecosystem changes.

“During the trip, it was fascinating to observe the work of scientists—each team reflecting the specific national context, yet united by a shared goal: to collect increasingly detailed data that can help us create a better environment.

I aimed to portray the research stations not only from a technical perspective—showing the equipment and how it’s used—but also within the broader environment: the nature around them, the living beings they interact with, and the people behind the machines who bring meaning to otherwise dry data.

explained photographer Evgeni Dimitrov.
Prof. Dr. Lyubomir Penev (Pensoft’s CEO and founder) and photographer Evgeni Dimitrov at the photo exhibition.

Seizing the momentum of the exhibition’s launch in Sofia, the Pensoft team also engaged with local media to broaden public awareness of the eLTER project. For example, the Bulgarian Telegraph Agency published a feature story, titled “Photo Exhibition Presents Research Stations across Europe in Sofia” in both Bulgarian and English, which highlights the exhibition, as well as the mission and goals of eLTER, with a special focus on the work of LTER-Bulgaria. Other local media also covered the news and promoting eLTER.

This strategic blend of visual storytelling, media engagement, and public outreach exemplifies Pensoft’s holistic approach to science communication.

From centrally managing a campaign, coordinating international logistics, and delivering high-quality media assets, to generating public interest and securing media coverage, this initiative shows how communication can become a vital extension of research impact.

To stay up to date with the activities and overall progress of the eLTER project, subscribe to the eLTER Newsletter, and follow eLTER on BlueSky, XLinkedIn, and Instagram.

Find updates and more details on the conference website.

This June, the eLTER project will be holding its very first science conference with the aim to bring together scientists across disciplines who are striving to adopt a holistic approach to the understanding of the complex interactions between living organisms, humans, and their physical environment in the critical zone.

The event will take place on 23-27 June 2025 in Tampere, Finland. Abstracts submitted to the conference will be made permanently available in the eLTER Science Conference abstracts collection in the journal-like ARPHA Conference Abstract platform.

Pensoft is a project partner and a work package leader in the eLTER projects. eLTER receives funding from the European Union’s Horizon 2020 research and innovation programme under GA No 871126 (eLTER PPP) and GA No 871128 (eLTER PLUS), and the European Union’s Horizon Europe research and innovation programme under GA No 101131751 (eLTER EnRich).

Lichens on Mars! (sort of)

A survey of lichen species at the Mars Desert Research Station in Utah, USA and Flashline Mars Arctic Research Station in Nunavut, Canada.

Once you know where to look for them, lichens are everywhere! These composite organisms – fungal and photosynthetic partners joined into a greater whole, can survive on a vast array of surfaces, from rocks and trees to bare ground and buildings. They are known from every continent, and almost certainly every land mass on planet Earth; some species have even survived exposure to the exterior of the International Space Station. This hardy nature has long interested researchers studying what life could survive on Mars, and the astrobiologists studying life on Earth as an analog of our planetary neighbour. In the deserts surrounding two Mars analog stations in North America, lichens comprise such an important part of the local ecosystems that they inspired a biodiversity assessment with a unique twist: this collections-based inventory took place during a simulated mission to Mars!

Crew Biologist Anushree Srivastava collecting lichens near the Mars Desert Research Station while wearing a simulated spacesuit, an important part of analog space missions at this research site. Photo credit: Mars 160 Crew/The Mars Society

The Mars Desert Research Station in Utah, USA (on Ute and Paiute Territory), and the Flashline Mars Arctic Research Station in Nunavut, Canada (in Inuit Nunangat, the Inuit Homeland) are simulated Martian habitats operated by The Mars Society, where crews participate in dress rehearsals for crewed Martian exploration. While learning what it would take to live and work on our planetary neighbour, these “Martians” frequently study the deserts at both sites, often exploring techniques for documenting microbial life and their biosignatures as a prelude to deploying these tools and methods off world. These studies are enhanced by a comprehensive understanding of the ecosystems being studied, even if they are full of Earthbound life. During the Mars 160 – a set of twin missions to both Utah and Nunavut in 2016 and 2017 – our team undertook a floristic survey of the lichen biodiversity present at each site.

The Mars Desert Research Station is nestled in amongst the red sandstone hills of southeast Utah, USA, in a geological analog to Mars. Photo credit: Paul Sokoloff/Canadian Museum of Nature

During simulated extra-vehicular activities, Mars 160 mission specialists wearing simulated spacesuits scouted out various habitats at both stations, seeking out lichen species growing in various microhabitats. Collecting over 150 specimens, these samples were “returned to Earth”, and identified at the National Herbarium of Canada at the Canadian Museum of Nature. Through morphological examination, investigations of internal anatomy and chemistry, and DNA barcoding, “Mission Support” identified 35 lichen species from the Mars Desert Research Station, and 13 species from the Flashline Mars Arctic Research Station.

Rich lichen communities are abundant in the deserts surrounding the Mars Desert Research Station, with visible crusts being one part of a vibrant ecosystem. Photo credit: Paul Sokoloff/Canadian Museum of Nature

These species, along with photographs and a synopsis of their identifying characteristics, are summarized in a new paper out now in the open-access journal Check List. This new annotated checklist should prove useful to future crews working at both analog research stations, while also helping Earthly lichenologists better understand the distribution of these fascinating organisms, including new records of rarely reported or newly described species from some of Earth’s most interesting, and otherworldly habitats.

Research article:

Sokoloff PC, Srivastava A, McMullin RT, Clarke J, Knightly P, Stepanova A, Mangeot A, Laroche C-M, Beattie A, Rupert S (2024) An annotated checklist of the lichen biodiversity at two Mars analog sites: The Mars Desert Research Station (Utah, USA) and The Flashline Mars Arctic Research Station (Nunavut, Canada) recorded during the Mars 160 Mission. Check List 20(5): 1096-1126. https://doi.org/10.15560/20.5.1096

Innovative tools for science communication: How to increase your research impact

At the 5th ESP Europe conference in Wageningen, Pensoft will lead a training session on effective science communication through open access publishing.

The Ecosystem Services Partnership (ESP) is a global network that connects ecosystem services scientists, practitioners, stakeholders, and policymakers at local, national, regional, and global scales. ESP enhances and encourages a diversity of approaches, while reducing unnecessary duplication of effort in the development of concepts and application of ecosystem services.

Starting in 2008, ESP organises annual international conferences, where experts share research progress and exchange ideas in the field of ecosystem services, strengthening cooperation among scientists and practitioners. Since 2015, global and regional conferences started taking place bi-annually, with the 5th ESP Europe conference taking place this year between 18 and 22 November in Wageningen, The Netherlands, under the theme ‘Ecosystem Services: One Planet, One Health’.

The ESP Europe conference will focus on the question of how the ecosystem services concept can address the challenges involved in delivering the global vision of One Health. It will also highlight the interdependence of health across various domains – human, animal, plant, and ecosystem health, and the health of the global environment.

In addition to the main event, the organisers are providing access to pre-conference trainings on Sunday, 17 November, one day before the official start of the conference. One of these focuses on science communication and its role in enhancing research impact. Titled “Innovative tools for science communication: How to increase your research impact”, this session will be hosted by Pensoft Publishers.

A communication and dissemination leader in a wide range of EU research projects, as well as an independent publishing company, Pensoft will introduce the participants to best practices in science communication, drawing examples from a project portfolio which covers ecosystems and biodiversity, agriculture and forestry, pollinators and more. This training activity will also highlight the integral role of open science in effective dissemination, showcasing the opportunities facilitated by Pensoft’s open-access journals, which promoting transparency, accessibility, and reusability of results. Overall, the session will provide an in-depth look into the interlinkage between effectively communicated research outputs and the benefits of openly published data.

The Pensoft team will share their experiences with projects such as  SELINA and SpongeBoost, both of which will also be presented in the scientific sessions and via a shared booth at the event.

Everyone who has already registered for the official programme can still add a training to their application using this link.

MAkiNg Technology work for moNitoring polliNAtors: Pensoft joins ANTENNA

Pensoft is to maximise the project’s impact by informing stakeholders about results and raising public awareness about pollinators.

Pensoft joins the newly funded Biodiversa+ project ANTENNA focused on making technology work for monitoring pollinators and is tasked with the communication, dissemination and exploitation activities. 

The overarching goal of ANTENNA is to fill key monitoring gaps through advancing innovative technologies that will underpin and complement EU-wide pollinator monitoring schemes, and to provide tested transnational pipelines from monitoring activities to curated datasets and enhanced indicators that support pollinator-relevant policy and end-users.

The ANTENNA project answers the BiodivMon call, which was launched in September 2022 by Biodiversa+ in collaboration with the European Commission. The BiodivMon call sought proposals for three-year research projects to improve transnational monitoring of biodiversity and ecosystem change, emphasising innovation and harmonisation of biodiversity data collection and management methodologies, addressing knowledge gaps on biodiversity status and trends to combat biodiversity loss, and the effective use of existing biodiversity monitoring data. 

Supporting the work of Work Package #5: “Project coordination, and communication”, Pensoft is dedicated to maximising the project’s impact by employing a mix of channels to inform stakeholders about the results from ANTENNA and raise public awareness about pollinators.

Pensoft is also tasked with creating and maintaining a clear and recognisable project brand, promotional materials, website, social network profiles, internal communication platform, and online libraries. Another key responsibility is the development, implementation and regular updates of the project’s communication, dissemination and exploitation plans, that ANTENNA is set to follow for the next four years.

On 14-15 March 2024, ANTENNA held its official kick off meeting. Project partners came together in Halle, Germany for two days to outline objectives, discuss strategies, and set the groundwork for this venture.

Specifically, the combined expertise of the consortium will address the following objectives:

  1. Advance automated sample sorting and image recognition tools from individual prototypes to systems that can be adopted by practitioners
  2. Expand pollinator monitoring to under-researched pollinator taxa, ecosystems, and pressures
  3. Quantify the added value of novel monitoring systems in comparison and combination with ‘traditional’ methods in terms of cost effectiveness
  4. Provide a framework for integrative monitoring by combining multiple data streams and. The framework will also support the development of near real-time forecasting models as bases for early warning systems;
  5. Upscale local demonstrations into the implementation of large-scale transnational pipelines and provide context-specific guidance to the use of policy-makers and other users who might need to select monitoring methods and indicators.

Consortium*:

  1. Helmholtz-Centre for Environmental Research (UFZ), Germany
  2. Naturalis Biodiversity Center, Netherlands
  3. Aarhus University, Denmark
  4. Consejo Superior de Investigaciones Científicas (CSIC), Spain
  5. University of the Aegean, Greece
  6. Universidad Politécnica de Madrid, Spain
  7. Trinity College Dublin, Ireland

*Pensoft Publishers is a subcontractor tasked by the UFZ with multiple communication, dissemination and exploitation activities as part of Work Package 5.

Stay up to date with the ANTENNA project’s progress on X/Twitter (@ANTENNA_project) and LinkedIn (/antenna-project).

Pensoft at the 7th European Congress of Conservation Biology as a publisher and Horizon project partner

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.

Between 17th and 22nd June 2024, Pensoft’s scholarly publishing and project teams joined the European Congress of Conservation Biology (ECCB), organised by the Society for Conservation Biology and hosted by the University of Bologna.

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.

***

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.

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At ECCB 2024, our team was also happy to meet in person many authors and editors, whose work has frequented the pages of journals like Nature Conservation, Biodiversity Data Journal, ZooKeys and NeoBiota, to name a few.

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.

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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.

Coordinated by the Catalonia University of Technology UPC-BarcelonaTech and involving over 30 European institutions, REST-COAST has been working on developing tools to address key challenges to coastal ecosystems – all consequences of a long history of environmental degradation of our rivers and coasts.

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).

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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.

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You can find the detailed scientific programme of this year’s ECCB on the congress’ website. 

Use the #ECCB2024 hashtag on X (formerly Twitter) to relive highlights from the ECCB congress. 

Integration of ecosystem services in urban planning tools can directly contribute to the sustainability of ecosystems

Integrated ecosystem services can be a potent tool to inform and guide spatial decision-making.

Guest blog post by Zeynep Türkay

Ecosystem services’ (ES) integration into global policies is widely recognized as a hope for environmental sustainability, as they provide a robust framework for representing natural values. The role of healthy ecosystems in combating climate change-related risks and ensuring the sustainability of ecosystem services that are critical for human-natural life is well understood, and in this context, the protection and sustainability of Integrated ES areas, which represent the highest ecological functional areas in this sense, need to be highlighted. Integrated ES can be a potent tool to inform and guide spatial decision-making. However, presently, there is a need to improve the content of related conventional tools on how to introduce and involve their roles in decision-making processes.

A map of Istanbul showing the integrated ecosystem services potential of the current situation.
A map of Istanbul showing the integrated ecosystem services potential of the current situation.

Our paper, published in the journal One Ecosystem, investigates the incorporation of this problem, underlines ES significance as the Integrated ES, and transfers this information into spatial decision-making. The content of the paper discusses the potential contributions and limitations of the integration. It provides solid suggestions on how Integrated ES can be operationalized in Istanbul’s high-level plans.

Research article:

Türkay Z, Tezer A (2024) Contribution of integrated ecosystem services to urban planning tools: Can it be more functional for the sustainability of ecosystems? One Ecosystem 9: e121553. https://doi.org/10.3897/oneeco.9.e121553

Has climate change hijacked the environmental agenda?

The climate change agenda has overshadowed biodiversity loss

Guest blog post by Cássio Cardoso Pereira, Daniel Negreiros, and Geraldo Wilson Fernandes

A recently published study by Pereira et al. in the prestigious journal Nature Conservation says that the solution for climate warming and environmental crises is not solely about curbing temperature by planting trees or even by changing our energy matrix. It is about changing our perspective on ourselves and the way we do things. There is a long list of things we have to do if we want to be successful. One important thing is changing policy actions.

When we analyse the popularity and prestige of intergovernmental organisations created in favour of the environment, the Intergovernmental Panel on Climate Change (IPCC) completely overshadows the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services (IPBES). When we analyse environmental treaties, we see the same thing. The United Nations Framework Convention on Climate Change (UNFCCC) is far better known than the Convention on Biological Diversity (CBD).

This is a reflection of increased public attention to climate change at the expense of other biodiversity issues and may have contributed to a much higher number of UNFCCC Conferences of the Parties (COPs) linked to climate change (27 COPs) compared to those about biodiversity (15 COPs) to this date. Governments should not solely focus on curbing greenhouse gas emissions into the atmosphere. This asymmetry between environmental agendas can harm not only biodiversity, but also climate change, as environmental issues are inexorably interconnected.

Web search interest for environmental topics around the world from 2004 to the present according to Google TrendsTM. Comparison of intergovernmental bodies (A), conventions (B) and terms (C) related to climate (blue) and biodiversity (red). Values represent the percentage of maximum (peak popularity). IPCC: Intergovernmental Panel on Climate Change; IPBES: Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services; UNFCCC: United Nations Framework Convention on Climate Change.

In a society with broad and deep environmental problems, government, private sector and non-governmental efforts should include other dimensions of nature in their agenda. Biodiversity, the unique variety of life on our planet, underpins our cultural, economic, and social well-being. The destruction of ecosystems undermines nature’s ability to regulate greenhouse gas emissions and protect us against extreme weather, thus accelerating climate change and increasing our vulnerability to it. Therefore, it is puzzling that policy-makers are still over-focused on the climate component.

Trends in biodiversity loss. Infographic by Future Challenges shared under a CC BY-SA 2.0 license

We argue here that the climate change issue is important and urgent. However, this problem cannot be solved without considering the picture as a whole. In this way, changes in land use must be integrated into climate models so that we can achieve a more detailed representation that increases our ability to predict how local impacts of change in land use will affect the future of biodiversity at a global level.

We emphasise that this path is necessary, but it is still winding. There is much to pass on to society in terms of ecological awareness. The spotlight is on climate change, at least in part, because everyone already knows how to get involved in climate action in an accessible way. However, the degradation of biodiversity can be difficult to notice, especially for someone who does not get out and experience nature regularly. Therefore, a big question is how much we still have to learn about the various ecosystems across the planet, their delicate balance and interaction with their wider environment, and indeed the climate.

Reference:

Pereira CC, Negreiros D, Barbosa M, Goulart FF, Dias RL, Melillo MC, Camarota F, Pimenta MA, Cruz M, Fernandes GW (2023) Has climate change hijacked the environmental agenda? Nature Conservation 53: 157-164. https://doi.org/10.3897/natureconservation.53.110961