“This switch of our journal to a cutting-edge platform, and its committed team of editors, should continue to raise the journal’s visibility and impact,” comments Prof. Dr. Susanne Renner, TIBS President.
This collaboration underscores the society’s commitment to maintaining high-quality, high-visibility and low-cost open-access publishing for the biogeographical community.
“This switch of our journal to a cutting-edge platform, and its committed team of editors, should continue to raise the journal’s visibility and impact,”
Established by TIBS in 2009, Frontiers of Biogeography serves as an independent forum for research dissemination, and publishes studies on all geographical variations of life at all levels of organisation. The journal adheres to rigorous academic standards, reflecting the mission of TIBS to promote and advance public understanding of biogeographical sciences.
The journal’s editorial leadership includes Prof. Robert J. Whittaker (University of Oxford, United Kingdom), Dr. Janet Franklin (San Diego State University, USA) and Prof. Mark J. Costello (Nord University, Norway), all esteemed figures in the field.
Frontiers of Biogeography was launched on the ARPHA Platform on the 1st of July 2024. The platform is now open for new submissions and offers a robust review and publication process. Articles and supplementary materials published on ARPHA will be distributed under the Creative Commons Attribution Licence (CC BY 4.0), ensuring wide accessibility and reuse. All previously published issues on the e-Scholarship platform will remain freely accessible, ensuring the continuity of knowledge dissemination.
Frontiers of Biogeography has recently been selected for inclusion in the Web of Science™. Beginning with volume 14(1), articles will be indexed in Emerging Sources Citation Index, Zoological Record, Biological Abstracts, and BIOSIS Previews, significantly enhancing the journal’s visibility.
Furthermore, the journal’s latest Scopus CiteScore of 4.3 places it in the Q1 category for Ecology and Ecology, Evolution, Behaviour and Systematics, and elevates it from Q3 to Q2 in the Global and Planetary Change category.
“I am looking forward to working with the new platform and to the start of a new partnership with our colleagues at Pensoft Publishers. This arrangement underlines the commitment of The International Biogeography Society to the growth and success of Frontiers of Biogeography as a service to our members and the broader scientific community,”
stated Prof. Dr. Robert J. Whittaker, Editor-in-Chief.
“In these days of sometimes exorbitant costs to pay publication charges by some of the big publishers, TIBS and Pensoft are joining forces to make it possible for all authors to be able to publish their work at reasonable costs while maintaining the high scholarly standards of peer-review and editorial management which are the foundation of good science,”
added Prof. Dr. Mark J. Costello, Co-Editor-in-Chief.
“We are excited to welcome Frontiers of Biogeography to the ARPHA Platform and look forward to a successful, open-access future. This partnership aligns with our mission to support scientific research through innovative publishing solutions,”
said Prof. Dr. Lyubomir Penev, CEO and founder of Pensoft Publishers.
***
Visit the Frontiers of Biogeography’s new website at https://biogeography.pensoft.net/. Use the Email alert field on the homepage to follow the latest publications, news, and highlights from Frontiers of Biogeography.
You can also follow the journal on X (formerly Twitter) at @newbiogeo.
Keep up to date with the latest from TIBS by following them on X (@Biogeography) and joining the society’s Facebook group.
Deep within a cave in the Du’an Yao Autonomous County of Guangxi, China, researchers discovered a pale, eyeless spider unknown to science.
This discovery, detailed in the open-access Biodiversity Data Journal adds a remarkable member to the Otacilia genus. And, as is often the case, the scientist behind the revelation turned to popular culture to name the new species.
They settled on Otacilia khezu.
Khezu in Monster Hunter.
The Khezu wyvern features in the popular video game series Monster Hunter. It is known for its blindness and unsettling appearance, just like newly discovered species. By naming the spider Otacilia khezu, the researchers highlight its troglobitic – or cave-dwelling – nature, particularly the complete absence of its eyes.
“Its long, elastic neck stretching out while it clings to a wall or the ceiling is a sight straight out of a nightmare. Make sure you do not get overwhelmed by its horrific appearance.”
Otacilia khezu, like many troglobitic creatures, lacks eyes and pigmentation, has elongated appendages, and has developed heightened sensory adaptations to navigate and thrive in its dark environment.
Otacilia khezu juvenile, in life. Photo: Shanmi Zheng.
The research team led by Yejie Li, Langfang Normal University, note the significance of the discovery, as it marks the first recorded troglobitic Otacilia species in China. Prior to this, only two troglobitic Otacilia species had been identified, both in Laos.
The species is one of many spiders named after influential fictional characters. In fact, one spider was named after a character and the actor playing him.
The documentation and publication of this new species set the stage for further studies on the ecological roles of troglobitic spiders and their evolutionary adaptations.
Chinese civillians can rest assured that Otacilia khezu is considerably less dangerous than its namesake when they keep an eye out for the eyeless arachnid.
Original source:
Lin Y, Chen H, Wang X, Li S (2024) Otacilia khezu sp. nov., a new troglobitic spider (Araneae, Phrurolithidae) from Guangxi, China. Biodiversity Data Journal 12: e126716. https://doi.org/10.3897/BDJ.12.e126716
Follow Biodiversity Data Journal on Facebook and X.
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.
Researchers have described a remarkable new species of velvet worm from the Ecuadorian Amazon.
Take a look below:
Oroperipatus tiputini. Credit: Roberto J. León, Archive Universidad San Francisco de Quito USFQ.
While the Tiputini velvet worm (Oroperipatus tiputini) may look friendly, it is an accomplished hunter that shoots a sticky substance from a pair of glands to trap its prey.
However, lead author Jorge Montalvo from the USFQ Museum of Zoology, notes that the species also has a softer side, with the mother taking care of her considerably lighter-coloured young after they are born.
Adult female with her offspring.
Velvet worms, also known as onychophorans or peripatus, are rare and unique invertebrates often referred to as “living fossils” because they evolved over 500 million years ago, long before the appearance of dinosaurs.
Currently, only about 240 velvet worm species are known, inhabiting tropical regions in the Americas, southern Chile, Africa, Southeast Asia, Oceania, and New Zealand.
Oroperipatus tiputini. Pedro Peñaherrera-R., Archive Universidad San Francisco de Quito USFQ
Published in the open-access journal Zoosystematics and Evolution, the discovery was more than 20 years in the making. It also represented the first study of Ecuadorian velvet worms for over 100 years.
“The research on this new species took several decades. I discovered the first individual of this new species in 2001, and we finally managed to describe it as part of Jorge Montalvo’s graduation thesis, who is now my colleague at the Museum of Zoology at USFQ. To complete the description, we used not only macromorphological descriptions but also high-magnification images obtained with a scanning electron microscope.”
Diego F. Cisneros-Heredia, one of the authors and director of the USFQ Museum of Zoology, Ecuador.
The researchers named the species after the Tiputini Biodiversity Station (TBS), part of the Yasuní Biosphere Reserve. The name recognises the hard work of the station’s management, research, and field team in protecting biodiversity.
Map of Ecuador showing the location of the Tiputini Biodiversity Station (white square), type locality of Oroperipatustiputini sp. nov., in the Amazonian lowlands.
The description of the Tiputini velvet worm raises the total number of described velvet worm species in Ecuador to seven. This species is the first from the Ecuadorian Amazon lowlands and the third in the western Amazon.
Original source
Montalvo-Salazar JL, Bejarano ML, Valarezo A, Cisneros-Heredia DF (2024) A new species of velvet worm of the genus Oroperipatus (Onychophora, Peripatidae) from western Amazonia. Zoosystematics and Evolution 100(3): 779-789. https://doi.org/10.3897/zse.100.117952
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The beetle species Grebennikovius basilewskyi. Numbers next to arrows indicate patterns of phenotype statements explained in the section “Phenoscript: main patterns of phenotype statements”. Arrow numbers from T1 to T5 illustrate individual body parts. See more in the research study.
One of the most beautiful aspects of Nature is the endless variety of shapes, colours and behaviours exhibited by organisms. These traits help organisms survive and find mates, like how a male peacock’s colourful tail attracts females or his wings allow him to fly away from danger. Understanding traits is crucial for biologists, who study them to learn how organisms evolve and adapt to different environments.
To do this, scientists first need to describe these traits in words, like saying a peacock’s tail is “vibrant, iridescent, and ornate”. This approach works for small studies, but when looking at hundreds or even millions of different animals or plants, it’s impossible for the human brain to keep track of everything.
Computers could help, but not even the latest AI technology is able to grasp human language to the extent needed by biologists. This hampers research significantly because, although scientists can handle large volumes of DNA data, linking this information to physical traits is still very difficult.
To solve this problem, researchers from the Finnish Museum of Natural History, Giulio Montanaro and Sergei Tarasov, along with collaborators, have created a special language called Phenoscript. This language is designed to describe traits in a way that both humans and computers can understand. Describing traits with Phenoscript is like programming a computer code for how an organism looks.
Phenoscript uses something called semantic technology, which helps computers understand the meaning behind words, much like how modern search engines know the difference between the fruit “apple” and the tech company “Apple” based on the context of your search.
“This language is still being tested, but it shows a lot of promise. As more scientists start using Phenoscript, it will revolutionise biology by making vast amounts of trait data available for large-scale studies, boosting the emerging field of phenomics,”
explains Montanaro.
In their research article, newly published in the open-access, peer-reviewed Biodiversity Data Journal, the researchers make use of the new language for the first time, as they create semantic phenotypes for four species of dung beetles from the genus Grebennikovius. Then, to demonstrate the power of the semantic approach, they apply simple semantic queries to the generated phenotypic descriptions.
Finally, the team takes a look yet further ahead into modernising the way scientists work with species information. Their next aim is to integrate semantic species descriptions with the concept of nanopublications, “which encapsulates discrete pieces of information into a comprehensive knowledge graph”. As a result, data that has become part of this graph can be queried directly, thereby ensuring that it remains Findable, Accessible, Interoperable and Reusable (FAIR) through a variety of semantic resources.
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Research paper:
Montanaro G, Balhoff JP, Girón JC, Söderholm M, Tarasov S (2024) Computable species descriptions and nanopublications: applying ontology-based technologies to dung beetles (Coleoptera, Scarabaeinae). Biodiversity Data Journal 12: e121562. https://doi.org/10.3897/BDJ.12.e121562
What expert recommendations did the BiCIKL consortium give to policy makers and research funders to ensure that biodiversity data is FAIR, linked, open and, indeed, future-proof? Find out in the blog post summarising key lessons learnt from the Horizon 2020 project.
Ovophis jenkinsi is dark brownish-grey, with trapezoidal patches on its back. It is endemic to China’s Yingjiang County and is not difficult to find in the wild.
Yunnan, China is a biodiversity hotspot, with many new reptile species discovered in the region in recent years. It is also where a research team from China found a new species of medium-sized venomous snake, known as a mountain pit viper.
Ovophis jenkinsi. Photo by Xianchun Qiu
“We checked specimens of the [snake] genus Ovophis collected by Institute of Zoology, Chinese Academy of Sciences and Beijing Forestry University in Yingjiang, Yunnan in 2008, and found that these specimens were different from all known similar species. We collected some new specimens from Yingjiang in 2023 and finally determined that this population represents a new species!” the researchers explained.
The new species was named Ovophis jenkinsi in honour of herpetologist Robert “Hank” William Garfield Jenkins AM (September 1947−September 2023), who had “a passion for snakes, especially pit vipers, and helped China, along with many Asian countries, complete snake census, conservation, and management projects,” the team writes in their study, which was published in the open-access journal ZooKeys.
A specimen of Ovophis jenkinsi from Yingjiang, Yunnan, China. Photo by Xianchun Qiu
Ovophis jenkinsi is generally dark brownish-grey, but some individuals can be deep orange-brown, and has trapezoidal patches on its back. “It is usually slow-moving but shows great aggression when disturbed,” the researchers explain after observing the snake’s behaviour. “When threatened, these snakes inflate their bodies to make themselves appear larger and strike quickly.”
There are no records to date of humans being bitten by this species.
The only known habitat of Ovophis jenkinsi, the tropical montane rainforest in Yingjiang, Yunnan, China. Photo by Xiaojun Gu
Like many other species, this snake is endemic to China’s Yingjiang County, which means it is currently found only there. “It is not difficult to find this species in the wild, they are active mainly in the autumn and prefer cool, humid, and even rainy nights, probably to avoid competition with other snakes,” the researchers say, suggesting it might feed on small mammals.
“We will be collecting more information about O. jenkinsi in the future, including their appearance, distribution, and habits, to improve our understanding of this species,” the researchers say in conclusion.
Research article:
Qiu X-C, Wang J-Z, Xia Z-Y, Jiang Z-W, Zeng Y, Wang N, Li P-P, Shi J-S (2024) A new mountain pitviper of the genus Ovophis Burger in Hoge & Romano-Hoge, 1981 (Serpentes, Viperidae) from Yunnan, China. ZooKeys 1203: 173-187. https://doi.org/10.3897/zookeys.1203.119218
The discovery represents an inspiration for biodiversity conservation in an area the scientific community assumed to be a barren agricultural landscape of plant extinctions.
A new 5 cm-high plant species has been discovered on the western Andean slopes of Ecuador in an area where scientists once believed a rich diversity of native plants and animals had been totally destroyed.
John L. Clark with Amalophyllon miraculum. Credit @phinaea on Instagram.
The tiny plant, with iridescent foliage and white ephemeral flowers, was found in a farmer’s backyard during ongoing collaborative research expeditions in western Ecuador, led by teams of Ecuadorian and international researchers.
The expeditions resulted in the rediscovery of small forest fragments in a legendary hotspot known as Centinela. Selby Gardens research botanist, John L. Clark is the lead author of the article describing the new species in the peer-reviewed, open-access journal PhytoKeys.
The forest fragments are less than 20 miles from Santo Domingo, a major city of more than 300,000 people. Each fragment of Centinela is an isolated biodiversity island surrounded by large swaths of agricultural landscape largely devoid of forest.
Amalophyllon miraculum leaf.
A seminal publication titled “Biological extinction in western Ecuador” brought attention to the rapid loss of rainforest in western Ecuador. It was authored by the late botanists Alwyn Gentry and Calaway Dodson, Selby Gardens’ first Executive Director, whose research inspired names such as Gasteranthus extinctus in recognition of the loss of more than 70-97% of rainforests from the western Ecuadorian lowlands due to agriculture.
This discovery, amongst others, has shattered the preconception that the multitudes of life in the region had vanished entirely. The name Amalophyllon miraculum reflects the “miracle” of its discovery in the unexpected fragments of protected forests.
“The heroic efforts of local landowners who maintained small patches of forests – usually surrounding waterfalls – were instrumental in conserving these remnant forest fragments,” Clark says.
Clark JL, Fernández A, Zapata JN, Restrepo-Villarroel C, White DM, Pitman NCA (2024) Amalophyllon miraculum (Gesneriaceae), an exceptionally small lithophilous new species from the western Andean slopes of Ecuador. PhytoKeys 242: 307–316. https://doi.org/10.3897/phytokeys.242.118069
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.
Guest blog post by Paul C. Sokoloff, Lynn J. Gillespie, Geoffrey A. Levin
On northern Baffin Island, Nunavut – the northernmost territory of Canada and Inuit homeland since time immemorial – the tips of long fjords weave around towering peaks and harbour shrubby plants, mounds of lichens, and carpets of mosses and other bryophytes, all set in a majestic landscape known and stewarded by Inuit past, present, and future. This is Agguttinni, Nunavut’s newest and largest territorial park. A new study published in Check List and led by Dr. Lynn Gillespie from the Canadian Museum of Nature, documents the 141 vascular plant, 69 bryophyte, and 93 lichen species collected from this unique protected area.
The backdrop to this study is the Canadian Arctic ecozone. This vast region comprises approximately 40% of Canada’s landmass and a broad array of unique habitats, from expansive flat tundra to glacial peaks to rich wetlands. The plants that grow here are well-adapted to their environment. Most grow low, soaking up heat from sun-warmed soil and staying out of cold, drying winds. Many are covered in insulating hairs and can go from bud to flower to fruit quickly during the short Arctic summers. And while woody, spreading shrubs can dominate in the low Arctic, they become rarer further north; conversely bryophyte and lichen species become increasingly important components of the biomass. In this context, the 303 species found in Agguttinni represent a wide swath of Arctic floristic diversity.
In 2021, Dr. Gillespie’s team travelled to Kanngiqtugaapik (Clyde River) to conduct a botanical inventory of Agguttinni Territorial Park, in partnership with Nunavut Parks and Special Places and with the support of Polar Knowledge Canada. Over the course of five weeks, the team, a fearless five including museum botanists and guides from Kanngiqtugaapik, travelled across the park on foot and by helicopter seeking out every habitat and plant and lichen species within the park. The team established four base camps at the heads of fjords, within mountain passes, and in sheltered harbours, where all necessities were slung in by helicopter, including sleeping tents, kitchen shelters, a field lab for processing samples, and even a solar panel to take advantage of the 24-hour sunlight. Through the weeks on the land, the team found an efficient tempo of collecting specimens in the field and pressing back at camp.
While 2021 was a cold, wet year on northern Baffin Island, the challenging conditions were offset with good company, good food, and warming long hikes. The team searched through hummocky tundra, over gravel scree, in river valleys and on esker ridges, documenting the flora of every terrain within Agguttinni, while our guides from Clyde River, Jaypiti Inutiq and Leeno Apak, provided us with valuable insight into their lands and kept us safe in numerous ways. These wanders, and helicopter excursions from Kanngiqtugaapik, allowed us to thoroughly inventory and compare various habitats within the park.
The sheltered valleys and heads of fjords, far inland from the coast of Baffin Bay, were the most floristically diverse in the study area. At these sites, willow shrubs grow tall (well, at up to 1.5 m high, tall for Baffin Island), and a diverse patchwork of geology and topography is home to species found nowhere else in the park, including new northern-most Canadian records of Lapland Diapensia (Diapensia lapponica) and Flame-tipped Lousewort (Pedicularis flammea), as well as species rare on Baffin Island, such as Dwarf Hawksbeard (Askellia pygmaea) and Hartz’s Bluegrass (Poa hartzii).
Conversely, coastal habitats and inland valleys and plateaus proved to be less floristically diverse. Immediately adjacent to the Barnes Ice Cap, the recently-unglaciated zone harboured few vascular plant species and no lichens – a lesson in succession. However, amid this scour, large mounds of blackened moss, likely covered during the Little Ice Age, could be seen regenerating – new green growth amongst bare rock.
Even so, we encountered fascinating new botanical records in these environments, including the first records of Bruggemann’s Alkaligrass (Puccinellia bruggemannii) and Skult’s Shield Lichen (Parmelia skultii) for Baffin Island. On the Barnes Plateau, collections of Powdered Matchstick Lichen (Pilophorus caerulus), Starke’s Fork Moss (Kiaeria starkei) and Sprig Moss (Aongstroemia longipes) are newly reported for Nunavut.
While these new records provide important new knowledge about the Arctic flora, commonly encountered species also provide important context about species important to ecosystem health and functioning, and some species proved to be unusually common in the area. For example, Mountain Woodrush (Luzula confusa), Four Angled-Mountain Heather (Cassiope tetragona), Hairy Rock-Moss (Racomitrium lanuginosum), and Orange Chocolate Chip Lichen (Solorina crocea) were encountered throughout the park. Arctic Mushroom Scales Lichen (Lichenomphalia hudsoniana) was also encountered in many locations throughout the park, despite its relative under-collection elsewhere in Nunavut.
The 1007 collections made by Dr. Gillespie’s team in 2021, deposited at the National Herbarium of Canada (CAN), serve as the biodiversity backbone of this current study. The authors examined an additional 386 existing herbarium specimens at CAN, Agriculture and Agrifoods Canada (DAO), and the Université de Montréal (MT), and from other institutions accessed through the Global Biodiversity Information Facility (GBIF). The vast majority of these existing specimens were collected during the Baird Expedition to Baffin Island in 1950. Seventy-four years later, these specimens still provide valuable insight into the biodiversity of Agguttinni.
This powerful combination of old and new specimens, brought together in this paper, more than doubles the number of plant and lichen species known from the park (from 136 to 299), and triples the number of known vascular plants from 45 to 137. It therefore provides a vital biodiversity reference to help in the management and conservation of Agguttinni Territorial Park. More broadly, it expands our understanding of plant diversity in northern Canada, a vast area that includes many under-explored areas. Studies like this also provide important baseline data for assessing future impacts of climate change.
With Thanks
We are grateful to the community of Kanngiqtugaapik for hosting us and this research on their land, Nunavut Parks and Special Places and Polar Knowledge Canada for supporting this work, Jaypiti Inutiq and Leeno Apak for their knowledge and protection on the land, Stéphane Caron and Louis André Grégoire for keeping us up in the air, Patrick Graillon and Linda Vaillancourt from Nunavut Parks for facilitating this work, Martha Raynolds, Helga Bültmann, Yemisi Dare and Julian Starr for excellent recent collections that were included in the study, and herbarium specialists at CAN, DAO, and MT.
Original Study
Gillespie LJ, Sokoloff PC, Levin GA, Doubt J, McMullin RT (2024) Vascular plant, bryophyte, and lichen biodiversity of Agguttinni Territorial Park, Baffin Island, Nunavut, Canada: an annotated species checklist of a new Arctic protected area. Check List 20(2): 279-443. https://doi.org/10.15560/20.2.279
eLTER catalyses scientific discovery and insights through state-of-the-art research infrastructure, collaborative work, and transdisciplinary expertise.
From June 4th to 18th, the Integrated European Long-Term Ecosystem, critical zone and socio-ecological Research (eLTER) is presenting its first physical exhibition in Sofia, Bulgaria.
At Lover’s Bridge, one of the most central venues in the capital for such events, visitors could see 58 photos showcasing the work of eLTER scientists and their key role in combating the grand societal challenges.
The authors – Evgeni Dimitrov and Kaloyan Konstantinov – spent half a year preparing the so-called Grand Campaign. Together, they traveled to over 30 sites in 23 countries in the span of 88 days, resulting in nearly 3000 photos and 50 videos.
Environmental sustainability can only be achieved on the basis of the robust knowledge and empirical evidence needed to identify and mitigate human impacts on ecosystems.
The pictures are accompanied by a description of each national network, site and platform, as well as the importance of eLTER’s scientific activities for Europe and the world. The goal, apart from purely aesthetic, is to acquaint the residents and guests of Sofia with the work of one of the largest and most important European Research Infrastructures.
The main Doñana LTSER facilities are located inside the Doñana Biological Reserve, a UNESCO Biosphere Reserve in Spain.
The exhibition is part of the events accompanying the annual consortia meeting, organized by the Institute of Biodiversity and Ecosystem Research at the Bulgarian Academy of Sciences (in charge of the Bulgarian LTER network), and Pensoft Publishers (leading the communication and dissemination of eLTER). This year the event is held from 3rd to 7th of June, and is attended by nearly 100 scientists from all 26 eLTER countries.
Dr Bojana Ivošević with BioSense UAVs used for vegetation monitoring of natural ecosystems, agriculture as well as archaeology in Serbia and across Southeast Europe.
The exposition is carried out in partnership with the Sofia Municipality and will be officially opened on June 6 at 11:30 am local time.
eLTER responds to the challenge of understanding the complex interactions between people and nature over the long term. Environmental sustainability can only be achieved on the basis of the robust knowledge and empirical evidence needed to identify and mitigate human impacts on ecosystems. eLTER catalyses scientific discovery and insights through its state-of-the-art research infrastructure, collaborative working culture, and transdisciplinary expertise. This enables the development and application of evidence-based solutions for the wellbeing of current and future generations.
Studies of the biogeochemical cycles and physical properties of sea-water have been conducted since the ‘70s at the Gulf of Venice.
The mission of eLTER is to facilitate high impact research and catalyse new insights about the compounded impacts of climate change, biodiversity loss, soil degradation, pollution, and unsustainable resource use on a range of European ecosystems and socio-ecological systems, representing the “critical zone” in which we live.
