The SHOAL is the global ecosystem of partners and collaborators who work together to safeguard the health of Earth's freshwater habitats and conserve the most threatened freshwater species. As with a shoal of fish, the strength of the SHOAL lies with the number of partners all working together.
Blueprint for Conservation Action for 1,000 Freshwater Fishes
SHOAL's flagship initiative sets out a plan for how significant collaborative conservation effort can lift freshwater fishes and potentially thousands of other neglected freshwater species to a new elevated platform of conservation attention and greatly enhance freshwater conservation efforts globally.
5 freshwater conservation highlights of 2024 (so far)
This year’s been one of our busiest yet, so take a midpoint deep dive into our most memorable moments so far.
Rediscovering the leopard barbel
In January we were thrilled to announce that the leopard barbel was been rediscovered by a team of ichthyologists in Türkiye, led by Cüneyt Kaya and Münevver Oral.
“We dropped everything and would have gone to the ends of the Earth to see this fish, this legend, alive in the wild.”
Münevver Oral, Assistant Professor at Recep Tayyip Erdogan University
“With both the Batman River loach and now the leopard barbel, we have an obligation to mobilise conservation efforts to ensure neither becomes lost again.”
Cüneyt Kaya, Associate Professor at Recep Tayyip Erdogan University
Our brand new range of collectible enamel pins are available in select aquarium stores across the UK – with donations going towards our SOS: Support Our Shoal campaign.
Designed to bridge the gap between the home aquarium community and impactful conservation of the world’s most threatened freshwater fish,SOS: Support Our Shoal provides a reliable channel for aquarists to direct vital funds to the freshwater species and ecosystems that need them most.
“SOS: Support Our Shoal is a rallying cry to those who care about what is happening to freshwater species and want to be part of the solution. This is a landmark time for the aquarium community, and collaborating with us is a demonstration that it is beginning to take conservation seriously.”
Mike Baltzer, Executive Director, SHOAL
You can find the pins at any of our brilliant partner aquarium stores across the UK:
A minnow hiding in a megacity, 7 Swiss whitefish, and a cavefish that eats out of people’s hands were highlighted in New Species 2023. In March we released our third annual New Species report, detailing the 243 freshwater fish species described in 2023.
“Awareness-raising is a critical part of the work needed to give these species a chance of survival, and it’s our hope and expectation that New Species reports will go some way to driving a greater appreciation for freshwater fish.”
In March the WWF and partners released a flagship report focussed on the dazzlingly diverse fishes of the Mekong.
The river is home to some of the world’s largest freshwater species and one of the smallest, but the species are under increasing threat.
With one-fifth already facing extinction, urgent action is needed to safeguard the future of these extraordinary fishes, as well as the people & ecosystems that depend on them.
In April we launched an ambitious new initiative to mobilise conservation action for 1,000 of Earth’s most threatened freshwater fish species by 2035.
The SHOAL Blueprint for Conservation Action for 1,000 Freshwater Fishes by 2035 is perhaps the single most ambitious conservstion framework in terms of species numbers ever written, and certainly our most ambitious project to date here at SHOAL.
“The Blueprint shows the level of ambition and determination we need to turn back the tide on the freshwater biodiversity crisis, and halt extinctions and recover populations of the world’s most threatened freshwater fish. It is collaborative to its core and puts local communities at the forefront of impactful conservation action. It is urgent that we now push on and mobilise the conservation actions outlined by The Blueprint – our planet’s freshwaters depend on them.”
Mike Baltzer, Executive Director, SHOAL
We are celebrating the launch with a photo competition, which ends Saturday 31st August 2024.
New Blueprint for Conservation Action for 1,000 fishes by 2035
SHOAL has launched an ambitious new initiative to mobilise conservation action for 1,000 of Earth’s most threatened freshwater fish species by 2035.
Conservation action for 1,000 freshwater fishes by 2035? There’s a reason for conservation optimism. Keep scrolling to learn more about one of our most ambitious campaigns to date.
In April we launched the SHOAL Blueprint for Accelerated Conservation Action for 1,000 Freshwater Fishes by 2035, an exciting and ambitious new initiative that will place at least 1,000 threatened freshwater fishes on the path to recovery by 2035.
It’s not just a plan for 1,000 fishes. It’s a plan for hundreds of critical freshwater habitats, vital to thousands of other species and communities – very often the poorest on the planet – that rely on these fish and the freshwater habitats for their everyday lives.
The Blueprint was pulled together with the expert support and guidance from SHOAL partners the IUCN SSC Freshwater Fish Specialist Group (FFSG) and IUCN Biodiversity Assessment and Knowledge Team (BAKT).
Freshwater fishes have been largely neglected in conservation planning and yet the ecosystems they inhabit are vital to the survival of the planet. The incredible diversity of freshwater fishes in only 1% of the Earth’s surface area represents more than half of fish diversity overall. The Blueprint is therefore an extremely welcome and important call to action to halt the loss of so many species under the threat of extinction.
Brian Zimmerman, Co-Chair, IUCN SSC Freshwater Fish Specialist Group
The blueprint was launched in April at an event kindly hosted by the Fishmongers’ Company at Fishmongers’ Hall in London, where SHOAL‘s executive director Mike Baltzer presented how the crucial initiative will mobilise collaborative conservation efforts for global conservation impact.
The Blueprint is a fundamental framework to Phase Two of SHOAL‘s strategy, and will define the organisation’s work for the coming decade. It is wildly ambitious – perhaps the single most ambitious conservation framework in terms of species numbers ever written*!
*We’d welcome people pointing us in the direction of a more ambitious framework!
Freshwater fishes are slipping through the net of conservation and are silently sinking towards extinction. The Blueprint identifies which species need urgent attention and how to cost effectively and collaboratively implement conservation action at scale to ensure at least 1,000 species are under suitable conservation action within a decade. This is the scale of action required to save freshwater fishes and the time to act is now.
Barney Long, Senior Director of Conservation Strategies, Re:wild
This Blueprint is the level of ambition that is desperately needed to make up for the damage caused by decades of neglect in the world’s freshwaters, and to ensure they are conserved and protected long into the future. With funding and support from those able to offer it, it is very much achievable.
Hear what our partners say about working with SHOAL, and why the Blueprint is so critical 👇
The Blueprint shows the level of ambition and determination we need to turn back the tide on the freshwater biodiversity crisis, and halt extinctions and recover populations of the world’s most threatened freshwater fish. It is collaborative to its core and puts local communities at the forefront of impactful conservation action. It is urgent that we now push on and mobilise the conservation actions outlined by The Blueprint – our planet’s freshwaters depend on them.
Michael Baltzer, Executive Director, SHOAL
For freshwaters, the time for action is now.
Together – as a strong and determined shoal – we’ll show that collaborative conservation can change the trajectory for freshwater fishes and save the world’s freshwater ecosystems.
SHOAL’s Phase One report highlights many of our achievements from the past four years and outlines our strategy and aims for the coming decade.
SHOAL’s Phase One report showcases some of SHOAL’s main achievements since the initiative’s conception in 2019. Inside, you can learn about the suite of programmes across five continents that we have launched, the development of two new NGOs we’ve been instrumental in helping with, the SOS: Support Our Shoal campaign we’ve rolled out to provide a reliable and trustworthy mechanism for the aquarium hobby to engage in conservation, and much, much more.
The report draws attention to our brilliant Local Action Partners and Strategic Partners, and shines a light on the stories surrounding the search for the fat catfish and the reintroduction to the wild of the golden skiffia.
“We are proud that we are recognised globally in conservation circles as an important actor in freshwater species conservation, that we have established programmes across five continents, and that we have built powerful partnerships with leading organisations who have been and will continue to be instrumental in helping us achieve our goals of protecting and restoring freshwater habitats and conserving the most threatened freshwater species globally”.
Michael Baltzer, Executive Director, SHOAL
There is, of course, much work to be done. This first phase is just the start of a strategy of work leading up to 2032, all efforts of which will support the achievement of the UN Convention on Biological Diversity’s New Global Framework for Managing Nature Through 2030, the UN Decade of Restoration, and the UN Sustainable Development Goals targets
New roadmap sets the course for urgent conservation of freshwater fishes in Southeast Asia
Major report published today by the IUCN Asian Species Action Partnership (ASAP), Mandai Nature and SHOAL.
Today marks the release of The Strategic Framework to Accelerate Urgent Conservation Action for ASAP Freshwater Fishes in Southeast Asia, a new roadmap which sets the course for the urgent conservation of freshwater fishes in Southeast Asia.
The IUCN has identified 90 freshwater fishes on the brink of extinction in the region, across 11 countries including Brunei Darussalam, Cambodia, Lao PDR, Indonesia, Malaysia, Myanmar, Philippines, Singapore, Thailand, Timor-Leste and Vietnam.
The aim of this new roadmap is to see all 90 Critically Endangered ASAP freshwater fishes receiving active conservation efforts by 2030.
“Southeast Asia is the world’s hotspot for highly threatened species. This framework provides the direction and clarity required to focus and catalyse action to bring the most threatened freshwater fishes back from the brink of extinction.”
Michael Baltzer, Executive Director, SHOAL
Freshwater habitats are home to 51% of all known fish species, yet one third of freshwater fish species are threatened with extinction – making them one of the most highly threatened taxa globally.
Southeast Asia alone is home to 30% of global freshwater fish species, making up 15 of the 16 fish species declared extinct in 2020.
“The lack of targeted conservation action requires a ramp up of support and funding for these overlooked species.”
Dr Sonja Luz, CEO, Mandai Nature
The framework identifies rapid loss and degradation of natural habitats as the primary threat to nearly all Critically Endangered freshwater fishes. Many of these habitats are shared across borders, highlighting the vital need for cross-country cooperation to achieve meaningful conservation impact.
“Collective efforts across Southeast Asia are urgently needed and are crucial to halt declines immediately.”
Our annual New Species report, detailing the 201 species of freshwater fish identified last year.
A fish that can leap out of water to escape predators, an air-breathing catfish, and some blood-sucking vampires highlighted in New Species 2022.
This World Wildlife DaySHOAL release their second annual New Species report, a landmark report detailing the 201 freshwater fish species described in 2022.
The class of 2022 includes:
The Juan Deriba killifish, which can leap out of water and stay on dry land for hours to escape predators
The Monsembula catfish, named after Congolese researcher and Greenpeace campaigner Raoul Mosembula
Nine species of Paracanthopoma, a genus of blood-sucking catfish with nice names like Daemon, Satanica and Vampyra
Two species of Amazonian darter, the beautiful fin darter and Apuí root darter, whose habitat is being lost to deforestation even as they are being discovered
“SHOAL’s New Species reports shine a much-needed light on a group of creatures that get very little attention.”
Michael Baltzer, Executive Director, SHOAL
Let’s look at the numbers!
Of the 201 freshwater fish first described in 2022, there are:
88 from South America
68 from Asia
25 from Africa
9 from Oceania
8 from Europe
3 from North America
“It may come as a surprise to some to learn that hundreds of freshwater fish species are described every year. But it shows just how much there is for us to learn about what lies beneath the surface of the planet’s freshwaters. More than half of all fish species live in freshwater, which is remarkable considering less than 1% of Earth’s water is liquid freshwater. Yet humans have historically neglected and mistreated freshwater habitats, meaning that many of these incredible species are at risk of being lost. SHOAL’s annual New Species reports, in collaboration with the IUCN Freshwater Fish Specialist Group and the California Academy of Sciences, puts a much-needed spotlight on these species, which will ultimately give them a greater chance of being saved.”
Kathy Hughes, Co-Chair, IUCN Freshwater Fish Specialist Group
The report is the second edition of SHOAL’s annual release of New Species reports. New Species 2021 showcased the 212 freshwater fish described in 2021, and is available to read here.
Post Overview
Michael Edmondstone
March 3rd 2023
SHOAL, Stories
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One quarter of freshwater animals at risk of extinction – IUCN Red List
Assessing the extinction risk of all species of freshwater fishes globally
Assessing the extinction risk of all species of freshwater fishes globally: an interview with Catherine Sayer
Catherine Sayer is the Freshwater Programme Officer in the IUCN Biodiversity Assessment and Knowledge Team, based at The David Attenborough Building in Cambridge, UK. She is currently working to get the extinction risk of all species of freshwater fishes globally assessed for the IUCN Red List, which will fill in knowledge gaps on which regions have the highest numbers and proportions of threatened freshwater fishes, giving a greater understanding of where conservation programmes are likely to have most impact.
SHOAL caught up with her to learn more about the IUCN Red List assessment process and get some advice on how researchers and taxonomists can conduct Red List assessments themselves.
Tell us a bit about your background and your current role. And what led you to do what you do now?
I have been working for IUCN since 2014 based in Cambridge, UK in the (recently renamed) Biodiversity Assessment and Knowledge Team, part of the IUCN Centre for Science and Data. I was initially part of the Red List Unit, but since 2016 have been focussing on freshwater biodiversity, now with the role of Programme Officer.
My background is quite broad, with an undergraduate degree in Natural Sciences (Zoology) and an MSc in Ecology, Evolution and Conservation, but over the last few years I’ve become much more familiar with the fascinating and often overlooked world of freshwater! At present, my work primarily focusses on increasing the representation of freshwater species on the IUCN Red List of Threatened Species™, through assessment of species of freshwater decapods (crabs, crayfishes, and shrimps), fishes, molluscs, odonates (dragonflies and damselflies), and aquatic plants. This is important given the unprecedented level of threat to the freshwater realm, which is incredibly species rich (supporting over 10% of all known species and 30% of vertebrates, despite covering less than 1% of the Earth’s surface), and of great value to human livelihoods in terms of ecosystem services.
You have recently done a gap analysis to see which species still need to be assessed for the Red List. What does this involve?
IUCN is working to complete a global assessment of all freshwater fish species for the IUCN Red List, and I recently completed a gap analysis to identify which freshwater fish species still need to be assessed. To do this I compared a list of all described freshwater fish species from Eschmeyer’s Catalog of Fishes, which is the standard taxonomic source for fishes on the Red List, to a list of all species with assessments published on the IUCN Red List, or under way through ongoing projects. The resulting list (after accounting for quite a few taxonomic discrepancies and changes!) includes all “gap species” of freshwater fish that still need to have Red List assessments completed. Many of these species are those that are relatively new to science, having been recently described, such that our target list is growing as researchers and taxonomists identify and describe more species!
And what does a Red List assessment involve?
An IUCN Red List assessment tells us the relative extinction risk of a species. Each assessment includes an account with information on the distribution (including a distribution map), population, habitats and ecology, use and trade, threats, and conservation and research actions relevant to the species. This information is then used to assign species to a category of extinction risk based on data driven and objective criteria. The criteria are designed to identify species at higher relative risk of extinction based on their population size, population trend, or geographic range, together with information on threats acting on the species. Species assessed as Vulnerable (VU), Endangered (EN), or Critically Endangered (CR) are described as threatened. However, the Red List isn’t just limited to those species at high risk of extinction – it includes information on all species that have been assessed against the categories and criteria, including those assessed as Least Concern (LC) and considered to be at low relative risk of extinction, for example.
We work with species experts and conservation scientists to draft Red List assessments based on the best available knowledge at the time of assessment. Anyone with knowledge of the global population of a species can be an assessor, but in practice most assessments are drafted by members of the IUCN Species Survival Commission (SSC) Specialist Groups. Once drafted, assessments are reviewed by independent experts to ensure the data presented are correct and complete. Prior to the COVID-19 pandemic, these first steps (drafting and review) often took place in workshops where we gathered species experts to assess the freshwater species native to a particular region and/or taxonomic group, but at present assessments are completed remotely by individuals or groups of experts collaborating online. Once reviewed, assessments are submitted to the IUCN Red List Unit in Cambridge, UK for final consistency checks before being published on the IUCN Red List website, which is recognised as an online scientific journal.
Once published, IUCN Red List data are available for many uses by a number of sectors: education and public awareness, scientific analyses, influencing conservation policy, informing conservation planning and priority setting, assisting with private sector decision making, and more. To search for a species on the IUCN Red List, simply enter its scientific or common name into the search bar at the top of the website. If the species has been assessed for the Red List, you will be taken to its species account.
Approximately how many freshwater fish species are assessed each year?
On the current version of the Red List (version 2021-3), there are assessments of 11,291 species of freshwater fish, representing over 60% of all described freshwater fish species. This total is the result of over 20 years of Red Listing work, but efforts and number of species assessed have greatly increased in recent years with support of initiatives such as the IUCN–Toyota Partnership, which have enabled us to increase the geographic coverage of the Red List with respect to freshwater fishes. In 2020, assessments of close to 1,800 freshwater fish species were published, primarily from the Sunda Basin and New Guinea, and in 2021, assessments of over 900 freshwater fish species were published, including species from Brazil, the Caribbean, and the Philippines. This year, we are hoping for many more species to be published, the majority of which will be native to South America.
And approximately what percentage of these are threatened with extinction?
Of the freshwater fish species assessed for the Red List so far, a best estimate of 30% are considered to be threatened with extinction, meaning they are assessed as Vulnerable (VU), Endangered (EN), or Critically Endangered (CR). This estimate isn’t yet based on complete data (given all freshwater fishes haven’t yet been assessed for the Red List), but indicates a higher percentage threatened with extinction than for birds, reptiles, and mammals, all of which have been assessed. Of the threatened freshwater fish species, 636 (6% of the total) are assessed as CR, and 943 (8%) are assessed as EN. It’s also important to note that a high proportion (21%) of the freshwater fish species assessed so far have been categorised as Data Deficient (DD). This means that there is insufficient information available to indicate their relative extinction risk, bringing some uncertainty into these estimates.
Shoal are keen to encourage researchers and taxonomists to conduct Red List assessments when they discover and describe new species. Can you offer any advice on how they can best do this?
I am also keen to encourage researchers and taxonomists to assess species for the IUCN Red List after describing them! I work with a handful of species experts that do this already, but would welcome if this practice became more widespread. Lots of the information that is provided as part of the description of a species is also relevant to a Red List assessment, for example the known distribution and habitats of the species. Additionally, those involved in the discovery and collection of a species are generally familiar with activities occurring in the distribution of the species that might be observed to (or can be inferred to based on knowledge of similar species) have negative effects on the species, therefore representing known or potential threats. Together, this provides a good basis for a Red List assessment.
Some taxonomic descriptions already contain sections on the conservation status of a species, but these don’t constitute an official Red List assessment – Red List assessments are only official once they have been through the full IUCN Red List assessment process and been published on the IUCN Red List website. This is to ensure that the IUCN Red List categories and criteria have been applied correctly and consistently. Although not always the case, many recently described species are assessed as either Data Deficient (DD) or threatened, given they are often relatively poorly known or occur in poorly known areas, and may be rare or have highly restricted distributions.
For any researchers interested to assess their newly described freshwater fish species for the Red List (or any species for which they have the relevant knowledge), I would advise that they contact me and I will be able to guide them through the Red List assessment process. Alternatively, there are lots of helpful resources available via the Red List website, including a free online Red List training course.
Describing new species: an interview with Ralf Britz
Dr. Ralf Britz is a leading ichthyologist and taxonomist, and Head of the Ichthyology Section at Senckenberg World of Biodiversity. He has been involved in a total of 73 species descriptions and has been a key team member in the discovery of seven species which needed the creation of new genera. He was also the lead author on two papers describing the Gollum snakehead Aenigmachanna gollum: a new species in a new genus in an entirely new family.
With Shoal’s release of a landmark New Species 2021 report tomorrow, we caught up with Ralf to get the low-down on what discovering and describing new species really means.
What does it mean to describe a species, and how is it done?
When you describe a new species scientifically this process is often referred to among the public as having identified a new species. The process starts with the impression that you have found a species that does not have a scientific name, i.e. it is unknown scientifically. You then need to compare your specimens of what you think may be a new species with specimens of similar species that already have a name.
As taxonomy is one of the oldest scientific biological disciplines, this can be quite a cumbersome process, because you have to deal with all the species descriptions since and including Linnaeus’ 10th edition of his Systema naturae, published in 1758 and the starting point of animal taxonomy. If you are lucky and the group you work on has only a few species, then it is easy to compare your material with already collected material of the other species. This usually involves comparison with what we call type specimens, the specimens used to describe species. One of these type specimens is chosen as the holotype, the actual name bearer, the one specimen that is permanently linked to that name. These are stored ideally in publicly accessible museum collections. If, after comparison, you find that the specimens of what you thought were a new species are identical to one of the already described ones, then that is the end of the story. But if you find consistent and significant differences to all the known species in the group you are studying then you have probably found a new species.
The next step is then to write up a scientific manuscript in which you detail how your new species differs from already described (named) species, and you propose a name for it. The name may refer to a characteristic feature of the new species, or the place where it was collected, or it may honour a person, such as the person who collected it, an influential colleague or someone who supported your work.
In most cases the new name concerns just the new species. But sometimes you find an organism that you cannot easily fit into a larger group of similar and closely related species, a group we call a genus. In this case you may need to create a new genus for this new species. Here, the same rules apply you need to check all genera (plural of genus) in the larger group of organisms (a group we call a family). If you find you cannot fit it into one of the known genera, you can describe a new genus.
Once you have written up your findings relating to a new species or new genus, you submit your manuscript to a scientific journal for peer review. This means the manuscript is sent to other experts in the field who read your manuscript and point out potential problems, errors, mistakes etc. They provide the quality check before a manuscript is accepted and then published. They may ask you to revise your manuscript, check sources you may have overlooked, ask for additional details, or if you have made some major mistakes, suggest to reject your manuscript. If you have done your job, though, it may need no or just minor revision and will then get accepted for publication. Once it is published by a scientific journal and you have made sure you followed all the necessary steps that are required by the Code of Zoological Nomenclature – a set of rules that determine what has to be done for a name to be published in a valid way – then the new species is officially described and carries the name you have chosen.
I want to briefly touch on a worrying aspect of species descriptions that has started to plague taxonomy: the unholy alliance between self-proclaimed taxonomists and journals that will publish anything of any quality if you pay for it, the so-called predatory journals. There is an increasing number of manuscripts getting published which did not go through the strict and necessary step of peer review. Publication of these poor-quality species descriptions is a problem, because you cannot just ignore them as in other areas of science where poor papers just disappear in the garbage dump of scientific publications. Even poor-quality papers that describe new species will need to be considered due to the specific rules of nomenclature that need to be applied. Showing that these manuscripts are poor quality, and that the so-called new species is actually not new often involves so much more work, effort, time and money from you than the person invested who wrote the poor-quality manuscript. I know of cases in which one person described more than 20 new species from a well-known area of the world, all in predatory journals and with not a single of these so called new species really being new. Imagine that for each of these 20 or so new species you need to demonstrate that the original paper describing them is of poor quality and that these are not new species. This means you waste precious time, in which you could have described 20 new species with the level of quality that is necessary and is guaranteed by a proper peer review. Such taxonomic vandalism, as it has been termed, hampers the discovery of new species in a time when diversity is disappearing at an alarming rate.
Are there any species descriptions you’ve been involved with that you found particularly memorable or noteworthy?
Oh yes, absolutely. I have a soft spot for the weird and wonderful. I was involved in the description of Paedocypris progenetica, the smallest fish and vertebrate species. Then Danionella dracula, an equally tiny relative of D. cerebrum. But D. dracula has impressive large fangs. Then there was a new species and genus of earthworm eel from Myanmar, which I named after my daughter, Pillaiabrachia siniae. And during night collecting in the Rio Negro in the Amazon basin we found a new brilliantly blue coloured little fish, the blue bellied night wanderer, as we named it, Cyanogaster noctivaga. But the most memorable is Aenigmachanna gollum. When I first saw a photo shared on social media and sent to me by my colleague Rajeev Raghavan from Kochi, my heart stopped, as I had no idea what kind of fish I was looking at. Well, it ended up in a genus and family of its own.
212 new freshwater fish species sounds like a lot in one year. What does this level of discovery tell us about the extent of what remains unknown in the planet’s freshwaters?
It sounds like a lot, but this has been the general trend of freshwater species discovery over the last few decades. There are still large parts of our planet that have not been explored and we keep discovering new animals that we had no idea existed. Finding a new species of an already established genus is exciting, but discovering entirely unknown lineages of higher taxonomic categories still today teaches us how much we do not know. And then keep in mind that only a tiny, tiny fraction of earth’s water volume, just around 0.03%, is freshwater in lakes and rivers and habitable for fishes. And yet, we have all this incredible diversity there. Mindboggling.
What is it about freshwater that leads to such incredible biodiversity?
I would say it is the more local situation and more diverse habitats that you get in freshwaters: you have river basins that are separated by land from other basins. There species evolve that are endemic to this river basin. Then you have ecological separations of river mouths from lowland parts of the rivers, separation of these from the more mountainous faster flowing parts of rivers and finally the rapidly flowing headwaters. This leads to endemism in different parts of the same river. These different parts of the same river will not only differ in the velocity of the water but also in the water temperature, amount of dissolved oxygen, pH, conductivity. Imagine that you have this basically in every major river.
Add this to the fact that through geological events over millions of years you have separations of parts of rivers and reunion of others, so there is a multitude of habitats changing over time and often very restricted endemisms.
All of these factors together act as species pumps that are obviously working much faster than in the oceans.
Why is it important to discover and describe new species?
There are many different aspects to this question. One is this: if we consider the entire picture of lifeforms that evolution has produced on our planet, then we would miss many pieces of a complex puzzle if we stopped exploring. Think of the painting of Mona Lisa with hundreds of thousands of holes in it. You would not want to look at that.
Understanding diversity may also enable us to better understand how this diversity interacts. Something may seem insignificant but is sometimes of the greatest importance. Just think of invasive species, pests of crops, indicator species that help you evaluate the quality of a habitat and our environment. New species may become important in research: just think of the zebrafish discovered back in 1822 but also Danionella cerebrum only described last year. New species are pieces of the evolutionary puzzle we did not know existed and because of that we had no idea what they may have to offer.
Do you think it is important for people to care that new species are still being discovered and described? Why?
My experience is that people are generally excited when you tell them about new species discoveries. To imagine there is still so much out there that is unknown to us is a fascinating thought.
It is also more urgent than ever that we go out and discover, as the diversity is disappearing fast. Just think of the image of Mona Lisa with the hundreds of thousands of holes. Would
it not make you sad to know that these will never be filled as the species disappeared before we identified them?
What can we hope to learn from new species discoveries and descriptions?
The most important part we can learn is that there are so many fascinating organisms out there that we have not even discovered. Sometimes it is a new species that looks very much like one we already know, but often we discover a true gem, something unimaginable, unexpected, something we would have bet money does not exist. And these are special moments when you sit there quietly in awe of the evolutionary diversity our planet has produced.
Is there anything you would like to add?
Taxonomy, discovering, describing and understanding the evolutionary diversity that surrounds us to me is one of the most satisfying parts of my life. I would never trade it for anything else.
Post Overview
Michael Edmondstone
March 23rd 2022
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One quarter of freshwater animals at risk of extinction – IUCN Red List
New family of prehistoric fishes discovered in Kerala
Described as a 'living fossil', the Aenigmachannidae lineage is over 100 million years old.
By Michael Edmondstone
August 2018, in Oorakam in the southern Indian state of Kerala, local fish hobbyist Ajeer spotted three strange-looking fish in one of the paddy fields surrounding the village. Long, dragon-like bodies framed by bony fins, the creatures looked different to anything Ajeer had seen before. He put some photos on social media and asked if anybody could help identify the species.
It was not long before the images reached the desk of freshwater conservationist Rajeev Raghavan. Rajeev was intrigued by the species: he did not recognise it and knew it called for further investigation, so he contacted Ajeer and sent his team into the field, where they were able to collect live samples.
Back in the lab, Rajeev examined the fish and concluded it must be a hitherto unrecognised species of snakehead. To be certain, he shared some high-quality images with Ralf Britz, one of the world’s leading authorities on snakeheads. Ralf previously discovered the Dracula fish in the peat swamps of Southeast Asia and according to Rajeev: “has worked on some really strange fish”. This, though, was “stranger than any fish he had seen in his life”.
As the researchers suspected, the fish was new to science. They named it the ‘Gollum snakehead’ as it is a subterranean creature, spending most of its life underground like the slippery character in The Lord of the Rings.
But the discovery had bigger implications than simply being a new species. Another snakehead species – the Mahabali snakehead – had also been collected in Kerala a few months before and was published as a new species after the Gollum snakehead had been described. Rajeev, Ralf and an international team of ichthyologists recognised many clear similarities between the Gollum and the Mahabali, and proved that not only were the two species new to science, they were actually members of a whole new family of fish.
Rajeev: “We looked at the fish in detail – its morphology, anatomy and DNA, even analysed its mitochondrial genome and found that it was a completely unique family that is an ancestor to the family of snakeheads that currently dwell in Africa and Asia.”
The family was named Aenigmachannidae. And it is old. Really old.
“We looked at its molecular dating and its origin was traced back to 100 million years, when the Gondwana supercontinent was in existence.”
That puts the evolution of the Aenigmachannidae family squarely in the Cretaceous period, when the largest animals ever to walk the planet still ruled. Incredibly, the Gollum snakehead and most likely the Mahabali snakehead species are older than Tyrannosaurus Rex.
Rajeev again: “We hypothesise that the fish evolved in Gondwana and drifted along with the Indian subcontinental plate across the oceans before hitting the Eurasian continent, and then it got trapped in the subterranean systems and didn’t evolve for the last hundred million years – it has these very primitive characters not seen in other snakehead fish”.
Due to the difficulties of researching a species the lives underground, not much is yet known about their natural behaviour. But through observing a group of the fish maintained in an aquarium, Rajeev and his team have noted displays of territorial aggression not seen in other snakeheads. The fish are also unselective about what they eat: “It eats aggressively. We first started with live feed, e.g. bloodworms, earthworms, live shrimp, and they even take live fish: whatever we’ve tried to feed them, it chomps everything up”.
Potential threats to the family:
Kerala is blessed with an abundance of bizarre subterranean fish, with ten species that are not found anywhere else in the world.
But they face multiple anthropogenic threats.
Due to the majority of these species living in areas of human habitation, there is a high likelihood that the paddy fields and land under which the fish live will be developed, leading to habitat loss.
The fish’s novel appearance means most locals do not recognise them and fear they may be poisonous and harmful to the water that they drink. There is thus a tendency for the locals to kill them.
A third pressure is that of invasive species. According to Rajeev: “People introduce invasive species like the African catfish into the wells. It serves no purpose and we don’t yet know how it can harm these very unique fish.
“There is a range of threats we need to address, so I think we need to have a very organised, systematic education programme aimed at the regions where these subterranean species are found, making people aware of the importance and uniqueness of these organisms and the endemic wealth of these communities”.
What would be the best way to educate the locals?
Rajeev says it is by: “Mapping the areas where the fish are likely to be found, and then working with local governments at the village level and working through educational material to show them the kinds of fish which may come to their notice, and asking them to save those fish for scientific study, and for future generations, instead of killing them”.
And the conversation between scientists and locals works both ways: “All of these discoveries are made as a result of seeing photographs circulated on social media. Before the scientists come into contact with them, it is the local people who come into contact with them, so citizen science I think is key to the long-term research and conservation of these unique organisms. People are the key not only for conserving them but also for bringing these unique organisms to the attention of scientists”.
Finally, what comes next for the Aenigmachannidae?
Rajeev and the team aim to learn more about their ecology and biology. They will use small tags to learn more about where the creatures live, what organisms they feed on, and how they behave. They are also trying for an ex-situ captive breeding programme, so watch this space!
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Michael Edmondstone
November 5th 2020
Conservation, Feature, Fish, Interview
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