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Read in: EnglishCymraeg
Sam Jones
Plantlife’s Cairngorms Project Manager Sam Jones reveals how a tiny flower in Scotland is fighting back against extinction in the UK, and what we’ve learnt about this mysterious wee plant.
I’ve been spending a lot of time reading what little information there is on One-flowered Wintergreen, Moneses uniflora, doing site visits, and chatting with other experts. I’ve been trying to figure out what has caused its sharp decline in abundance and distribution globally, and how we can help prevent it here in Scotland.
The uncomfortable answer I’ve come to is that we still don’t really know all that well. Around 10% of the Scottish population is in the Cairngorms, the rest distributed sparsely across the Highlands. In the last 50 years, I estimate that we’ve lost half of our populations, and of those remaining, only a few are stable or improving. We may soon lose all One-flowered Wintergreen in the UK without intervention.
Thousands of years ago, before significant human alteration to the landscape of Britain, perhaps One-flowered Wintergreen existed in a particular niche. It may have relied on the bare ground made by a wild boar digging for roots in the woodland, or the wood pulp made by a beaver chopping a tree, or the trampled ground under the hoof a mighty Auroch.
In the modern world humans create this niche for them more than animals, and sadly, our modern management of pine woods has favoured it less. Through research and collaboration, we will be able to manage woodlands holistically, providing a mosaic of habitat for One-flowered Wintergreen in Scottish pinewoods, as well as other rare native species.
In Autumn 2023 we translocated 109 individual One-flowered Wintergreen rosettes from two sites in to RSPB Abernethy, reinforcing a tiny relic population. This is a very early trial, as much a learning experience for future work, as it is to improve the condition of the Abernethy population.
I have been cautious to publicise this work, as, given no one has ever translocated One-flowered Wintergreen before (or even worked towards conservation of this species), I was prepared for total failure. However, the good news is, after 9 months at their new site, survival of rosettes remains above 70%. This is excellent for a plant translocation and bodes well for further Wintergreen translocations.
We hope to do more translocations to allow genetic mixing between populations and to rescue them from threatened sites. In addition to collecting plants for translocation, 12 plants went to Royal Botanic Gardens Edinburgh, where they have been working towards understanding the complex fungal interactions which One-flowered Wintergreen relies upon to survive, and in particular, to germinate.
One-flowered Wintergreen is the only member of its genus Moneses, closely related to Pyrola, a group containing the other wintergreens, such as Intermediate Wintergreen (Pyrola media). Sadly, all are rare and in decline.
True wintergreens are partial-mycoheterotrophs, which means that they have an alternative to photosynthesis for acquiring their energy to grow. They can parasitically take sugars and other minerals from fungus in woodland soils.
This ability to uptake energy from the soil as a supplement to their photosynthesis is likely part of why they are so challenging to understand and to propagate in captivity. There have also been suggestions that the presence of specific fungi is necessary for the tiny powder like seeds to germinate.
One-flowered Wintergreen does not seem to have an easily definable niche. It is very rare, only occurring at specific sites, and often isolated to an area a few tens of metres across in a large and apparently suitable woodland.
Recently, we have had some breakthroughs helping us to understand this plant better. Trials of cattle grazing in woodland have yielded rapid recovery in a One-flowered Wintergreen population. Another site was heavily trampled and disturbed in the process of Rhododendron removal, again yielding rapid recovery of Wintergreen. These plants all seem to recover on sites where bare ground, trampled wood, and organic material are present.
On forestry sites, One-flowered Wintergreen appears to grow only along forestry tracks and where the ground has been historically disturbed. A picture is starting to emerge of this species favouring periodic heavy disturbance of woodland soils.
Armed with this information we are providing advice to current land managers. We are also investigating options for a small-scale trial translocation of One-flowered Wintergreen, as much to aid in our learning of the needs of this rare flower, as to aid the genetic resilience of a small and struggling population.
45% of flowering plants are at risk of extinction.
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Plantlife’s Artist in Residence, shares her summer journey across our reserves and some top tips for aspiring botanical artists.
Grasslands like meadows and parks are not just home to wildflowers, they are also an important habitat for waxcap fungi.
Did you know some of our plants are threatened by extinction? Here are 3 species that are endangered in Scotland and the work that’s being done to bring them back.
Did you know that more than 90% of fungi are unknown to science?
Throughout February, Plantlife is participating in Reverse the Red’s Fungi month – a chance to better understand the mysterious worlds of some of our rarest fungi species.
Reverse the Red is a global movement aimed at raising awareness of the work being done by organisations and communities to reverse the trend of biodiversity loss, ensuring the survival of wild species and ecosystems.
The initiative brings together scientists, advocates, and partners who use data and science-based conservation approaches, with the goal of reducing our rarest species vulnerability, and eventually removing them from the Red list.
Red lists are a globally recognised way of listing and identifying the threat of extinction to species. Species are assessed objectively based on ongoing scientific information and research.
The world’s most comprehensive list is the International Union for Conservation of Nature IUCN Red List of Threatened Species. There are other more local red lists, such as the Great British Red List.
Fungi are a crucial partner to nearly all life on Earth, with an estimated 2.5 million species of fungi found around the world. But more than 90% of fungal species are unknown to science.
This lack of data means it is hard to know if some of these important species need conservation help.
Only 0.4 % of fungi that we know about have had their global conservation status assessed for the IUCN Red List Assessment. That is only 0.02% of the fungi estimated to exist – imagine the amazing species yet to be found!
People around the world are getting outside and recording fungi to help better understand them.
Since the beginning of 2020 more than 10,200 species of fungi have been named as new to science.
This includes 6 new species of webcap uncovered in the UK – 3 in Scotland and 3 in England, such as Cortinarius heatherae, spotted alongside a river beside Heathrow airport.
Did you know that dreaming of Harebells is said to be a sign of true love, or that Daffodils are used to celebrate a couple's first decade of marriage?
Though we typically associate wildflowers with spring and summer, some species thrive in the colder months.
For a full dose of positivity take a look through our 2024 highlights. Let's revisit the amazing ways we have helped protect nature for the future this year.
Sarah Shuttleworth
In the UK we have over 45 species of orchid – which might be more than you thought!
Learn more about this wild and wonderful family of plants with Plantlife wildflower expert Sarah Shuttleworth.
Orchids are part of the largest and most highly evolved family of flowering plants on earth. They are usually highly specialised to a specific habitat, with equally specialised relationships with pollinators, and fungi which live in the soil.
The majority of species reproduce via tiny seeds that are known as ‘dust seeds’ which need perfect conditions to germinate – with some species even relying on specific types of fungi in the soil for them to grow. This means that conditions in the soil and habitat need to be exactly right for an orchid species to thrive, hence why we don’t encounter them all the time.
One UK orchid has gained huge notoriety for its rarity, the Ghost Orchid Epipogium aphyllum. This species is currently regarded as extinct but with hopes for its re-discovery. Occurring in Beech woodlands in deep leaf litter where gets its energy from decaying matter, it’s appropriately named for its pinkish white ghostly appearance rising from dead leaves.
Although orchids are not the most common plant you will find, they do occur in a huge variety of habitats. Traditional hay meadows and pastures can host several species, the most common of these are
Many orchids also specialise in woodlands, for example Early Purple Orchid Orchis mascula, Helleborines Epipactus sp and Bird’s-nest Orchid Neottia nidus-avis (pictured), a fascinating yellow orchid without any chlorophyll that depends entirely on getting its food from decaying material in the leaf litter. There are also species that grow in fens and bogs, pine forests, heathlands and dunes.
The majority of the time due to the specific requirements for growth, orchids tend to be associated with long established habitats, that haven’t had lots of disturbance. Therefore, a nature reserve can often be a useful place to look.
The best time of year to look for orchids tends to be late spring and early summer. Quite a few UK orchids have spotted leaves, making them even more distinctive and easy to spot.
They are perennial plants, and in the UK are formed of a spike of flowers on a single stem. They all share a similar flower structure, despite the huge variety in their appearance. There are 3 sepals (outer protective petal-like parts) and 3 main petals, with one that usually forms a lower lip known as the labellum. This lip is often the largest and most distinctive ‘petal’ structure of the flower.
Often their intricate design and some species astonishing mimicry to tempt pollinators is one of the most intriguing features of these plants. With Bee and Fly Orchids imitating these insects to attract them to land on the flower, mistaking them for a potential mate, and thereby pollinating the flower.
The key features of orchids for identification other than habitat, are the leaves (shape and markings) and the lower lip of the flower (labellum). The easiest species to start with are Early Purple Orchid, Common Spotted Orchid, Bee Orchid and Common Twayblade. This is because they are relatively more common than other species and most can occur in grassland and woodland habitats.
Early Purple Orchids are out amongst the bluebells in older woodlands amongst the Bluebells or edges of woods around mid-May. They are a fuchsia pink/purple colour with minimal patterns on the lower petals, and have spotted leaves at the base.
Green-winged Orchids can be found in species-rich, old meadows, often popping up with lots of Cowslips in mid-May. They don’t have spotted leaves and have green streaks on the pink/purple wing like petals.
Early to mid June is then the best time to look for Common Spotted and Bee Orchids in the species-rich grasslands. They have spotted leaves that occur up the stems, and much paler flowers than the Early Purple, that are streaked and patterned with dark pink.
Bee Orchid is very distinctive with its mimicry of a bee flower and unmarked green leaves.
Common Twayblade has two large, rounded leaves that grow opposite each other, with the flower spike starting as a knobbly spike between the two leaves, growing taller to display small green flowers that appear to have two dangly legs.
It is always exciting to find any kind of orchid, and worthy of a photo! Just remember to be careful not to tread on any nearby orchids that are just coming up. Share the photos with friends, as you never known who doesn’t know that our wonderful UK orchid species even exist.
Further reading
FSC Orchid Guide
The Orchid Hunter by Leif Bersweden
Britain’s Orchids A Field Guide to the Orchids of Great Britain and Ireland by Sean Cole, Michael Waller and Sarah Stribbling
Getting out and looking for fungi can be a great way to connect with nature and discover more about this amazing kingdom. Here our Specialist Botanical Advisor, Sarah Shuttleworth, gives her top tips for finding fungi!
Recent studies have revealed that there's so much fungi out there that we don't know about. But how do we know this? Rachel Inhester, from our science team, tells us why.
Robbie Blackhall-Miles
Plantlife’s Vascular Officer Robbie Blackhall-Miles finds an exciting new plant species for Wales. Read more about the Hares Foot Clubmoss and its discovery in Eryri in his words.
New things are always exciting, right? The first time something in your garden flowers, a new patch of Bee Orchids in an unmown lawn, a new record of something rare on your NPMS patch? How about a whole new plant species for your country?
That’s exactly what happened to me in the summer of 2021 – but first, some background.
Clubmosses are a group of plants that really excite me. They are a group of plants that have been around in one form or another since the Silurian period (that’s over 430 million years ago). We have five species here in Eryri: Alpine, Marsh, Fir, Lesser and Stag’s Horn. We had another, Interrupted Clubmoss Lycopodium annotinum, until the late 1830’s when William Wilson last saw it above Llyn Y Cwn (The lake of the Dogs) high above Cwm Idwal. By 1894 J.E. Griffith had declared Interrupted Clubmoss extinct in Wales in his ‘Flora of Anglesey and Carnarvonshire’. I have hunted for Interrupted Clubmoss now for years to no avail – I won’t give up.
A good day out in the mountains for me is a ‘four clubmoss day’. A ‘five clubmoss day’ will take me past just a couple of very specific points where I would see Marsh Clubmoss Lycopodiella inundata as well, and would force me on to a longer and circuitous route to get to the places to see the other four.
When I botanise abroad, the Clubmosses feature as high points in my adventures and I was particularly pleased to find one of our own indigenous species, Stags Horn Clubmoss Lycopodium clavatum growing high in the mountains of South Africa when I was there in 2017.
Seeing these plants, that have remained little changed for such a long time that still exist in our anthropogenic world, really excites me. I always look out for them whether they be tiny plants of Lesser Clubmoss Selaginella selaginoides growing in Calcium rich seepages or fens, or huge sprawling mats of Alpine Clubmoss Diphasiastrum alpinum that grow high on our most exposed sheep grazed mountain slopes.
And so it was that one day in 2021 whilst walking a path that I rarely use, I spotted a clubmoss that really stood out to me. This clubmoss bore a resemblance to Stags Horn Clubmoss, but its growth habit was remarkably upright and the majority of its cones being solitary at the end of its stems (peduncles) rather than in twos or threes on the end of short stems (pedicels) at the apex of the peduncles. In the back of my mind, I remembered another species of clubmoss that had quite recently been confirmed as being present in the UK. So, using the Botanical Society of Britain and Ireland’s Code of Conduct I collected a small sample and took lots and lots of photographs.
On returning home that day I contacted a friend, David Hill, to see what he thought of the find – we were both a little confused and unhappy to declare what we thought it may be. You see, Hares Foot Clubmoss Lycopodium lagopus hadn’t been found further south than Scotland in the UK, and was considered rare there. The confusion for us was that L. lagopus and L. clavatum are very closely related and share a lot of characteristics.
The conversation continued between us for almost a year before I was able to go back to the site and see the plants with fresh cones. This time I carefully collected another sample and even more photographs and took them with me to the BSBI Botanical Conference at the Natural History Museum in London, where I thought I would be guaranteed to bump into Dr. Fred Rumsey – the man who wrote ‘the paper’ on Hares Foot Clubmoss as a UK species.
Sure enough, Fred was happy to declare this to have all the characteristics of Lycopodium lagopus and thus a new member of the Welsh flora.
Seeing our Welsh Clubmosses is exciting, finding a brand spanking new one is REALLY exciting. I had bottled up my excitement at finding this ‘something new’ for an awfully long time. The specimens had sat on my desk for nearly two years before Dr Rumsey had managed to see them. So, I am really pleased to tell you about it now.
We have six species of Clubmoss in Wales again, but not with the one we thought we may rediscover. To see them all in one walk would be a very long walk indeed so a ‘four clubmoss day’ will remain a good day in the mountains, a ‘five clubmoss day’ is still exceptional and a ‘six clubmoss day’, I am afraid, is just exhausting. One day I may be able to have a ‘seven clubmoss day’- that Interrupted Clubmoss may yet still survive somewhere in the mountains of Eryri.
Chris Jones, the Warden of Kenfig National Nature Reserve, recently found the very rare fungus, during a routine survey.
Ever wondered why we need to go out and count rare plants? Meg Griffiths reflects on a summer of lichen hunting for the Natur am Byth! Project.
Dave Lamacraft, Plantlife’s Lichen and Bryophyte Specialist, heads out to discover a wealth of extraordinary lichens which call Wales’ rainforests home.
Alistair Whyte, Head of Plantlife Scotland shares his thoughts on Scotland’s relict plant, Purple Oxytropis
“Sloping rocky banks and red sandstone cliffs. Extinct.” This is the brief and rather depressing entry for Purple Oxytropis Oxytropis halleri in my old Flora of Angus book (Ingram and Noltie, 1981).
The plant has been gone from Angus for a long time, as it has from North Queensferry and several other locations in Scotland. It’s one of our rarest wildflowers.
Purple oxytropis is an impressive plant – a member of the Fabaceae (legume) family, with purple flowers, silky leaves and growing in sometimes large colonies in the few places where it does still exist. In the UK, the species is only found in Scotland. Elsewhere, it’s only found in the high mountains of central Europe.
Its Scottish distribution is described as ‘relict’. Most of its remaining populations are coastal, with its stronghold on the north mainland coast. There are a very few populations on the north-east coast, and one extremely isolated population away down on the Mull of Galloway, in the south-west. It’s also found near the summits of three Scottish mountains, two in Perthshire and one in Argyll.
It’s likely that it was never a very common plant, and this country is very much on the northern edge of its range. But there’s no doubt that it was more widely distributed in the past than it is today. Some populations have been lost due to development destroying its habitat. The species is vulnerable to over-grazing– it’s tasty to grazing animals (of which we have an increasing number in Scotland). It also likes open conditions, so won’t thrive in areas that get too encroached with scrub or trees.
Purple oxytropis is dependent on pollinators, mainly bees, to successfully reproduce. Anything impacting on these pollinators will in turn impact on the ability of purple oxytropis to survive.
Its remaining isolated coastal populations are also extremely vulnerable to the impacts of climate change. Rising sea levels could be catastrophic, and associated erosion could spell disaster. The species isn’t widely distributed enough to withstand local impacts like this. A recent study carried out for Plantlife concluded that it is probable that the Mull of Galloway population will become extinct if no new plants appear and highlighted the threat that a single event such as a landslip could have on the fragile population there.
The isolated nature of the remaining populations means that the plants are likely to exhibit low genetic diversity and high levels of inbreeding, which will weaken them and make their future survival less likely. However, We don’t know enough about the genetics of the species to be sure.
How much should we care about trying to save a species which is already on the edge of its range? Surely, it’s doing okay in the Alps? The problem with that argument is simply, where do you draw the line? If we lose it from Scotland, does the next closest population become the ‘edge of range’ one which it’s OK to lose? And then the next?
If we want to live in a country that’s rich in wildlife, we must look after the species that make their home here. The problems facing Purple Oxytropis are difficult but not insurmountable. And by tackling the problems facing this species, we will also address these problems for a host of other species which are facing similar threats.
Looking at a map of Purple Oxytropis distribution over time is like watching a series of lights blinking out one by one. I don’t think anyone wants the map to go completely dark. It’s up to us to keep as many lights on as possible.
Plantlife is taking action for Purple Oxytropis through Species on the Edge partnership.
Saving the endangered Three-lobed Water Crowfoot plant, which is considered as an aquatic buttercup species.
New pools are being created at Greena Moor, a secluded Cornish nature reserve, for the endangered Three-lobed Water Crowfoot Ranunculus tripartitus.
The work was funded by Natural England through their Species Recovery Programme and charitable trusts including the Stuart Heath Charitable Settlement. Nature Reserves Manager Jonathan Stone have been working to protect the ‘star’ of Greena Moor.
Three-lobed Water Crowfoot is an aquatic member of the buttercup family, the plant has small, white, starry flowers. Like most crowfoots, it has two kinds of leaves; the surface leaves are three-lobed and broad, but the underwater leaves – rarely seen with this species but seen here in this photo – are finely divided and feathery.
In March 2020, Three-lobed Crowfoot occupied only two small pools near the ford, covering an area of just 7m2, and it was clear that a lack of suitable shallow water bodies was preventing further spread of the species at Greena.
Grazing also plays an important role, helping to control competing vegetation and distributing seed. The cattle grazing at Greena appears ideal, and on the Cornish Lizard heaths Three-lobed Crowfoot has become far more common under similar management conditions.
The nature reserves management team have created 10 new pools to encourage more Three-lobed Crowfoot plant. We are very hopeful to seeing similar increases of this beautiful endangered plant over the coming years.
How Plantlife is moving one of the most endangered wildflowers in Europe off the Red Data list for Great Britain.
Some of our plants in Wales are threatened by extinction, but here are 3 species that are being brought back from the brink of extinction.
Plantlife’s Cairngorms Project Manager Sam Jones reveals how a tiny flower in Scotland is fighting back against extinction in the UK.
Spring is an exciting time to be on our nature reserves. This is the season when the meadows really burst into life, with lush growth and seasonal flowers.
In the UK we have over 45 species of orchid – which might be more than you thought! Learn more about this wild and wonderful family of plants with Plantlife wildflower expert Sarah Shuttleworth.
Plantlife’s Vascular Plants Officer Robbie Blackhall-Miles finds an exciting new plant species for Wales.
We hear from Plantlife Nature Reserves Manager, Andrew Kearsey, on how work is progressing to protect the reserve from ash dieback, and grazing using ponies.
Chris Jones is the warden at Kenfig NNR. He is also a passionate fungus recorder. In 2022 he made an important discovery… A Date Waxcap, Hygrocybe spadicea! “A gorgeous shade of brown with yellow gills that I have only seen once in 20 years of looking for waxcaps, it was indeed a lucky day!”
Chris describes how the describes how the discovery came about:
“Kenfig National Nature Reserve is a magical place for me. It is 1339 acres of sand dune marvels and beauty, some days there is a new species surprise around the corner.”
“I am fungi obsessed, I love all the mycological delights but my favourites by far are the colourful grassland fungi, the waxcaps. About 23 call Kenfig their home.”
“We found the Date Waxcap on the day the volunteers decided to do a Dune Waxcap Hygrocybe conicoides survey on the frontal dunes – this waxcap is quite common in sand dunes. It is very variable in colour, from a deep red through oranges and yellow. As we talked and walked, in the corner of my eye, I spotted it! The unmistakable colouration of the Date Waxcap.”
Being a land of grass, here in Wales we see permanent pastures and rough grazing all around us. Most of these are intensively managed for sheep and cattle. However, less intensively farmed grassland can offer very important habitat for grassland fungi. This includes waxcaps, but also other important groups. One of the most stunning examples must surely be the Violet Coral Clavaria zollingeri.
Waxcaps are named for their shiny, waxy and often brightly coloured caps. They can look like blobs of red, orange, green or yellow wax in the turf. Here in Wales, we have some beautiful species such as the Pink or Ballerina Waxcap Porpolomopsis calyptriformis, and Scarlet Waxcap Hygrocybe coccinea. In fact, despite our small size, Wales is home to over half the number of waxcap species found in Britain.
Violet Coral. Trevor Dines
It’s not just our farmed grasslands that are good for fungi, either. Other habitats such as old lawns, churchyards and grass in parks and gardens can all be incredibly important. And of course, sand dune grasslands too, just like Kenfig. They just need to be sensitively managed.
We know many grassland fungi are declining and threatened. They are under-recorded, so their habitat may be destroyed due to a lack of knowledge. Waxcaps are also very sensitive to changes in their environment. Some cannot tolerate the regular ploughing, re-seeding, and fertilising on intensive farms. Consequently, some species, like Date-coloured Waxcap Hygrocybe spadicea are now very rare.
We are still learning about these beautiful fungi. We have too few fungi experts (mycologists) in Wales. We also have many unanswered questions about their distribution, ecology and conservation needs.
However, we do also have some amazing places for wildlife, places that we already know are important for grassland fungi. Kenfig NNR is one of these. Kenfig is an Important Plant Area (IPA), and Plantlife has been involved in its management for many years. Most recently this has been through our Green Links project based in Bridgend.
Parrot Waxcap Gliophorus psittacinus – Lucia Chmurova-Plantlife
Waxcap grasslands are an important part of Plantlife Cymru’s work. We are seeking to understand more about their distribution and management. We would also like to see them better protected from both accidental and deliberate damage.
Would you like to get involved with waxcap recording? You can download a site survey app that helps us find new, important places for grassland fungi. You don’t need to be able to identify species- just their colours!
Download a free Survey123 app on your smartphone or tablet:
Google Play (Android)
Apple Store (iOS)
Hit this link on your smart device: https://arcg.is/PLT5X
Select ‘Open in the Survey123 field app’ and then ‘Continue without signing in’. A message will pop up asking for access to your phone’s camera and storage – please click Yes / Allow
You are ready to go!
Of Wales’ total land area is used for farming
Half the number of Waxcap Species can be found in Wales
Kenfig National Nature Reserve is an Important Plant Area (IPA) – Plantlife has been a partner in managing Kenfig.
Reverse the red
February is Reverse the Red’s Fungi month as well as St Valentines day.
Join Senior Ecologist Sarah Shuttleworth for a deadwood date, as she shares what gets fungi swiping right on the wood wide web.
Elfcups are red
Roundheads are blue
Fungi and plants,
Share a connection? it’s true…
Although February might not be a month you associate with fungi, the organisms are still there under the surface – it’s just the fruiting bodies like mushrooms and toadstools we tend to see in autumn.
It’s under the surface where a large proportion of fungi are directly connected to other plants roots via the fungi’s mycelial network, root-like structure made of branching, thread like hyphae.
On February the 14th whilst we humans are celebrating deep connections with loved ones, plants and fungi are exchanging resources through their own deep connections. Virtually all plants on earth form these relationships, with only about 5-10% of plants not relying on these fungal friendships.
Mycorrhizal is the name we give the type of fungi that can tap into the root cells of plants. The fungus gets its energy requirements and carbon from the plant, and the plant gets nitrogen, phosphorus and zinc from the fungi, as well as improved access to water.
This network of fungi mycelium and plant/tree roots is often affectionately referred to as the ‘Wood Wide Web’.
The infamous, bright red toadstool Fly Agaric Amanita muscaria has mycorrhizal relationships with birch trees, pines and spruces, so they are mostly found near some of these species.
Although you are unlikely to find any Fly Agaric toadstools at this time of year, if you look hard enough there are still some fungi species with visible fruiting bodies….
Velvet Shank Flammulina velutipes can still be spotted growing on stumps and trunks of dead hardwood trees, particularly Ash, Beech and Oak. They have caramel to orange-coloured caps and grow in overlapping tiers.
Jelly Ear Auricularia auricula is another one you can spot, looking almost exactly like ears made of jelly on dead or dying wood, particularly Elder trees.
Fungi are vital to life on earth as well as providing an entire kingdom of wonder and magic. We still don’t know 90% of the fungi species estimated to be present on the planet. From the species we do know about we benefit from them in so many ways – from nutrient recycling, edibility, making food products, medicines, manufacturing, biomaterials as well as natural wonder.
We are already starting to lose known species, with approximately 400 UK species Under Threat on the IUCN Red Data List. Globally we are risking losing species we don’t even know about yet, with all their potential uses and beauty lost forever.
Scarlet Elfcup Sarcoscypha austriaca is one of the most striking species being bright valentine-heart red and is one you can find out and about now.
Spotting these bright red pixie-like cups on the woodland floor amongst mosses and twigs, is certain to fill most hearts with as much joy as a dozen red roses surely?
Here we delve into this mind-boggling realm to discover ten of weirdest, wackiest and most wonderful facts from the world of fungi!
It’s not just animals that have DNA in their cells, plants and fungi do too – and understanding it can help us with hard to identify plants.
It’s not just trees that capture and store carbon – our meadows and grasslands can play an important role too.
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