A close up of a honey fungus in Nowhere Wood, showing its gills and stem. [Photograph: Neil Ingram]
Everyone agrees, it is an outstanding mushroom season. The dry summer and the warm wet autumn have created the perfect conditions for these mysterious forms which spend most of their lives living underground. Quietly, but with ruthless effectiveness, they influence and shape the growth of the trees in the wood.
But, what is a mushroom? The people living in Nowhere a century and a half ago would distinguish between mushrooms (which they could eat) and toadstools (which they could not). Learning how to tell them apart was (and is) very important for mushroom foragers. Their children would have been taught that if they were not certain, they should leave well alone. Still good advice, today.
To a mycologist (a biologist of fungi) the term toadstool is not used, and the term ‘mushroom’ is used to describe the fruiting bodies of all these fungi.
This bracket fungus is growing on the old beech tree. It is probably a Giant Polyphore. [Photograph; Pat Gilbert]
So, this wonderful bracket fungus is still called a mushroom by biologists.
These mushrooms may be of the honey fungus in Nowhere Wood. [Photograph: Neil Ingram]
Which fungi do not produce mushrooms? Well, yeasts are single-celled fungi that do not produce mushrooms. They often grow on the surface of fruit and help to turn apples into cider. Moulds and rusts are also fungi that do not produce mushrooms. They form fuzzy or powdery growths that spread quickly.
Mould fungi on fallen apples in Trendlewood Park. [Photograph: Neil Ingram]
Moulds play an important role in helping to break down fruits in the orchard, releasing nutrients back into the soil.
What are mushrooms for? The photograph at the top of the page shows the gills of the mushroom, under its surface. The gills make and store spores, which blow away in the wind. Spores can settle and grow into new fungi.
Imagine what would the world be like without fungi.
The “fruit” of the London plane tree is actually a dense, ball-shaped cluster of individual fruits. These hang on long stalks, often in pairs, from the tree’s branches.
Fruit of the London plane tree [photograph https://commons.wikimedia.org/wiki/User:Alvesgaspar]The individual fruits are called achenes. Each achene contains a single seed. Attached to the base of each achene is a tuft of many thin, stiff, yellow-brown fibres. These fibres help the wind disperse the achenes to new locations.
The individual fruits (achenes) of the London plane tree, showing the dense fibres. [Photograph: https://commons.wikimedia.org/wiki/User: Jebulon ]The achene cluster breaks up slowly over the winter, releasing the individual achenes (each containing a single seed) to be dispersed by wind.
When the conditions are right, the seed germinates, breaking through the achene, growing roots into the soil.
Fruits that are dispersed by animals (like the blackberry) are often brightly coloured, juicy and sweet tasting. Those fruits that are dispersed by the wind are often dry, small and lightweight. Why do you think this is?
It is mid-July and it has rained for the first time in several weeks. Gentle warm rain, interspersed with strong sunshine. These are the days of gentle ripening, to complete the work that started in in the blossom season of the early spring.
The orchard in Trendlewood Park has a collection of ripening fruit trees and we hope that the Apple Tree Man of Nowhere will bless the harvest of apples, pears and plums.
Apple fruits ripening in the orchard on Trendlewood Park. [Photograph: Neil Ingram]Pear fruits ripening in the orchard on Trendlewood Park. [Photograph: Neil Ingram]Plum fruits ripening in the orchard on Trendlewood Park. [Photograph: Neil Ingram]
In the autumn, these fruits will be ripe enough for animals to eat. What happens as fruit ripen?
Update: 22/7/25
I could not resist the ripening of the Guelder Rose, Viburnum opals, but do not eat it them, else you may fall ill.
Guelder rose on Trendlewood Park. [Photograph: Neil Ingram]
The effects of horse chestnut leaf miners, on a horse chestnut tree in Trendlewood Park, July 2025 {Photograph: Neil Ingram]
By the high summer of July, the new fresh leaves of the horse chestnut are losing their lustre. The proud spread of leaves are now crumpled and marked—creased with dry, papery wounds edged in rust. At first glance, it looks like disease or drought. But the truth is stranger, and smaller.
These are the workings of a moth barely visible to us—Cameraria ohridella, the horse chestnut leaf miner.
The horse-chestnut leaf miner insect. [Photograph: Soebe https://commons.wikimedia.org/wiki/File:Cameraria_ohridella_8419.jpg]
The insect arrived in Britain around 1990, a quiet traveller from North Macedonia, and it has found homes wherever horse chestnuts grow. As the climate warms, insects from the southern regions are able to live successfully in more northern areas.
The female lays her eggs on the newly opened leaf, which hatch to form lavae (caterpillars).
The larva of the holly leaf miner insect. [Photograph: Been-tree https://commons.wikimedia.org/wiki/File:Cameraria_ohridella_larva_beentree.jpg]The larvae feed within the leaf itself, tunnelling through the soft tissue, leaving behind pale blotches that crackle in the sun.
What’s remarkable is how unnoticed it all is. The adult moth is just five millimetres long and flits at dusk, almost never seen. The eggs are microscopic. The caterpillar never breaks the surface of the leaf. And yet, whole avenues of horse chestnut trees wear the evidence every July—brown-scarred leaves fluttering like worn-out flags, months before autumn should arrive.
The tree will survive. The damage is cosmetic, mostly. But it leaves a strange melancholy in the woods: an early whisper of decline in the green heart of summer. A reminder that even the mighty horse chestnut has its unseen vulnerabilities. And that nature’s smallest players are often the most quietly transformative.
What benefits do the horse chestnut leaf miner gain from living with the horse chestnut tree. What benefits does the horse chestnut tree get from the arrangement?
Nowhere Wood in late winter is a place of bare branches, weak shadowy light and unspoken secrets, waiting for new leaves start to emerge.
Lords and Ladies in January [Photograph: Neil Ingram]
On the woodland floor, hidden beneath the shade of hazel and hawthorn, something strange is happening. By April, it is fully revealed.
Lords and Ladies, in Nowhere Wood, April [Photograph: Neil Ingram]
It’s not flashy, no pretty flower show. Just a apple-green leaf, twisted like a bishop’s cowl. A greenish-purple hood half-hiding something inside. You’d walk past it if you didn’t know better.
The plant is Arum maculatum, but no one calls it that around here. It has lots of ancient names, some of which are so rude that they would make Geoffrey Chaucer blush! In Somerset, it was called ‘Adam and Eve’, but most places call it Lords and Ladies, and there’s a good reason for that. With a little imagination, we can see the tall upright lord dancing with his lady in the flowing green gown.
This is a flower and it is a seed making factory. It does this by subterfuge, luring insects and holding them hostage until it gets what it wants.
Lords and Ladies flower exposed, [Photograph: Neil Ingram]
One glance inside the sheath and you’ll see the machinery of the deception: “the Lord” is called a spadix, sitting on top of a ring of yellow hairs that point downwards. Below them are the orange ovaries, that will become fruits containing the new seeds. These are the “Ladies”.
Beneath the ladies are the yellow pollen-making anthers, that ripen after the ovaries have received pollen from insects.
Down in the gloom of the woodland floor, the spadix heats up, becoming warmer than the air around it, which attracts small insects. It also gives off a smell of rotting meat and dung — irresistible, if you’re a midge or a small fly looking for a good meal.
They blunder in, hunting decay. Down they fall, past a ring of slippery hairs that trap them in the chamber below. There’s no nectar. No reward. But while they wander round, they give up their pollen to the ovaries. The pollen grows tubes that towards the egg cells, fertilising them, and making new seeds.
The stamens burst open with fresh pollen, which give the insects a quick meal, whilst covering their bodies in pollen.
The yellow hairs of the jail bars have withered overnight, allowing the insects to escape with their pollen load. No harm done, the insects immediately carry the pollen away to the next ripe lords and ladies flower in the wood.
Lords and Ladies fruits, Nowhere Wood, June. [Photograph: Neil Ingram]
By June. the sheath is long gone. But what remains is a spike of fruits, ready to ripen in the late summer sun. As bright as traffic lights, the fruits rise like a warning from the shade. Poisonous, yes. But beautiful.
ripe fruits of Lords and Ladies in Nowhere Wood, July. [Photograph: Neil Ingram]
The autumn is a time for making food, using its large leaves that are designed to capture the dim light of the woodland floor. The food is stored underground in a rhizome.
young leaves of lords and ladies, in Nowhere Wood, January. [Photograph: Neil Ingram]
Later, the leaves disappear and the plant lives underground for the winter.
Rhizome of Lords and Ladies plant. [Photograph: Neuchâtel Herbarium, https://commons.wikimedia.org/wiki/File:Neuch%C3%A2tel_Herbarium_-_Arum_maculatum_-_NEU000100869.jpg]
It lives on as a secretive rhizome, sleeping through the summer heat and the turning year, until — just as the bluebells fade — it returns to play its part again.
Each ripe red fruit contains a seed of the Lords and Ladies plant. Birds, like thrushes and backbirds love to eat these fruits. Explain how this helps to disperse the seeds away from the parent plant.
What are the advantages to small insects of going inside a Lord and Ladies flower?
It is a sunny afternoon in May and two butterflies are flying round each other in a shaft of sunlight. The smaller one chases the larger one away.
I first thought they were a courting pair, but then realised they are different types. Where do they come from and what are they doing in the sunshine?
Specked wood butterfly in Nowhere Wood, May 2025. [Photograph: Neil Ingram]The chasing butterfly is a specked wood, seen resting on an ivy leaf, keen to be photographed. It is a true native of Nowhere. It started life as an egg laid during the previous autumn, perhaps on some of the long grass that skirts the wood. It probably emerged a few days ago, and has taken to flying in the same shaft of sunlight.
It is warm and bright in the sunlight and both males and females are attracted to the same spot. No wonder our male wants to chase rivals and other butterflies away!
The unfortunate butterfly to be caught up in this tussle was a red admiral. It was harder to photograph against the floor of the woodland.
Red admiral butterfly, Nowhere Wood, May 2025. [Photograph: Neil Ingram]This butterfly was just in the wrong place at the wrong time.
The red admiral butterfly is a summer visitor to the wood, with large numbers arriving in the UK from southern Europe and North Africa each year. They love to feed on flowers that produce a lot of nectar, so are often found in the gardens that surround the wood.
They will breed whilst they are living in the wood, and some of these new butterflies will try to fly back to Europe in the autumn. It is not clear how many of them will survive the long journey.
Others will try to survive the winter in the UK. In the past, most of these have died because of the cold, but warmer winters mean that more of them are surviving to breed in the spring.
We could be seeing a shift in their behaviour because of climate change, that could lead them to being permanent residents in the wood.
Update:
Two days later, the speckled wood was still patrolling the same patch of sunlight. Let’s hope he gets lucky soon!
The male speckled wood butterfly was found in the same spot two days later. [Photograph: Neil Ingram]
In Southern Europe and North Africa, red admiral butterflies can breed continuously throughout the year. Why is important in the survival of the red admiral species?
Why is it an advantage for the specked wood to defend a territory in Nowhere Wood?
Bluebells at Goblin Combe [Photograph: Pat Gilbert, Friends of Trendlewood Park]If primroses and cowslips are our favourite flowers of early Spring, then it is the bluebells that steal our hearts in early Summer. On a sunny day, they dust the floor of the wood in a blue mist.
Many poets have written in wonder of them. Alfred, Lord Tennyson may have walked the bluebell woods above nearby Clevedon Court with his friend Arthur Hallam. Tennyson compared a carpet of bluebells to “the blue sky, breaking up through the earth”.
Bluebells are important plants in woods. About 50% of the world’s population of English bluebells (Hyacinthoides non-scripta) is found in the United Kingdom. This is largely due to the UK’s relatively mild climate and our widespread ancient woodlands, where bluebells thrive.
But all is not as it seems, because the English bluebell is threatened by a rival Spanish bluebell, (Hyacinthoides hispanica), which was introduced in the 17th and 18th Centuries into formal gardens in large country houses.
English bluebell in Nowhere Wood. [Photograph: Neil Ingram] The flowers of English bluebells are deep violet-blue, bell-shaped tubes with petals that roll upwards. They are found mostly on one side of a curving stem, so that the flowers droop downwards. Often they have a strong sweet scent.
Spanish bluebell in Nowhere Wood. [Photograph: Neill Ingram]The rival Spanish bluebell has paler flowers that are found all round the stem, not just on one side. The petals are not as curved back as the English bluebell. The stems are thicker and more upright and the leaves are much broader than the English bluebell.
Spanish bluebells. [photograph: Neil Ingram, Nowhere Wood]These two species are closely related and can breed together to produce plants that can breed with each other and with both parents. These are the hybrids. So, what we find is that in most English woods we get a range of bluebells, some of which resemble the English and Spanish types as well as many plants that have characteristics of both types.
Recent research suggests that most of the bluebells in UK woods are hybrids and the pure English forms are restricted to very old woodlands that have little human interference. Certainly the ones bought from garden centres are probably hybrids.
However, the good news is that the English bluebell is thriving in these remote woodlands and is likely to survive, as long as we leave them alone!
Does it matter if the traditional population of English bluebells is gradually replaced by a hybrid form of English-Spanish bluebell. What do you think?
Early spring in Nowhere Wood is the season of yellow flowers. Cowslips have an inelegant name: originally called ‘cow slops’, they were thought to grow where cows have trodden their poo into the ground. The old Somerset name of “bunch of keys” is much nicer – the arrangement of flowers on the head were thought to look like a set of jangling keys.
Cowslips on the edge of Nowhere Wood. [Photograph: Neil Ingram]Primroses are a most loved flower of Springtime. Called the “early rose” in Somerset, they are the flowers of Easter displays, with bunnies and eggs.
Primroses on the edge of Nowhere Wood. [Photograph: Neil Ingram]
But look at this:
A hybrid between primrose x cowslip on the edge of nowhere Wood [Photograph: Neil Ingram]Growing between the cowslip and the primrose is a plant that is similar to both, but different, too. It looks as if it is half way between the two types of plant.
Cowslips and primroses are quite closely related plants. This new plant has both cowslip and primrose as parents. It is called the “false oxlip” and is a hybrid.
close up of the hybrid [Photograph: Neil Ingram]
The hybrid has formed naturally as a result of “cross-pollination” between cowslip and primrose parents. Hybrids can sometimes occur in animals, too. Find about how mules and ligers form.
A green woodpecker in Nowhere Wood [photograph: Andrew Town]
If you look carefully at this image, you can see another woodpecker, but one that is quite different to the great spotted woodpecker that starred in our last story. This is a green woodpecker. Can you see why?
These two kinds of woodpecker are able to live together all year round in the wood, without getting in each other’s way. This is because they have different lifestyles.
An AI generated render of a green woodpecker
This AI generated image of the green woodpecker shows its special characteristics: the green feathers on the back and wings and the paler feathers on the belly. The red head and the black ‘moustache’ around the beak. Males have a red centre to the moustache, so this image is of a young female.
She has a sharp beak , like the great spotted woodpecker. Male green woodpeckers also use their beaks to dig holes for nesting sites.
A green woodpecker digging a nest in Nowhere Wood. [photograph: Andrew Town]
However, male green woodpeckers sing a special call to attract females to their nests. The call sounds like the woodpecker is laughing, and the bird is sometimes called a ‘yaffle’ or ‘laughing Betsy’. You can the various calls of the green woodpecker, here.
Unlike, the great spotted, the green woodpecker does not feed on insects found on the tree. Rather, it hunts for the ants that live in the open spaces near the wood. You might see them in the meadow that runs alongside the wood.
It is these differences in appearance and lifestyle that mean that the two woodpeckers can life happily alongside each other in the wood all year round.
Green and great spotted woodpeckers have different ways of feeding. How does this help them to live alongside each other in Nowhere Wood?
What might happen if they shared the same food supply?
It is a January morning, misty and still. The air hangs silently in Nowhere Wood. Suddenly close, but just out of sight, a loud and fast drumming shakes the stillness. Then a silent pause, followed by a quieter drumming coming from the other end of the wood.
Let’s find the first drummer. He’s hard to see, high up in the tree, but there he is, pressed against the tree trunk: a male great spotted woodpecker. The other drummer in the distance is a young female. The woodpeckers are having an adventure in Nowhere Wood.
A female great spotted woodpecker approaching her young in Nowhere Wood. [Photograph: Andrew Town]
Our male is digging a hole in his tree, hoping to impress the female. If it works, she will lay their eggs in the hollow space in the tree. This photograph, taken a few weeks later in Nowhere Wood, shows the new mother feeding her fledgling chick.
How can these woodpeckers drill such large holes in trees without injuring themselves? Well, it looks as if all parts of their bodies have special characteristics that enable the birds to do this. Scientists call these special characteristics, adaptations.
Look at this video of a great spotted woodpecker pecking at a tree. Look at his feet. He has three toes on each foot, with two toes facing forwards to grip and hold onto the tree trunk. This prevents him falling off when he pecks the tree! The beak is made of a tough material that keeps growing and keeps the beak sharp.
The adaptations to the skull and tongue of the woodpecker. [Illustration by Denise Takahashi, https://www.birdwatchingdaily.com/news/science/woodpeckers-hammer-without-headaches/]
His skull is especially strengthened, like a builder’s hard hat. The brain presses right up against it and cannot move around.
The tongue extends backwards into the head as a long thin tube of bone and cartilage that runs right round the inside of the skull of the woodpecker. This acts like a seat belt, holding the brain in place.
The tongue is especially long and sticky, so it can go right into the tree holes, searching for insects.
a close up of a woodpecker. [Photograph: https://www.core77.com/posts/81063/Why-Woodpeckers-Dont-Need-Safety-Goggles-and-Why-Their-Beaks-Never-Get-Stuck-in-the-Wood]
The eyes fit tightly inside the skull, and do not vibrate whilst the bird is pecking. Their eyes have a special transparent membrane that closes across the front of the eye to prevent splinters of wood scratching the eyes. The feathers around the eyes and beak also stop wood reaching the eyes. Together, they act as safety spectacles!
Finally, a woodpecker is quite vulnerable to attack by larger birds when it is drumming against the tree. The patterns of lines and stripes act like a camouflage jacket, making the bird hard to see against the tree surface.
Woodpeckers have a lot of adaptations to help them to survive in Nowhere Wood. This story contains a photograph that suggests that the woodpeckers are living successfully here. What does the photograph tells us about the future of woodpeckers in Nowhere Wood?
Woodpeckers have developed these adaptations through evolution. Charles Darwin is the scientist who first suggested a possible way evolution could happen. This is called natural selection. Find out what natural selection is.
Just outside of Nowhere Wood, next to the school playing fields, you can, on a summer evening, sometimes see a fairy ring. The photograph shows parts of this fairy ring: sometimes you can find rings that form a perfect circle.
How many fungi can you see here? There are about 15 mushrooms – the fruiting bodies, but only one fungus. In the soil, the fungus exists as a tangle of small thin threads called hyphae. The hyphae, which make up bodies of all fungi, are called mycelia.
Fungal mycelia can grow to enormous sizes. There is a fungus in a forest in Oregon, USA, which is 3.5 miles across and covers over 2000 acres. It could be up to 8.5 thousand years old!
The grass growing around a fairy ring fungus [Photograph: Andrew Town]
The fungus is good at feeding on dead organisms, and returning the nutrients to the soil. This helps the grass growing around the circle to grow taller than the grass growing further away from the fungus.
Fairies dancing in a fairy ring [image: Walter Jenks, The fairy ring. https://britishfairies.wordpress.com/tag/down-tor/]
People love fairy rings and make up stories about them. In English folklore, fairy rings are caused by fairies dancing in a circle. Be careful if you see one though. The stories say that if people join in the dance they would be punished by the fairies, and made to dance in the ring until they fall asleep.
Why do you think that fungi are useful in our woods and fields?
William Shakespeare is thought to have written these lines:
“If you see a fairy ring
In a field of grass,
Very lightly step around,
Tiptoe as you pass;
Last night fairies frolicked there,
And they’re sleeping somewhere near.
If you see a tiny fay
Lying fast asleep,
Shut your eyes”
William Shakespeare wrote “A Midsummer’s Night’s Dream” in about 1596. In the play a group of powerful fairies cast spells on people, making their lives very difficult. Many people believed in such ideas in Elizabethan times.
Why do you think many people no longer think like this?
Autumn fruits in Nowhere Wood. [photograph: Neil Ingram]Autumn is the time for fruits to become ripe enough for animals to eat. This time last year, Nowhere Wood was full of ripe acorns and the squirrels and birds had a heyday. This year, there are no acorns, at all. Life is uncertain, in Nowhere Wood.
Somewhere, inside a fruit, is a seed and seeds contain new lives – the next generation of the woodland plants.
Blackberry fruits in Nowhere Wood. [Photograph: Neil Ingram]
These fruits are blackberries. The seeds are found inside the berries. They are tiny, with hard tough seed coats.
Birds, especially blackbirds and thrushes, love to eat blackberry fruits. In doing so, they help the plant to spread its seeds away from the wood. The seeds are tough and survive digestion inside the backbird.
The seeds are dispersed around the wood in the blackbirds’ poo!
To survive, the blackbirds need the blackberry fruits and the blackberry plants need the blackbirds.
Think about what happens to the seed when the fruit is eaten by a blackbird.
How does the blackbird help the blackberry plant to spread its seeds away from the wood?
This fungus grows in Nowhere Wood. It has the glorious scientific name of Polyporus squamous. That’s hard to say, harder to spell and even harder to remember!!
Scientific names are important though: they give the accurate name of the organism, and they also tell scientists quite a lot about how the organism lives. These scientific names are a kind of code that give the name and address of the organism in the living world.
However, the names that ordinary people give organisms are just as important. They are easy to remember and often tell an interesting story. This fungus above is called the Dryad’s saddle. If you look carefully, you can see that it shaped a bit like a saddle that someone would use when riding a horse.
Is this what a dryad looks like? [An AI generated image]
Dryads are nymphs that live in the world of myths and legends. They live inside trees, often oaks.
Oak trees can live for a 1 000 years, and the dryads are the spirits of the woods, protecting and nurturing the trees. They are the guardians of the woodlands. They are invisible, unless they choose to reveal themselves to us.
Perhaps you will see a dryad in Nowhere Wood? You will have to be quiet and be thinking the right kinds of thoughts.
Dryads observe the changes in the seasons, the rhythms of nature and their deep connection to the Earth. Perhaps we need to think the same way if we are to be allowed to see them for ourselves.
Scarlet elf cup [photograph: Andrew Town
There are lots of fungi with interesting fairy names. This is the scarlet elf cup and grows in Nowhere Wood, feeding on fallen sycamore and hazel wood.
Find out what the scientific name is for our human species. What do the words mean in English? Do you think they are a good description of us?
Very few people believe that there are dryads protecting our woods. Can you think of any benefits to thinking like this? Are there any disadvantages?
It is a cold and wet April in Nowhere Wood, which is full of birdsong and flowers.
The trees are becoming green with new leaves. Leaves grow silently that we can miss their unfolding, noticing only when they are fully opened. If you look carefully, you can see new leaves opening today.
It raises our spirits, and makes us look forward to warmer days.
New leaves grow from buds. Buds are covers that protect the developing leaves from damage during the frosty winter days.
Emerging chestnut leaves in Nowhere Wood. [Photograph: Neil Ingram]
New leaves are a special shade of green called Kelly Green. Later in the year the leaves become a darker shade of green.
The greening of Nowhere Wood. [Photograph: Neil Ingram]
Emerging oak leaves in Nowhere Wood. [Photograph: Neil Ingram]
What happens to these new leaves in the autumn?
Why do plants make new leaves during the summer, ready for the next spring?
A group of winter heliotrope plants. [Photograph: Neil Ingram]
It’s January 1st and the floor of the wood is covered with fresh new leaves, growing in dense patches. The first flowers are starting to open. Within a week, the air is scented with a sweet fragrance. This is the winter heliotrope, which is just as much at home in Nowhere as it is in its native North Africa.
The winter heliotrope was probably brought to Britain by Victorian gardeners.
We have a large Victorian estate called Tyntesfield down the road, so originally it could easily have come from there. The plant has a big secret: its flowers are just for show!
The winter heliotrope. [Photograph: Neil Ingram]
The winter heliotrope is unusual because it has separate male and female plants. As far as we know, the Victorian gardeners only imported male plants into Britain, because they liked the showy flowers and its rich scent. So, although the flowers make good pollen, there are no female flowers available to receive it. These plants cannot make seeds.
How do the plants reproduce, if they cannot make seeds?
What is its big secret?
A rhizome. [Image: Neil Ingram]
Below the soil the plant has a special underground stem, called a rhizome. During the year the rhizome stores food ready for the wintertime. Then, early in the new year, it grows new leaves and flowers.
During the summer the rhizomes grow so large, that they eventually break off and become new plants. This is a different way of reproducing, called vegetative reproduction. The plants are all clones, they have the same genetic information, which means that they all flower at more or less the same time.
So good is the winter heliotrope at growing in this way, that the plant is seen by some gardeners as an uwanted pest. It seems to grow well in Nowhere Wood, where it grows undisturbed.
1. What do you think are the advantages of being able to reproduce vegetatively, without making seeds?
2. Are there any disadvantages to having plants that all have the same genetic information. Is variation needed for the survival of plants?
Cluster flies on a leaf in Nowhere Wood. [Photograph: Neil Ingram]
These animals look like cars parked in the autumn sunshine. They look harmless enough, but they have some gruesome secrets.
What are they and what are they doing? They are called cluster flies, and they are warming their bodies in the sun, before flying to feed on the fruits of the wood.
They are having adventures in time and space in Nowhere Wood. Life in the wood is dangerous and the animals are busy being alive: feeding, drinking and staying warm.
The animals certainly look like flies: with one pair of wings, a large head and huge compound eyes. Look closer and you might see their mouthparts, sucking water from the surface of the leaf.
More cluster flies gather on the leaf in Nowhere Wood, October 2021. [Photograph: Neil Ingram]
The flies have lived their whole lives in Nowhere Wood. Their mothers laid their eggs in the soil last autumn. In the Spring, the eggs hatched to release larvae into the soil that burrowed into the bodies of earthworms.
They spent the early summer feeding on the worms before pupating. The adults emerged in the early summer, killing their earthworm hosts.
The flies are in a hurry to breed before it goes colder, later in the month. They are becoming mature enough to produce the next generation of flies.
Then the cycle of ‘being and becoming’ will begin again.
There is safety in numbers. The main predator of these flies is a type of wasp. There are twenty pairs of eyes looking out for danger and when one senses the wasps, they all fly away.
Life is so uncertain in Nowhere Wood. As well as wasps, the air contains the spores of dangerous fungi, that can infect and grow inside the adults, eating them up from the inside! In spite of the dangers, enough cluster flies survive to breed to be present in the wood next year.
Life is an uncertain adventure for the cluster flies, the earthworms, the wasps and the fungi. Everything is connected in Nowhere Wood.
Suggest why cluster flies need to warm their bodies in the morning, before they can fly.
Everything depends upon the way that the different parts of their bodies work together.
The parts of this watch work together, so that the hands of the watch move round in a rhythm that we use to tell the time. The hands do this because of the precise organisation of all of the parts of the watch.
The ability to tell the time emerges from the watch, only when all of the parts move together smoothly. If anything goes wrong, the watch “stops” and the ability to tell the time disappears.
Living organisms are alive because they are organised. Everything depends upon the way that the different parts of their bodies work together.
For an organism, life emerges and exists for only as long as its parts work together smoothly.
If anything goes wrong, the organism becomes ill. If it is very serious, then the organism dies and its life disappears. This is difficult to think about, but it is a fact of life.
One of the important features of human society is that we have learned how to care for the sick and the elderly. Hows does this help the survival of humanity?
life cycle of a butterfly. [Image: https://upload.wikimedia.org/wikipedia/commons/thumb/7/78/Butterfly_life_cycle_diagram_in_English.svg/1154px.Butterfly_life_cycle_diagram_in_English.svg.png]All living organisms are doing two things at the same time. They are:
Being (they are keeping themselves alive) and
Becoming (they are moving towards the next stage of their lives).
The butterfly is being and becoming at each stage of its life.
All of the animals and plants in Nowhere Wood are also “being” and “becoming”.
How are the oak trees in nowhere Wood being and becoming?
![Bracket fungus on the old beech tree in Nowhere Wood. [Photograph: Pat Gilbert]](https://blog.neilingram.co.uk/wp-content/uploads/2025/10/c1ab4241-025b-4d19-bc0d-1c0166ed0e24-1024x461.jpg)
![Yeasts and other fungi on fallen apples in Tendlewood Park. [Photograph: Neil Ingram]](https://blog.neilingram.co.uk/wp-content/uploads/2025/10/IMG_4147-2-1024x768.jpg)
![lords and ladies fruits, nowhere Wood, June. [Photograph: Neil Ingram]](https://blog.neilingram.co.uk/wp-content/uploads/2025/06/IMG_3322-768x1024.jpeg)
