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Monday, 2 June 2014

What Are Butterflies and How Can I Enjoy and Attract Them?


Their wings with azure, green and purple gloss'd,
 
Studded with colour'd eyes, with gems embossed,
 
Inlaid with pearl, and marked with various stains
 
Of lively crimson through their dusky veins —

Mrs Barbauld
(from Newman 1887)


At some point, most of us have seen a butterfly. Perhaps one has silently fluttered past us in our garden or a park, and we may or may not have paid attention. Many children are at least aware of the complete, almost magical transformation from that worm-like caterpillar, to the magnificent splendour of the fully-winged adult. But if you are reading this blog, and are fascinated by butterflies as much as I am, then you will probably want to know more. 
  • What exactly are butterflies?
  • Where can I see butterflies?
  • How can I attract butterflies to my garden?
are some of the questions this blog answers. This page is predominantly about British and European species, though many of the facts are also applicable to butterflies worldwide.

 

What Exactly Are Butterflies?

Butterflies are insects, which like all arthropods (also including spiders, scorpions, millipedes, lobsters) have jointed legs and a 'shell' on the outside of the body (an exoskeleton), enclosing the soft parts. Like all insects, butterflies have three major body parts; a head, thorax and abdomen. Like insects, butterflies have three pair of legs, though in some groups the first pair of legs has been reduced so much that they are virtually useless for walking and are only apparent on closer examination.
 
Butterflies belong to the order Lepidoptera — Greek for 'scale wings', as their thin membrane wings are covered by loose scales. Actually, only about 12% of this order (Lepidoptera comprising more than 165,000 species) are butterflies, the rest being moths. Butterflies and moths have two pairs of wings, originating from the thorax; 2 forewings, 2 hindwings, which are cut by complex patterns of veins, varying between the different species.

Below: Small Tortoiseshell (Aglais urticae), showing characteristic butterfly features discussed


Unlike most moths, butterflies are active during the day, usually only when it is sunny and bright. When butterflies rest, their wings are pressed or folded together in a vertical plane, above the body (abdomen) so that the lower surfaces of the wings are exposed — most moths rest with their wings held flat, concealing the abdomen. Unlike moths, the two antennae end in clubs.

Below: Red Admiral (Vanessa atalanta), feeding on buddleia, showing resting position with wings closed.

The bright colours and spectacular markings which often adorn butterfly wings are either due to presence of pigments in the wing-scales, or may be due to the way the microscopic structure of the scale interferes with light (the diffraction of incidence light), the latter of which produces the metallic colours of butterflies, as in the group known as the 'blues' (Lycaenidae). Colour may serve several functions: to avoid predation through camouflage (normally visible on the under-surfaces of the wings), for attracting a possible mate (visible on wing upper-surfaces), and may also be used to raise body temperature, as the butterfly basks in the sun.

What is a Butterfly's Life Cycle?

There are four distinct stages in the life-cycle. The life of a butterfly begins with an egg (ovum), laid by an adult female, usually on a specific species of plant.

After a period ranging from a few days to several months, the caterpillar (larva) emerges — a stage which dominates the life-cycle of most species — and it begins to devour the leaves of its surroundings, in order to grow. Eventually, it becomes too big for its own 'skin' and like all insects, needs to undergo the process of shedding its skin (moulting or ecdysis), before continuing to grow. The caterpillar will undergo this process several times (usually five).

Ultimately, the caterpillar will form a chrysalis (pupa), a stage which varies between a few weeks to up to 10 months. This is where complete change (metamorphosis) occurs, and the fully winged adult (imago) emerges, albeit with small and floppy wings. The wings are now expanded and hardened by pumping fluid through their veins — in some species in a matter of minutes — and now the adult is ready for its first flight.

Many species will then seek to find a mate almost as soon as they have emerged, with males following the scent plumes, or pheromones, released by the females. After mating, the process begins all over again, with an egg.

Why are Butterflies Important?

Butterflies are vital components of ecosystems. Caterpillars, as herbivores, recycle nutrients back into the food chain. Adults are also important plant pollinators. Both stages are important food sources for animals higher in the food chain (e.g. birds, other insects).

Butterflies also respond rapidly to changes in the environment, so monitoring populations of butterfly species is a good indication to the overall health of the ecosystem — a decline in butterfly species is an indicator of other wildlife losses.

When Can I See Butterflies?

In Europe, you're most likely to see the adults during their flight period, during the spring and summer, when they have emerged from hibernation to reproduce and feed. And you are most likely to see them on a sunny and warm day.

However, you may be able to see hibernating butterflies during the winter. Butterflies hibernate in different states, though most European species hibernate as larvae. If you're lucky, you may be able to see an adult Peacock (Inachis io) hibernate in hollow spaces, such as oak trees, which they have been known to do in large numbers. Some species such as the Painted Lady (Vanessa cardui), cannot survive our cold winters and migrate southwards to North Africa, where they remain until spring.

Below: Peacock (Inachis io) specimen. This species has been known to hibernate in oak trees.

 

Where Can I See Butterflies and Can I Attract Them?

Perhaps the best way to be guaranteed to see large numbers of butterflies is to visit a dedicated butterfly centre. For example, the Natural History Museum's Sensational Butterfly Exhibition hosts over 50 species of tropical butterflies and moths, among tropical plants, within its vast marquee set on the lawn outside the museum. Another great example of this kind of environment is the Stratford Butterfly Farm, where one can stroll leisurely through an exotic rainforest surrounded by tropical butterflies and splashing waterfalls.

If you want a greater challenge, you can go out into the country to seek butterflies. As certain species prefer different environments, you can be more choosy about which species you want to seek out. For example, the Adonis Blue (Lysandra bellargus) and Chalkhill Blue (Lysandra coridon) butterflies prefer flower-rich grassland on limestone or chalk. Thus walking along a chalk ridge running through the middle of the Isle of Wight is a great place to see these species (and this is one of the many recommended routes suggested by the National Trust).

However, perhaps the most rewarding experience is to proactively attract butterflies to your own garden, so that you can enjoy them at your own leisure. But how do you do this?

Attracting a particular species of butterfly means you need to consider both the caterpillar and adult (winged) stages. Most adult females are particularly choosy about where they lay their eggs, and certain species of plants are selected which will provide the source of food for the ever-growing caterpillars (these may be referred to in books as larval or host foodplants). For instance, Large and Small White butterflies (Pieris brassicae, Pieris rapae) often lay their eggs on leaves of cabbages (Brassica), where their caterpillars emerge. Peacocks (Inachis io) and Small Tortoiseshell (Aglais urticae) leave their eggs on nettles (Urtica). The Holly Blue (Celastrina argiolus) leaves it eggs on either ivy (Hedera) or holly (Ilex). So by growing certain types of plants, you can attract certain species of butterfly caterpillar, which will ultimately develop into its often spectacular adult form.

When the adults emerge, you then want to keep them on site, by providing them with food. Flowers rich in nectar are at the top of their menu... a butterfly uses its set of mouthparts (proboscis) to suck it up. Flowers such as the buddleia (Buddleia), iceplant (Hylotelephium spectabile) are great for attracting large numbers of butterflies, particularly Small Tortoiseshell. Choose a nice sunny spot, ideally protected from the wind.

If you can combine these two factors together, then you stand an excellent chance of attracting certain butterfly species to your garden.

The picture below is from a large buddleia bush in Crewkerne, Somerset, which is near an allotment rich in nettles and other larval foodplants — caterpillar food. Two species can be seen here: a specimen of Painted Lady (Vanessa cardui) and a specimen of Small Tortoiseshell (Aglais urticae). I have, however, observed at least five other species feeding on this buddleia, including: Large and Small Whites (Pieris brassicae, Pieris rapae), Peacocks (Inachis io), Red Admiral (Vanessa  Atalanta), Commas (Polygonum c-album).

 



Can I Identify Butterflies?

When you spot a butterfly in your garden, or in the country, you may like to work out what it is, may be even keeping a record of it in a notebook (with a date and locality).But how can you identify one?

The most striking parts of a butterfly are the colour markings on its wings.These may be eyespots (as in the Peacock) or contrasting bands (as in the Small Tortoiseshell or Red Admiral).These colours are normally most developed on the upper wings, visible during flight, but you will also need to look at the colouration of the lower surfaces of the wings, visible when they are pressed together during feeding — blues (Lycaenidae), for instance, can be best distinguished in this way.

This shape of the wings is also another important feature; for instance, the edge of a Comma is scalloped or jagged, whereas that of the Swallowtail (Papilio machaon britannicus) has characteristic tails protruding from the hindwings.

Size may also be an important feature to distinguish species, though in the field this can sometimes be hard to determine. It's also worth noting that the morphology varies between the different sexes (male, female) within the same species: for instance, in some blues, the upper wings of males are blue, whereas those of females are dark brown.

 

What Will I Need to Identify Butterflies?

Unless you are an experienced entomologist, you will need a nature guide book, or ideally a dedicated butterfly guide to identify butterflies.Through matching the butterfly to the picture and description in the book you will then be able to identify the butterfly in two ways.Each species of butterfly has a common name, for instance, Large White, which is quite easy to remember.However, it also has a more formal scientific name, which is often a mixture of Greek and Latin (Large White =Pieris brassicae).

For only £3 you can get the "Guide to the Butterflies of Britain", which is a fold out pamphlet with full-size illustrations of butterflies — excellent for identification purposes — with general information about butterflies on the back.

For a bit more (£6) you can get the highly illustrated Pocket Nature Butterflies and Moths which is an excellent introduction to the groups with a picture and summary for every common species. A great feature of this book is that it also shows an image of the caterpillar of each species.

The Collins Butterfly Guide is a much more comprehensive (but more expensive) guide, with similar species listed for Europe, aimed at the more serious butterfly spotter.


Is it Legal to Collect Butterflies?

It is important to note that certain species are protected (in the UK, by the Wildlife and Countryside Act 1981), and there are certain protected sites such as nature reserves.A licence would be necessary to collect under these conditions. Having said that, it is legal to collect unprotected species of butterfly.However, in this day and age, as our understanding of butterfly conservation and wildlife protection increases, this practice is frowned upon. Collecting can have a detrimental effect on populations of butterflies, with specimens often collected before they have reproduced.For instance, a colony of Large Blues (Maculinea arion) in Northamptonshire never fully recovered after 200 butterflies were collected by one dealer in 1860. Now the Large Blue is protected by law.

Unlike museum and university collections, private collections are usually only accessible to a limited number of people, and therefore often only make a very limited contribution to further our scientific knowledge. (Read more about the legalities of collecting).

With advances in digital photography and video, members of the general public can effectively collect 'virtual specimens' of butterfly, flying and feeding in all their glory, without the need to capture or kill them for identification or collection purposes.


Can I Become Involved in Butterfly Conservation?

If you would like to become more involved with conservation work and species recording, or to take part in evening meetings and talks, then you may like to become involved with the UK charity, Butterfly Conservation. For instance, the 'big butterfly count' is a nationwide survey, launched in 2010 and has become the world's biggest survey of butterflies.

References

Lewington, R and Bebbington, J.(2005) Second Edition. Guide to the Butterflies of Britain. Field Studies Council Publications, Telford.

Newman (1887) An Illustrated Natural History of British Butterflies and Moths. Hardwicke and Bogue, London.

Sterry, P. and Mackay, A (2004) Pocket Nature Butterflies and Moths. Dorling Kindersley. London.

Tolman, T and Lewington, R (2009) Collins Butterfly Guide: The Most Complete Field Guide to the Butterflies of Britain in Europe. Harper Collins

Wednesday, 16 April 2014

What Are Sea Urchins?


Sea urchins, or echinoids, are small, seafloor dwelling invertebrates (they have no backbones), that are spiky, often brightly coloured and either globular (e.g. the edible sea urchin), disc-shaped (e.g. sand dollars) or heart-shaped (e.g. heart urchins).  There are over 900 living species, with an evolutionary history that stretches back 450 million years.

 

pink_urchin_sea_ocean
Above; Fragile pink sea urchins (Strongylocentrotus fragilis) live in communal groups off the west coast  of North America. (Picture courtesy of all-free-download.com)


Sea urchins, comprise the class Echinoidea and are echinoderms, a group which also includes starfish, brittle stars, sea cucumbers and sea lilies.  A familiar feature of echinoderms, particularly the sea urchins, is their spines or sharp projections — a feature which many unwary swimmers are painfully familiar with (Echinodermata is derived from the Greek and Latin for 'prickly skin').

The spines of a sea urchin connect via tubercles to its rigid skeleton (known as a test).  In most species, the test is circular when viewed from above, with the anus on top, and the mouth at the bottom (do sea urchins feed through their bottoms?)

Unlike starfish, sea urchins lack arms.  However, the test of a sea urchin consists of a series of plates which are arranged into pairs of columns, or 'bands', which radiate outward from the top (apex) of the skeleton and have a star-shaped configuration.

Five of the star-shaped 'bands' (termed ambulacra) bear tiny pores.  Through each pore, a tube-like structure extends, each one ending in a circular disc — these are called tube feet, and a sea urchin can move them, by controlling the pressure of water within them.  This system, unique to sea urchins and other echinoderms, allows a sea urchin to move, feed and in some species, respire.


Echinus (pores labelled)

Above: a specimen of Echinus esculentus, with spines removed, showing key features of sea urchins (Courtesy of UCL, Grant Museum of Zoology_specimen S174).


In addition to spines and tube feet, a sea urchin possesses tiny pincer-like structures (pedicellariae).  These help to keep it clean and to avoid parasites (such as marine larvae settling on it).  Many species of sea urchin also bear venom glands, within pedicellariae, which can be used to ward off predators or subdue prey.

In summary, a sea urchin can be thought of as a small rounded ‘box’, consisting of many small plates connected together, which uses its specialised projections (spines, tube feet, pedicellariae) to interact with its environment.

You may like to read:

What Are the Main Types of Sea Urchin?
How and What Do Sea Urchins Eat?
How Do Sea Urchins Move? 
How Do Sea Urchins Reproduce and Grow?
Where Do Sea Urchins Live?

Thursday, 27 March 2014

What are the Main Types of Sea Urchin?


There are two types of sea urchin: regular and irregular urchins.

Regular sea urchins (regular echinoids) are more common.  Regular echinoids are radially symmetrical (a vertical cut from one side of the animal to the other, across the centre, in two or more places will produce two halves that are mirror images of each other).  These sea urchins are hemispherical in shape (crudely resembling the top half of a sphere).  There is no front or back and these urchins can move equally easily in all directions. 

Other key features include: an anus which is in the centre of an urchin’s upper surface; a mouth which is in the centre of its lower surface; and long, pronounced spines.

Regular sea urchins live on the surface of the seabed and graze on seaweed.


Echinus (no spines labelled)

Above: a specimen of Echinus esculentus, with spines removed, showing key features of sea urchins as seen on upper surface (Courtesy of UCL, Grant Museum of Zoology_specimen S174).



Echinus (Jaws)

Above: a specimen of Echinus esculentus, with spines, showing mouth (with Aristotle's Lantern) on lower surface (Courtesy of UCL, Grant Museum of Zoology_specimen S251).



Irregular sea urchins, or irregular echinoids, include the sand dollars and heart urchins.  These have a distinct front and back, because of their bilateral symmetry (only one vertical cut, from front to back, through the centre, will produce two halves which are mirror images of each other).

In sand dollars, the mouth is still on the lower surface, and is either central or nearer the front.  The position of the anus is variable, but is nearer the back end. In heart urchins (e.g.  Echinocardium), the anus is right at the back of the urchin, whereas the mouth is near the front.

Irregular sea urchins have a flattened body, and either live partly or completely buried in soft sediment, such as sand.  Heart urchins live in burrows within the sediment, using secreted mucus to stabilise it.  Specialised tiny beating projections (cilia) on the spines draw in currents of water, containing fresh oxygen, for respiration, and food particles.



Echinocardium (dorsal)
Above: specimen of Echinocardium, showing its upper surface (Courtesy of UCL, Grant Museum of Zoology_specimen NON2391)


Echinocardium (ventral)

Above: specimen of Echinocardium, showing its lower surface (Courtesy of UCL, Grant Museum of Zoology_specimen NON2391)



(Note that some people constrain the term "sea urchins" to the regular echinoids, but usage here of the term "sea urchins" also includes irregular urchins (sand dollars and heart urchins) — a usage which broadly follows the Natural History Museum Echinoid Directory).

 

Read more:

What Are Sea Urchins? 
How and What Do Sea Urchins Eat?
How Do Sea Urchins Move? 
How Do Sea Urchins Reproduce and Grow?
Where Do Sea Urchins Live?

Tuesday, 25 March 2014

How Do Sea Urchins Move?


Most sea urchins (particularly regular sea urchins) move using their tube feet.  These are tube-like projections, extending from their body (from the star-shaped ambulacral regions), which end in sucker-like projections.

Tube feet are extensions of a complex set of canals within each sea urchin — a water-vascular system.  Each tube foot can be extended when the urchin pumps fluid into it, allowing the foot to reach out.  The suction cup, at the end of each small foot, sticks to an object, or an adjacent part of the seafloor.  The sea urchin is then pulled towards the object, as the feet contract, when the water pressure within them is decreased.

In regular urchin species, such as Echinus esculentus, the tube feet allows the animal to grip onto rocks, within turbulent marine zones (down to depths of about 50 m), so that it is not detached by waves.  It is able to climb steep rocks and, being radially symmetrical, it is well adapted to moving equally well in all directions.

This method of locomotion — hydraulic powered tube feet — is unique to sea urchins and other echinoderms (which also includes starfish, sea cucumbers, sea lilies and brittle stars).


 

Echinus (insides)

 

Above: a simplified vertical cross-section through a regular sea urchin, showing the tube feet (M = madreporite; GP = genital pore)

 


Irregular sea urchins, such as sand dollars and heart urchins, are adapted to moving in a different environment.  They move using their small, almost fur-like covering of spines, rather than tube feet.  Irregular sea urchins have a distinct front and back end (being bilaterally symmetrical) and they use their lower (oral) spines to move only in a forwards direction.  The urchin, Echinocardium uses it spines in a 'rowing' motion to move forwards within its burrow.

 

Read more:
What Are Sea Urchins?
What Are the Main Types of Sea Urchin?
How and What Do Sea Urchins Eat? 
How Do Sea Urchins Reproduce and Grow?
Where Do Sea Urchins Live?

Saturday, 22 March 2014

How and What Do Sea Urchins Eat?


In most sea urchins (such as the regular sea urchins), the mouth is on the bottom side of the body, whereas the anus is on the upper surface.  This is an excellent adaptation to living on the seafloor, so that the mouth is in contact with the substrate, enabling it to graze on algae and detritus.  Some species, such as the European Edible Sea Urchin (Echinus esculentus), a North Atlantic species, are omnivorous and feed on both sponges and bryozoa, in addition to seaweed.

In these regular sea urchins, the mouth consists of a complex feeding mechanism (known as Aristotle's lantern) which consists of five strong jaws, each with a single tooth of the mineral calcite.  After food has been grasped by the apparatus, it is then passed up through a complexly coiled gut, and the waste is passed upward through the anus.


Echinus (insides)

Above: a simplified vertical cross-section through a regular sea urchin, showing the digestive organs.  (M = madreporite; GP = genital pore).

 

 

In heart urchins and sand dollars (irregular sea urchins) there is a distinct front and back (due to their bilateral symmetry).  The mouth is still on the lower surface, though it is nearer the front, and the anus is nearer the back end.


Echinocardium (ventral)

Above: specimen of heart urchin (Echinocardium), showing its lower surface, including mouth and anus (Courtesy of UCL, Grant Museum of Zoology_specimen NON2391)


Sand dollars have short spines which move the sand and organic debris over their upper surfaces and into their mouths — allowing the sea urchins to 'sieve' through the substrate surface for food.

Heart urchins, living 10 cm or deeper within burrows, beat tiny hairs (cilia) on their spines to draw in currents of water, containing small particles of food.  These currents also help to wash the faecal waste along a specialised sanitary pipe, at the back of the burrow.

 

 


Echinocardium (burrow) modified
Above: simplified cross-section through a burrow of Echinocardium. Note the long tube feet above and behind the urchin which are used to construct parts of the burrow. Smaller sticky tube feet, at the front of the urchin, catch food particles and pass them to the mouth.

 

 

Read also:
What Are Sea Urchins?
What Are the Main Types of Sea Urchin? 
How Do Sea Urchins Move? 
How Do Sea Urchins Reproduce and Grow?
Where Do Sea Urchins Live?

Saturday, 15 March 2014

Where Do Sea Urchins Live?


Like other echinoderms (which also include starfish, brittle stars, sea cucumbers and sea lilies), sea urchins are marine invertebrates.

They occur in oceans, mainly in shallow coastal waters.  Lacking the ability to osmoregulate (control the balance of salt and water), they rarely venture into brackish waters (where there is a freshwater content).

Most sea urchins (particularly the regular sea urchins) live on harder ocean substrates, clinging onto rocks in turbulent zones using their tube feet.  The irregular sea urchins (including sand dollars and heart urchins) prefer more sandy substrates.  Sand dollars live just beneath the surface, whereas heart urchins live deeper (10 cm or more) within burrows. 

Read more:
What Are Sea Urchins?
What Are the Main Types of Sea Urchin?
How and What Do Sea Urchins Eat?
How Do Sea Urchins Move?
How Do Sea Urchins Reproduce and Grow?

Thursday, 6 March 2014

How Do Sea Urchins Reproduce and Grow?


The sexes are separate in sea urchins. At breeding time, normally in the summer, the gonads (containing eggs or sperm) swell considerably within the sea urchins' plated skeletons.

Spawning (releasing of eggs and sperm) takes place on a massive scale, at the same time within members of the same population.  These products are released from the sea urchins via the genital plates, at the top of the organisms.



Echinus (insides)

 

Above: a simplified vertical cross-section through a regular sea urchin, showing the gonads.  (M = madreporite; GP = genital pore)

 

 


External fertilisation then takes place with new sea urchins starting their lives as swimming larvae (echinopluteus). The swimming larvae, unlike most sea urchin adults, are bilaterally symmetrical (one imaginary plane divides them into two equal halves).

These larvae also have arms, unlike all sea urchin adults, which they use to trap plankton for food.  After several weeks, a part of each larva (the rudiment) starts to develop into an adult sea urchin and structures such as the arms are resorbed (dissolved and assimilated).

The newly developed sea urchins — those that have not been eaten by predators — then sink to the seafloor.  Most of these will have no front or back end (being radially symmetrical) and will be able to move equally easily in all directions.

Some species of sea urchin produce eggs which are brooded by females and develop directly into adult sea urchins (there is no planktonic stage).  In these species, the females can be more easily distinguished from the males as they have specialised brood pouches for their eggs.  Species which adopt this life-cycle strategy are usually confined to polar waters.

 

 

Read more:
What Are Sea Urchins?
What Are the Main Types of Sea Urchin?
How and What Do Sea Urchins Eat?
How Do Sea Urchins Move?
Where Do Sea Urchins Live?