Fish and Ships: The Overfishing Crisis

What is actually happening?
We are overfishing our seas and oceans, i.e. more fish are being removed from the ocean than the ocean is able to replace from remaining fish stocks, which is threatening fish stocks and a multitude of other marine creatures.

Overfishing has caused several important fisheries to decline to the point where their survival is threatened and unless we do something about this now, stocks of all species currently fished for food are predicted to collapse by 2048 (WWF reference, Worm et al. 2006)

Overfishing doesn’t just have devastating effects on the species of fish we remove from the ocean, the fishing methods used harm all sorts of other species including unwanted species of fish, dolphins, turtles, seabirds, sharks, and corals (WWF). Changes in the numbers and distributions of these species causes marine biodiversity loss on a bigger scale and in turn reduces the oceans capacity to produce food and recover from water quality variations such as might occur with increased pollution (Worm et al. 2006)

"heeelp us!"

“heeelp us!”

Which fish are unsustainable: a basic guide
Whilst trawling the internet I found a lot of different unsustainable/ sustainable fish guides, many of which stated the different ways in which the fish were caught and how that affected their sustainability. While this is useful if you have all the time in the world to ask your fishmonger how the fish was caught or to check the small print on the label, one does not normally like to spend all day reading packets in the fish aisle. SO I have written a quick “yes or no” which fish to avoid guide (from this list)

AVOID
• Atlantic cod
• Eel
• Plaice
• Tuna, including Albacore, Bigeye and Bluefin (Skipjack is the only sustainable tuna)
• Tropical prawns (wild and farmed)
• Haddock (except line-caught Icelandic)
• European Hake
• Atlantic Halibut
• Monkfish
• Atlantic salmon (wild and farmed)
• Swordfish
• Marlin
• Sharks (including dog fish and huss)
• Skates and rays.

For more information >this< is the most informative unsustainable fish guide I managed to find, it also tells you why there are concerns about that species being overfished.

What to swap to
It is better to steer completely clear of the unsustainable fish I stated above, even if it says they have been “sourced responsibly”, because a lot of the supermarkets don’t ask too many questions, and some of the fish packaging doesn’t say how it was sourced at all! So below I have listed good swaps for some of the unsustainable species, and where to find them.

Coley/ saithe – Good swap for haddock or cod – Sold in Sainsbury’s (fillets and marinated) on the counter and fillets in the frozen section
Pollock – instead of cod – Sold in Sainsbury’s and Waitrose
Organic prawns/ Scottish langoustines – instead of tropical prawns -check for organic/ MSC-certified – Sold in Sainsbury’s (langoustines on the counter), Waitrose and Marks & Spencer
Dab/ flounder/ lemon sole – instead of plaice and Dover sole – sold in M&S, Waitrose, Sainsbury’s
Scallops – farmed or diver caught – instead of skate – sold in Sainsbury’s, Waitrose and Morrison’s fish counter
Mackerel and herring – great small fish, full of essential oils, really good for your brain, cheap and sold in all supermarkets as smoked, fillets or marinated.

Look out for Freedom Food (RSPCA monitored) and Organic stamps on packaging, as well as line caught locally, and finally the Marine Stewardship Council (MSC) eco-label, although the MSC approves of some kinds of fish that campaigns such as Fish Fight and WWF do not.

If in doubt try something new! They will be just as good for you, just as tasty and often they are a lot cheaper. Most big supermarkets have a fish counter so you can ask which fish are sustainable, Morrisons in particular has an excellent range of cheap, sustainable fish, or ask your local fishmonger. If you are lucky enough to live by the sea there will be a huge range of fresh, local and sustainable fish on offer – ask around!

Why farming salmon and other fish is contributing to overfishing
• Fish feed is made of wild caught fish such as sandeels which are hoovered out of the sea at an alarming rate. Sandeels are a keystone species and the RSPB have linked a population crash of sea birds such as puffins in the North Sea to declines in sandeel numbers (Ref: Wiki)

Let minnow when you've stopped stealing my sandeels!

Let minnow when you’ve stopped stealing my sandeels!


• High concentration of fish in farming areas leads to increased spread of disease. Antibiotics are freely given to the fish meaning that antibiotic resistant bacteria are present in high numbers near farmed fish.
• The farming industry releases chemicals such as anti-foulants to keep cages clean into the water.
• Farmed fish produce an enormous amount of waste into an area used by many other marine species. If the farms are located in sheltered areas, there is less water movement to flush away the waste leading to a toxic build up of sewage in areas often used by cetaceans (whales, dolphins, etc) and other sea mammals. If the farms are located in estuary heads then the waste, antibodies, pollutants, disease and escaped non-native fish are distributed far downstream.
• Farmers use acoustic harassment devices to deter seals, these could also have a negative effect on cetaceans meaning that they are unable to breed or feed (Ref: WWF, Greenpeace)

The Boring Bit: What is causing overfishing?
1. Poor management of fisheries- there are minimal, non-enforced rules and fishing capacity isn’t restricted to sustainable levels. Retailers and customs agencies do not ensure that the fish being sold and the fish entering the country has been sourced sustainably.
2. IUU fishing – Some of the biggest fishing fleets such as those in the EU, Japan, Korea and Taiwan are allowing illegal, unreported and unregulated (IUU) fishing to occur.
3. Harmful fisheries subsidies – subsidies that give an advantage to the consumers or the fishermen in order to enhance their income or lower their costs. However some of these subsidies encourage overcapacity and excess fishing (Ref: WWF)
4. Fisheries Partnership Agreements between developed and developing countries can contribute to overfishing when not properly designed. The developing country can be paid a minimum sum for rich fishing grounds whilst threatening the food security of the host country, preventing local fishing communities from becoming established and allowing illegal fishing to occur.
5. Environmentally hazardous fishing practises (explained below)
6. Huge bycatch – The equipment used to fish scoops up everything in its path meaning that not only are the target species caught in huge numbers, but all other species in that area are also caught.
• This bycatch can also include endangered, rare and keystone species (a species integral to the environment that it lives in), such as turtles and porpoises. This bycatch is discarded as due to some management systems fishing boats cannot land more than their daily quota of fish, irrespective of how many fish they have to discard to meet this quota. So they dump the less valuable, and now dead, fish and other animals over the side of the boat. What is the point in putting dead fish back into the sea? What a waste.
• Example: In Canada cod fishing has been banned for over a decade but cod populations are unable to recover due to the large numbers of cod juveniles that are caught whilst fishing for other species and then discarded (Ref: WWF).

Fishing practises that cause environmental damage
• Bottom trawlers – boats drag huge nets fitted with rubber rollers or tyres that prevent the net from snagging on coral or rocks. The net is held open by huge metal doors.

heh heh ...bottom.

heh heh …bottom.


• Dynamite fishing- explosives are set off under water causing the fish to die and float to the surface, these dead fish are then scooped up. Explosives obliterate the underwater environment turning it into rubble.
• Ghost fishing- occurs when fishing gear is lost or left at sea, it can continue to catch fish and other marine life as it drifts through the water or becomes snagged on rocks until it is removed or breaks down over hundreds of years. One survey estimated that a quarter of the rubbish on the bottom of the North Sea is fishing nets. This equipment is likely to contribute heavily to bycatch numbers.
shark_net_galapagos
• Cyanide fishing – fishermen pour sodium cyanide into the water to stun the fish allowing them to be easily caught. These live fish are used in aquariums or in restaurants in Hong Kong, Singapore and mainland China.
• A study done on one species of coral showed that cyanide has devastating effects; high doses cause coral death, medium doses causes the death of their symbiotic algae causing bleaching of the coral, and a low dose causes a loss of symbiotic algae but not enough for bleaching to occur. Jones and Steven (1997) also noticed that the respiratory rates of the coral were reduced by 10-90% for up to two hours after cyanide exposure (Ref: Jones & Steven 1997
, WWF)

What will happen if this continues?
“A study of catch data published in 2006 in the journal Science grimly predicted that if fishing rates continue apace, all the world’s fisheries will have collapsed by the year 2048.” (Ref)

What is being done to help?
Only 0.6% of the worlds oceans are Marine Protection Areas (MPAs), part of looking after our oceans for future generations should include creating more MPAs.
The four types of MPA:
Marine Reserve: No Fishing is allowed in these areas
Marine Conservation Area: Limits commercial and recreational fishing to protect a specific habitat or resource.
Marine Park: Prohibits commercial fishing but allows most recreational fishing.
Marine Recreational Management Area: Limits commercial and recreational fishing to protect a specific habitat or resource.

WWF is helping to maintain these MPAs, click here to see how they are doing this.

Projects such as the Zoological Society of London’s project, called Net-Works, directly targets one problematic section of the overfishing crisis: that of ghost fishing. Their project involves local people collecting the abandoned fishing nets and selling them in order to create carpet tiles (learn more about the project here). This project offers people in undeveloped countries a chance to earn money as well as cleaning out the oceans at the same time.

Campaigns such as Hugh Fearnley-Whittingstall’s Fish Fight (what a babe), and FishLove are getting the plight of the oceans into the public eye, thereby increasing awareness of unsustainable fishing practises. These campaigns are however useless if the public continue to buy unsustainable fish like those I listed above. There are plenty of sustainable fish that taste just as good, if not better, and are actually cheaper than a lot of the unsustainable varieties of fish.

Keep spreading the word about unsustainable fishing and tell your pals to switch to eating sustainable fish. That’s all my nagging done for now, wouldn’t want to make you eel… I will leave you with this picture of a naked lady and a fish.

She has a poisson for fish

She has a poisson for fish

Advertisements

Caw Blimey!

During the winter months, and indeed the rest of the year, the easiest birds to spot are large black and noisy:
IMG_5307

Corvus – Big Black Birds
Rooks, ravens, crows and jackdaws are all black, pigeon sized or larger and all make a similar “caw” “croak” noise. Due to these reasons they are all in the genus Corvus and it is easy to understand why no one can tell them apart.
However despite the fact that they may look, sound and smell similar (would not advise getting close enough to smell them), they are in fact four distinct species. There are ways of telling the difference if you know what to look for. So read on and WOW your friends with your big black bird knowledge. Well maybe not “wow” exactly, but perhaps pass the time on a boring bus journey or during an awkward pause in conversation.

How to tell which big black bird species you are looking at; an awkwardly sized flow chart.

IMG

For more detailed differences between crows and ravens watch this video.

Why these birds have a ‘creepy’ reputation…

1. Ravens are associated with the Tower of London which is in turn associated with death, despair, murder and brutal beheading.
As ravens like to eat meat it is likely that they were originally attracted to the tower to feast on the corpses of the executed prisoners (yum). Apparently after the execution of Lady Jane Grey in 1554, the ravens pecked at the eyes of her severed head. However these days the Ravenmaster (real job) at the tower feeds them; “every day they’ll have at least 8 oz of meat. Every other day they’ll get a boiled egg and I’ll give them chopped apple, grapes – they love cheese by the way” (well who doesn’t?). However this fancy diet is insufficient for some ravens, for example one particular raven (Raven George) was “dismissed” from the tower for eating too many local TV aerials.

2. Crows also eat carrion but tend to scavenge for their food, which is why they are more likely to be seen in towns and cities. Crows are also highly adaptable due to their intelligence and memory. In Japan crows famously crack particularly hard nuts by dropping them onto roads, they then wait at pedestrian crossings until the lights change and they are able to retrieve their nut (video). In fact they are so clever they even understand the importance of recycling…

3. Like crows, rooks can use tools to get hold of tasty treats, this came as a surprise to scientists as rooks do not use tools naturally in the wild (BBC news). Crows from the island of New Caledonia in the Pacific use tools to fetch grubs from holes in the wild but rooks have no need of this adaptation. Scientists have argued that a common ancestor of all Corvids probably had use for tools and this problem solving ability and the ability to fashion tools from natural objects could have been passed down to rooks.
One of the experiments involving rooks and tools included the rook using stones to raise the water level in a tube in order to get to a snack:
I’m not sure even I would have thought of that, but then I have hands.

So, there you are, you can now tell the difference between a crow, rook, jackdaw and a raven. You know that they aren’t “creepy” but just scarily intelligent with a fondness for dead peoples flesh (who can blame them – free food!). And you also know (in your heart of hearts) that they would make a great pet.
Now off you go, have fun trying to teach your cat to make tools using paperclips and bits of string.

P.S. I recently went skiing in the Alps and spotted a large number of big black birds that weren’t any of the species I mentioned in this post. I had seen them a previous year when I was in the same ski resort and I remember them having a yellow beak like a giant male blackbird. It was at this point that I remembered the existence of the Alpine Chough (pronounced ‘chuff’) which has a yellow beak and red legs. Unfortunately I didn’t get a very good picture of them, just this one of them circling above the café I was sitting at, still you can see how many of them there were:CIMG2178

Spiders – Web of Terror

Autumn, the time of year when leaves are swept from drives, apples are ripe, mushrooms bubble up through lawns and scary, hairy, leggy creatures appear from nowhere to frighten the living daylights out of arachnophobes everywhere. That’s right, the spiders are out to play.

Spin doctor

Spin doctor

So why is it that spiders are so common this time of year?
Male spiders leave their webs and come out of hiding in autumn in order to mate. This means that the webs you see around and about are more likely to belong to female spiders as the male spiders (ref)

The spiders we find in our homes have not, in fact, “come in from the cold” as is sometimes thought, but are (mostly) different species to those you might find in your garden and are specifically adapted to living inside. The common house spider (Tegenaria domestica), for example, has adapted to poor water and food supplies and to living in an environment with constant temperature and humidity (spider myths link).

Given that houses are a ‘water-poor environment’ and spiders need to drink, one of the most common places to find spiders is in bathrooms struggling to get out of baths or sinks. This is not, as some might think, because the spider has climbed up through the plumbing. In actual fact the spider was probably watching the X-factor with you from under the sofa, when the ad-break came on and it decided to go get a drink from the nearest tap. As baths and sinks are slippery, the poor thing was unable to climb out again.

House spiders I’ve found in my house (smug):

1. Tegenaria duellica, T. saeva and T. domestica– Can be found indoors, or in funnel shaped webs in garages, sheds and outbuildings. T. duellica normally found scurrying suddenly from underneath sofas when you least expect it.

Found this bad boy under the sofa I was sitting on at the time...

Found this bad boy under the sofa I was sitting on at the time…

2. Pholcus sphalangoides and Psilochorus simoni– The spiders with the tiny body and long spindly legs. Both create large messy webs in corners or behind furniture or radiators.
IMG_4931

3. European Garden Spider: Araneus diadematus– Easily identified by the white marks on its abdomen that form a cross, also called the garden cross spider.
IMG_4927

I thought I’d been lucky on my search of the house and not found any lurking in my room until I saw this…

Lovely.

Lovely.


For a list of other species that you might find lurking in your house go here.

Why spiders are excellent:
1. If you have lots in your house you will have significantly fewer flies, moths, mosquitoes and insect larvae.
2. They also eat aphids and other garden insect pests so act as a biological pest control (for free!).
3. By eating these common species of insect, they keep the population numbers down, thereby playing an important part in the ecosystem.

Can you deter spiders?
Basically, no. If spiders are removed from the house, new ones will come in to take their place via cracks under doors, down chimneys, through windows and some can even float in on the breeze on long strands of silk. However some people, (grandmas), swear by conkers as spider deterrents. The chemical in the skin of the conker, triterpenoid saponin, does indeed appear to repel insects such as moths. However various experiments done by the public and the Royal Society of Chemistry show that they are highly unlikely to repel spiders. Although the RSC’s experiment (hilarious video) is rather questionable and involved shoving a conker on a wooden spoon in the spiders face vs. the same treatment with a table tennis ball as a “control”, the children of Roselyon School in Cornwall did some rigorous and much more scientific studies and found that spiders didn’t really seem to mind the presence of conkers (video). However if it gives you arachnophobes peace of mind, go ahead, they look pretty so if they do deter spiders it is a bonus for you.

The Society of Biology are currently doing an autumn spider watch as not much is known about the Tegenaria species. They are collecting data in order to deduce when the spiders start appearing, if it’s the same time all over the uk and whether or not it is related to weather conditions. In order to take part go here.

So, to conclude, if you see a spider in your house, don’t kill it or “put it back outside”, catch it, photograph it and then wave it on its merry way. And maybe leave a towel hanging over the side of the bath during the X-factor.

Websites/ More Info:
http://www.bbc.co.uk/nature/23898679
https://www.societyofbiology.org/get-involved/biologyweek/house-spider-survey
http://societyofbiologyblog.org/spiderman-or-spiderwoman/
https://www.societyofbiology.org/images/pdf/SpiderFAQ.pdf
http://www.burkemuseum.org/spidermyth/myths/bathtub.html
http://www.bbc.co.uk/blogs/natureuk/posts/A-life-story-of-large-house-spiders
http://www.bbc.co.uk/nature/23898679
http://www.thereaction.net/news/y2010/m10/spiders_versus_conkers_definitive_guide.aspx
http://www.rsc.org/AboutUs/News/PressReleases/2010/Conkerswin.asp

The Badger Cull

There has been a lot of talk recently of the badger cull taking place in south west England and a lot of animal rights activists have been having hissy fits over the destruction of our native and protected species, the badger (Meles meles). For once it appears that scientific evidence is on their side, so why is the cull taking place?

What is actually happening?
Badgers are being culled (shot, preferably in the head,) in two main areas of England; West Gloucestershire and West Somerset, as part of a trial to see if getting rid of the badgers has any effect on the levels of bovine TB (bTB) found in the area.

Why?
Bovine TB is a chronic infectious disease affecting a broad range of mammalian hosts including humans, badgers and cattle. Bovine TB is usually transmitted to humans via infected milk, which in the developed world is a rare occurrence due to the fact that milk is pasteurised. TB testing in cattle also means that any cattle harbouring the disease are immediately destroyed to prevent it spreading. Cattle TB can also be passed on to humans via aerosols but this is very rare and can be prevented by not letting cows cough or sneeze in your face.
Other than possible health risks to humans the second (and probably more relevant) reason for trying to control bTB is that it causes serious health problems in cattle. Tens of thousands are killed every year which can be shattering for farmers economically and emotionally. It also costs the government and the taxpayer millions of pounds a year (government doc.).

“We shall not be mooooved!”

Why is the cull happening now?
The current cull is taking place as a further study after the Randomised Badger Culling Trial of 1997. The RBCT was done in the areas of England with the highest levels of bovine TB. The cull was carried out in 30 areas which were grouped into ten sets of three. In the first area badgers were killed every year (proactive culling), the second area badgers were only killed on or near farms that had recently contracted cattle TB (reactive culling), and in the third no culling took place but the levels of bTB were monitored. The trial was concluded in 2003 with three observations:

Observation 1
Reactive culling caused around a 20% increase in bovine TB incidence
Observation 2
Proactive culling reduced cattle TB inside the tested area but increased it on neighbouring land due to the fact that killing the badgers disrupted their social groups and caused surviving animals to move out of the area spreading the TB further afield.
Observation 3
It took four years of killing badgers before there was an overall drop in cattle TB and this drop was small and expensive.

These observations led to two main conclusions:
a) That although badgers did contribute to cattle TB, badger culling made “no meaningful contribution to cattle TB control” and in some cases actually make the situation worse.
b) That cattle themselves contribute significantly to the persistence and spread of TB and in some cases may actually be the main source of infection due to weaknesses in cattle testing regimes (Badger pdf).

The previous government, in light of this information, decided that a badger cull would not be worth doing as there was “no guarantee of success” and there was “potential for making the disease worse”. However the National Farmers Union strongly (and understandably) disagreed and stated that this conclusion was an “abdication of responsibility”. Despite the fact that culling had been trialled and was seen to be unhelpful in combating TB and in some cases made it worse, the current Minister was desperate to be seen to be doing something to help the farmers. So as farmers could do the shooting themselves and the cull was therefore cheaper than funding the cattle and badger vaccination programmes, the south west of England cull was given the go-ahead (house of commons pdf.).

Why they think the cull might work
In other developed countries such as America, Australia, New Zealand and Ireland, cattle TB is just as much of a problem, however the difference is that in those countries the wildlife source of TB is being culled. White tailed deer and water buffalo in America, the possum in Australia and New Zealand and the badger in Ireland, and it is the latter that is the most relevant according to the Environment Minister Owen Paterson. As the number of cattle needing to be destroyed per year in Ireland has decreased by around 6000 in the eight years since the cull was implemented he thinks that that culling badgers in England will work just as effectively. (Video of Paterson)

However according to this slightly suspicious graph I found on the internet, the number of cattle having to be destroyed because of TB in Ireland was already decreasing by the time the cull was in place, and in fact increased the year after it started. It has taken ten years for the number of cattle being destroyed to decrease to half its original number, and only eight of those years had a cull implemented (graph website)

Why I think the cull is pointless
• Culling the badgers will either cause an increase in bTB incidence in the south west, or an increase in the surrounding areas due to the emigration of the badgers.
• The method for killing the badgers (shooting by farmers), is different to the cull done in 1997 meaning that the results may be different. As the original cull trapped the badgers first, injured badgers could not move to other areas. However the current cull does not include the trapping of badgers meaning that non-vital injuries could cause an increase in the spread of bTB to nearby areas.
• Badgers can be vaccinated and research is being done into oral vaccines for cattle and badgers.
The most effective way of vaccinating badgers in the short term is with the human TB vaccine, M. bovis Bacille Calmette-Guérin (BCG). However this vaccine generally doesn’t work unless it is live and as live vaccines are killed off by stomach acid, oral distribution of the vaccine, which would be the most cost and time effective method, is not applicable as of yet. The development of a successful oral vaccine would depend on it still being live once consumed by the badgers as well as when contained in the bait, which is why it is unlikely to be developed until at least 2015 (Defra).

quit badgering me


All in all it’s a bit of a muddle and from the devastating effects bTB has on the farming community, to the horrible consequences of the cull on badger populations, it is hard to decide who is in the right. It’s at times like these that I look with admiration to Wales. For, despite announcing an order to destroy badgers in 2011, they later stated that they would review the scientific evidence and have since begun a project of badger vaccination (bva website). So, from a scientific point of view, at least we will be able to review the bTB situation a few years down the line and compare it with the levels of the disease in Wales and will therefore be able to deduce which form of “treatment” is better. TB or no TB, that will be the question.

Bit Of A Buzz Kill…

As you have probably noticed honey bees (Latin name: Apis mellifera) are doing particularly badly this year, I have only seen TWO this entire summer, and as they have been on the decline for a while now this is pretty sad news. Apparently their deterioration over the past few years is due to a decrease in resistance to disease caused by insecticides that farmers use on their crops. Other factors such as long cold winters and an increase in wet weather also affects them by causing a drop in pollen foraging, which means that the bees have fewer reserves and are again more susceptible to diseases and parasites. So the poor old honey bee is not having a very good time of it at the moment, but don’t fret, because YOU CAN HELP!

Honey, you're not 'pollen' your weight.

Honey, you’re not ‘pollen’ your weight.

HOW TO HELP BEES
(A very brief and bossy guide to helping our native honey bee.)

1. PLANT PLANTS
Plants with simple flowers produce a lot of nectar (as opposed to those with double layers of petals), and different plants are better for different times of the year.

Such as:
Early Spring – Pulmonarias and Primroses
Summer – Lavender, Veronicastrum (see photos below) and Echinops
Autumn/ Winter – Ivy
These plants are also good for other pollinating insects and bumble bees! Just look at those fuzzy bottoms.

They think it's the bees knees

They think it’s the bees knees

2. DONT BRING BACK/ BUY FOREIGN HONEY
Foreign honey can contain pathogens that native bees are not resistant to, these jars should always be washed out and disposed of carefully so as not to infect any local hives. Buy locally sourced honey instead as local beekeepers are more concerned about their bees welfare than supermarkets are.

3. DONT USE PESTICIDES/ INSECTICIDES/ FUNGICIDES IN YOUR GARDEN
These chemicals are harmful to bees as well as the environment, soil, pets and people!

If you’re still not convinced that bees are worth your time, here are a few examples of parasites that poor Apis mellifera is plagued with.

1. The Varroa mite, (it’s rather appropriate Latin name is Varroa destructor). It is a small parasitic mite that is reddish brown and can be seen with the naked eye. It attaches itself onto the adult, juvenile or larval bees and SUCKS OUT THEIR BODILY FLUIDS. Due to the fact that the mite’s original host is the Asian honey bee, our European honey bees have no natural defences against it and if left to its own devices it can wipe out a colony in 2-3 years (BeeBase).

Honey bee with varroa mite. (Photo  Bees and Chicks)

Honey bee with varroa mite. (Photo Bees and Chicks)

2. The Nosema parasite (pronounced “no – see- mah”) can be one of two species, the native Nosema apis or the Asian Nosema ceranae, and it has nothing to do with noses. They are spore forming, single celled parasites and are transmitted faecal/ orally meaning that, especially during the winter months when the bees can’t poo outside because it’s too cold, they end up re-ingesting the spores and poor the bees develop dysentery (which is essentially, severe diarrhoea and abdominal pain). This in turn causes increased weakness and increased hunger which results in the bees being unable to collect as much pollen or eating more honey. A lack of honey means a decline in bee survival (Huang 2011).

The entrance to a bee hive covered in bee diarrhoea. Yum. (Photo: Huang 2011)

The entrance to a bee hive covered in bee diarrhoea. Yum. (Photo: Huang 2011)

3. Chalkbrood is a fungal parasite that is ingested when the larva eats and which then infects the gut. Internal competition between the fungus and the larva for food means that the larva normally loses and STARVES TO DEATH. Once the bee larva dies the fungus devours the body causing a chalky white appearance. It is particularly dangerous as its spores can stick around for years.

Honey bee corpses, the white ones have contracted chalk brood. Photo: BeeBase.

Honey bee corpses, the white ones have contracted chalk brood. Photo: BeeBase.

Honey bees are not completely powerless in this struggle for survival however as they have methods of protecting themselves from such unwanted house guests. Just like when you remove mouldy fruit from the fruit bowl so that the rest of the apples don’t start sprouting blue fuzz, bees remove diseased corpses or larvae so that the rest of the colony is not infected. Bees also go on “cleansing flights”, (if the weather is nice), in order to void their bowels away from the rest of the colony therefore avoiding possible re-infection (Evans et al. 2006).
This decline in honey bees is all together pretty serious; 27% of UK endangered plant species are reliant on bee pollination, the pollination of crop plants by bees is worth £200 million, and, all in all, bees pollinate 70% of the worlds food crops. Essentially, if the honey bees die out, so might we (Bee Guardian). Anyway, I’ll stop droning on now (see what I did there?), go out and save some bees!

References
BeeBase – http://www.nationalbeeunit.com/
Wikipedia- http://en.wikipedia.org/wiki/List_of_diseases_of_the_honey_bee
Evans, J D et al. 2006 Immune pathways and defence mechanisms in honey bees Apis mellifera Insect Mol Biol. 15(5): 645–656
Huang et al. 2011 Effects of Nosema on Honey Bee Behavior and Physiology American Bee Journal
http://www.beeguardian.org