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Help With Woodlice!



METALMICKY

Well-known member
Jan 30, 2004
5,935
CLICK HERE FOR THE BEST PRICES ON WOODLICE KILLER


Anyone got any ideas (sensible) of how i can deal with the woodlice in my bathroom?

Brand new bathroom fitted inc new extractor fan. All of a sudden i keep getting woodlice dropping out of the celing extractor vent that is over the bath. The venting goes up into the loft and out via an outside wall. Have tried some insecticide spray but this seem to only work for a couple days. There's no evidence of excessive dampness and the ducting tube is intact all the way to the outside wall.

Any ideas as the missus is refusing to have a bath and will only shower as she is in fear of a divebombing woodlouse landing on her head or worse!:p


CLICK HERE FOR THE BEST PRICES ON WOODLICE KILLER
 


Publius Ovidius

Well-known member
Jul 5, 2003
45,919
at home
napalm

:thumbsup: :thumbsup: :thumbsup: :thumbsup:
 










The Keeper

New member
Oct 22, 2005
540
West Sussex
Woodlice, (Class – Crustacea) unlike many other crustaceans, live on land rather than in water, but they can only survive in moist conditions.


They live mainly on decaying vegetable matter, dead insects, fungi, and occasionally on the leaves and roots of young plants. (Woodlice are also known as pill-bugs or sow-bugs)

Where do they come from?

You normally find woodlice outside where they can hide during the day in cool, dark and damp places - under stones and flower pots, in crevices, amongst dead and rotting vegetation etc.


Why do they come indoors?

Woodlice come indoors mainly during the winter and early spring, usually searching for protection from the onset of cold weather. They do not come indoors to breed, but there may be a colony of woodlice near an entrance to the house.

Once woodlice find their way indoors, particularly in warm dry rooms, they will die from water loss within a day or so. They may survive, however, under sink units in kitchens and bathrooms for some days, or even longer, particularly if they have access to food debris.

Do they do any harm?

Woodlice are harmless, and despite their name, do not damage wood. As described above, a small amount of harm may be caused to young foliage. If disturbed, woodlice are particularly known to curl up into a ball.

How can I get rid of them?

Sealing entry points (draught excluders around doors and windows, for example) can be tried, together with removing of other potential shelters near to the house - flower pots etc.
Alternatively, by warming up parts of the house where woodlice have been found should help.
Apply insecticide spray or dust to crevices or opening where woodlice may be hiding, or to damp areas which cannot be properly dried. This will discourage their presence.
 


The Keeper

New member
Oct 22, 2005
540
West Sussex
Use a pesticide against woodlice there are several products containing bendiocarb. These include Doff Woodlice Killer, Fito Woodlice Killer Powder and Combat Ant and Crawling Insect Killer Powder. They are for use in and around buildings, including glasshouses, but should not be put on plants.

Woodlice sometimes cause a nuisance when they wander into houses, although unless they can find a damp place they soon die of dehydration. If this is a persistent problem they can be prevented from entering by placing draught excluder strips around doors and windows.
 


The Keeper

New member
Oct 22, 2005
540
West Sussex
Woodlice
Problem
Woodlice or slaters are members of the Crustacea family which also includes crabs, lobsters and shrimps.

There are about 35 species of woodlice in Britain and some of these are of horticultural or agricultural significance, because they eat and damage plants. Some woodlice come indoors, especially during the cooler autumn and winter weather, and of these the most common is the Garden Woodlouse.

Woodlice have to live in damp places to survive. When large numbers of woodlice are seen indoors it may mean that there is a problem with high levels of moisture in the room due to condensation or dampness. In most cases, however, woodlice simply enter houses to seek protection from cold weather, perhaps encouraged by the build up of vegetation outside a house.

Although unsightly, woodlice are harmless.

Life Cycle
After mating the female woodlouse commences to produce a variable number of eggs usually up to about 150. These are contained within her body, in a brood pouch, until the young have hatched when they are then released into the environment. The young woodlouse is white and 2mm long. The woodlouse grows through moulting its skin and when fully grown may be 15 mm in length. It also has seven pairs of legs. In Britain it is common for most of the species of woodlice to produce only one generation of offspring per year.

Control
Woodlice are harmless. They are best swept up and returned to their normal outside environment. Alternatively a vacuum cleaner should be used to remove them. The best form of control is to stop them getting into the property by repairing holes, gaps or cracks in walls, floors and door frames. Occasionally the weather bar at the base of the door frame should be replaced. The presence of woodlice may be a sign of condensation or some other form of dampness. By resolving this problem the woodlice will eventually disappear. Also to help prevent further entry from the adjacent garden, rubbish and other potential refuges of woodlice should be removed. As a last resort an insecticidal barrier of a residual dust or spray may also help to discourage the presence of woodlice.

Treatment
The treatment is carried out using an approved insecticide. Further information on the insecticide is available on request.

The use of insecticide is carefully controlled by the Control of Pesticide Regulations 1986.

The Pest Control Officer is fully trained and all necessary measures are taken to comply with the Health and Safety at Work etc. Act 1974 and Regulations thereunder.

Instructions will be given at the time of application in relation to safety of the householder and pets.

In some cases more that one application is necessary to ensure control.
 




The Keeper

New member
Oct 22, 2005
540
West Sussex
The Care of Woodlice
(Crustacea, Isopoda, Oniscidae)


Woodlice are amazing and often much maligned little animals that are well worth a second look. There are 3500 species of Woodlice in the world about 35 or 1% of these live in the UK. Though many of these are small and difficult to find, there are few larger species that are regularly found around buildings, see key below.

The common species are abundant in most habitats, and are easy to keep in margarine containers as they are incapable of climbing up the sides, some damp soil on the bottom and some house-hold vegetable scraps added occasionally and you have some great pets. Keep the soil damp but not too wet as excess moisture can kill Woodlice as easily as too little. Though the Woodlice will feed on the scraps that you put in they will also feed on their own faeces, this is quite natural, what they are actually eating is the fungi and bacteria that are living on the faeces. Some species mostly of the genera Armadillidium, commonly called Pill Bugs, are capable of rolling themselves up in a ball, this is a defence against desiccation as well as against predators such as shrews which find it much harder to bite a ball than an unrolled Woodlice.

If you find a dead woodlouse or cool one down in the fridge so that you can count the legs you will find that it has fourteen, seven on each side, from this you can realise that woodlice are not insects. They are Arthropods though, and share with Insects and Arachnids (Spiders and Scorpions etc) and Myriapods (Millipedes and Centipedes) a hard exoskeleton and jointed limbs; they are in fact members of the Class Crustacea, and therefore more related to crabs and prawns than to other terrestrial arthropods. Nearly all the Arthropods that live in the see are Crustaceans but Woodlice, and a few amphipods, are the only Crustaceans to live on land with any great success.

Woodlice have endeared themselves to many peoples hearts in the past and there are numerous common names for those species which frequent human habitation, such as Bibble bugs, Cheesy bugs, Cud-worms (a reference to their use by farmers in the past to promote restoration of the cud) Coffin-cutters, Roly Poly, Monkey peas, Penny pigs, Sink-lice, Slaters, Sowbugs and Tiggyhogs. Though not everyone has liked them, in some parts of Britain in the past their presence in a house has been considered as unlucky and any food they walked over as poisoned. In other places they have been considered a remedy for stomach upsets and diseases of the liver when eaten live, their cuticle contains a lot of calcium carbonate so it is possible eating them may help cure acid stomach. Woodlice like most Crustaceans are quite edible and Vincent M. Holt in his book "Why not eat Insects" maintains that for making a seafood sauce woodlice are superior to prawns.

When a Woodlice is born it only has 6 pairs of legs, and is very vulnerable to desiccation (drying out) for the first part of its life it lives in a brood pouch underneath its mother, this pouch is composed of plates on the underside of segments 2-5, and is called a 'marsupium' and is grown especially by pregnant females for this purpose, at this age a young woodlouse is called a ‘manca'. After its first moult it gains its 7th pair of legs and leaves the marsupium. Like insects and all other arthropods growth can only occur at times of moult, but unlike insects Woodlice only shed half their skin at a time. When approaching the time to moult a Woodlice stops eating for a few days, then its skin splits around its middle and it sheds the back half of its skin, and then a few days later it sheds the front half, woodlice often eat their shed skin. The Woodlouse is very vulnerable during this time, and often seek a spot away from its fellows for the duration of its shedding, in fact some species, though not any British ones build themselves a cocoon to hide in while they shed their skins, In cultures a certain amount of cannibalism of shedding individuals may occur, particularly if the container is crowded. In nature many Woodlice die while they are still young and the older they get the more chance there is of them surviving to breed. Most of the larger species do not breed until they are at least 2 years old. Nearly all Woodlice are herbivores and many feed on dead and rotting vegetation, or the microbial flora that infests such material. Ligia oceanica (Common Sea Slater) is the largest species in Britain, up to 30 mms long, it lives only on the seashore and feeds mainly on the brown seaweed Fucus vesiculosus, while Porcellio scaber a common woodland species likes to feed on tree bark but will eat many oter things. There are some carnivorous Woodlice, though not in Britain, in the genus Tylos , such as Tylos latreillei a Mediterranean species which lives on the seashore and feeds nocturnally on Sandhoppers.

Philoscia muscorum lives almost entirely on rotting leaves and occupies a similar habitat in both summer and winter, however other species such as Trichoniscus pusillus (Common Pygmy Woodlouse) which share the leaf litter with it during the winter change their habitat during the summer and live almost entirely on and in rotting wood, while Porcellio scaber which lives at the bases of trees during the winter moves higher up into the trees in summer. Not all Woodlice live in woods or Grasslands, Hemilepistus reaumuri lives in arid areas of North Africa and the Middle East where it survives in small family groups in holes dug in the ground these are 5-6 cms wide and can be over 30 CMS deep, digging is stimulated by high temperatures, over 35 C so if the bottom of the hole gets too hot they dig it a bit deeper. Even stranger than this are Platyarthrus hoffmannseggi (Ant Woodlouse) a blind, eyeless white woodlice found in Britain and Europe and Trichoniscus commensalis a pale coloured but still eyed species from New Zealand, both of these live primarily in ant nests feeding on ant droppings and fungi.

Mating occurs at night, and is therefore hard to see. The male climbs onto a receptive female, licks her head and drums on her back with his legs for about five minutes. He then shifts to a diagonal position on the females back and passes sperm to her left side genital opening from his right hand stylets. He then changes his position to the opposite diagonal and deposits sperm in her right hand genital opening from his left hand stylet. Sperm transfer takes about 5 minutes for each side. In some species such as Philoscia muscorum and Armadillidium vulgare breeding is synchronised within a colony so that all breed at the same time. Most species have one brood per year in Britain, though some such as P. muscorum have two in the South. The exception to this is the small triploid (having three sets of chromosomes) Trichoniscus pusillus which has two broods all over Britain. The number of eggs produced by a female of any given species increases with an increase in the size of the female, one female Armadillidium vulgare is recorded as having had a brood of 267 young. The eggs take from 3 to 9 weeks to hatch and spend from 3 to 9 nine days in the brood pouch.

Though many spiders find Woodlice distasteful, a few species will eat them i.e. Tegenaria gigantea and T. domestica, while some species like Dysdera crocata and D. erythrina have jaws specially developed to deal with Woodlice and live almost entirely on them. Armadillidium klugii from Dalmatia is a spider mimic and looks like the poisonous Laterodectes mactans especially when young. The only parasites of Woodlice in Britain are 7 flies of the family Rhinophorinae, Porcellio scaber is the most heavily parasitised, with 14% of those checked by Dr S.L.Sutton being attacked by 6 of the 7 species; 68% of these were attacked by Parafeburia maculata, 17% by Styloneuria discrepans, 9% by Melanophora roralis, 3.7% by Rhinophora lepida, 1.6% of Frauenfeldia rubricosa and 0.08% by Phyto melanocephala. Oniscus asellus is attacked by Parafeburia maculata and Styloneuria discrepans though not as heavily as P. scaber, less than 1% of those checked were parasitised. Armadillidium vulgare is also attacked by Phyto melanocephala while Trachelipus rathkei is attacked by Stevenia atramentaria. None of the other 7 species of Woodlice he checked had any parasitised individuals at all. Woodlice are also consumed readily by many small mammals such as shrews, which may easily consume over 100 per day if they can find them, as well as by many small birds.

A Couple of Experiments
Humidity Responses.
To start this experiment you will need several petri-dishes with two pieces of filter paper in the bottom of them, in half of them the filter paper should be dry and in the others it should be thoroughly damp. You will also need a number Woodlice of each species you wish to test keep one third of them in a container that is absolutely soaking in water so that the Woodlice almost have to swim, one third in a container that is completely dry and one third in a container that has a damp substrate similar to that which you would keep them in normally (see above), for about half an hour. Then put one Woodlouse from each preliminary condition into one of each of the petri-dishes described first. Put the Woodlouse in the centre and then put the lid on and use a marker pen to record the Woodlouse's position every 15 seconds for about ten minutes. You do not need to do all the different combinations at the same time as long as your preparation is the same each time. After ten minutes let the Woodlouse go back to its normal home and work out both the total distance covered by the woodlouse, and the number of times the Woodlouse made a turn of more than 90 degrees. You can divide the total distance in millimetres by the number of turns greater than 90 degrees to get an activity number if you like. If you have more time try comparing not only different species but also individuals within a species and one individuals responses on a series of days to see if it remains constant. Do the Woodlice respond differently to the different treatments.

Do Woodlice have a Permanent Home ?
For this you will need a fish tank or something similar about 45 to 60 cms long by 20 to 30 cms wide, the bigger the better, with a centimetre or so of damp soil on the bottom and four identical shelters. Place the shelters at random in the tank, spread some food around the tank bottom and then place a Woodlouse under one of the shelters, is it under the same one the next day. Record its movements for a week, does it use one more often than the others. You can now try the experiment with four Woodlice, mark each one with a different colour of paint and record their movements for a week, now try it with four of each colour under each shelter. Do the Woodlice in groups respond differently to the individual one. You can run this experiment for as long as the paint allows you to tell who is who if you like. As an extention of this experiment you could set up shelters for woodlice in some open ground, a flat piece of 3-ply about 20 cms square with 4 pieces of timber 20 cms long, and 2 cms by 2 cms square on all four edges to hold it off the ground will do fine. Leave them outside for a week, then mark all the woodlice under each shelter use a different colour for each shelter, and check them each day after that for two weeks or until the paint wears off recording how many of each colour are under each shelter
 


mcshane in the 79th

New member
Nov 4, 2005
10,485
Hasn't anyone learnt, when someone asks for help or suggestions and then in brackets puts "serious", it's guaranteed to get people taking the piss :lolol:
 


Publius Ovidius

Well-known member
Jul 5, 2003
45,919
at home
The keeper is a Woodlice Murderer


BURN HIM
:flameboun :flameboun :flameboun :flameboun
 




The Keeper

New member
Oct 22, 2005
540
West Sussex
mcshane in the 78th said:
Hasn't anyone learnt, when someone asks for help or suggestions and then in brackets puts "serious", it's guaranteed to get people taking the piss :lolol:

Plenty of good advice there, was not taking the piss:(
 








Tom Hark Preston Park

Will Post For Cash
Jul 6, 2003
69,880
METALMICKY said:
Anyone got any ideas (sensible) of how i can deal with the woodlice in my bathroom?

Brand new bathroom fitted inc new extractor fan. All of a sudden i keep getting woodlice dropping out of the celing extractor vent that is over the bath. The venting goes up into the loft and out via an outside wall. Have tried some insecticide spray but this seem to only work for a couple days. There's no evidence of excessive dampness and the ducting tube is intact all the way to the outside wall.

Any ideas as the missus is refusing to have a bath and will only shower as she is in fear of a divebombing woodlouse landing on her head or worse!:p

I had the same trouble when I came back from a month in Oz a couple of years back. Every time I switched the bathroom light on, it was raining MAGGOTS! Something not quite right here I thought, so I got a little man in. After about ten minutes poking around in the loft he emerged with a black sack. ‘Think I know what the problem is, take a look in there’ so I did – and nearly threw up. Turns out a big fat pigeon had flown down the tube at the other end of the extractor fan, and had been unable to get back out again. It appeared to have been there for a number of weeks… :sick:
 


Publius Ovidius

Well-known member
Jul 5, 2003
45,919
at home
mcshane in the 78th said:
Well obviously i wasn't talking about your advice, just the napalm, spider and shouting suggestions...........


so you dont think napalm is a good idea then?
 













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