Diseases of the honey bee
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[[WP:UNDO|Undid]] revision 226088553 by [[Special:Contributions/63.230.58.238|63.230.58.238]] ([[User talk:63.230.58.238|talk]])
'''Diseases of the honey bee''' include:
==Pests and parasites==
===''Varroa'' mites===
[[Image:Varroa on larvae.jpg|right|frame|''Varroa'' mite on a honey bee larva]]
{{main|Varroa destructor}}
''Varroa destructor'' and ''Varroa jacobsoni'' are [[parasite|parasitic]] [[mite]]s that feed off the bodily fluids of adult, [[pupa]]l and [[larva]]l bees.
''[[Varroa]]'' mites can be seen with the naked eye as a small red or brown spot on the bee's thorax.
''Varroa'' are carriers for a [[virus]] that is particularly damaging to the bees.
Bees that are infected with this virus during their development will often have visibly [[Deformed Wing Virus|deformed wings]].
''Varroa'' have led to the virtual elimination of feral bee colonies in many areas and is a major problem for kept bees in [[apiary|apiaries]]. Some feral populations are now recovering — it appears that they have been [[natural selection|naturally selected]] for ''Varroa'' resistance (these so-called feral populations may be [[africanized bee]]s).
''Varroa'' were first discovered in Southeast Asia in about 1904, but has now spread virtually worldwide. ''Varroa'' were discovered in the [[United States]] in 1987, in [[New Zealand]] in 2000.
''Varroa'' are generally not a problem for a hive that is growing strongly. When the hive population growth reduced in preparation for winter or due to poor late summer forage the mite population growth can overtake that of the bees and can then destroy the hive. Often a colony will simply ''abscond'' (leave as in a swarm, but leaving no population behind) under such conditions.
''Varroa'' in combination with [[Deformed Wing Virus]] and bacteria have been theoretically implicated in [[Colony Collapse Disorder]].
====Treatment====
[[Formic acid]] gel packs are sold as "Mite-Away"<ref name="mite-away"> [http://www.miteaway.com/ New Mite-Away II Flyer]</ref>. According to the U.S. Environmental Protection Agency, when used in beehives as directed, this kills the mites, while not substantially disrupting bee behavior or life span. It is not intended for use during production of marketable honey.
<ref name="formic acid"> Office of Pesticide Programs; US Environmental Protection Agency [http://www.epa.gov/pesticides/biopesticides/ingredients/factsheets/factsheet_214900.htm Formic Acid (214900) Fact Sheet] (2005)</ref>
===Acarine (Tracheal) mites ===
''[[Acarapis woodi]]'' is a small parasitic mite that infests the airways of the honey bee. The first known infestation of the mites occurred in the British Isles in the early 20th century. First observed on the [[Isle of Wight]] in 1904, the mystery illness known as ''Isle of Wight Disease'' was not identified as being caused by a parasite until 1921. It quickly spread to the rest of [[Great Britain]]. It was regarded as having wiped out the entire bee population of the British Isles (although later genetic studies have found remnants that did survive) and it dealt a devastating blow to British beekeeping. Brother Adam at the [[Buckfast Abbey]] developed a resistant hybrid bee known as the [[Buckfast bee]], which is now available worldwide to combat acarine disease.
Diagnosis for tracheal mites generally involves the [[dissection]] and [[microscope|microscopic examination]] of a sample of bees from the hive.
Acarine mites, formerly known as tracheal mites are believed to have entered the US in 1984, ''via'' Mexico.
Mature female acarine mites leave the bee's airway and climb out on a hair of the bee, where they wait until they can transfer to a young bee. Once on the new bee, they will move into the airways and begin laying eggs.
==== Treatment ====
Acarine mites are commonly controlled with grease patties (typically made from 1 part vegetable shortening mixed with 3-4 parts powdered sugar) placed on the top bars of the hive. The bees come to eat the sugar and pick up traces of shortening, which disrupts the mite's ability to identify a young bee. Some of the mites waiting to transfer to a new host will remain on the original host. Others will transfer to a random bee - a proportion of which will die of other causes before the mite can reproduce.
[[Menthol]], either allowed to vaporize from crystal form or mixed into the grease patties, is also often used to treat acarine mites.
=== Nosema ===
''[[Nosema apis]]'' is a spore-forming parasite that invades the intestinal tracts of adult bees and causes nosema disease. Nosema is also associated with [[BQCV|Black queen-cell virus]].
Nosema is normally only a problem when the bees can not leave the hive to eliminate waste (for example, during an extended cold spell in winter or when the hives are enclosed in a wintering barn). When the bees are unable to void ([[cleansing flight]]s), they can develop [[dysentery]].
Nosema is treated by increasing the ventilation through the hive. Some beekeepers will treat a hive with [[antibiotic]]s.
Nosema can also be prevented or minimized by removing much of the honey from the beehive then feeding the bees on sugar water in the late fall. Sugar water made from refined sugar has lower ash content than flower nectar, reducing the risk of dysentery, and may have essentially the same nutritional content, although this remains a point of controversy among some beekeepers.
In 1996, a similar type of organism to ''Nosema apis'' was discovered on the Asian honey bee [[Apis cerana]] and subsequently named ''[[Nosema ceranae]]''. This parasite apparently also infects the Western honey bee. <ref> Ritter, Wolfgang [http://www.moraybeekeepers.co.uk/nosema.htm ''Nosema ceranae''] [[Albert Ludwigs University of Freiburg]]</ref>
It has been reported that exposure to [[corn]] pollen containing genes for [[Bacillus thuringiensis]] (Bt) production may weaken the bees' defense against ''Nosema''<ref name="sciam">{{cite web |url=http://www.gmo-safety.eu/en/safety_science/68.docu.html |title="Effects of Bt maize pollen on the honeybee" |accessdate=2007-03-21 |date=2005-10-12 }}</ref>. In this study, it is stated that in relation to feeding a group of bees with Bt corn pollen and a control group with non-Bt corn pollen, that:
"in the first year the bee colonies happened to be infested with parasites (microsporidia). This infestation led to a reduction in the number of bees and subsequently to reduced broods in the Bt-fed colonies as well as in the colonies fed on Bt-toxin-free pollen. The trial was therefore discontinued at an early stage.This effect was significantly more marked in the Bt-fed colonies. (The significant differences indicate an interaction of toxin and pathogen on the epithelial cells of the honeybee intestine. The underlying mechanism which causes this effect is unknown.)"
=== Small hive beetle ===
[[Image:Aethina tumida.jpg|right|frame|Comb slimed by hive beetle larvae. ''Hives infested at this level will drive out bee colonies.'']]
''Aethina tumida'' is a small, dark-colored beetle that lives in beehives.
Originally from Africa, the first discovery of [[small hive beetle]]s in the western hemisphere occurred in the US. The first identified specimen was found in [[St. Lucie, FL]] in 1998. The earliest specimens confirmed since then were collected from [[Charleston, SC]] in 1996. By December 1999, small hive beetle was reported in [[Iowa]], [[Maine]], [[Massachusetts]], [[Minnesota]], [[New Jersey]], [[Ohio]], [[Pennsylvania]], and [[Wisconsin]], and was found in [[California]] by 2006.
The life cycle of this beetle includes [[pupa]]tion in the ground outside of the hive. Controls to prevent ants from climbing into the hive are believed to also be effective against the hive beetle. Several beekeepers are experimenting with the use of [[diatomaceous earth]] around the hive as a way to disrupt the beetle's lifecycle. The diatoms abrade the insect's surface, causing them to dehydrate and die.
Several pesticides are currently used against the small hive beetle. The chemical is commonly applied inside the corrugations of a piece of cardboard. Standard corrugations are large enough that a small hive beetle will enter the cardboard through the end but small enough that honey bees can not enter (and thus are kept away from the pesticide).
=== Wax moths ===
[[Image:Aphomia sociella 9626.jpg|thumb|right|300px|Wax moth (''Aphomia sociella'')]]
{{main|Waxworm}}
''Galleria mellonella'' (greater wax moths) will not attack the bees directly, but feed on the [[wax]] used by the bees to build their [[honeycomb]].
Their full development to adults requires access to used brood comb or brood cell cleanings — these contain [[protein]] essential for the larvae's development, in the form of brood coocoons.
The destruction of the comb will spill or contaminate stored honey and may kill bee larvae.
When honey supers are stored for the winter in a mild climate, or in heated storage, the wax moth larvae can destroy portions of the comb, even though they will not fully develop. Damaged comb may be scraped out and will be replaced by the bees. Wax moth larvae and eggs are killed by freezing, so storage in unheated sheds or barns in higher latitudes is the only control necessary.
Because wax moths cannot survive a cold winter, they are usually not a problem for beekeepers in the northern U.S. or [[Canada]], unless they survive winter in heated storage, or are brought from the south by purchase or migration of beekeepers. They thrive and spread most rapidly with temperatures above 30°C (90°F), so some areas with only occasional days that hot, rarely have a problem with wax moths, unless the colony is already weak due to stress from other factors.
==== Control and Treatment ====
A strong hive generally needs no treatment to control wax moths; the bees themselves will kill and clean out the moth larvae and webs. Wax moth larvae may fully develop in cell cleanings when such cleanings accumulate thickly where they are not accessible to the bees.
Wax moth development in comb is generally not a problem with [[top bar hive]]s as unused combs are usually left in the hive during the winter.
Since this type of hive is not used in severe wintering conditions, the bees will be able to patrol and inspect the unused comb.
Wax moths can be controlled in stored comb by application of the aizawai variety of Bt (Bacillus thuringiensis) spores via spraying. It is a very effective biological control and has an excellent safety record{{Fact|date=June 2008}}.
Wax moths can be controlled chemically with [[paradichlorobenzene]] (moth crystals or urinal disks). If chemical methods are used, the combs must be well-aired-out for several days before use. The use of [[naphthalene]] (mothballs) is discouraged because it accumulates in the wax, which can kill bees or contaminate honey stores. Control of wax moths by other means includes the freezing of the comb for at least twenty-four hours.
==Bacterial diseases==
===Symptoms===
{| class="wikitable sortable"
!Appearance of brood comb
!Age of dead brood
!Color of dead brood
!Consistency of dead brood
!Odor of dead brood
!Scale characteristics
!Infectious agent
|-
|Sealed brood. Discolored, sunken, or punctured cappings.
|'''Usually older sealed larvae or young pupae'''. Lying lengthwise in cells.
|Dull white, becoming light brown, coffee brown to dark brown, or almost black.
|'''Soft, becoming sticky to ropy'''.
|Slightly to pronounced putrid odor.
|Lies uniformly flat on lower side of cell. Adheres tightly to cell wall. Fine, threadlike tongue of dead maybe present. Head lies flat. Black in color.
|American Foulbrood
|-
|Unsealed brood. Some sealed brood in advanced cases with discolored, sunken or punctured cappings.
|'''Usually young unsealed larvae'''; occasionally older sealed larvae. Typically in coiled stage.
|Dull white, becoming yellowish white to brown, dark brown, or almost black.
|Watery; rarely sticky or ropy. Granular.
|Slightly to penetrating sour.
|Usually twisted in cell. Does not adhere to cell wall. Rubbery. Black in color.
|European Foulbrood
|}
<ref>Shimanuki, Hachiro; Knox, David A. [http://maarec.cas.psu.edu/bkCD/Bee_Diseases/Diagnosis.html Diagnosis of Honey Bee Diseases] USDA</ref>
=== American foulbrood (AFB) ===
[[Image:Loque americana.jpg|right|frame|Field test for American Foulbrood]]
American Foul Brood (AFB), caused by the spore- forming ''[[Paenibacillus|Paenibacillus larvae ssp. larvae]]'' (formerly classified as ''Bacillus larvae''), is the most widespread and destructive of the bee brood diseases. Paenibacillus larvae is a rod-shaped bacterium, which is visible only under a high power microscope. Larvae up to 3 days old become infected by ingesting spores that are present in their food. Young larvae less than 24 hours old are most susceptible to infection. Spores germinate in the gut of the larva and the vegetative form of the bacteria begins to grow, taking its nourishment from the larva. Spores will not germinate in larvae over 3 days old. Infected larvae normally die after their cell is sealed. The vegetative form of the bacterium will die but not before it produces many millions of spores. Each dead larva may contain as many as 100 million spores. This disease only affects the bee larvae but is highly infectious and deadly to bee brood. Infected larvae darken and die. <ref>[http://www.defra.gov.uk/hort/Bees/pdf/foulbrood.pdf Foul brood disease of honey bees:recognition and control] Central Science Laboratory National Bee Unit, Department for Environment, Food and Rural Affairs (DEFRA); [[United Kingdom]] (''excellent publication with many pictures'')</ref><ref> [http://www.sciencedaily.com/releases/2008/05/080502091421.htm Wiley-Blackwell. "Bees Disease: One Step Closer To A Cure." ScienceDaily 4 May 2008]</ref>
====History====
Until 1906 the two foulbrood diseases were not differentiated and the condition was generally
referred to as foulbrood. Phillips (1906) used the terms European and American to distinguish the
diseases. However the designations did not refer to the geographical distributions but to the areas
where they were first investigated scientifically (Shimanuki, 1990). White (1907) demonstrated
conclusively that a bacterium that he called Bacillus larvae was the cause of American Foulbrood
(AFB) disease by fulfilling [[Koch's postulates]]. The geographical origin of AFB is unknown, but it is found almost world-wide (Matheson, 1993,1996)<ref> [http://ressources.ciheam.org/om/pdf/b25/99600235.pdf American Foulbrood disease]A.M. Alippi
Laboratorio de Fitopatologia, Facultad de Ciencias Agrarias y Forestales
Universidad Nacional deL a Plata, Calle 60 y 118 , C.C. 31, 1900 [[La Plata]], [[Argentina]] </ref>
====Diagnosis====
Lab testing is necessary for definitive diagnosis, but a good field test is to touch a dead larva with a toothpick or twig. It will be sticky and "ropey" (drawn out). Foulbrood also has a characteristic odor, and experienced beekeepers with a good sense of smell can often detect the disease upon opening a hive. In the photo at right, some larvae are healthy while others are diseased. Capped cells with decomposing larvae are sunken, as can be seen at lower right. Some caps may be torn, as well. Compare with [[Brood (honeybee)|healthy brood]].
The most reliable disease diagnosis is done by sending in some possibly affected brood comb to a laboratory specialized in identifying honey bee diseases. <ref> USDA Agricultural Research Service [http://www.ars.usda.gov/Services/docs.htm?docid=7472 Submission of Samples for Diagnosis] (2007)</ref>
====Disease Spread====
When cleaning infected cells, bees distribute spores throughout the entire colony. Disease spreads rapidly throughout the hive as the bees, attempting to remove the spore-laden dead larvae, contaminate brood food. Nectar stored in contaminated cells will contain spores and soon the brood chamber becomes filled with contaminated honey. As this honey is moved up into the supers, the entire hive becomes contaminated with spores. When the colony becomes weak from AFB infection, robber bees may enter and take contaminated honey back to their hives thereby spreading the disease to other colonies and apiaries. Beekeepers also may spread disease by moving equipment (frames or supers) from contaminated hives to healthy ones.
American Foul Brood spores are extremely resistant to desiccation and can remain viable for more than 40 years in honey and beekeeping equipment. Therefore honey from an unknown source should never be used as bee feed, and used beekeeping equipment should be assumed contaminated unless known to be otherwise.<ref> [http://www.agriculture.state.pa.us/agriculture/cwp/view.asp?a=3&q=128089 American Foul Brood-Prevention and Control] Pennsylvania Department of Agriculture </ref>
==== Treatment ====
AFB spores are present in virtually every hive. Some brood in weakened colonies can become diseased. If the diseased larva dies within the hive, millions of spores are released.
Antibiotics, in non-resistant strains of the pathogen, can prevent the vegetative state of the bacterium to form. Drug treatment to prevent the American foulbrood spores from successfully germinating and proliferating is possible using [[Oxytetracycline|oxytetracycline hydrochloride]] (Terramycin).<ref> Calderone, Nicholas [http://www.masterbeekeeper.org/B_files/disease1.htm Management of Honey Bee Brood Diseases] (January 2001) [[Cornell University]]</ref>
Another drug treatment is [http://www.sciencelab.com/xMSDS-Tylosin_Tartrate-9925378 tylosin tartrate] that was US [[Food and Drug Administration]] (FDA) [http://www.fda.gov/cvm/CVM_Updates/honeybee.htm approved in 2005]<ref>[[USDA]] Agricultural Research Service [http://www.ars.usda.gov/is/pr/2005/051219.htm New Antibiotic Approved for Treating Bacterial Honey Bee Disease]</ref>.
Chemical treatment is sometimes used prophylactically, but this is a source of considerable controversy because certain strains of the bacterium seem to be rapidly developing resistance. <ref> Powell, Gordon [http://www.abuzzaboutbees.com/IHPA/TheBuzz/January06/Page8.htm Cleaning up American Foulbrood] Iowa Honey Producers Association, The Buzz Newsletter(Jan 2006)</ref> In addition, hives that are contaminated with millions of American foulbrood spores have to be prophylactically treated indefinitely. Once the treatment is suspended the American foulbrood spores germinate successfully again leading to a disease outbreak.
Because of the persistence of the spores (which can survive up to 40 years), many State Apiary Inspectors require an AFB diseased hive to be burned completely. A less radical method of containing the spread of disease is burning the frames and comb and thoroughly flame scorching the interior of the hive body, bottom board and covers. Dipping the hive parts in hot [[paraffin]] wax or a 3% [[sodium hypochlorite]] solution (bleach) also renders the AFB spores innocuous. <ref> W. Dobbelaere, D.C. de Graaf, W. Reybroeck, E. Desmedt, J.E. Peeters, F.J. Jacobs (2001)[http://www.blackwell-synergy.com/doi/full/10.1046/j.1365-2672.2001.01376.x?cookieSet=1 Disinfection of wooden structures contaminated with Paenibacillus larvae subsp. larvae spores] [[Journal of Applied Microbiology]] 91 (2), 212–216. doi:10.1046/j.1365-2672.2001.01376.x </ref>
=== European foulbrood (EFB) ===
''Melissococcus pluton'' is a bacterium that infests the guts of bee larvae. European foulbrood is less deadly to a colony than is American foulbrood. ''Melissococcus pluton'' does not form spores, though it can overwinter on comb.
European foulbrood is often considered a "stress" disease - a disease that is dangerous only if the colony is already under stress for other reasons. An otherwise healthy colony can usually survive European foulbrood. An outbreak of the disease may be controlled chemically with oxytetracycline hydrochloride. Prophylactic treatments are not recommended as they lead to resistant bacteria.
==Fungal diseases==
=== Chalkbrood ===
''Ascophaera apis'' is a fungal disease that infests the gut of the larva. The fungus will compete with the larva for food, ultimately causing it to starve. The fungus will then go on to consume the rest of the larva's body, causing it to appear white and 'chalky'.
Chalkbrood is often considered another "stress" disease because the fungal spores are always present but are manageable by an otherwise healthy colony. Chalkbrood is most commonly visible during wet springs. Hives with Chalkbrood can generally be recovered by increasing the ventilation through the hive and/or by requeening the hive.
=== Stonebrood ===
Stonebrood is a fungal disease caused by ''[[Aspergillus fumigatus]]'', ''[[Aspergillus flavus]]'' and ''[[Aspergillus niger]]''. It causes mummification of the brood of a honey bee colony. The fungi are common soil inhabitants and are also pathogenic to other insects, birds and mammals. The disease is difficult to identify in the early stages of infection. The spores of the different species have different colours and can also cause respiratory damage to humans and other animals. When a bee larva takes in spores they may hatch in the gut, growing rapidly to form a collarlike ring near the head. After death the larvae turn black and becomes difficult to crush, hence the name stonebrood. Eventually the fungus erupts from the integument of the larva and forms a false skin. In this stage the larvae are covered with powdery fungal spores. Worker bees clean out the infected brood and the hive may recover depending on factors such as the strength of the colony, the level of infection, and hygienic habits of the strain of bees (there is variation in the trait among different subspecies/races).
{{Expand-section|date=June 2008}}
==Viral diseases==
===Acute bee paralysis virus (ABPV) or (APV)===
ABPV ([http://www.ncbi.nlm.nih.gov/Taxonomy/Browser/wwwtax.cgi?id=92444&lvl=0 TaxID 92444]) is considered to be a common infective agent of bees. It belongs to the family [[Dicistroviridae]],[http://www.picornavirales.org/dicistroviridae/dicistroviridae.htm] as does the Israel acute paralysis virus, Kashmir bee virus, and the Black queen cell virus. It is frequently detected in apparently healthy colonies. Apparently, this virus plays a role in cases of sudden collapse of honey bee colonies infested with the parasitic mite ''Varroa destructor''.<ref>
Chen, Yanping [http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=134446 Phylogenetic Analysis of Acute Bee Paralysis Virus Strains] Appl Environ Microbiol. 2002 December; 68(12): 6446–6450. </ref>
===Israel acute paralysis virus (IAPV)===
A related virus[http://www.picornavirales.org/dicistroviridae/dicistroviridae.htm] described in 2004 is known as the "Israel acute paralysis virus" ([http://www.ncbi.nlm.nih.gov/Taxonomy/Browser/wwwtax.cgi?id=294365&lvl=0 TaxID 294365]); The virus is named after the place where it was first idenitified - its place of origin is unknown. IAPV has been suggested in September 2007 as a marker associated with [[Colony Collapse Disorder]].<ref>{{cite web
|url=http://www.reuters.com/article/scienceNews/idUSN0635510520070906
|title=New virus may be killing bees
|first=Maggie
|last=Fox
|publisher=Reuters
|date=2007-09-06
|accessdate=2007-09-06}}</ref>
=== Kashmir bee virus (KBV) ===
This is another Dicistroviridae, related to the preceding viruses.[http://www.picornavirales.org/dicistroviridae/dicistroviridae.htm] Recently discovered, KBV ([http://www.ncbi.nlm.nih.gov/Taxonomy/Browser/wwwtax.cgi?id=68876&lvl=0 TaxID 68876]) is currently only positively identifiable by a laboratory test. Little is known about it yet.
{{Expand-section|date=June 2008}}
<ref>[http://www.agf.gov.bc.ca/apiculture/factsheets/230_kashmir.htm Kashmir Bee Virus] Apiculture Factsheet #230, Ministry of Agriculture and Lands, Government of [[British Columbia]], Jul 2004, accessed Jan 2007 </ref>
=== Black Queen Cell Virus (BQCV) ===<!-- This section is linked from [[Black Queen Cell Virus]] -->
This is another Dicistroviridae, related to the preceding viruses.[http://www.picornavirales.org/dicistroviridae/dicistroviridae.htm] As its name implies, BQCV ([http://www.ncbi.nlm.nih.gov/Taxonomy/Browser/wwwtax.cgi?id=92395&lvl=0 TaxID 92395]) causes the queen larva to turn black and die. It is thought to be associated with [[Nosema]]. <ref>[http://www.ars.usda.gov/research/publications/publications.htm?SEQ_NO_115=164413 Multiple Virus Infections in the Honey Bee and Genome Divergence of Honey Bee Viruses]</ref>
{{Expand-section|date=June 2008}}
===Chronic Paralysis Virus [CPV]===
<ref>Ribière, Magali; Faucon, Jean-Paul; Pépin, Michel [http://www.edpsciences.org/articles/apido/pdf/2000/05/m0506.pdf Detection of chronic honey bee (Apis mellifera L.) paralysis virus infection: application to a field survey] Apidologie 31 (2000) 567-577</ref>
===Cloudy Wing Virus (CWV)===
<ref> Gliński, Z.; Jarosz, J.; [http://www.beekeeping.com/apiacta/infection_immunity.htm Infection and immunity in the honey bee Apis mellifera] Apiacta, 2001, 36 (1), 12 - 24 </ref>
=== Deformed Wing Virus (DWV)===
{{main|Deformed Wing Virus}}
As indicated by the name, this virus produces deformed wings. Typically associated with ''[[Varroa destructor]]'', it has been suggested as a contributing factor to [[Colony Collapse Disorder]]. <ref> Tentcheva, Diana; Gauthier,Laurent [http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=535170&tools=bot Prevalence and Seasonal Variations of Six Bee Viruses in Apis mellifera L. and Varroa destructor Mite Populations in France] Appl Environ Microbiol. 2004 December; 70(12): 7185–7191 </ref>
===Sacbrood virus (SBV)===
[[Morator aetatulas]] is the virus that causes sacbrood disease. Affected larvae change from pearly white to gray and finally black. Death occurs when the larvae are upright, just before pupation. Consequently, affected larvae are usually found in capped cells. Head development of diseased larvae is typically retarded. The head region is usually darker than the rest of the body and may lean toward the center of the cell. When affected larvae are carefully removed from their cells, they appear to be a sac filled with water. Typically the scales are brittle but easy to remove. Sacbrood-diseased larvae have no characteristic odor. <ref>Shimanuki, Hachiro; Knox, David A. [http://maarec.cas.psu.edu/bkCD/Bee_Diseases/Diagnosis.html Diagnosis of Honey Bee Diseases] USDA</ref>
== Dysentery ==
[[Dysentery]] is a condition resulting from a combination of long periods of inability to make ''cleansing flights'' (generally due to cold weather) and food stores which contain a high proportion of indigestible matter. As a bee's gut becomes engorged with feces that cannot be voided in flight as preferred by the bees, the bee voids within the hive. When enough bees do this the hive population rapidly collapses and death of the colony results. Dark honeys and [[Honeydew (secretion)|honeydew]]s have greater quantities of indigestible matter.
Occasional warm days in winter are critical for honey bee survival; dysentery problems increase in likelihood if there are periods of more than two or three weeks with temperatures below 50 degrees Fahrenheit. When cleansing flights are few, bees will often be forced out at times when the temperature is barely adequate for their wing muscles to function, and large quantities of bees may be seen dead in the snow around the hives.
Colonies that are found dead in spring from dysentery will have feces smeared over the frames and other hive parts.
In very cold areas of North America and Europe, where honey bees are kept in ventilated buildings during the coldest part of winter, no cleansing flights are possible, and all honey is removed from the hives and replaced with high fructose corn syrup which has nearly no indigestible matter.
== Chilled brood ==
Chilled brood is not actually a disease but can be a result of mistreatment of the bees by the beekeeper. It also can be caused by a pesticide hit that primarily kills off the adult population, or by a sudden drop in temperature during rapid spring buildup.
The brood must be kept warm at all times; [[nurse]] bees will cluster over the brood to keep it at the right [[temperature]].
When a beekeeper opens the hive (to inspect, remove honey, check the queen, or just to look) and prevents the nurse bees from clustering on the frame for too long, the brood can become chilled, deforming or even killing some of the bees.
To minimize the risk of chilled brood, open the hive on warm days and at the hottest part of the day (this is also the time when the most field bees will be out foraging and the number of bees in the hive will be at its lowest). Learn to inspect your hive as quickly as possible and put frames with brood back where the bees can cluster on it immediately.
==Pesticide losses==
Honey bees are susceptible to many of the chemicals used for agricultural spraying of other insects and pests. Many [[pesticide (toxic to bees)|pesticides]] are known to be [[Bees and toxic chemicals|toxic to bees]].
Because the bees forage up to several miles from the hive, they may fly into areas actively being sprayed by farmers or they may collect pollen from 'contaminated' flowers.
Carbamate pesticides, such as Sevin(R)-Carbaryl (C12H11NO2)can be especially pernicious since toxicity can take as long as two days to become effective; allowing infected pollen to be returned and distributed throughout the colony. Organophosphates and other insecticides are also known to [[Pesticide toxicity to bees|kill honey bee clusters in treated areas]].
Pesticide losses may be relatively easy to identify (large and sudden numbers of dead bees in front of the hive) or quite difficult, especially if the loss results from a gradual accumulation of pesticide brought in by the foraging bees. Quick acting pesticides may deprive the hive of its foragers, dropping them in the field before they can return home.
Insecticides that are toxic to bees have label directions that protect the bees from poisoning as they forage. To comply with the label, applicators must know where and when bees forage in the application area, and the length of residual activity of the pesticide.
Some pesticide authorities recommend, and some jurisdictions require, that notice of spraying be sent to all known beekeepers in the area so that they can seal the entrances to their hives and keep the bees inside until the pesticide has had a chance to disperse. This, however, does not solve all problems associated with spraying and the label instructions should be followed regardless of doing this. Sealing honey bees from flight on hot days can kill bees. Beekeeper notification does not offer any protection to bees, if the beekeeper cannot access them, or to wild native or feral honey bees. Thus beekeeper notification as the sole protection procedure does not really protect all the pollinators of the area, and is, in effect, a circumventing of the label requirements. Pesticide losses are a major factor in [[pollinator decline]].
==Colony Collapse Disorder==
{{main|Colony Collapse Disorder}}
'''Colony Collapse Disorder''' (or '''CCD''') is a little-understood phenomenon in which worker bees from a [[Beehive (beekeeping)|beehive]] or [[Western honey bee]] colony abruptly disappear. CCD was originally found in Western honey bee colonies in [[North America]] in late 2006.<ref name="Penn">
{{cite news
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| last =
| authorlink =
| author =
| coauthors =
| title = Honey Bee Die-Off Alarms Beekeepers, Crop Growers and Researchers
| url = http://www.aginfo.psu.edu/News/07Jan/HoneyBees.htm
| format =
| work =
| publisher = Penn State University College of Agricultural Sciences
| id =
| pages =
| page =
| date = 2007-01-29
| accessdate =
| language =
| quote =
}}</ref>
European beekeepers observed a similar phenomenon in [[Belgium]], [[France]], the [[Netherlands]], [[Greece]], [[Italy]], [[Portugal]], and [[Spain]]<ref name=Monde> Gaëlle Dupont, [http://www.lemonde.fr/web/article/0,1-0@2-3244,36-948835@51-948933,0.html Les abeilles malades de l'homme], ''[[Le Monde]]'', 29 August 2007 {{fr icon}}</ref>, and initial reports have also come in from [[Switzerland]] and [[Germany]], albeit to a lesser degree.<ref name=sueddeutsche>
{{cite news
| first =
| last =
| authorlink =
| author = Petra Steinberger
| coauthors =
| title = Das spurlose Sterben
| url = http://www.sueddeutsche.de/,ra13l5/wissen/artikel/352/105247/
| format =
| work =
| publisher = sueddeutsche.de
| id =
| pages =
| page =
| date = 2007-03-12
| accessdate =
| language = German
| quote =
}}</ref> Possible cases of CCD have also been reported in [[Taiwan]] since April 2007.<ref name=Echos>Paul Molga, [http://www.lesechos.fr/info/energie/4611614.htm La mort des abeilles met la planète en danger], ''[[Les Echos]]'', 20 August 2007 {{fr icon}}</ref>
The cause (or causes) of the syndrome is not yet well understood. Hypotheses include environmental change-related stresses,<ref name="cnn">
{{cite news
| first =
| last =
| authorlink =
| author = Amy Sahba
| coauthors =
| title = The mysterious deaths of the honeybees
| url = http://money.cnn.com/2007/03/29/news/honeybees/
| format =
| work =
| publisher = [[CNN Money]]
| id =
| pages =
| page =
| date = 2007-03-29
| accessdate = 2007-04-04
| language =
| quote =
}}</ref> [[malnutrition]], [[pathogen]]s (i.e., [[Diseases of the honey bee|disease]]<ref name = "CCDWG">
{{cite web
| title = Colony Collapse Disorder Working Group
| url = http://www.ento.psu.edu/MAAREC/pressReleases/ColonyCollapseDisorderWG.html
| language =
}}</ref> including [[Diseases of the honey bee#Israel acute paralysis virus (IAPV)|Israel acute paralysis virus]]<ref name=nytvirus>
{{cite news
| first =
| last =
| authorlink =
| author = Andrew C. Refkin
| coauthors =
| title = Virus Is Seen as Suspect in Death of Honeybees
| url = http://www.nytimes.com/2007/09/07/science/07bees.html?hp
| format =
| work = [[The New York Times]]
| publisher =
| id =
| pages =
| page =
| date = 2007-09-07
| accessdate = 2007-09-07
| language =
| quote =
}}</ref><ref name=sciam>
{{cite news
| first =
| last =
| authorlink =
| author = JR Minkel
| coauthors =
| title = Mysterious Honeybee Disappearance Linked to Rare Virus
| url = http://www.sciam.com/article.cfm?chanID=sa003&articleID=E0E0362F-E7F2-99DF-3F4F781839D6C879&pageNumber=1&catID=1
| format =
| work = Science News
| publisher = Scientific American
| id =
| pages =
| page =
| date = 2007-09-07
| accessdate = 2007-09-07
| language =
| quote =
}}</ref>), [[mite]]s, [[Pesticide toxicity to bees|pesticide]]s such as [[neonicotinoids]] or [[imidacloprid]], radiation from cellular phones or other man-made devices,<ref name = cellphone>
{{cite news
|url=http://environment.independent.co.uk/nature/article2449968.ece
|accessdate=2007-12-10
|title=Are mobile phones wiping out our bees?
|author=Geoffrey Lean and Harriet Shawcross
|date=2007-04-15
|publisher=[[The Independent]]
}}</ref>
and [[Genetically modified food|genetically modified (GM) crops]] with pest control characteristics such as [[transgenic maize]].<ref name = "Sierra">
{{cite web
| url=http://www.sierraclub.org/biotech/whatsnew/whatsnew_2007-03-21.asp
| title="GE and bee Colony Collapse Disorder -- science needed!"
| accessdate=2007-03-23
| date=2005-03-21
| language=
}}</ref> Some claim that the disappearances have not been reported from [[Organic farming|organic]] beekeepers, suggesting to some that beekeeping practices can be a primary factor.<ref name = "organic">
{{cite news
|url=http://www.informationliberation.com/index.php?id=21912
|title=No Organic Bee Losses
|date=2007-05-10
|publisher=information liberation
|language=
|accessdate=2007-05-17
}}</ref>
== See also ==
{{BeeColonyMemberTypes}}
== References and external links==
<references/>
* Canadian Honey Council [http://www.honeycouncil.ca/users/folder.asp?FolderID=4935 Essential Oils for Varroa, Tracheal, AFB Control]
* Sammataro, Diana; et al. ''The Beekeeper's Handbook''
* Morse, Roger (editor) ''The ABC and XYZ of Beekeeping''
=== Pages on bee diseases ===
* [http://www.ent.uga.edu/bees/Disorders/Honey_Bee_Disorders.htm The University of Georgia page on bee disorders]
* [http://www.kohala.net/bees/#anchor400987 Diseases and Afflictions of Honey Bees]
* [http://www.agf.gov.bc.ca/apiculture/factsheets/index.htm Agriculture Department BC Factsheets]
* [http://maarec.cas.psu.edu/bkCD/Bee_Diseases/disease_index.html Penn State University page on maladies]
* [http://beebase.csl.gov.uk/public/News/news.cfm Webpages constructed by National Bee Unit (UK)]
[[Category:Beekeeping]]
[[Category:Animal diseases]]
[[Category:Agricultural pests]]
[[bs:Bolesti pčela]]
[[bg:Болести по пчелите]]
[[de:Kategorie:Bienenkrankheit]]
[[es:Enfermedades de las abejas]]
[[sr:Болести пчела]]