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Welcome to the Bee Hive ....
Do
you have questions or concerns about honey bees? Are you looking to
have them removed from your structures and properties in order to
maintain a better and healthier environment for your family and pets?
Well then you have certainly come to the right place for assistance.
The Oklahoma Wildlife Control® Limited Liability Company, which is
based in Tulsa, Oklahoma with an office also in Oklahoma City ... has
the solutions you have been searching for. The
Oklahoma Wildlife Control® Limited Liability Company offers
professionalism, and unrivaled services to remove, exclude and capture
those unwanted Honey Bees that has taken up residence in or on your
structures, properties and houses. From a simple swarm of bees ... to
hives that have occupies your walls for years ... we will get them
removed and ensure that there will not be a return of a future hive or
colony to that location. The
Oklahoma Wildlife Control® Limited Liability Company has teamed up with
Lloyd Ziegler, a local Master Bee Keeper and Owner of Ace Bee &
Wasp Removal Service, to bring to you a combined experience of more
than 40 years in the Wildlife Control Industry. Click here to see what the Tulsa World has to say about Lloyd Ziegler ... The bottom line for
your bee solutions ... WE DO NOT KILL HONEYBEES!
We will remove and relocate them. If you want the honey bees that you
consider a problem to be killed ... call an exterminator. If you want
the job done correctly, with the safety, health and well being of both
the Honey Bees and Yourselves to be at the front of your service
providers minds ... you have some to the right place. Contact us today for inspections and more information concerning Honey Bees and all other wildlife issues that you may or may not know
or realize that you have. Do you know what you are dealing with? Below is some information
provided for you about honey bees, habits and species for your reading pleasure.
Honey bees (or honeybees) are a subset of bees, primarily distinguished by the production and storage of honey and the construction of perennial, colonial nests out of wax. Honey bees are the only extant members of the tribe Apini, all in the genus Apis.
Currently, there are only seven recognized species of honey bee with a
total of 44 subspecies (Engel, 1999) though historically, anywhere from
six to eleven species have been recognized. Honey bees represent only a
small fraction of the approximately 20,000 known species of bees. Some
other types of related bees produce and store honey, but only members
of the genus Apis are true honey bees.
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| Swarm of bees in a tree |
Cavity-nesting honey bees – subgenus Apis
- These are 3 or 4 species. The reddish Koschevnikov's Bee (Apis koschevnikovi) from Borneo is well distinct; it probably derives from the first colonization of the island by cave-nesting honey bees. Apis cerana, the Eastern honey bee proper, is the traditional honey bee of southern and eastern Asia, kept in hives in a similar
fashion to Apis mellifera, though on a much smaller and regionalized scale. It has not been possible yet to resolve its relationship to the Bornean
Apis cerana nuluensis and Apis nigrocincta from the Philippines to satisfaction; the most recent hypothesis is that these are indeed distinct species but that A. cerana is still
paraphyletic, consisting of several good species (Arias & Sheppard 2005).
- European
(Western, Common) honey bee
Main
article: Apis mellifera - Apis mellifera, the most commonly domesticated species, was the third insect to have its genome
mapped. It seems to have originated in eastern tropical Africa and
spread from there to Northern Europe and eastwards into Asia to the
Tien Shan range. It is variously called the European, Western or Common
honey bee in different parts of the world. There are many subspecies that have adapted to the local geographic and climatic environment, and in addition, hybrid strains such as the Buckfast bee have been bred. Behavior, color and anatomy can be quite different from one subspecies or even strain to another.
- Regarding phylogeny, this is the most enigmatic honey bee species. It seems to have diverged from its Eastern relatives only during the Late Miocene. This would fit the hypothesis that the ancestral stock of cave-nesting honey bees was separated into the Western group of
E Africa and the Eastern group of tropical Asia by desertification in the Middle East and adjacent regions, which caused declines of foodplants and trees which provided nest sites, eventually
causing gene flow to cease. The diversity of subspecies is probably the product of a (largely) Early Pleistocene radiation aided by climate and habitat changes during the last ice age. That the Western honey bee has been intensively managed by
humans since many millennia - including hybridization and introductions - has apparently increased the speed of its evolution and confounded the DNA sequence data to a point where little of substance can be said about the exact relationships of many
A. mellifera subspecies.(Arias & Sheppard 2005)
- There are no honey bees
native to the Americas. In 1622, European colonists brought the dark bee (A. m. mellifera) to the Americas, followed later by Italian bees (A. m. ligustica) and others. Many of the crops that depend on honey bees for pollination have also been imported
since colonial times. Escaped swarms (known as "wild" bees, but actually feral) spread rapidly as far as the Great Plains, usually preceding the colonists. The Native Americans called the honey bee "the white man's fly". Honey bees did not naturally cross the Rocky Mountains; they were carried by ship to California in the early 1850s.
-
Widely known as the "killer bee", Africanized bees are highly aggressive hybrids between European stock and the African subspecies A. m. scutellata; they are thus often called "Africanized bees". Originating by accident in Brazil, they have spread to North
America and constitutes a pest
in some regions. However, these strains do not overwinter well, and so
are not often found in the colder, more Northern parts of North
America. On the other hand, the original breeding experiment for which
the African bees were brought to Brazil in the first place has
continued (though not as intended): novel hybrid strains of domestic
and re-domesticated Africanized bees combine high resilience to
tropical conditions and good yields, and are popular among beekeepers
in Brazil. (**All information above was extracted from the Wikipedia 03/2009)  Confirmed Africanized Honey Bees Counties
Click
on map to view larger printable pdf version
Click here for the Africanized Honeybees in Oklahoma Fact Sheet
| Bees in a Bar-B-Q grill |
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| Bees in a Bar-B-Q grill |
Colony
Collapse Disorder
Jerry
Bromenshenk has been involved with Colony Collapse Disorder from the
very beginning. He and his colleagues at the University of Montana, the
U.S Army’s Edgewood Chemical and Biological Center, his own company
called Bee Alert Technology, and BVS, Inc. have ferreted out an amazing
amount of information on this Disorder and are close to understanding
the answers to this problem. Because of their work the beekeeping
community i s more aware of the best management practices over time to
combat the worst of the regular pests and diseases bees have, and this
year the almond orchards should have an ample supply of bees for
pollination, in part due to their efforts, and of course the work of
many other researchers and scientists. Of course it’s only late
December and bees are fickle, fragile creatures…and in bee time, it’s a
long way to February.
Over the two years that Colony Collapse
Disorder has been a recognized problem, this group has probably visited
more beeyards suffering from CCD, in more locations, and over a longer
a time than most of the people involved in this search. As a result, in
a full report prepared by this team to be released in the February
issue of Bee Culture magazine, Bee Alert’s Scott Debnam and Jerry
Bromenshenk from Missoula Montana, David Westerveld from Florida’s
Apiary Inspections Bureau, and Randy Oliver, a commercial beekeeper
with significant honey bee research experience from Grass Valley,
California detail the symptoms of CCD with respect to where it hits,
and when it hits. This information is critical in making a diagnosis as
symptoms do change as seasons progress and knowing what to look for and
when to look for it is absolutely necessary in making correct
decisions. So far, no better guidelines exist for diagnosing this
disorder.
To review what’s
commonly known:
The symptoms of the final stages of CCD have been oft repeated:
In
collapsed colonies
· Complete absence of older adult bees in colonies, with few or no dead
bees in the colony, on the bottom board, in front of the colony, or in the beeyard.
· Presence of capped
brood in colonies during time of year when queen should be laying.
· Presence of food stores, both honey
and pollen, unless a drought or time of year restricts availability of food resources.
· Absence of pest
insects such as wax moth and hive beetle.
· Lack of robbing by other bees
· Robbing
and return of hive pests is delayed by days or weeks.
In collapsing colonies
· Too few worker bees to maintain brood that is present.
· Remaining bee population predominately
young bees.
· Queen is present.
· Queen may lay more eggs than can be maintained by
workers, or is appropriate for the time of year.
· Cluster is reluctant to consume supplemental food such
as sugar syrup and pollen supplement.
However, these are the terminal symptoms. By the time colonies reach
this point it is far too late to do anything but bury the dead. Being
able to spot colonies that are just becoming affected is a real plus
because beekeepers can turn them around most times and keep them
productive. Even though they still don’t know the cause, proper and
appropriate management techniques go a long way in helping. Here’s what
the team has found:
One year out:
Colonies are “just not doing well”
with few other visible symptoms. They seem healthy, but have lackluster honey production.
Six
months out:
Symptoms are vague and easily missed. Monthly inspections and careful
comparisons are needed. Brood nests are slow to expand, with most in a
single hive body. Mid-day inspections show bees dispersed in the
colony, but this varies. Population growth slows to stops during
growing season when compared to other colonies in the same yard. Honey
stores remain untouched, bees are feeding on nectar recently collected.
These symptoms are difficult to spot due to the careful comparisons
needed.
Three months out:
CCD colonies appear slow to grow and are outpaced by non-CCD colonies
in the apiary. There is a noticeable population decrease going from 3
to 2 boxes, or 2 to 1, and often the bees are on only a few frames in
the bottom box…and they appear restless. Brood is shot gunned because
of dead brood removal, and honey stores begin to diminish if it’s late
in the season, but if early, the honey remains untouched. Routine
maintenance goes undone and no propolis seals are noticeable.
One month out:
Usually 8 frames of bees or fewer remain and they
decline rapidly. Brood is produced, but can’t be supported, queen replacement is often tried and abandoned brood is
common. Stored honey depends on the season…in summer it may all be depleted, in winter untouched.
Finally:
Remaining bees fail to eat supplied food or medications, and it’s
mostly young bees that remain now, as the older bees are gone. Queens
continue to lay excessively, and the colony usually lacks any
aggressiveness at all.
Visual Symptoms of a CCD Colony
Just days before its collapse the colony seemed to be strong and fully functional
Mostly young bees remaining
in the hive
Bees are not aggressive
Queen is present
Eggs are present
Full
frames of brood may be present
Brood may show signs of “shotgun” pattern
Capped honey
and fresh nectar are often present, although not in summer collapses, which are uncommon
Fresh pollen has been
stored in the hive recently, if external resources are available
Supplemental feed (syrup and extender patties)
if supplied, are ignored
No robbing occurs
No secondary pests (small hive beetles, wax moths or ants)
are found
No dead bees are noted around entrance of the hive
Bees do not show any signs of winglessness,
paralysis or other adult bee diseases.
CCD tends to travel like a wave through a bee yard, and combining
affected and unaffected colonies usually gives 2 dead colonies. Adding
a package may help, and may not. There is a time until secondary pests
will move in…using equipment before that time for more bees is risky
and the colony may die again.
The Cause of Colony Collapse Disorder remains unknown, but the diagnosis, and thus the opportunity to administer
remedial treatments is getting better all the time.
For the full article with additional information see
the February issue of Bee Culture on our web site www.BeeCulture.com after Feb 1.
Thanks to Scott, David, Jerry and Randy.
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This message brought to you by Bee Culture, The Magazine Of American Beekeeping
www.BeeCulture.com
We encourage you to distribute this information in your newsletter and to share with beekeepers you know.
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| Bees in a old water can |
| Bees in old tire |
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| Bees in old tire |
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