I finally got my hands on the paper by Axel DeCourtye, etc.
 
My congratulations to anyone who tries to better quantify the effects of  
pesticides.  Back in the 60s and 70s, when the US and European guidelines  
for testing for pesticide regulations were promulgated, the authors were  more 
or less constrained to acute toxicity as one of the few metrics that could  
be done quickly and relatively inexpensively.  Its easy to see and count  
dead bees, plot that against dose and time (how many hours).  Hence, we  have 
LD and LC 50s - what combination of dose and time results in loss of 50% of 
 the bees?
 
Today, technology offers many options.  The question now becomes,  which of 
these provides a real improvement.
 
As many of you know, Steve Buchmann tried bar codes on bees - I've even  
seen Museum displays of his technology, and he got an award for it.   Problem 
was, bees didn't cooperate well at the readers - a bee had to pass  through 
just right in order to reliably read the tag.
 
Radio tags reduce/eliminate the orientation  to the reader  problem.  The 
first transmitter tags were placed on bees by Howard  Kerr at Oak Ridge - but 
the world failed to beat a path to his door.   Then, researchers in the UK 
started 'tracking' bees - but the tags were large,  with a long, trailing 
antennae. 
 
We then got in to this area of research in partnership with the  
developers/scientists who designed the first RFID tags for Walmart, and we had a  bee 
chip - but we abandoned it when we found that it altered bee  flight.  Next, 
I pulled together a workshop  for DARPA, and the MAYO  clinic built what 
was dubbed ' the grain of salt' tag.  At the time, it was  the smallest tag 
available for tracking bees.
 
Again, no one beat a path to the door - and by that time we had abandoned  
RFID chips and moved to using lasers to track bees - we don't have to glue  
on tags, we don't have to handle bees, we don't injure the bees, and there's 
no  interference with flight.  We can see the locations of individual  
bees, and we could use refective tags to ID the individual bees, but we're more  
interested in the overall movements and locations of free-flying bees.  If  
human eye-safety isn't of concern, we can image individual bees a mile  
away.  But, eye-safety is a concern, unless you can keep people far away  (like 
shooting  a gun, you're probably ok if you aren't down range.   So, our 
lasers are set to work at shorter distances, generally about 100 yards,  so we 
can ensure eye-safety.
 
In the meantime, while we were working on lasers (2003-present) there  was 
a push in Europe to provide smaller RFID tags, and recently one of  the US 
military contractors has also produced a  new bee transmitter tag.  
 
Here's the rub - if you want to truly track - monitor the  path of a bee 
using RFIDs, you need a sophisticated antennae,  transmitter, receiver 
combination, and small tag - not cheap.  And  there's still the question of what 
are the effects, if  any, of handling the bee to glue on the tag, and the 
effect of the tag  glued to the bee has on its flight.
 
Or, you can take the DeCourteye group's approach, place readers at the hive 
 and at the feeder.  You can use a smaller tag - less likely to alter 
flight  dynamics, but your 'read range' is small -  a bee has to pass  very close 
to the reader.  You can 'track' the activities of  an individual bee - how 
many flights, when and if she fails to come back to  the hive of bees, how 
long a trip takes, but you can't track her  path.  Back in the 70s, I used to 
use a modification of a method  developed by Norm Gary - glue small metal 
disks on the backs of bees, then  use a magnetic system on the hive and 
feeder - a primitive version of the  DeCourteye method.
 
But, once again, with any tag, you have to handle, glue, etc.   Note, the 
authors refer to a cage of bees used to replace bees that died or  escaped - 
I'd like to see the numbers for these.  Note, I'm not  belittling this work 
- we need innovation.  However, I have been down this  path and I've some 
strong opinions.
 
I have to confess to some real biases, based on many years of  working  
with bees, tags, and tents.
 
1) Any tent affects bee flight - its not uncommon for the reduction of  
solar radiation by the tent material to produce a drop in overall flight from a 
 colony of as much as 50% (based on our work with bee colonies inside and  
outside of tents, fitted with bi-directional counters that monitor the 
number of  flights per colony per day (number of bees exiting, number of bees  
returning)).  And bee colonies generally dwindle inside cages, cease brood  
rearing after a few weeks, etc.  So - whether you call these 'semi-field'  
trials, or my preference 'tent trials' - there is usually a big tent effect on  
bee activity and bee colony dynamics.  That said, admittedly, there are  
times when tent trials make sense, and newer materials seem to have reduced 
bees  wastage (trapping in the corners).
 
2) Handling bees and gluing tags on them has an inherent risk of injury,  
and the tag is likely to alter flight dynamics.  This also presents a  
difficult question - one can monitor the activities of control bees (bees with  
tags but no exposure to pesticides), and dosed bees (bees with tags at varying 
 treatment levels), but how do you compare the control (bees with tags) 
against  bees without tags?  You can't use a reader to document the activities 
of  bees without tags.  Then, take this to the next step - how do the bees 
with  tags in a tent compare to free flying bees (with  and without tags) 
outside  the tent?  That test needs to be performed in order to  fully evaluate 
the usefulness of the RFID method.
 
3) Tracking - the use of this term in the title of the  DeCourtye paper may 
be misleading - or maybe its just that my  definition is different.  I was 
excited to see how they tracked bees.
 
I  just want to be sure everyone on Bee-L understands how  the term was 
used in this case.
 
I reserve the word tracking to 'following  a route'.   In  the case of the 
DeCourteye article, their 'tracking' was an inventory of when a  bees passed 
by the readers at the entrance of the hive containing the  bees and at the 
feeder.  This is a form of tracking - similar  to  when Fed Express date 
stamps the location of a package, but  I think  there may be a better, more 
descriptive term for what was done in the RFID tent  trial.
 
I applaud the efforts of this team to provide better quantification.   I'd 
really like to see the tent/open flight comparisons, as well as the  
tagged/untagged bee comparisons - although how to do the latter is  problemmatic.
 
Jerry
 
 
 
 
 

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