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Newly published Harvard study on neonics

28K views 100 replies 22 participants last post by  Stromnessbees 
#1 ·
#2 ·
There is a link in the article to the actual study.

A quick first scan.... it looks like they make significant claims about pathogens, yet the only pathogen tests appear to be two mite counts (alcohol washes), and didn't even test the control colony that died for nosema.... which they claim it died from.

You can't really make conclusions about pathogens in general based only on mite counts...especially of a substance that is known to affect the immune system.

Barry, I think it show how neonics can harm bees....it's hard to assume they are harming bees without data on the real world exposure.
 
#6 ·
There is a link in the article to the actual study.

A quick first scan.... it looks like they make significant claims about pathogens, yet the only pathogen tests appear to be two mite counts (alcohol washes).
They do reference an examination of the total RNA pools " In addition, a recent re-analysis of genomic data previously generated from RNA pools of CCD colonies has also excluded the association of pathogen infection and CCD"

If there were particularly high levels of a pathogen, its RNA should show up in tests - provided they are done properly and you know what to look for. They reference the following article, which seems to be ruling out a particular virus of interest:
http://www.plosone.org/article/info:doi/10.1371/journal.pone.0021844
 
#4 ·
My quick first scan is that there is not much to this "study" I concur w/ Dean's statements. They also don't describe what the dead hives looked like except to show a bottom board with a few dead bees. I have lots of those after this winter.

What are "CCD like symptoms." From the description is sounds like the bees dwindled and froze. It does, again, prove that if you feed an insecticide to insects they die. I do not believe the dosage of the neonics are realistic for bees - even around neonic treated crops. The canola experiment in Canada with millions of hives is much more instructive than half a dozen hives fed poison.
 
#7 ·
Its a repeat of Lu's previous study with the addition of clothiadinin.

They fed the bees syrup dosed with neonics, and there was overwinter colony mortality with colonies showing 'CCD like' symptoms.

It offers an explanation for winter losses, IMHO.

"...why do honey bees vanish from neonicotinoid-treated colonies during the winter?"

That is the question.
 
#9 ·
They do reference an examination of the total RNA pools
They didn't test THESE HIVES. That is old data. There is no testing of the dead colonies for nosema, tracheal mites or virus. All those tests are easily performed. I still wait to hear what "resembling CCD" symptoms are. And what are nosema like symptoms. Surely they could find a microscope at Harvard to look at bees from all the dead hives.

And the bees were not dosed with field realistic levels of neonics. Feed them poison and they will die, nothing new about that.
 
#10 ·
It's a delayed response experiment.

Frankly, I would ask, "Why didn't you kill those colonies outright when you fed them neonic laced syrup?"

It's an interesting find, IMHO.

However, as far as experimental design goes, the same issues exist as in the first study.
 
#14 ·
A couple of other thoughts.

1. There looks to be some circular references....for instance, he seems to reference his last paper for a definition of ccd. This leads to a weird circle where the symptoms of pesticide poisoning are defined as ccd in one paper, and the symptoms of pesticide poisoning are diagnosed as ccd in the next...all without looking at a single ccd colony that hasn't been fed neonics in a feeder on purpose...a disease that isn't always associated with neonic exposure and has been a "mystery" since 2007.

2. The text is unclear when it talks about testing the sucrose syrup and hfcs.... the text states that they found "non-detectable residues" of neonics in the plain feed. If this were the case, there would be big problems with the experiment. I'm quite sure he means "no detectable"...I would tend to think of this as a typo/wordo (Lu's English is quite good, but not quite a native speaker), except that implying that neonic residues are in everyone's feed seems to be what he claimed in the last study and part of his thesis that ccd is simply neonic poisoning.
 
#15 ·
This is a small study on one apiary with a low number of hives. That's not evil or anything ... the results are what they are but they're not sufficient to reach any conclusions sufficient to shut down an industry.

What they do justify is application of the approach, with more rigor, multiple study sites, and a lot more colonies, to see if the results hold. On a small scale like this it could also be that the hives with high mortality had something else in common.

I've seen some of Bayer's data. I think they're pretty good at knowing immediate toxicity levels. They may have developed some skill at asking questions they know the answer to and like the answer. They might avoid questions where they don't like the answer. This could turn out to be one of those, but the results must be replicated on a larger scale. We've had a lot of small-scale studies that thought they had found the answer to CCD that wouldn't replicate.

This doesn't change my personal approach to pesticides. Our bees are far away from agricultural fields, and we're glad of it. The only pesticides we use are Bti mosquito dunks in our rain barrels and a touch of foaming insecticide down into carpenter bee holes.
 
#16 ·
What they do justify is application of the approach, with more rigor, multiple study sites, and a lot more colonies, to see if the results hold. On a small scale like this it could also be that the hives with high mortality had something else in common.
I think it's pretty clear that these bees were poisoned. the dosage of Imidacloprid approached the LD50 for those bees. However, it's a poor study for other reasons, like not checking dead bees for other pathogens. They say nosema like symptoms. What are those symptom? Were there other problems. They also didn't treat the hives for mites until most of the winter bees had been raised. Just another terrible study from these guys.
 
#17 ·
>except that implying that neonic residues are in everyone's feed seems to be what he claimed in the last study and part of his thesis that ccd is simply neonic poisoning.

They are using neonics on corn (->corn syrup) and on sugar beets (->beet sugar) but as far as I've heard, not on sugar cane (->cane sugar) and those would be the typical feeds. I'd be curious to see a study just on the neonic content of those three sources of bee feed. After those numbers are established, we could move on to other questions...
 
#18 ·
I fail to see why people are concentrating on the lack of nosema testing for his one dead control hive - who cares? He had one reported fatality in a control hive, it either was nosema or it wasn't, either way it has no bearing on the findings with respect to the neonic. treated hives. This is an (admittedly small) statistical look at hives, with one single factor changed and most others well controlled for - and shows that sub-lethal doses of neonic. laced syrup cause "CCD-like" death of the colonies.
It might be that this acute exposure is greater than most instances of systemic chronic exposure, but that might not be what is causing the collapse - brood wax is a bioaccumulator of insecticides, perhaps the acute exposure pretty much built up brood wax levels to the same levels that chronic exposure of lower doses might achieve over time. More experiments would need to be done to establish or rule out this possibility, but I don't think that the experiment as run was lacking merit.
 
#20 ·
It shows a lack of dotting the i's and crossing the t's. Like not testing all the hives for pathogens. I contend that the results of the Canadian experiment in the canola fields with millions of hives over the last many years and the results from Australia where there is no varroa, but there are neonics, have not demonstrated any detrimental effects to hives. Further, any tests of field relevant doses of neonics have not demonstrated results approaching this paper. Interestingly, one of the authors of the paper lost a large portion of his hives in that winter. He didn't feed them neonics. He admits he does not know what the cause of this large loss was. I had bad winter losses this year. Didn't feed neonics and two yards are not near neonic treated crops. Some years bee losses are worse than others. If my bees had been fed neonic syrup last fall I'm sure all would be dead. They don't call it an insecticide for nothing.
 
#19 ·
I'd be curious to see a study just on the neonic content of those three sources of bee feed. After those numbers are established, we could move on to other questions...
Interestingly the authors of this paper tested HFCS for neonics and could not detect any. Further, HFCS is tested for insecticides by the govt. and it has been undetectable for years.

Not sure about sugar.
 
#22 ·
also Randy olivers comments on bee-l on the new trial.
http://community.lsoft.com/scripts/wa-LSOFTDONATIONS.exe?A2=ind1405&L=BEE-L&F=&S=&P=33421

Hey, I feel that we should commend Dr. Lu and his collaborators for
stepping up their game--this time they at least took the time to monitor
varroa and to treat against nosema.

Still hard to imagine that anyone actually reviewed this paper. For
example, their total description of the alcohol wash was "The Varroa mite
counts were assessed twice using the common alcohol wash method." Only
later do we learn that they washed only 150 bees per sample, with no
explanation of from where the bees were collected in the hive (from a brood
frame?). Nor did they specify the concentration of the syrup solutions.
Such omissions are normally caught by at least one reviewer.

Nonetheless, their results are of interest. As Jim calculated, the dosage
that they use in the fed syrup, 135 ppb (w:v, or slightly less on a w:w
basis), is far above the level that Bayer recently found to cause colony
morbidity (50 ppb, as reported by Bayer's Dr. David Fischer at a recent bee
conference). So as Johnathan points out, the only surprising thing is that
the Lu team did not notice such summer morbidity in their trial.

Of interest were the mite counts in mid August, which were 7-8 per 100
bees, a level at which viruses start to go epidemic. The treatment with
formic dropped the mite counts, which then raises the question as to
whether the apparent adverse effect of the neonics on the colonies was due
to suppression of the bee antiviral mechanisms.

What would have been of interest is if the researchers had measured the
residue levels in the honey of the overwintering colonies. If they had, we
might have learned the mechanism by which summer exposure to high
concentrations of neonicotinoids might affect the spring buildup of
colonies.
 
#23 ·
This is an example of the shabbiest sort of work. These researchers take their theory: neonics cause CCD, and try to make a case by poisoning bee hives. The symptoms they produce are consistent with bee poisoning, but not actual CCD. In the field, CCD appears to be contagious, like a virus.

Meanwhile, researchers in Israel studied actual collapsing colonies in the field and found very high levels of IAPV. This virus was also consistently found in colonies in the USA that collapsed with CCD symptoms.

Dr. Lu et al are trying to make a case by poisoning bees. There are innumerable ways to poison bees, but that does not indicate that these are the causes CCD. The continual reference to CCD simply shows that Dr. Lu is completely out of touch with the real beekeeping world.

This is a significant fact that they fail to note: There have been hardly any verifiable cases of CCD in the past few years, CCD has never been widespread, and the number of bee colonies in the US is actually rising.
 
#24 ·
I'm curious now. In poking around it seems that the "Bulletin of Insectology" may not be as strict in their standards as other scientific journals. However, Harvard is a pretty solid institution.

Isn't there a review process within the institution that one is working for that gives some sort of imprimatur before their staff/faculty/students publish something that's linked with said institution?
 
#25 ·
This is not Harvard, we are talking about.

Harvard School of Public Health (HSPH) began as the Harvard-MIT School of Health Officers, founded in 1913 as the first professional training program of public health in America. The partnership offered courses in preventive medicine at Harvard Medical School, sanitary engineering at Harvard University and allied subjects at MIT. In 1946, no longer affiliated with the medical school, HSPH became an independent, degree-granting body.
http://www.hsph.harvard.edu/history-of-the-school/
 
#27 ·
Since Alex Lu's latest experiments included both imidacloprid and clothiadinin, and colonies fed lethal doses didn't succumb until they were overwintering, the inference is that the 30% overwintering losses here in the U.S. are a result of the use of those pesticides.

No matter the flaws, it's still a significant find.
 
#28 ·
WLC reaching that conclusion is a huge leap.

Anyone of us could repeat this experiment at home using any random poison and get similar results. The bees store the poisoned syrup for later consumption and die once they have consumed enough. To expect any different result would be unrealistic and I think the only way someone could design and run such an experiment and then reach the conclusions he reached is if he has already decided neonicitinoids cause CCD and sets out to try to prove that.
 
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