31 August 2012
This semester’s good news
Yeah, all I got is a meme. Sad. Hoping this fatigue will be gone and blogging will be back in force next week.
28 August 2012
Tuesday Crustie: Red trim
This looks like something in the Australian genus Euastacus, but I don’t recognize the species. Maybe E. suttoni?
Photo by sri_the_quack on Flickr; used under a Creative Commons license.
27 August 2012
Insecure enough to lie, but too secure to fire?
A common claim by science deniers is that scientists lie to keep their jobs. There’s a premise in that claim: that scientists are working in conditions where they can be easily dismissed. But a lot of scientists are tenured academics, which is supposed to remove the fear of arbitrary dismissals.
I wonder what the overlap is with people who would claim that the tenure system makes it far too hard for a scientist to get fired. I bet the overlap is large, and that they don’t see any contradiction between holding those two positions simultaneously.
I wonder what the overlap is with people who would claim that the tenure system makes it far too hard for a scientist to get fired. I bet the overlap is large, and that they don’t see any contradiction between holding those two positions simultaneously.
25 August 2012
Famous for space, but down to earth
The news just broke that Neil Armstrong has died.
Earlier this year, a series of interviews with Armstrong appeared here, which I watched with great interest. I was alive when we walked on the moon, but I was too young to remember it. But I was fascinated by space travel as a kid. And after the moon walk, Armstrong had been famous for not being famous: he stayed out of the public eye when everyone knew his name.
The interviews made today’s new more of a shock. He looked so healthy in the interview. At one point in Part 3, the reviewer jokes, “There must be something in lunar travel that’s good for longevity.” Armstrong laughs and says, “I hope that’s true.”
I am so glad he did those interviews. For someone who was famous for being the first person to step on the moon, he came across in those interviews as being completely down to earth.
We probably could not have hoped for a better representative of humanity to make our first step on another celestial body.
Earlier this year, a series of interviews with Armstrong appeared here, which I watched with great interest. I was alive when we walked on the moon, but I was too young to remember it. But I was fascinated by space travel as a kid. And after the moon walk, Armstrong had been famous for not being famous: he stayed out of the public eye when everyone knew his name.
The interviews made today’s new more of a shock. He looked so healthy in the interview. At one point in Part 3, the reviewer jokes, “There must be something in lunar travel that’s good for longevity.” Armstrong laughs and says, “I hope that’s true.”
I am so glad he did those interviews. For someone who was famous for being the first person to step on the moon, he came across in those interviews as being completely down to earth.
We probably could not have hoped for a better representative of humanity to make our first step on another celestial body.
24 August 2012
Putting classes in drydock
Occasionally, ships are put into drydock. There are certain repairs and upgrades you just can’t do when the ship is in continuous operation. One of the biggest taks is just scraping accumulated crud off the hull. All the barnacles, tunicates, and other encrusting and enfouling critters.
My classes start Monday, and I’m way behind in preparing for them. One of the reasons is that we’re switching over to a new version of our online course management system (moving from Blackboard Vista to Blackboard Learn). There isn’t an easy way to import material from the old Blackboard into the new Blackboard, so I am going to have to do a lot of work re-entering the online component of the class again.
Sigh.
I’ve taught most of my classes several times now. While I try to change them and improve them every year (“constant improvement in the samurai way”), these tend to be little, incremental changes. I have rarely made deeper, structural changes and substantially revamped a class. I haven’t done things like remake the slides from scratch, or rethink the assignments I was asking them to do, and maybe chuck some out.
I can see where the stereotype of the professor getting up and pulling out the yellowing, aging lecture notes from twenty years ago comes from. The temptation to keep recycling a class and reusing material and giving the same assignments is strong. And I don’t want to be that guy.
While I was annoyed about the switch in course management systems at first, I realized that maybe this was an opportunity to refurbish the course. Put the class in drydock and scrape off all the accumulated crud, and start over.
How often do you put you class in drydock?
Photo by formatted_dad on Flickr; used under a Creative Commons license.
My classes start Monday, and I’m way behind in preparing for them. One of the reasons is that we’re switching over to a new version of our online course management system (moving from Blackboard Vista to Blackboard Learn). There isn’t an easy way to import material from the old Blackboard into the new Blackboard, so I am going to have to do a lot of work re-entering the online component of the class again.
Sigh.
I’ve taught most of my classes several times now. While I try to change them and improve them every year (“constant improvement in the samurai way”), these tend to be little, incremental changes. I have rarely made deeper, structural changes and substantially revamped a class. I haven’t done things like remake the slides from scratch, or rethink the assignments I was asking them to do, and maybe chuck some out.
I can see where the stereotype of the professor getting up and pulling out the yellowing, aging lecture notes from twenty years ago comes from. The temptation to keep recycling a class and reusing material and giving the same assignments is strong. And I don’t want to be that guy.
While I was annoyed about the switch in course management systems at first, I realized that maybe this was an opportunity to refurbish the course. Put the class in drydock and scrape off all the accumulated crud, and start over.
How often do you put you class in drydock?
Photo by formatted_dad on Flickr; used under a Creative Commons license.
23 August 2012
Let’s stop enabling bad speakers
Matthew Francis saw a bad scientific talk.
Matthew only refers to this individual as “the speaker.” Matthew says he doesn’t want to name this individual, because he is writing about the general issue, and not the specific talk. Fair enough. But we should start creating more of an expectation that scientific talks will be reviewed and critiqued. And names will be named.
If someone wrote a scientific paper that was as bad as this talk apparently was, nobody would have a second thought about writing a response to it, laying out the problems, and naming the authors. Yet it seems to be considered rude to criticize people by name when someone gives an incomprehensible presentation.
When was the last time you went to a speaker after their talk and said, “I don’t think your presentation was very effective”? Have you ever had anyone (besides a supervisor or lab members) give you critical feedback on how to improve your presentation?
The only example I can think of offhand was the National Academy of Science Sackler science symposium on science communication earlier this year. Because it was streamed live online, people on Twitter were able to comment about the deficiencies of some of the talks. And one person was able to get up and convey that frustration to the speakers.
I’m not saying, “Let’s have trial by backchannel for presentations.” This does not need to be immediate and destructive, but could be done with reflection and in a constructive tone. This is what good peer reviewer do for papers.
For that matter, we should be taking more steps to ensure that it never gets that bad in the first place. We have peer review before a paper is published. Maybe we should start having some sort of peer review before presentations, to make sure that slides are at least going to be legible. While this would not be possible for every talk at a conference, it might be possible for at least featured keynote talks to get a once over before the day they’re given.
I recently co-organized a symposium, and I was thinking about emailing my speakers and asking them to email me their PowerPoint deck so I could review it. I didn’t, not because I was scared, but just because I ran out of time. I’m kicking myself now, because I think I missed an opportunity.
We need to be more forthcoming with our colleagues when their presentation isn’t up to snuff.
Related posts
Science communicators need to lead by example
External links
#186) Science Talks: Wanna make ‘em better? Start having critics write REVIEWS (like the theater). I dare ya.
Photo by alicetiara on Flickr; used under a Creative Commons license.
Nearly every sentence was unintelligible. ... (T)he speaker compounded the problems listed above by mumbling everything, and not speaking into the microphone so what was mumbled often didn’t even come through the public address system. Since the person’s slides were badly designed (thin gray lines on the plots, tiny fonts), the audience couldn’t get the information from either the audio or the visual. In fact, the crowd of physicists, specialists in the speaker’s own field, were not paying attention to the talk.
Matthew only refers to this individual as “the speaker.” Matthew says he doesn’t want to name this individual, because he is writing about the general issue, and not the specific talk. Fair enough. But we should start creating more of an expectation that scientific talks will be reviewed and critiqued. And names will be named.
If someone wrote a scientific paper that was as bad as this talk apparently was, nobody would have a second thought about writing a response to it, laying out the problems, and naming the authors. Yet it seems to be considered rude to criticize people by name when someone gives an incomprehensible presentation.
When was the last time you went to a speaker after their talk and said, “I don’t think your presentation was very effective”? Have you ever had anyone (besides a supervisor or lab members) give you critical feedback on how to improve your presentation?
The only example I can think of offhand was the National Academy of Science Sackler science symposium on science communication earlier this year. Because it was streamed live online, people on Twitter were able to comment about the deficiencies of some of the talks. And one person was able to get up and convey that frustration to the speakers.
I’m not saying, “Let’s have trial by backchannel for presentations.” This does not need to be immediate and destructive, but could be done with reflection and in a constructive tone. This is what good peer reviewer do for papers.
For that matter, we should be taking more steps to ensure that it never gets that bad in the first place. We have peer review before a paper is published. Maybe we should start having some sort of peer review before presentations, to make sure that slides are at least going to be legible. While this would not be possible for every talk at a conference, it might be possible for at least featured keynote talks to get a once over before the day they’re given.
I recently co-organized a symposium, and I was thinking about emailing my speakers and asking them to email me their PowerPoint deck so I could review it. I didn’t, not because I was scared, but just because I ran out of time. I’m kicking myself now, because I think I missed an opportunity.
We need to be more forthcoming with our colleagues when their presentation isn’t up to snuff.
Related posts
Science communicators need to lead by example
External links
#186) Science Talks: Wanna make ‘em better? Start having critics write REVIEWS (like the theater). I dare ya.
Photo by alicetiara on Flickr; used under a Creative Commons license.
22 August 2012
Good thing I’m not in a hurry
I submitted a manuscript yesterday, which made me happy. But as I was updating my CV, I looked at my other manuscripts in review, and my happiness was slightly undone.
I have one manuscript that I submitted almost exactly one year ago. I have had an initial positive review, but and still awaiting final acceptance.
I have one manuscript that is is two months in with not initial decision. Not too nervous yet (summer holidays can mean a slowdown in review time). But I’d be happy to read the first reviews any time now... any time at all. Any second. Now.
Then there is my most recent paper, which has been out almost two months. But it’s still up as a provisional PDF and not the final typeset version. I was wondering when I might see the final version, and was disappointed to read this analysis that found only 20% of papers or less were typeset in three months after their initial availability as an online pre-print.
I am not in a field that typically needs to move very fast, but there is room for improvement here.
I have one manuscript that I submitted almost exactly one year ago. I have had an initial positive review, but and still awaiting final acceptance.
I have one manuscript that is is two months in with not initial decision. Not too nervous yet (summer holidays can mean a slowdown in review time). But I’d be happy to read the first reviews any time now... any time at all. Any second. Now.
Then there is my most recent paper, which has been out almost two months. But it’s still up as a provisional PDF and not the final typeset version. I was wondering when I might see the final version, and was disappointed to read this analysis that found only 20% of papers or less were typeset in three months after their initial availability as an online pre-print.
I am not in a field that typically needs to move very fast, but there is room for improvement here.
21 August 2012
20 August 2012
The responsibilities of an academic are teaching, research and service fundraising
Two anecdotes.
First, last Friday, I was at a meeting of coordinators for our university’s graduate programs. Our vice-president for academic affairs was talking about the university’s plans to expand their graduate offerings. Why do we want more graduate programs, particularly doctoral programs?
He said, roughly, “We’ve managed to get some funding from agencies like NIH and the NSF. But there’s a lot of programs that we don’t qualify for because we don’t have doctoral programs.” (That’s not a direct quote, but I remember him specifically mentioning those two agencies.)
Second, a few weeks ago, I was in discussion with someone who was in charge of a a fairly new Ph.D. program in biology (not medical biology). He said that they were going to conduct searches for four new faculty members... whose main responsibility would be to write successful grant proposals to support their doctoral students.
It’s been rare to see such naked admissions that institutions see graduate students and faculty as cash cows.
At the program level, this could well be one reason why we have an over-supply of Ph.D.s in the job market now.
The latter might bother me even more. To hear that indicates to me that those poor souls are going to be evaluated for tenure just on whether they can raise money. That is not supposed to be what academia is about. Students, if you wonder why your professor is an incoherent teacher... this may be why. In a situation like that, why would you invest any time more than the bare minimum needed?
If you’re an advanced graduate student or post-doc, you might not want to fret about landing that glamour mag publication as much as you should be writing grant proposals at every opportunity. Federal agencies, state agencies, scientific societies.
Additional: I like this translation of academic speak by Dr. 24 Hours:
Related posts
The root of problems: How external funding distorts institution’s priorities
First, last Friday, I was at a meeting of coordinators for our university’s graduate programs. Our vice-president for academic affairs was talking about the university’s plans to expand their graduate offerings. Why do we want more graduate programs, particularly doctoral programs?
He said, roughly, “We’ve managed to get some funding from agencies like NIH and the NSF. But there’s a lot of programs that we don’t qualify for because we don’t have doctoral programs.” (That’s not a direct quote, but I remember him specifically mentioning those two agencies.)
Second, a few weeks ago, I was in discussion with someone who was in charge of a a fairly new Ph.D. program in biology (not medical biology). He said that they were going to conduct searches for four new faculty members... whose main responsibility would be to write successful grant proposals to support their doctoral students.
It’s been rare to see such naked admissions that institutions see graduate students and faculty as cash cows.
At the program level, this could well be one reason why we have an over-supply of Ph.D.s in the job market now.
The latter might bother me even more. To hear that indicates to me that those poor souls are going to be evaluated for tenure just on whether they can raise money. That is not supposed to be what academia is about. Students, if you wonder why your professor is an incoherent teacher... this may be why. In a situation like that, why would you invest any time more than the bare minimum needed?
If you’re an advanced graduate student or post-doc, you might not want to fret about landing that glamour mag publication as much as you should be writing grant proposals at every opportunity. Federal agencies, state agencies, scientific societies.
Additional: I like this translation of academic speak by Dr. 24 Hours:
“Establish an Independant Research Program” = Get Grant Money or You're Fired.
Related posts
The root of problems: How external funding distorts institution’s priorities
19 August 2012
Unsolved mysteries
I have a guest post over the blog for Things We Don’t Know. The post is about what this...
...tells us about one of the biggest questions in biology: how many species are there?
Read the guest post here.
...tells us about one of the biggest questions in biology: how many species are there?
Read the guest post here.
17 August 2012
Does a Ph.D. train you to head a lab?
I was stopped by this quote in Soapbox Science:
I am not sure how well Ph.D. programs train people to be head scientists running labs.
I felt a doctorate trained me well to be a post-doc. But when I started my current gig, I had a lot of moments where I fell I hadn’t been warned what I was in for.
The first thing that happened was I botched my negotiation. Being god’s fool, I somehow managed to avoid disaster, but I could have been very badly burned if there hadn’t been some honourable people around.
I’d been a teaching assistant as a graduate student, so I wasn’t completely lost there. But there is a big difference between being a teaching assistant and running your own class from stem to stern.
But running my own lab has been... a mixed bag. It took longer for me to get my footing than I expected, and to have projects in the wings ready for students to pick them up. Judging by my success rate, I still have a lot to learn about “grantsmanship.” And I still don’t feel my management / supervisory style is all that it could be.
The big one, though, is bookkeeping and budgeting. I didn’t have to worry about tracking money in any significant way as a grad student or post-doc. Spending money at an institution is not like spending your own money. You have layers of people and paperwork that stand between you and purchases. You have obscure “enterprise finance” systems that seem designed to drive a person to substance abuse. I’ve learned that I despise trying to keep track of grant money.
I’m lucky, because of the kind of institution I’m in and the kind of lab I run, that I don’t do as much of this as if I was at a big research institution. To listen to people in those situations, grant writing and grant management is all they do. If I had landed that kind of job, I would have been woefully unprepared.
Additional, 21 August 2011: This article in Science Careers about early career NIH awards echoes the sentiments above:
I feel people should be aware that, while a PhD program almost perfectly serves the purpose of training you to become a primary investigator, not everybody will be able to become one in the current job market (pretty obvious, right!).
I am not sure how well Ph.D. programs train people to be head scientists running labs.
I felt a doctorate trained me well to be a post-doc. But when I started my current gig, I had a lot of moments where I fell I hadn’t been warned what I was in for.
The first thing that happened was I botched my negotiation. Being god’s fool, I somehow managed to avoid disaster, but I could have been very badly burned if there hadn’t been some honourable people around.
I’d been a teaching assistant as a graduate student, so I wasn’t completely lost there. But there is a big difference between being a teaching assistant and running your own class from stem to stern.
But running my own lab has been... a mixed bag. It took longer for me to get my footing than I expected, and to have projects in the wings ready for students to pick them up. Judging by my success rate, I still have a lot to learn about “grantsmanship.” And I still don’t feel my management / supervisory style is all that it could be.
The big one, though, is bookkeeping and budgeting. I didn’t have to worry about tracking money in any significant way as a grad student or post-doc. Spending money at an institution is not like spending your own money. You have layers of people and paperwork that stand between you and purchases. You have obscure “enterprise finance” systems that seem designed to drive a person to substance abuse. I’ve learned that I despise trying to keep track of grant money.
I’m lucky, because of the kind of institution I’m in and the kind of lab I run, that I don’t do as much of this as if I was at a big research institution. To listen to people in those situations, grant writing and grant management is all they do. If I had landed that kind of job, I would have been woefully unprepared.
Additional, 21 August 2011: This article in Science Careers about early career NIH awards echoes the sentiments above:
But she doesn’t usually need advice for the science aspects, Olsen says; it’s laboratory management and interpersonal relationships. “I definitely feel overwhelmed at some junctures, trying to figure out the bureaucracy and managing other people in the lab, that kind of thing.”
16 August 2012
In praise of Viking
1976.
I didn’t even have to look that up.
That was the year that the first machine made by human beings landed on the surface of Mars. Its name was Viking.
And it sent back colour photos.
I bring this up because with all the hoopla about the successful landing of Curiosity, people seem to have forgotten about the Viking missions. People have mentioned Spirit and Opportunity and talked about them as though they were the first things on Mars, rather than science being done on the Martian surface for over 35 years.
I’ve heard people say Curiosity is the first time we’ve had colour pictures from Mars, which boggles me, because I remember those images from Viking making the news when they were released. There were big gatefold pictures in National Geographic. (Pace was slower then; the pictures were in the January 1977 issue, about six months after the landing.)
Viking may not have had the dramatic landing of Curiosity. We couldn’t follow the news as closely as we can today. But it was Viking that blazed the trail. Let’s give it it due.
Photo from here.
I didn’t even have to look that up.
That was the year that the first machine made by human beings landed on the surface of Mars. Its name was Viking.
And it sent back colour photos.
I bring this up because with all the hoopla about the successful landing of Curiosity, people seem to have forgotten about the Viking missions. People have mentioned Spirit and Opportunity and talked about them as though they were the first things on Mars, rather than science being done on the Martian surface for over 35 years.
I’ve heard people say Curiosity is the first time we’ve had colour pictures from Mars, which boggles me, because I remember those images from Viking making the news when they were released. There were big gatefold pictures in National Geographic. (Pace was slower then; the pictures were in the January 1977 issue, about six months after the landing.)
Viking may not have had the dramatic landing of Curiosity. We couldn’t follow the news as closely as we can today. But it was Viking that blazed the trail. Let’s give it it due.
Photo from here.
Self archiving science is not the solution
I can’t watch “The Power of the Daleks.”
The British Broadcasting Corporation (BBC), feeling that television was a disposable, ephemeral medium, junked many tapes of television series like Doctor Who. They even junked notable ones like the first episode of Patrick Troughton’s second Doctor facing the best known and most popular villains of the entire series.
Archiving is a tricky thing.
The card game Legend of the Five Rings is about 15 years old. But it’s almost impossible to find material about the game’s influential first couple of years. A lot of key discussion happened on a company email listerv. The one copy someone from the company was keeping was lost when a hard drive crashed.
I went looking for a podcast of a story I’d heard on Quirks and Quarks about singing mice. I wanted to listen to the audio again. But their online archive goes back to 2006, and the story I remembered was from November 2005.
You might think. “Well, that’s just pop culture,” but the same issue plague science. Physicist Slava Turyshev, who is working on the Pioneer spacecraft, noted:
Today, some experiments generate so much data that chucking the data away is a necessary part of the process because we just can’t keep it all. This happens at the Large Hadron Collider, for instance.
Just as I posted this, I learned a personal subscription to Nature only gets you papers back to 1997.
I mention these because one of the ideas to reform the scientific publishing enterprise is one where journals are removed from the picture entirely. Scientific communication should be replaced by blogs and self archiving, according to some. This is not a vision I can get behind, because I’ve hung around with taxonomists.
Taxonomists are often accused of being too conservative and hidebound in publishing. The botantists required species descriptions paper and Latin species descriptions until very recently. But I have to say, as a group, they made me more aware of the importance of archiving than any other. Taxonomists are often routinely revisiting literature that is centuries old. How am I going to make sure someone can read my papers in the twenty-fifth century?
Björn Brembs argues that libraries can effectively take the place of journals. That is certainly an improvement over self-archiving, though I think we have a long way to go on that front. At our institution, one enterprising librarian started an institutional repository for faculty, where we could deposit not only our reprints, but more ephemeral work like conference posters.
But she quit. And since then, I’m not even sure who, if anyone, is in charge of the repository. It’s been a while since I deposited anything there.
While I personally plan to live forever, in the remote chance that some accident occurs where I don’t, how can I make sure my scientific contributions are available to researchers one hundred years from now? Two hundred? Three? Sticking my own PDFs on my own university server is not going to cut it. I can’t control what happens to my papers after my death. Maintaining the scientific record needs to be done by communities and institutions, not individuals.
Hat tip: This grew in part out of a conversation that bubbled up over at Living in an Ivory Basement.
The British Broadcasting Corporation (BBC), feeling that television was a disposable, ephemeral medium, junked many tapes of television series like Doctor Who. They even junked notable ones like the first episode of Patrick Troughton’s second Doctor facing the best known and most popular villains of the entire series.
Archiving is a tricky thing.
The card game Legend of the Five Rings is about 15 years old. But it’s almost impossible to find material about the game’s influential first couple of years. A lot of key discussion happened on a company email listerv. The one copy someone from the company was keeping was lost when a hard drive crashed.
I went looking for a podcast of a story I’d heard on Quirks and Quarks about singing mice. I wanted to listen to the audio again. But their online archive goes back to 2006, and the story I remembered was from November 2005.
You might think. “Well, that’s just pop culture,” but the same issue plague science. Physicist Slava Turyshev, who is working on the Pioneer spacecraft, noted:
To study the Pioneer anomaly we needed the probe’s navigational data. But mission tapes were normally saved for only a few months and then thrown away, so you’re lucky if you can find what you need.
Today, some experiments generate so much data that chucking the data away is a necessary part of the process because we just can’t keep it all. This happens at the Large Hadron Collider, for instance.
Just as I posted this, I learned a personal subscription to Nature only gets you papers back to 1997.
I mention these because one of the ideas to reform the scientific publishing enterprise is one where journals are removed from the picture entirely. Scientific communication should be replaced by blogs and self archiving, according to some. This is not a vision I can get behind, because I’ve hung around with taxonomists.
Taxonomists are often accused of being too conservative and hidebound in publishing. The botantists required species descriptions paper and Latin species descriptions until very recently. But I have to say, as a group, they made me more aware of the importance of archiving than any other. Taxonomists are often routinely revisiting literature that is centuries old. How am I going to make sure someone can read my papers in the twenty-fifth century?
Björn Brembs argues that libraries can effectively take the place of journals. That is certainly an improvement over self-archiving, though I think we have a long way to go on that front. At our institution, one enterprising librarian started an institutional repository for faculty, where we could deposit not only our reprints, but more ephemeral work like conference posters.
But she quit. And since then, I’m not even sure who, if anyone, is in charge of the repository. It’s been a while since I deposited anything there.
While I personally plan to live forever, in the remote chance that some accident occurs where I don’t, how can I make sure my scientific contributions are available to researchers one hundred years from now? Two hundred? Three? Sticking my own PDFs on my own university server is not going to cut it. I can’t control what happens to my papers after my death. Maintaining the scientific record needs to be done by communities and institutions, not individuals.
Hat tip: This grew in part out of a conversation that bubbled up over at Living in an Ivory Basement.
Comments for first half of August 2012
Living in an Ivory Basement (my favourite blog title a long time) talks about publishing in PLOS One.
Is there wiring in the brain?
Is there wiring in the brain?
15 August 2012
Chess ratings and Impact Factor
The use and misuse of journal Impact Factors continues to attract attention. I think Impact Factor has some usefulness in showing a journal is a bona fide scientific enterprise.
In my non-scientist life, though, I’ve seen other situations where people are aggressively pursuing some stat or another to prove their worth. When I was involved in the card game Legend of the Five Rings, there was a point where people were repeatedly calling for the game to use the Elo system to determine who were the best players.
Elo is not an acronym, but refers to Arpad Elo, who devised a system for ranking chess players. Like Impact Factor, it has sway. Players take Elo rankings pretty seriously for games where it is used. Many card gamers knew it from Magic: the Gathering.
I like this quote from Arpad Elo (written as part of a Chess Life article in 1962), because it showed Elo understood the problems of uncertainty well.
Often people who are not familiar with the nature and limitations of statistical methods tend to expect too much of the rating system. Ratings provide merely a comparison of performances, no more and no less. The measurement of the performance of an individual is always made relative to the performance of his competitors and both the performance of the player and of his opponents are subject to much the same random fluctuations. The measurement of the rating of an individual might well be compared with the measurement of the position of a cork bobbing up and down on the surface of agitated water with a yard stick tied to a rope and which is swaying in the wind.
Emphasis in the original.
Interestingly, after Legend of the Five Rings did adopt the Elo rating system, it did not prove to be “the answer” that some players thought it would be.
Picture of Elo from here.
14 August 2012
Tuesday Crustie: Shake a claw
The Neuroethology congress was held last week. The congress had a banquet on on a ship on Thursday night, and this statue was outside the dock:
The statue could signify one of the lessons of neuroethology: listen to what your animals have to say.
Photo by past president of Neuroethology, Paul Katz. Thanks Paul!
The statue could signify one of the lessons of neuroethology: listen to what your animals have to say.
Photo by past president of Neuroethology, Paul Katz. Thanks Paul!
13 August 2012
Food and trust of science
Back in grad school, we had a speaker who was given a general public lecture. He was talking about the prospects for personalized medicine. The idea is attractive. Not all medicines work on all people. Sequence a patient’s DNA, and you can find out what medicines are likely to be ineffective.
This is not a post about personalized medicine, though. It’s a post about a question that got asked at this public lecture.
He basically asked, “Scientists used to say that butter was bad for us, and we should eat margarine. Not they’re saying that margarine is bad and we should east butter.” (I do remember that there had been a story about health risks associated with margarine in the news around that time.)
“Why should we trust any of you?”
My recollection of the answer isn’t as clear as the question. But I seem to recall that that question was brushed off lightly, with a sort of “There’s nothing to worry about.”
I sympathized with that man in the audience, and have gained ever more sympathy as time has gone on. I was reminded of it by a couple of things this weekend reminded me of this man’s question. On Ockham’s Razor, this speaker claims research does not show that cholesterol causes heart disease:
Now, the scientifically minded may say, “That’s just anecdote,” but the point is that you have people making these sorts of claims all the time.
The second was a post from Biochem Belle on popcorn flavouring and Alzheimer’s disease, which has apparently been in the news of late.
Oooh, and on his 1 August podcast from his weekly call-in show on Triple J, Doctor Karl said 32,000 cases of lung cancer are tied to sitting down, 12,000 cases of endometrial cancer, 1,800 of ovarian cancer, and 49,000 each of breast cancer and colon cancer are caused by sitting. That’s a lot of cancer.
While Dr. Karl did explains some of the logic of how sitting could be related to health, those numbers sound incredibly definite. And Karl said sitting “caused” the cancer, not “increased the risk.” For more on how people might get those numbers, try Ed Yong’s article, “What does it mean to say that something causes 16% of cancers?”.
And then watch for research appearing slightly before Valentine’s Day about chocolate. There will be some. And it will probably say there are some mild health benefits if it is eaten in moderation.
As a professional scientist, I have an insider’s view on many scientific stories. It’s hard for me to pull out and try to imagine how a lot of stories sound to someone who is barely aware of science.
Another example of this: One of my students yesterday was talking about how she was talking to someone who thought fruit fly research was obscure, and her reaction was, “Um. No. Drosophila is not obscure. It is studied intensively by thousands of people around the world.”
When I listen to the reporting about research on food, I am back to square one. I never know what to make of it. Research on food and health seems to be never ending, often contradictory, and difficult to interpret.
I get the same vibe whenever I try to read about the use of nuclear energy. I am just lost.
David Dobbs recently wrote that science writers need to do a better job of portraying uncertainty in science, and not promote those with pat answers.
But when I look at how research about food is presented, I can see why people are impatient and distrustful. I can totally understand why people gravitate to those apparent pat answers when faced with what seems to be a never ending march of contradictory information.
This is not a post about personalized medicine, though. It’s a post about a question that got asked at this public lecture.
He basically asked, “Scientists used to say that butter was bad for us, and we should eat margarine. Not they’re saying that margarine is bad and we should east butter.” (I do remember that there had been a story about health risks associated with margarine in the news around that time.)
“Why should we trust any of you?”
My recollection of the answer isn’t as clear as the question. But I seem to recall that that question was brushed off lightly, with a sort of “There’s nothing to worry about.”
I sympathized with that man in the audience, and have gained ever more sympathy as time has gone on. I was reminded of it by a couple of things this weekend reminded me of this man’s question. On Ockham’s Razor, this speaker claims research does not show that cholesterol causes heart disease:
I stopped cutting all the fat off my grass-fed steaks, started frying my eggs deep in butter and began to avoid any product with the word ‘lite’ on it. I’m not on a diet but I’m about 3 kgs lighter and last time I had my cholesterol checked it was 12% lower.
Now, the scientifically minded may say, “That’s just anecdote,” but the point is that you have people making these sorts of claims all the time.
The second was a post from Biochem Belle on popcorn flavouring and Alzheimer’s disease, which has apparently been in the news of late.
Oooh, and on his 1 August podcast from his weekly call-in show on Triple J, Doctor Karl said 32,000 cases of lung cancer are tied to sitting down, 12,000 cases of endometrial cancer, 1,800 of ovarian cancer, and 49,000 each of breast cancer and colon cancer are caused by sitting. That’s a lot of cancer.
While Dr. Karl did explains some of the logic of how sitting could be related to health, those numbers sound incredibly definite. And Karl said sitting “caused” the cancer, not “increased the risk.” For more on how people might get those numbers, try Ed Yong’s article, “What does it mean to say that something causes 16% of cancers?”.
And then watch for research appearing slightly before Valentine’s Day about chocolate. There will be some. And it will probably say there are some mild health benefits if it is eaten in moderation.
As a professional scientist, I have an insider’s view on many scientific stories. It’s hard for me to pull out and try to imagine how a lot of stories sound to someone who is barely aware of science.
Another example of this: One of my students yesterday was talking about how she was talking to someone who thought fruit fly research was obscure, and her reaction was, “Um. No. Drosophila is not obscure. It is studied intensively by thousands of people around the world.”
When I listen to the reporting about research on food, I am back to square one. I never know what to make of it. Research on food and health seems to be never ending, often contradictory, and difficult to interpret.
I get the same vibe whenever I try to read about the use of nuclear energy. I am just lost.
David Dobbs recently wrote that science writers need to do a better job of portraying uncertainty in science, and not promote those with pat answers.
But when I look at how research about food is presented, I can see why people are impatient and distrustful. I can totally understand why people gravitate to those apparent pat answers when faced with what seems to be a never ending march of contradictory information.
11 August 2012
Tenth International Congress for Neuroethology, Day 5
After a fairly late night on the cruise, plus the usual last day attrition, made for a slightly subdued day for many attendees. But not for me.
The last plenary talk of the conference was Toshiya Matsushima, who was discussing decision making in chicks. He was one of those speakers who is very quiet, almost soft-spoken, but who has a way of pulling you into his world. And he still threw in the occasional joke, with a low-key, but still funny, delivery.
He briefly mentioned how grateful he was for the support of the Society following the tsunami and subsequent Fukishima disaster. Then, he described a series of experiments looking at how chicks decide how to feed. They can train chicks to peck for food, and do various manipulations where they reward less food immediately, or more food after a brief delay. He again invoked the Heiligenberg rule (“Use the champion animal”) to say that chicks were champion feeders. There is high mortality among chicks, and they have to put on weight very quickly in the first few days after hatching.
He also recorded from the chicks’ nucleus accumbens, and found that there were some neurons that responded to the amount of food that was expected (the learned response), the expected delay, and the actual reward. He compared these to three judges who had to decide on a single sentence (the behaviour).
Then, he described what happens when you do surgery on this region of the brain. There are a couple of different effects. For one, the chicks become impulsive. The chicks also become more persistent, and will continue pecking even when they get no reward for much longer than normal chicks.
He ended his talk comparing scientific research to, of all things, bonsai trees. But it was a lovely metaphor. A bonsai is not a forest, but a single miniature tree. You cannot create a bonsai quickly; it takes decades. it may even be passed from generation to generation. But through this human art, you catch a glimpse of nature.
I did not get a relaxing coffee break, as I was working to make sure the speakers for the nociception symposium were all good to go. (Neuroethologists use video than most, and video is still exceptionally picky in presentation software.) Such is the life of a symposium co-organizer.
Dan Tracey was, um, our representative for the “evil four.” He's been working on nociception in Drosophila for about ten years. Although the title of the symposium was “Nociceptors in the real world,” Tracey said he was really talking about pain. He noted that people can study responses to light in both humans and flies, and both get to call it vision. It’s not that only the human researchers get to study “vision”; the fly researchers do not have to say they study “photoreception.”
With the genetic tools at his disposal, he and his lab has been making excellent progress on what genes and neurons are responsible for nociception in flies. For instance, he has been able to put channel rhodopsin in flies, and cause the maggots to do their characteristic thrashing behaviour of nociception by shining light on them. “This was the coolest day ever, because it worked.”
But he never loses sight of the behaviour. There are a lot of great ecological research questions about the relation of the maggot’s nociceptors with parasitoid flies that attack them. Tracey showed the maggots can actually shake off the parasitoid attackers, prompting him to say, “When you see a fruit fly, I want you to think of Sigourney Weaver,” in reference to her famous Aliens roles.
Robyn Crook is workings with a favourite of this blog, cephalopods. She was able to record neurons that act very much like nociceptors, which nobody had ever done in cephs before (as discussed here a couple of years ago).
Her take on nociception was to relate it not to short term stimuli, but in the context of long term injuries. Squid, which she works with, are often found in the wild missing the tips of their tentacles, for instance. She was able to show that the squid do change their defensive behaviours when given these mild injuries. They tested these with sticks with hairs on the end. “Behaviour has complex equipment. Duct tape is very important,” she deadpanned.
Co-organizer Ewan St. John Smith talked about his work on naked mole rats, a good chunk of which was published in Nature last year. Naked mole rats have a small number of common mammalian sensory neurons called C-fibers. And it is just the naked animals, not other haired mole rats that have this reduction.
Not only that, they are insensitive to acids. Somewhat surprisingly, all the ion channels of acid detection were still in the mole rat neurons, but there was a sort of genetic “shunt” that prevented the neurons from generating action potentials when exposed to acid. All of these seems to be related to the mole rats living almost perpetually underground in high carbon dioxide laden dens.
The last speaker was Victoria Braithwaite, who was talking about fish nociception. (You can find my review of her book, Do Fish Feel Pain? here.) She summarized some of her work on the nociceptive sensory neurons from about 10 years ago. Her more recent research is geared to showing not just that fish have nociception, but that they use that information in a way that is suggestive of pain.
One of the big arguments that she has faced from critics is that fish cannot feel pain because they have no neocortex. She argues that the relevant brain structures for processing pain in humans are the amygdala and the hippocampus, and fish do have equivalent structures in their brains.
All our speakers had lots of questions at the end of the session, and we were all able to continue the discussion over lunch.
I was incredibly pleased. I thought the symposium achieved everything we had set out to do. The talks were a great mix, and none felt out of place at a neuroethology meeting.
I had to leave immediately after lunch, and could not stay for the last contributed talk session. I was particularly bummed to miss the talk by my co-organizer Ashley, who was one of the very last speakers for the entire conference.
I got to the airport in what I thought was plenty of time, but my self check-in failed. So I went to stand in a line-up. A line-up that lasted over an hour. When I finally got to the front, I learned that my flight had been delayed. Again. And my connecting flight in Dallas was the last one of the day. I was almost certainly stuck in the Dallas airport for the night.
Externally, I laughed. Because you have to, as they say. Internally? “Crap crap crap crap.” I got one tiny little ray of hope: Dallas flights were also being delayed, so I might make it. But I only gave theft about a 10% chance. And I dropped that to 5% when the flight missed its delayed departure time by about 45 minutes.
But I made an excellent start on this blog post.
I got into Dallas about 10:00 pm, and the last flight back to McAllen was long gone. And I was indeed stuck in the airport overnight, left to wonder what god of travel I had so annoyed that have m last three trips delayed so much that I arrive at my destination on the wrong day. Fortunately, a computer can now make longe delays much more tolerable than they used to be.
The last plenary talk of the conference was Toshiya Matsushima, who was discussing decision making in chicks. He was one of those speakers who is very quiet, almost soft-spoken, but who has a way of pulling you into his world. And he still threw in the occasional joke, with a low-key, but still funny, delivery.
He briefly mentioned how grateful he was for the support of the Society following the tsunami and subsequent Fukishima disaster. Then, he described a series of experiments looking at how chicks decide how to feed. They can train chicks to peck for food, and do various manipulations where they reward less food immediately, or more food after a brief delay. He again invoked the Heiligenberg rule (“Use the champion animal”) to say that chicks were champion feeders. There is high mortality among chicks, and they have to put on weight very quickly in the first few days after hatching.
He also recorded from the chicks’ nucleus accumbens, and found that there were some neurons that responded to the amount of food that was expected (the learned response), the expected delay, and the actual reward. He compared these to three judges who had to decide on a single sentence (the behaviour).
Then, he described what happens when you do surgery on this region of the brain. There are a couple of different effects. For one, the chicks become impulsive. The chicks also become more persistent, and will continue pecking even when they get no reward for much longer than normal chicks.
He ended his talk comparing scientific research to, of all things, bonsai trees. But it was a lovely metaphor. A bonsai is not a forest, but a single miniature tree. You cannot create a bonsai quickly; it takes decades. it may even be passed from generation to generation. But through this human art, you catch a glimpse of nature.
I did not get a relaxing coffee break, as I was working to make sure the speakers for the nociception symposium were all good to go. (Neuroethologists use video than most, and video is still exceptionally picky in presentation software.) Such is the life of a symposium co-organizer.
Dan Tracey was, um, our representative for the “evil four.” He's been working on nociception in Drosophila for about ten years. Although the title of the symposium was “Nociceptors in the real world,” Tracey said he was really talking about pain. He noted that people can study responses to light in both humans and flies, and both get to call it vision. It’s not that only the human researchers get to study “vision”; the fly researchers do not have to say they study “photoreception.”
With the genetic tools at his disposal, he and his lab has been making excellent progress on what genes and neurons are responsible for nociception in flies. For instance, he has been able to put channel rhodopsin in flies, and cause the maggots to do their characteristic thrashing behaviour of nociception by shining light on them. “This was the coolest day ever, because it worked.”
But he never loses sight of the behaviour. There are a lot of great ecological research questions about the relation of the maggot’s nociceptors with parasitoid flies that attack them. Tracey showed the maggots can actually shake off the parasitoid attackers, prompting him to say, “When you see a fruit fly, I want you to think of Sigourney Weaver,” in reference to her famous Aliens roles.
Robyn Crook is workings with a favourite of this blog, cephalopods. She was able to record neurons that act very much like nociceptors, which nobody had ever done in cephs before (as discussed here a couple of years ago).
Her take on nociception was to relate it not to short term stimuli, but in the context of long term injuries. Squid, which she works with, are often found in the wild missing the tips of their tentacles, for instance. She was able to show that the squid do change their defensive behaviours when given these mild injuries. They tested these with sticks with hairs on the end. “Behaviour has complex equipment. Duct tape is very important,” she deadpanned.
Co-organizer Ewan St. John Smith talked about his work on naked mole rats, a good chunk of which was published in Nature last year. Naked mole rats have a small number of common mammalian sensory neurons called C-fibers. And it is just the naked animals, not other haired mole rats that have this reduction.
Not only that, they are insensitive to acids. Somewhat surprisingly, all the ion channels of acid detection were still in the mole rat neurons, but there was a sort of genetic “shunt” that prevented the neurons from generating action potentials when exposed to acid. All of these seems to be related to the mole rats living almost perpetually underground in high carbon dioxide laden dens.
The last speaker was Victoria Braithwaite, who was talking about fish nociception. (You can find my review of her book, Do Fish Feel Pain? here.) She summarized some of her work on the nociceptive sensory neurons from about 10 years ago. Her more recent research is geared to showing not just that fish have nociception, but that they use that information in a way that is suggestive of pain.
One of the big arguments that she has faced from critics is that fish cannot feel pain because they have no neocortex. She argues that the relevant brain structures for processing pain in humans are the amygdala and the hippocampus, and fish do have equivalent structures in their brains.
L to R: Ewan, Dan, Robyn, and Victoria
All our speakers had lots of questions at the end of the session, and we were all able to continue the discussion over lunch.
I was incredibly pleased. I thought the symposium achieved everything we had set out to do. The talks were a great mix, and none felt out of place at a neuroethology meeting.
I had to leave immediately after lunch, and could not stay for the last contributed talk session. I was particularly bummed to miss the talk by my co-organizer Ashley, who was one of the very last speakers for the entire conference.
I got to the airport in what I thought was plenty of time, but my self check-in failed. So I went to stand in a line-up. A line-up that lasted over an hour. When I finally got to the front, I learned that my flight had been delayed. Again. And my connecting flight in Dallas was the last one of the day. I was almost certainly stuck in the Dallas airport for the night.
Externally, I laughed. Because you have to, as they say. Internally? “Crap crap crap crap.” I got one tiny little ray of hope: Dallas flights were also being delayed, so I might make it. But I only gave theft about a 10% chance. And I dropped that to 5% when the flight missed its delayed departure time by about 45 minutes.
But I made an excellent start on this blog post.
I got into Dallas about 10:00 pm, and the last flight back to McAllen was long gone. And I was indeed stuck in the airport overnight, left to wonder what god of travel I had so annoyed that have m last three trips delayed so much that I arrive at my destination on the wrong day. Fortunately, a computer can now make longe delays much more tolerable than they used to be.
10 August 2012
Tenth International Congress for Neuroethology, Day 4
Today was a half day at the meeting. The organizers deliberately scheduled half a day of free time so people could muck around the Washington, DC area if they wanted.
The first morning talk was by Elke Buschbeck. She and her team have been busy studying insect eyes. But these are probably not the "fly eyes" that you think of when you think of insects. These are structurally different and called stemmata. The cool discovery she made a few years ago was a diving beetle which has bifocal stemmata. Her students had presented this two years ago at the Ninth Congress in Salamanca (had just come out in Current Biology, I think), so I knew part of this story. But I was still very interested to see the videos of this beetle in action.
What I don’t remember hearing before was that these baby beetles have a optical burqa. All the light sensitive cells in their eyes line up in a single narrow strip. Imagine your could read only this line of text, and you were blind to everything above and below it. That’s the diving beetle’s visual world at this stage. Buschbeck showed great video of the beetles coming in towards pray, and they “bob their heads,” scanning up and down so they can see the whole image.
It's a very odd way to make an eye.
Of the three concurrent sympsosia later, I went to one on invertebrate movement, which is sort of my old home territory. Most of it was familiar to me, but this factoid caught a lot of people’s attention on Twitter.
Lots of people know octopuses are brainy invertebrates. All told, they probably have around half a billion neurons throughout their body.
About two thirds, 66%, of those neurons are in the legs.
Octopuses have very distributed nervous systems, and some of their behaviour doesn't need to be controlled by the brain at all. The presenter, Binyamen Hochner, said that computation can occurs anywhere. And he didn't just mean outside the brain; he is essentially arguing that the body itself can carry out some computations.
For my afternoon, I went to the mall and ended up in the U.S. Botanic Garden. Looking at plants was about the right speed for me. A good mental palate cleanser. Then, off to the evening banquet on a ship cruising the Potomac (pictured above).
One more day, and it will be the best so far! Because tomorrow there is a symposium on nociception that I helped to organize. This has been in the works since the Salamanca meeting two years ago, so I am pretty excited to see it about to come together.
The first morning talk was by Elke Buschbeck. She and her team have been busy studying insect eyes. But these are probably not the "fly eyes" that you think of when you think of insects. These are structurally different and called stemmata. The cool discovery she made a few years ago was a diving beetle which has bifocal stemmata. Her students had presented this two years ago at the Ninth Congress in Salamanca (had just come out in Current Biology, I think), so I knew part of this story. But I was still very interested to see the videos of this beetle in action.
What I don’t remember hearing before was that these baby beetles have a optical burqa. All the light sensitive cells in their eyes line up in a single narrow strip. Imagine your could read only this line of text, and you were blind to everything above and below it. That’s the diving beetle’s visual world at this stage. Buschbeck showed great video of the beetles coming in towards pray, and they “bob their heads,” scanning up and down so they can see the whole image.
It's a very odd way to make an eye.
Of the three concurrent sympsosia later, I went to one on invertebrate movement, which is sort of my old home territory. Most of it was familiar to me, but this factoid caught a lot of people’s attention on Twitter.
Lots of people know octopuses are brainy invertebrates. All told, they probably have around half a billion neurons throughout their body.
About two thirds, 66%, of those neurons are in the legs.
Octopuses have very distributed nervous systems, and some of their behaviour doesn't need to be controlled by the brain at all. The presenter, Binyamen Hochner, said that computation can occurs anywhere. And he didn't just mean outside the brain; he is essentially arguing that the body itself can carry out some computations.
For my afternoon, I went to the mall and ended up in the U.S. Botanic Garden. Looking at plants was about the right speed for me. A good mental palate cleanser. Then, off to the evening banquet on a ship cruising the Potomac (pictured above).
One more day, and it will be the best so far! Because tomorrow there is a symposium on nociception that I helped to organize. This has been in the works since the Salamanca meeting two years ago, so I am pretty excited to see it about to come together.
08 August 2012
Tenth International Congress for Neuroethology, Day 3
Learned today that this conference has 563 attendees from 28 countries.
Today proved yet again that Ron Hoy’s “core four” (or “evil four”) is the stickiest sound bite of this conference. (Walter Heiligenberg’s advice, “Use the champion animal” is a close second, though.) There was only one featured talk today, by Constance Scharff. Her talk, on bird song learning, was a pitch to have songbirds “join the club” to turn the “evil four” into the “evil five.”
Scharff describe songbirds as the “champion” vocal learners. Not many animals learn by imitation of other animals, and even fewer learn vocalizations. One of my favourite moments of today was Scharff playing a recording of a German folk song... sung by a bullfinch. Obviously, this is not a normal thing for a bullfinch to do, and it must have learned how to sing that particular song by listening to humans.
In humans, there has been a lot of interest in a gene called FoxP2, because it has been specifically linked to speech impairment in humans. Inevitably, some people suggested that mutations in this one gene are an important aspect of what gives humans our highly elaborate vocal system - language.
Wile I am loath to simplify a complex story, since I complained about just that in the last paragraph, there are some indications that FoxP2 is needed for normal song learning. Using RNA interference and a variety of other techniques, they were able to knock down FoxP2 expression in songbirds. Songbirds treated this way were not able to learn anywhere near as well as the untreated controls.
There were three concurrent sessions after this. I went to one on navigation, which featured research on birds (relating magnetic sense to polarized vision), fish, bats (both about navigating in 3-D space) and bees (how they “stick the landing”). If you check the #icn12 hash tag on Twitter, you’ll also find tweets on a session of nervous systems coping with lack of oxygen. If any reader was at the motor program symposium, I'd love to hear some comments!
The business meeting had several awards, news, and choices for the congress in 2016. Without a doubt, however, the emotional highlight was a retrospective of the late Bob Capranica, a pioneer of amphibian neuroethology and, in later years, big supporter and booster of the field. He created and administered a prize for young neuroethologists out of his own pocket. Recently, the Neuroethology society took over management of the prize, and it now bears Capranica's name. Bob Diego earlier in the year, but Pat Capranica was there to receive an award for the work that she and her husband Bob had done in promoting neuroethology. She received a standing ovation.
Today proved yet again that Ron Hoy’s “core four” (or “evil four”) is the stickiest sound bite of this conference. (Walter Heiligenberg’s advice, “Use the champion animal” is a close second, though.) There was only one featured talk today, by Constance Scharff. Her talk, on bird song learning, was a pitch to have songbirds “join the club” to turn the “evil four” into the “evil five.”
Scharff describe songbirds as the “champion” vocal learners. Not many animals learn by imitation of other animals, and even fewer learn vocalizations. One of my favourite moments of today was Scharff playing a recording of a German folk song... sung by a bullfinch. Obviously, this is not a normal thing for a bullfinch to do, and it must have learned how to sing that particular song by listening to humans.
In humans, there has been a lot of interest in a gene called FoxP2, because it has been specifically linked to speech impairment in humans. Inevitably, some people suggested that mutations in this one gene are an important aspect of what gives humans our highly elaborate vocal system - language.
Wile I am loath to simplify a complex story, since I complained about just that in the last paragraph, there are some indications that FoxP2 is needed for normal song learning. Using RNA interference and a variety of other techniques, they were able to knock down FoxP2 expression in songbirds. Songbirds treated this way were not able to learn anywhere near as well as the untreated controls.
There were three concurrent sessions after this. I went to one on navigation, which featured research on birds (relating magnetic sense to polarized vision), fish, bats (both about navigating in 3-D space) and bees (how they “stick the landing”). If you check the #icn12 hash tag on Twitter, you’ll also find tweets on a session of nervous systems coping with lack of oxygen. If any reader was at the motor program symposium, I'd love to hear some comments!
The business meeting had several awards, news, and choices for the congress in 2016. Without a doubt, however, the emotional highlight was a retrospective of the late Bob Capranica, a pioneer of amphibian neuroethology and, in later years, big supporter and booster of the field. He created and administered a prize for young neuroethologists out of his own pocket. Recently, the Neuroethology society took over management of the prize, and it now bears Capranica's name. Bob Diego earlier in the year, but Pat Capranica was there to receive an award for the work that she and her husband Bob had done in promoting neuroethology. She received a standing ovation.
Tenth International Congress for Neuroethology, Day 2
Ack! Can't believe we're already past the 40% mark for this conference! Some highlights from today...
Opening the day was Ole Kiehn on tracking the spinal cord circuits for locomotion. Ron Hoy’s talk from yesterday clearly made an impression, as Kiehn referred to humans as “the fifth evil species.” Keihn's work also echoed Hoy's talk in that it showcased how people trained in traditional electrophysiology are increasingly using genetic techniques, like optogenetics.
And I got “Bingo!” during Ole's talk when I saw someone a few rows ahead of me checking Facebook.
The second half of the morning was taken with the Young Investigators symposium, with four great talks, one of the highlights of the meeting so far.
Antoine Wystrach lit it up with a talk on ant navigation. I particularly enjoyed how he hinted that his lab bought something clandestine to generate... Vibrational stimuli.
Basil al Jundi had some more navigation with insects using celestial cues, with some particularly fun videos of dung beetles, which use light to roll their balls of dung in straight lines.
Michael Yartsev gave a talk that in other meetings, might be very controversial. He was showing a series of experiments in bats that showed that one of the major theories for how place cells work (developed using rats and involving theta rhythms) could NOT explain place cells in bats (no theta rhythms in bats). It was a strong demonstration of the limitations of using single model organisms and the power of comparative methods.
Lauren O’Connell had what was arguably the quote of the day, explaining monogamy: “Monogamy is tolerating your partner being around you.” Again, Lauren's work had a huge genetic component, showing how neuroethology in increasingly becoming neurogenetic ethology.
The afternoon plenary had Malcolm Burrows showing a wide array of videos of insects jumping. Insects that were good at it, bad at it, legs bending like archer's bows, insects jumping off water. But the highlight was perhaps when he went to pull out ap cicada that he had found that morning, a relative of the frog hopper he was talking about.
"Oh no, it's gone." It had escaped, and could be seeing flying around the lights near the ceiling. "If he gets hot, maybe he'll sing to you."
There were three symposia on the afternoon; I happened to go to one on mating signals. this was followed by another featured lecture by Ed Kravitz. Ed used to work with animals close to my heart, crustaceans, but in the last decade or so turned to work almost exclusively with one of “the evil four,” fruit flies, primarily because of the advantages of genetic tools. Afterwards, Ron Hoy got up and complemented it as one of the best examples of actual ethology cal work he’d seen using fruit flies. (Peer pressure, maybe?)
Now, as you may have gathered, there are a lot of plenary and special lectures at this meeting. I had some discussions about this over dinner. I am not sure it is all that good to have so few voices given the lectern. It must be nice for those who get it, I’m sure. But it certainly doesn’t help diversity when so much of the meeting is by established voices, many of whose have give featured lectures at this meeting before. Now that this meeting is every other year rather than every three years, this sameness may become a bigger issue than in the past.
I also had a short but very animated chat with Kathryn Knight, the news and views editor of The Journal of Experimental Biology and keeper of their Facebook page about scientific publishing. Key phrases: “collateral damage of push for open access,” the relative quality of PLOS One, American attitudes towards taxes, and how different kinds of biological researchers view their budget totals (especially regarding open access fees), and how much sense people other than scientists can make of the primary literature.
Would live to elaborate, but have to get up in not too many hours.
Opening the day was Ole Kiehn on tracking the spinal cord circuits for locomotion. Ron Hoy’s talk from yesterday clearly made an impression, as Kiehn referred to humans as “the fifth evil species.” Keihn's work also echoed Hoy's talk in that it showcased how people trained in traditional electrophysiology are increasingly using genetic techniques, like optogenetics.
And I got “Bingo!” during Ole's talk when I saw someone a few rows ahead of me checking Facebook.
The second half of the morning was taken with the Young Investigators symposium, with four great talks, one of the highlights of the meeting so far.
Antoine Wystrach lit it up with a talk on ant navigation. I particularly enjoyed how he hinted that his lab bought something clandestine to generate... Vibrational stimuli.
Basil al Jundi had some more navigation with insects using celestial cues, with some particularly fun videos of dung beetles, which use light to roll their balls of dung in straight lines.
Michael Yartsev gave a talk that in other meetings, might be very controversial. He was showing a series of experiments in bats that showed that one of the major theories for how place cells work (developed using rats and involving theta rhythms) could NOT explain place cells in bats (no theta rhythms in bats). It was a strong demonstration of the limitations of using single model organisms and the power of comparative methods.
Lauren O’Connell had what was arguably the quote of the day, explaining monogamy: “Monogamy is tolerating your partner being around you.” Again, Lauren's work had a huge genetic component, showing how neuroethology in increasingly becoming neurogenetic ethology.
The afternoon plenary had Malcolm Burrows showing a wide array of videos of insects jumping. Insects that were good at it, bad at it, legs bending like archer's bows, insects jumping off water. But the highlight was perhaps when he went to pull out ap cicada that he had found that morning, a relative of the frog hopper he was talking about.
"Oh no, it's gone." It had escaped, and could be seeing flying around the lights near the ceiling. "If he gets hot, maybe he'll sing to you."
There were three symposia on the afternoon; I happened to go to one on mating signals. this was followed by another featured lecture by Ed Kravitz. Ed used to work with animals close to my heart, crustaceans, but in the last decade or so turned to work almost exclusively with one of “the evil four,” fruit flies, primarily because of the advantages of genetic tools. Afterwards, Ron Hoy got up and complemented it as one of the best examples of actual ethology cal work he’d seen using fruit flies. (Peer pressure, maybe?)
Now, as you may have gathered, there are a lot of plenary and special lectures at this meeting. I had some discussions about this over dinner. I am not sure it is all that good to have so few voices given the lectern. It must be nice for those who get it, I’m sure. But it certainly doesn’t help diversity when so much of the meeting is by established voices, many of whose have give featured lectures at this meeting before. Now that this meeting is every other year rather than every three years, this sameness may become a bigger issue than in the past.
I also had a short but very animated chat with Kathryn Knight, the news and views editor of The Journal of Experimental Biology and keeper of their Facebook page about scientific publishing. Key phrases: “collateral damage of push for open access,” the relative quality of PLOS One, American attitudes towards taxes, and how different kinds of biological researchers view their budget totals (especially regarding open access fees), and how much sense people other than scientists can make of the primary literature.
Would live to elaborate, but have to get up in not too many hours.
07 August 2012
Tuesday Crustie: West Virginia’s rarest
If anyone ever asks you, “What is the rarest crayfish in the state of West Virginia?”
You can tell them, “Well that is difficult to say, but a good candidate would be the digger crayfish, Fallicambarus fodiens.”
You might win a pub trivia bet with that. Under a particularly bizarre set of circumstances.
I know this not because it is part of my general background knowledge, but because I was checking a new paper by Loughman and colleagues on burrowing by crayfish. Burrowing crayfish are very hard to study, like many digging and burrowing animals are. You need a lot of effort to pull them up out of their burrows.
This paper did both collection and modelling for F. fodiens and another burrowing species, the little brown mudbug (seriously, that’s its official common name), Cambarus thomai. For the digger, one of the best predictors of whether you could find this species was whether the surrounding forest was over one hundred years old.
The odd thing is, this relationship with old growth forest seems specific to West Virginia. The authors note that you can find digger crayfish in other states in “in roadside ditches, residential situations, and agricultural settings.” The authors suggest that in West Virginia, the little brown mudbug outcompetes the digger crayfish in disturbed habitat, and the little brown mudbug doesn’t live everywhere that the digger does.
It does help point out, however, that not all forests are the same. Sometimes, you have to keep the old, old stuff around.
Reference
Loughman ZJ, Welsh SA,Simon TP. 2012. Occupancy rates of primary burrowing crayfish in natural and disturbed large river bottomlands. Journal of Crustacean Biology 32(4): 557-564. 10.1163/193724012X637339
You can tell them, “Well that is difficult to say, but a good candidate would be the digger crayfish, Fallicambarus fodiens.”
You might win a pub trivia bet with that. Under a particularly bizarre set of circumstances.
I know this not because it is part of my general background knowledge, but because I was checking a new paper by Loughman and colleagues on burrowing by crayfish. Burrowing crayfish are very hard to study, like many digging and burrowing animals are. You need a lot of effort to pull them up out of their burrows.
This paper did both collection and modelling for F. fodiens and another burrowing species, the little brown mudbug (seriously, that’s its official common name), Cambarus thomai. For the digger, one of the best predictors of whether you could find this species was whether the surrounding forest was over one hundred years old.
The odd thing is, this relationship with old growth forest seems specific to West Virginia. The authors note that you can find digger crayfish in other states in “in roadside ditches, residential situations, and agricultural settings.” The authors suggest that in West Virginia, the little brown mudbug outcompetes the digger crayfish in disturbed habitat, and the little brown mudbug doesn’t live everywhere that the digger does.
It does help point out, however, that not all forests are the same. Sometimes, you have to keep the old, old stuff around.
Reference
Loughman ZJ, Welsh SA,Simon TP. 2012. Occupancy rates of primary burrowing crayfish in natural and disturbed large river bottomlands. Journal of Crustacean Biology 32(4): 557-564. 10.1163/193724012X637339
06 August 2012
Tenth International Congress for Neuroethology, days 0 and 1
Man, I am having no luck with travel these days.
I arrived at the airport about an hour early, as usual. I tried automatic check-in, but it wasn’t working, so I went into the line for the counter. I think I was about 5 or 6 in line.
I didn’t move for about 40 minutes. But after about 10 or so, a huge long line formed up behind me. I overheard someone say that the flight had been completely cancelled. Sure enough, a few minutes later, I got an automated call from the airline telling me that I was rebooked on a flight leaving at 3:00 pm. A four hour wait.
Fortunately, the McAllen airport has free wifi. And it’s amazing what’s tolerable when you have free wifi and something to take advantage of it. A few games, some Netflix, and the time just whizzes by.
Even the replacement flight was late getting off the ground. And it was frustrating because the departure time kept sliding, a little bit at a time, so I was never sure if I could sit down for an actual meal. I could have done, but kept getting less than satisfactory bites. But we finally got on the way to Dallas about 7:45 pm. I reckoned that I’d spent as much time in delays as I had been scheduled to spend travelling, total. In the end, we touched down at about 11:25 pm. Ugh.
For stupid lack of preparation reasons, I did not make it to campus that night. But on the plus side, I was able to follow the landing of the Curiosity rover on Mars more or less in real-time on Twitter at 1:30 am (no wifi at the time for anything more substantial). Amazing stuff.
On the plus side, I played a bloody awful lot of Cut The Rope Experiments. Which, now that I think about it, kind of feels appropriate for Neuroethology. Lots of three star levels... I am only four stars short of claiming them all.
Setbacks aside, I caught the first train of the Metro to the University of Maryland. I was surprised at how many people were on the 5:00 am train, but I suppose I shouldn't have been.
I got on to the University around 6:30 am or so, found some breakfast and free wifi at a nearby McDonalds, and saw the first signs of the conference at quarter after seven. I made my way to my room in student residence, had a super quick shower and shave (too fast - nicked myself) and walked into the ballroom just as the very first plenary talk of the conference was starting.
I could not have cut it any closer.
But with only one day into the meeting, a few interesting trends are already emerging. People are worried about how they are going to sell neuroethology to funding agencies.
In his opening talk, Art Popper discussed this at some length. He had the good fortune to find several issues related to his research that had clear policy implications. for example, he talked about noise generated by pile drivers and how that could affect fish stocks. Popper said he found it gratifying that policy makers really did listen to scientific recommendations.
Popper (and several others) mentioned the landing of the new Mars rover Curiosity as something that go people excited about science. He repeated the common refrain that scientists do not do a good job of communicating what they do to the general public. (Yet no social media workshop? Hm...)
This was followed by a set of talks that were mainly historical in nature, with some guessing about prospects for the future. The predominance of what Ron Hoy called the “core four” model organisms - mouse, worm, zebra fish, and Drosophila (which others started to call the evil four) was also traced back to funding agency's priorities. The NIH wanted to support research that emerged from the human genome project, And the emphasis on genetic models arose from that.
Hoy gave something of a rabble rousing speech, saying that the field is very much in transition. The core techniques are changing fast, with more genetics and less electrophysiology. It is rare to have jobs advertised for “neuroethologist.” Hoy speculated that the future of neuroethology for the next decade may lie more in small liberal arts universities than major research institutions.
In the final talk of the night, Jim Simmons also kept coming back to how he is looking for ways to pitch his research. He said, “We need to convince founding agencies that we, and our animals, have solved problems that they consider unsolvable.”
I tweeted a lot from the sessions. Search #icn12 on Twitter for more short notable quotes. But as for now, I have been up for about 38 hours and I think the long expected crash is almost here.
04 August 2012
Neuroethology bingo
Tomorrow, I am getting on a plane and heading to the Tenth International Congress of Neuroethology at the University of Maryland. I’ll be blogging throughout the week, and tweeting with the hashtag #icn12. I’m particular excited to be co-organizing a symposium on nociception that will be held Friday!
For the amusement of fellow conference attendees (click to enlarge)...
Fashioned after similar bits of tomfoolery at Nothing in biology makes sense! and Dynamic Ecology.
For the amusement of fellow conference attendees (click to enlarge)...
Fashioned after similar bits of tomfoolery at Nothing in biology makes sense! and Dynamic Ecology.
03 August 2012
How the cow got its spots
Why do some mammals have spots, stripes, or other sorts of markings on their fur? Usually, this has been chalked up to camouflage or because the patterns might be sexy. But a new idea has been making the round this year: that it helps keep bugs away.
In March, Egri and colleagues published a paper suggesting zebra stripes deterred biting flies. Having tested stripes, the same team are back in a new paper to test spots. In their new paper, the team is working with slightly less exotic animals, but with more practical implications: cows.
If you’ve seen cows in a field, you’ve probably seen them swishing their tails to bat away flies. Flies are not just an annoyance: they can affect cows so much that they seriously harm the cows’ health. The flies bite and suck blood, and can transmit disease this way. Plus, the distraction can be so great that the cows don’t feed enough and lose weight.
To test the idea, the team set out boards painted with varying amounts of spots, but with the same proportion of black and white. They covered the boards with a glue, so that if a fly landed on it, it would be stuck, allowing them to easily measure the attractiveness of the surface. The more small spots, the fewer flies they found on the board. They tried this with the boards in different orientations, but the results kept coming out the same.
The team then moved on to a more realistic, cow model. Covered in glue, naturally – potentially annoying any cow tippers who happened to be in Szokolya, Hungary, where the experiment was carried out. The results were the same: lots of small spots meant few flies captured. Dark brown cows had lots of flies landing on them.
What is going on here? The team suggest that this all happens because of one important fact about the flies: they lay their eggs in water.
How do you get from that to cowhide? Like this:
Flies lay their eggs in small pools of water, so they need to have reliable ways to detect bodies of water.
Light reflected off water is polarized, and many insects, including these flies, can see polarized light. Thus, the flies have a built-in detection system for, and a preference to move to, polarized objects.
The dark fur of cattle polarizes light more than the white fur. (This is the one point in the study where the researchers used actual cows, not just painted models.)
The team goes on to suggest that besides having some agricultural applications, humans might take a few lessons from this research, since flies that bite cattle can just as easily bite humans:
Seems to be working: no flies on her.
References
Blahó M, Egri Á, Bahidszki L, Kriska G, Hegedus R, Åkesson S, Horváth G. 2012. Spottier targets are less attractive to tabanid flies: on the tabanid-repellency of spotty fur patterns. PLOS ONE 7(8): e41138. http://dx. doi.org/10.1371/journal.pone.0041138
Egri Á, Blahó M, Kriska G, Farkas R, Gyurkovszky M, Åkesson S, Horváth G. 2012. Polarotactic tabanids find striped patterns with brightness and/or polarization modulation least attractive: an advantage of zebra stripes. Journal of Experimental Biology 215: 736-745. http::/dx.doi.org/10.1242/jeb.065540
Cow photo by Brenda Anderson on Flickr; dress photo by VancityAllie on Flickr; both used under a Creative Commons license.
In March, Egri and colleagues published a paper suggesting zebra stripes deterred biting flies. Having tested stripes, the same team are back in a new paper to test spots. In their new paper, the team is working with slightly less exotic animals, but with more practical implications: cows.
If you’ve seen cows in a field, you’ve probably seen them swishing their tails to bat away flies. Flies are not just an annoyance: they can affect cows so much that they seriously harm the cows’ health. The flies bite and suck blood, and can transmit disease this way. Plus, the distraction can be so great that the cows don’t feed enough and lose weight.
To test the idea, the team set out boards painted with varying amounts of spots, but with the same proportion of black and white. They covered the boards with a glue, so that if a fly landed on it, it would be stuck, allowing them to easily measure the attractiveness of the surface. The more small spots, the fewer flies they found on the board. They tried this with the boards in different orientations, but the results kept coming out the same.
The team then moved on to a more realistic, cow model. Covered in glue, naturally – potentially annoying any cow tippers who happened to be in Szokolya, Hungary, where the experiment was carried out. The results were the same: lots of small spots meant few flies captured. Dark brown cows had lots of flies landing on them.
What is going on here? The team suggest that this all happens because of one important fact about the flies: they lay their eggs in water.
How do you get from that to cowhide? Like this:
Flies lay their eggs in small pools of water, so they need to have reliable ways to detect bodies of water.
Light reflected off water is polarized, and many insects, including these flies, can see polarized light. Thus, the flies have a built-in detection system for, and a preference to move to, polarized objects.
The dark fur of cattle polarizes light more than the white fur. (This is the one point in the study where the researchers used actual cows, not just painted models.)
The team goes on to suggest that besides having some agricultural applications, humans might take a few lessons from this research, since flies that bite cattle can just as easily bite humans:
Seems to be working: no flies on her.
References
Blahó M, Egri Á, Bahidszki L, Kriska G, Hegedus R, Åkesson S, Horváth G. 2012. Spottier targets are less attractive to tabanid flies: on the tabanid-repellency of spotty fur patterns. PLOS ONE 7(8): e41138. http://dx. doi.org/10.1371/journal.pone.0041138
Egri Á, Blahó M, Kriska G, Farkas R, Gyurkovszky M, Åkesson S, Horváth G. 2012. Polarotactic tabanids find striped patterns with brightness and/or polarization modulation least attractive: an advantage of zebra stripes. Journal of Experimental Biology 215: 736-745. http::/dx.doi.org/10.1242/jeb.065540
Cow photo by Brenda Anderson on Flickr; dress photo by VancityAllie on Flickr; both used under a Creative Commons license.
02 August 2012
Objectivity
Which is the better film: Alien or Aliens?
I thought this was a matter of opinion. and maybe some debate. The two have the exact same rating on IMDB, and Aliens has an ever-slightly higher metascore of critical reviews.
But I was informed yesterday that the answer is definitely, most assuredly, beyond any shadow of doubt is the first one: Alien.
I was told that this was a matter of “objective quality – as determined by the field and form of film,” and that “it’s not really beholden to personal taste or opinion.”
As a scientist and movie fan, I was surprised.
As a scientist, I put great stock into objectivity. I’d hoped that I have a good grasp on what it means when something is objective. For instance, one of the major things you can do with objective qualities is to measure them, with numbers, usually on an interval scale. There are generally agreed upon units for objective measures: meters, grams, degrees. You can create instruments that measure that quantity.
Admittedly, just because something has numbers attached to it does not mean that it is objective. For example, there are many psychological tests where two tests claim to measure the same thing that end up disagreeing with each other. But numbers are usually a step in the right direction.
As a movie fan, I felt I’d missed a memo somewhere. What are the SI units for quality? What instrument is used to detect and measure the presence of film quality?
And can the same measurements be made for other artistic media? Can the quality of television series be objectively measured by the same criteria as movies? Comics? How about painting? Guitar playing? Synchronized diving? (Have seen comments this week that if a competition needs judges, it’s not a sport.) If so, that might finally be able to stop hearing, “Eh, the book was better.”
And if quality is objective, a lot of movie critics are out of jobs. And I might as well stop writing my movie review blog.
I was reminded of this quote by David Hume:
All of which is a long way of saying: Aliens is totes better than Alien, dude!
(Incidentally, if there were to be an SI unit for measuring quality, I would propose that it be the Pirsig, in honor of Robert M. Pirsig, whose novel Zen and the Art of Motorcycle Maintenance (no jokes, please, I’ve heard them all) is all about the nature of quality. Great films might be measured in kiloPirsigs; Your Highness would be measured in nanoPirsigs.)
I thought this was a matter of opinion. and maybe some debate. The two have the exact same rating on IMDB, and Aliens has an ever-slightly higher metascore of critical reviews.
But I was informed yesterday that the answer is definitely, most assuredly, beyond any shadow of doubt is the first one: Alien.
I was told that this was a matter of “objective quality – as determined by the field and form of film,” and that “it’s not really beholden to personal taste or opinion.”
As a scientist and movie fan, I was surprised.
As a scientist, I put great stock into objectivity. I’d hoped that I have a good grasp on what it means when something is objective. For instance, one of the major things you can do with objective qualities is to measure them, with numbers, usually on an interval scale. There are generally agreed upon units for objective measures: meters, grams, degrees. You can create instruments that measure that quantity.
Admittedly, just because something has numbers attached to it does not mean that it is objective. For example, there are many psychological tests where two tests claim to measure the same thing that end up disagreeing with each other. But numbers are usually a step in the right direction.
As a movie fan, I felt I’d missed a memo somewhere. What are the SI units for quality? What instrument is used to detect and measure the presence of film quality?
And can the same measurements be made for other artistic media? Can the quality of television series be objectively measured by the same criteria as movies? Comics? How about painting? Guitar playing? Synchronized diving? (Have seen comments this week that if a competition needs judges, it’s not a sport.) If so, that might finally be able to stop hearing, “Eh, the book was better.”
And if quality is objective, a lot of movie critics are out of jobs. And I might as well stop writing my movie review blog.
I was reminded of this quote by David Hume:
If we take in our hand any volume; of divinity or school metaphysics, for instance; let us ask, Does it contain any abstract reasoning concerning quantity or number? No. Does it contain any experimental reasoning concerning matter of fact and existence? No. Commit it then to the flames: for it can contain nothing but sophistry and illusion.
All of which is a long way of saying: Aliens is totes better than Alien, dude!
(Incidentally, if there were to be an SI unit for measuring quality, I would propose that it be the Pirsig, in honor of Robert M. Pirsig, whose novel Zen and the Art of Motorcycle Maintenance (no jokes, please, I’ve heard them all) is all about the nature of quality. Great films might be measured in kiloPirsigs; Your Highness would be measured in nanoPirsigs.)
01 August 2012
Comments for second half of July, 2012
Scicurious looks at work-life balance. How much of a move is too much to expect from prospective scientists?
A NeuroDojo post about Impact Factor makes a cameo at Byte-Sized Biology.
Why don’t scientists comment on articles at the journal website?
Gaines on Brains asks whether you be super-strong when you need to be. Problem with questions like this is that it’s easy to hear stories about people “lifting cars” without key details – like, that it was only raised a couple of inches.
Neuroskeptic asks if referees should be expected to catch fraud. If they don’t, should their names be revealed?
Biochem Belle asks how much more money funding agencies can put into postdocs.
A NeuroDojo post about Impact Factor makes a cameo at Byte-Sized Biology.
Why don’t scientists comment on articles at the journal website?
Gaines on Brains asks whether you be super-strong when you need to be. Problem with questions like this is that it’s easy to hear stories about people “lifting cars” without key details – like, that it was only raised a couple of inches.
Neuroskeptic asks if referees should be expected to catch fraud. If they don’t, should their names be revealed?
Biochem Belle asks how much more money funding agencies can put into postdocs.