Dear fellow padwans,
It's really been too long, and I'm sorry for not staying in touch. I was caught in the tight grip of the dark side...
It's Friday afternoon, and I'm procrastinating as always (who wouldn't), and I discovered the email (dated somewhere in February) about the palaeoblog. I've been reading all the posts, and thought it is about time I let hear from myself.
You probably all heard I live in 'gemütliches' Bonn now, studying dinosaur bone tissue, and now I can add that my koenosaur (you know, the gliding lizards) paper has been accepted in Palaeontology. Yipeekayay! I have been working my ass off on that one.
Now I can concentrate on cutting up dinosaur bone and grinding it into thin sections. As a matter of fact, I'll be going to SVP in Texas in October to do some more sampling. It would be fab if I could meet any of you guys there. Ben gave away my intention to visit MCZ at Harvard. That wil unfortunately not go trough as they are currently reorganising (new staff) and could not tell me anything better than 'The stuff you are looking for is in South America.' Guess I'll have to go to South America then...
Unfortunately, I don't think I'll be going to Palass this year, as it is turning out a bit expensive (nothing to present, i.e. pay it myself).
Great, the afternoon has turned into an evening, I can go home now... I promise I'll be checking the forum more often from now on (and posting stuff too).
I wish you all the best,
Koenstein
Friday, September 28, 2007
Friday, September 21, 2007
Wednesday, September 5, 2007
About time I hear you cry?
Hello ladies and gents and Emma's bag thing
There's been an awful lot of talk of me and those oranges as well as that picture, but it was a split second moment of madness in a year of, well, utter madness. Such a famous moment is a bit of a double-edged sword really. Funny? Maybe, Embarassing? Very (I was borderline crazy at the time with masters work. I'm sure you can appreciate that). Anyway, since this is my first blog on this thing in almost a year (or maybe over a year?) of its existence, it is surely about time I wrote something down!
So Palass is coming up and who's going? Ceri and me are registered, but it would be nice to see some of your pretty faces there too! Here's a link to some Swedish phrases to learn just so the trip goes smoothly:
http://www.listology.com/content_show.cfm/content_id.17825
My personal favourites are:
jävla idioter - damn fools
and
Jag är snyggare naken - I'm better-looking naked
and
...och det spelar ingen roll ändå om hon ser ganska tjock ut, eller hur? - and it doesn't matter anyway if she looks fat, does it?
but I'm not sure how much these will be needed! Take a look anyway.
Miss you all loads. Take care peeps!
Rob
There's been an awful lot of talk of me and those oranges as well as that picture, but it was a split second moment of madness in a year of, well, utter madness. Such a famous moment is a bit of a double-edged sword really. Funny? Maybe, Embarassing? Very (I was borderline crazy at the time with masters work. I'm sure you can appreciate that). Anyway, since this is my first blog on this thing in almost a year (or maybe over a year?) of its existence, it is surely about time I wrote something down!
So Palass is coming up and who's going? Ceri and me are registered, but it would be nice to see some of your pretty faces there too! Here's a link to some Swedish phrases to learn just so the trip goes smoothly:
http://www.listology.com/content_show.cfm/content_id.17825
My personal favourites are:
jävla idioter - damn fools
and
Jag är snyggare naken - I'm better-looking naked
and
...och det spelar ingen roll ändå om hon ser ganska tjock ut, eller hur? - and it doesn't matter anyway if she looks fat, does it?
but I'm not sure how much these will be needed! Take a look anyway.
Miss you all loads. Take care peeps!
Rob
Monday, August 27, 2007
Silica, diatoms, and grasses
Dear Phinches, Dear All,
I must confess to be astounded (and very pleased) that my little article was noticed, even more so that it was read all the way to the end! I hope this doesn't mean somebody will notice that the latest PalAss newsletter contains pretty much the identical text... Anyhow, I've thought a little bit about the role of plants in general, phytoliths and grasses in particular, in the silica cycle, and am only too happy to take the chance to share my thoughts and ask for your feedback. The short answer is that I think grassland expansion might change the delivery mode of silica to the oceans from a "steady trickle" to a "pulsed" pattern. I am not convinced that grassland expansion could actually increase the steady-state (or time-averaged) supply rate to the ocean. Let me explain why:
Plants can increase silicate weathering locally, and thus the supply of dissolved silica to the oceans, by a number of processes -- mechanical disaggregation of rock by roots, carbon dioxide pumping to the soils, acidity from humic and other organic acids, and so on. This is a pretty well established idea, and Berner used this in his GEOCARB model of carbon dioxide over time to argue for a decrease in atmospheric carbon dioxide with the rise of land plants in the Devonian. An important point to note, though, is that the silicate weathering rate over geological timescales is controlled (as far as we know) by the Walker feedback -- the temperature-silicate weathering-carbon dioxide feedback -- and plants can only really affect the weathering rate *constant*, not the rate itself. If you like, the feedback stabilizes pushes and pulls on a steady state -- the rate constant (cue plants) affects the tightness of the spring which couples push or pull to the system. If you haven't read the Walker paper, I highly recommend it (Walker, Hays, and Kasting, 1981, JGR vol. 86, 9776-9782). The key point, though, is that this has nothing to do with grasses and phytoliths -- as far as I know, there is no palpable difference between grasses and other plants in the way they disaggregate rock, produce humic acid, etc. to affect silicate weathering rates.
Now, the part that singles out grasses in the silica cycle is indeed the fact that grasses make phytoliths. Some folks have proposed that the evolutionary rise of grasslands to ecological dominance has thus increased the supply of silicic acid to the oceans; an example is the paper on modern plankton evolution by Falkowski and peeps (2004, Science vol. 305, 354-360). The idea behind it all is that grasses accumulate huge amounts of silica (up to around 10% dry weight) in various tissues, a lot of it as phytoliths (little amorphous silica shapes), much more than most other plants today (although some, like the horsetails, accumulate even more). This is, of course, fascinating for its own reasons from the perspective of vertebrate grazer evolution (or coevolution), which Phil can no doubt confirm, but that's beside the point here. The point that is frequently made regarding the silica cycle is that this phytolith silica is of a more soluble form than the silicate minerals from which silicate weathering supplies silicic acid (in part mediated by the processes listed at the start of the last paragraph). This is true -- amorphous silica is at least an order of magnitude more soluble than most silicates. If plants are producing this more soluble form, the dissolution of phytoliths will supply more silicic acid to the oceans (all the time via rivers, of course). However, I have a problem extrapolating from the solubility observation to the idea that the rate of supply can increase. Consider the following simple depiction of the system we're looking at:
Here, the rate of supply to the oceans is F[out]. You can immediately see that, unless the masses of the soil water or phytolith reservoirs change (i.e. violating steady state), F[out] must equal F[weathering]. Now, the size of the global phytolith reservoir is not known, but my own ball park estimate is that it's on the order of 1000 to 10,000 Tmol. Currently, F[out] is around 5 Tmol per year. I take the scenario in which phytoliths formation increases dissolved silica supply to the oceans to mean that F[out]>>F[Fweathering]. If you imagine, for argument's sake, the extreme case where F[weathering]=0, you would empty the phytolith reservoir in, at most, 2,000 years... Clearly, this can't be a prolonged source of extra silica.
What *could* happen, of course, is that the phytolith reservoir acts to modulate (here's where my word choice in the article comes in!) F[out]. What I mean here is best explained by analogy -- imagine a river with a dam (in this analogy, water=silica!). At steady state, with the sluice gates wide open, the river flux above the dam (F[weathering]) is the same as the flux out of dam(F[out]). Now, if you close the dam, either completely for a short time, or a little bit for a longer time, water will build up behind the dam. Eventually, you'll reach another steady state -- either when the water spills over the top of the dam (if it's all closed up), or if the higher water level is pushing the water out faster. Either way, you'll be back to F[weathering]=F[out]. Now imagine suddenly opening the dam back up: for some time, you will have F[out] >> F[weathering], but only until Lake Meade has run dry. Jumping back from the analogy to the silica world now, you could imagine this sort of thing happening on glacial-interglacial timescales (this is Conley's idea now, from his 2002 paper in GBC vol. 16 section 68). Entering into a glacial, silica held in biomass might be released as the climate cools, resulting in a pulse of silica to the oceans, and a period of direct inputs from F[weathering] without going through the phytolith reservoir. In interglacials, inputs might be more indirect. As a lush, grassy vegetation builds up a large phytolith reservoir, most of the F[out] will be sourced from phytolith dissolution, but F[out] would actually have to be smaller than F[weathering] during the accumulation of the reservoir.
Does any of this make sense? I would love to hear your input, feedback, and ideas, and really appreciate your interest!
Best wishes from sunny Cambridge (MA),
- Ben.
I must confess to be astounded (and very pleased) that my little article was noticed, even more so that it was read all the way to the end! I hope this doesn't mean somebody will notice that the latest PalAss newsletter contains pretty much the identical text... Anyhow, I've thought a little bit about the role of plants in general, phytoliths and grasses in particular, in the silica cycle, and am only too happy to take the chance to share my thoughts and ask for your feedback. The short answer is that I think grassland expansion might change the delivery mode of silica to the oceans from a "steady trickle" to a "pulsed" pattern. I am not convinced that grassland expansion could actually increase the steady-state (or time-averaged) supply rate to the ocean. Let me explain why:
Plants can increase silicate weathering locally, and thus the supply of dissolved silica to the oceans, by a number of processes -- mechanical disaggregation of rock by roots, carbon dioxide pumping to the soils, acidity from humic and other organic acids, and so on. This is a pretty well established idea, and Berner used this in his GEOCARB model of carbon dioxide over time to argue for a decrease in atmospheric carbon dioxide with the rise of land plants in the Devonian. An important point to note, though, is that the silicate weathering rate over geological timescales is controlled (as far as we know) by the Walker feedback -- the temperature-silicate weathering-carbon dioxide feedback -- and plants can only really affect the weathering rate *constant*, not the rate itself. If you like, the feedback stabilizes pushes and pulls on a steady state -- the rate constant (cue plants) affects the tightness of the spring which couples push or pull to the system. If you haven't read the Walker paper, I highly recommend it (Walker, Hays, and Kasting, 1981, JGR vol. 86, 9776-9782). The key point, though, is that this has nothing to do with grasses and phytoliths -- as far as I know, there is no palpable difference between grasses and other plants in the way they disaggregate rock, produce humic acid, etc. to affect silicate weathering rates.
Now, the part that singles out grasses in the silica cycle is indeed the fact that grasses make phytoliths. Some folks have proposed that the evolutionary rise of grasslands to ecological dominance has thus increased the supply of silicic acid to the oceans; an example is the paper on modern plankton evolution by Falkowski and peeps (2004, Science vol. 305, 354-360). The idea behind it all is that grasses accumulate huge amounts of silica (up to around 10% dry weight) in various tissues, a lot of it as phytoliths (little amorphous silica shapes), much more than most other plants today (although some, like the horsetails, accumulate even more). This is, of course, fascinating for its own reasons from the perspective of vertebrate grazer evolution (or coevolution), which Phil can no doubt confirm, but that's beside the point here. The point that is frequently made regarding the silica cycle is that this phytolith silica is of a more soluble form than the silicate minerals from which silicate weathering supplies silicic acid (in part mediated by the processes listed at the start of the last paragraph). This is true -- amorphous silica is at least an order of magnitude more soluble than most silicates. If plants are producing this more soluble form, the dissolution of phytoliths will supply more silicic acid to the oceans (all the time via rivers, of course). However, I have a problem extrapolating from the solubility observation to the idea that the rate of supply can increase. Consider the following simple depiction of the system we're looking at:
Here, the rate of supply to the oceans is F[out]. You can immediately see that, unless the masses of the soil water or phytolith reservoirs change (i.e. violating steady state), F[out] must equal F[weathering]. Now, the size of the global phytolith reservoir is not known, but my own ball park estimate is that it's on the order of 1000 to 10,000 Tmol. Currently, F[out] is around 5 Tmol per year. I take the scenario in which phytoliths formation increases dissolved silica supply to the oceans to mean that F[out]>>F[Fweathering]. If you imagine, for argument's sake, the extreme case where F[weathering]=0, you would empty the phytolith reservoir in, at most, 2,000 years... Clearly, this can't be a prolonged source of extra silica.
What *could* happen, of course, is that the phytolith reservoir acts to modulate (here's where my word choice in the article comes in!) F[out]. What I mean here is best explained by analogy -- imagine a river with a dam (in this analogy, water=silica!). At steady state, with the sluice gates wide open, the river flux above the dam (F[weathering]) is the same as the flux out of dam(F[out]). Now, if you close the dam, either completely for a short time, or a little bit for a longer time, water will build up behind the dam. Eventually, you'll reach another steady state -- either when the water spills over the top of the dam (if it's all closed up), or if the higher water level is pushing the water out faster. Either way, you'll be back to F[weathering]=F[out]. Now imagine suddenly opening the dam back up: for some time, you will have F[out] >> F[weathering], but only until Lake Meade has run dry. Jumping back from the analogy to the silica world now, you could imagine this sort of thing happening on glacial-interglacial timescales (this is Conley's idea now, from his 2002 paper in GBC vol. 16 section 68). Entering into a glacial, silica held in biomass might be released as the climate cools, resulting in a pulse of silica to the oceans, and a period of direct inputs from F[weathering] without going through the phytolith reservoir. In interglacials, inputs might be more indirect. As a lush, grassy vegetation builds up a large phytolith reservoir, most of the F[out] will be sourced from phytolith dissolution, but F[out] would actually have to be smaller than F[weathering] during the accumulation of the reservoir.
Does any of this make sense? I would love to hear your input, feedback, and ideas, and really appreciate your interest!
Best wishes from sunny Cambridge (MA),
- Ben.
Thursday, August 23, 2007
Some palaeo-related discussion
Hello, my brethren.
Hope you're all well. Sadly I won't be making it out to Denver this year, but I hope anyone who goes has fun.
Now then, to business. John and I spent a few weeks in Santa Barbara doing a palaeobiological analysis course, and I thought it would be useful to let you all know what we actually covered, in case of any questions or discussions that might lead from it. We started with a bit of stuff about the philosophy of stats, and then covered geometric morphometrics, community palaeoecology (with lots of mathematical proofs), diversity curves, quantitative biochronology, phylogenetics (of the maximum likelihood variety), and speciation and extinction (lots of simulations, basically). So there you go.
And now a question for Ben. I read your report on your MSc project in the TMS newletter, and towards the end you mention the expansion of grasslands modulating silica supply to the oceans (presumably because of the phytoliths within the grasses?). Anyway, coming from the point of view of someone who has studied the expansion of grasslands but knows bugger all about the silica cycle, I'm just wondering how important a factor you think this would be in terms of radiolarian evolution, and the amount of silica reaching the oceans in general. The timing is rather interesting (late Eocene-early Oligocene), as this is when grasslands are hypothesised to have developed in South America (evidenced by hypsodonty rather than grass fossils themselves). Anyway, it struck me as being an interesting discussion point.
TTFN.
Hope you're all well. Sadly I won't be making it out to Denver this year, but I hope anyone who goes has fun.
Now then, to business. John and I spent a few weeks in Santa Barbara doing a palaeobiological analysis course, and I thought it would be useful to let you all know what we actually covered, in case of any questions or discussions that might lead from it. We started with a bit of stuff about the philosophy of stats, and then covered geometric morphometrics, community palaeoecology (with lots of mathematical proofs), diversity curves, quantitative biochronology, phylogenetics (of the maximum likelihood variety), and speciation and extinction (lots of simulations, basically). So there you go.
And now a question for Ben. I read your report on your MSc project in the TMS newletter, and towards the end you mention the expansion of grasslands modulating silica supply to the oceans (presumably because of the phytoliths within the grasses?). Anyway, coming from the point of view of someone who has studied the expansion of grasslands but knows bugger all about the silica cycle, I'm just wondering how important a factor you think this would be in terms of radiolarian evolution, and the amount of silica reaching the oceans in general. The timing is rather interesting (late Eocene-early Oligocene), as this is when grasslands are hypothesised to have developed in South America (evidenced by hypsodonty rather than grass fossils themselves). Anyway, it struck me as being an interesting discussion point.
TTFN.
Monday, August 20, 2007
Calling all of you all (to Denver)
Dear Palaeoamigos,
I recently found out that an abstract I submitted to this year's GSA was accepted, so I'll be traveling to Denver in October to check out that scene. It was a blast and a half when I went during the MSc year (you may or may not have noticed my absence), so I can highly recommend it -- is anyone else planning to attend? I found Monsieur Bells in the database... Anyone else? It would be fantabulous to see you.
I would also like to renew my invitation to all of you to come and visit me here in Boston. It's a fabulous place, especially in the fall. I am pleased to announce that Monsieur Koenstein has already announced his intention to visit (and, while he's here, look at some dino bones at the museum), so follow his bold lead, good friends, find an excuse to require the Harvard Museum of Natural History for your work, obtain some funding, and let's partay!
Hope you are all well,
Ciao!
- Ben.
I recently found out that an abstract I submitted to this year's GSA was accepted, so I'll be traveling to Denver in October to check out that scene. It was a blast and a half when I went during the MSc year (you may or may not have noticed my absence), so I can highly recommend it -- is anyone else planning to attend? I found Monsieur Bells in the database... Anyone else? It would be fantabulous to see you.
I would also like to renew my invitation to all of you to come and visit me here in Boston. It's a fabulous place, especially in the fall. I am pleased to announce that Monsieur Koenstein has already announced his intention to visit (and, while he's here, look at some dino bones at the museum), so follow his bold lead, good friends, find an excuse to require the Harvard Museum of Natural History for your work, obtain some funding, and let's partay!
Hope you are all well,
Ciao!
- Ben.
Monday, August 6, 2007
The demise of G4
Do you remember that place we used to go?
You know, that windowless place that had a moss green carpet and seats you'd need a tetanus jab for? Remeber now? With the macs that seldom worked and the rows of old desks. We'd be in there at all hours, sometimes working, sometimes drinking, sometimes bowing our heads in dispair or roaring with laughter. "Ahh, good times!" I hear you sigh. Remember playing your guitars in there, or practicing presentations?
Remember learning about taphonomy and ichnology, remember being handcuffed, or falling off the desks? Or watching Rob stuff oranges up his t-shirt and parading round like he had breasts? Well, all those memories have been ripped out folks. Yes, G4 is no more! The desks have gone, the carpet will probably go (i hope), it's all being binned to make way for a spanking new office that Bristol are going to try and cram 50 MSc and MESci (grrrrrrrrr) students into. (Yes I did type 50. This is paleontology battery-farm style!).
So as you're sitting at your computers, think back for a few moments for all the times that were. Because now, my fellow palaeopadwans, they exist only in memory............
Oh, and also....Rob's MSc paper has been accepted!!! He wouldn't write to tell you but I have no shame. I'm very proud.
That's all for now.
You know, that windowless place that had a moss green carpet and seats you'd need a tetanus jab for? Remeber now? With the macs that seldom worked and the rows of old desks. We'd be in there at all hours, sometimes working, sometimes drinking, sometimes bowing our heads in dispair or roaring with laughter. "Ahh, good times!" I hear you sigh. Remember playing your guitars in there, or practicing presentations?
Remember learning about taphonomy and ichnology, remember being handcuffed, or falling off the desks? Or watching Rob stuff oranges up his t-shirt and parading round like he had breasts? Well, all those memories have been ripped out folks. Yes, G4 is no more! The desks have gone, the carpet will probably go (i hope), it's all being binned to make way for a spanking new office that Bristol are going to try and cram 50 MSc and MESci (grrrrrrrrr) students into. (Yes I did type 50. This is paleontology battery-farm style!).
So as you're sitting at your computers, think back for a few moments for all the times that were. Because now, my fellow palaeopadwans, they exist only in memory............
Oh, and also....Rob's MSc paper has been accepted!!! He wouldn't write to tell you but I have no shame. I'm very proud.
That's all for now.
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