In the Grass, On the Reef: Testing the Ecology of Fear
Premieres on WFSU-TV Wednesday, June 29 at 7:30 PM, 6:30 CT. In high definition where available.
Rob Diaz de VillegasWFSU-TV
This clip is a short segment on one of the predators featured in this program: the horse conch. It’s practically an ecosystem onto itself, as you can see in the video’s poster frame above. Barnacles, crepidula, bryozoans, and other marine creatures that affix themselves to hard surfaces settle on its shell. In the video you’ll see its bright orange body as it roams the seagrass beds of the Forgotten Coast. And you’ll see it eat another large predatory snail, the lightning whelk.
A little over a year ago, when the FSU Coastal & Marine Laboratory and WFSU-TV – a TV station – started this online enterprise, the understanding was that at some point this would end up being a show. And so here we are. As you may have gathered from that video up there, this will be about predators and prey: who’s eating whom, and who’s scaring whom. We will of course be doing this through the prism of David and Randall’s studies: the consumptive and non-consumptive effects of predators in salt marshes and oyster reefs, and the methods used to shine a light on these interactions. Continue reading →
Scanning the photo, you can see crown conchs crawling about this Saint Augustine reef. Crown conchs are a normal sight on Florida reefs, but not to the extent seen here. David has tasked Hanna Garland with looking into this very localized phenomenon and its relationship with increasing reef failures.
Dr. David KimbroFSU Coastal & Marine Lab
Last week I detailed a recent trip to St. Augustine, ending the post with a mention of a side project being embarked upon by my lab there. Throughout the past year, we’ve noticed that our St. Augustine study site was loaded with tons of crown conchs. Although crown conchs are ubiquitous in Florida, they are abnormally abundant on our St. Augustine reefs and our St. Augustine reefs are mostly dead. All our other sites have relatively healthy looking oyster reefs and few crown conchs.
But a few miles north of our monitoring reefs, we find absolutely no crown conchs and the health of the oysters is great. Because crown conchs, as has been shown by the research of our very own Doc Herrnkind, love eating oysters, it’s easy to conclude that crown conchs have mowed down all the oysters on our monitoring reefs. But why are they restricted only to our monitoring reefs? Is there a predator of conchs present north of reefs but that is absent on our monitoring reefs? Perhaps the environment has changed in a way that killed all of the oysters and the crown conchs are just cleaning up the mess.
Proboscis out (protruding from the bottom of the snail), a crown conch heads towards a clump of oysters. The conch will use its proboscis to pry open the oyster shell and suck out the meat.
Luckily, Hanna has agreed to enter my lab as a graduate student to tackle this research project. So, she spent a number of days collecting coarse-scale data on the spatial extent of this conch-oyster pattern, consulting with locals about when this pattern developed, and talking with an oceanographer about how to learn whether and how the physical environment has lead to this pattern. In a forthcoming post, I’ll let Hanna fill you in on the details of this new project, which we will be implementing quickly. This is really important to the local community because our monitoring reefs and the conch infested area used to be the most productive area in St. Augustine for harvesting oysters and rearing clams. But now, aquaculture leases here have been abandoned and a very large population of crown conchs appears to have taken up residence.
Stay tuned for Hanna’s post later this week, she’ll go into a little more detail on what we’re doing.
David’s research is funded by the National Science Foundation.
On Wednesday, June 29 at 7:30 PM/ET, WFSU-TV premieres the In the Grass, On the Reef full length documentary. David and Randall guide us through the world of coastal predators (like crown conchs). Top predators maintain important ecosystems like salt marshes and oyster reefs- but the manner in which they do this may not be confined to eating prey. Tune in to find out more!
When I heard it was supposed to rain on Saturday, I was a little bummed. I was planning on taking the family to the FSU Coastal and Marine Lab Open House followed by the FSU Spring Game (where my 12-week old son could attend his first football game featuring my two favorite teams). Luckily, the storms rolled through early in the morning and made for a nice day at the coast.
I started off by visiting my friends at the Randall Hughes and David Kimbro labs. Robyn and Emily held down the fort in the Hughes lab, where kids watched a very peculiar sport. As Randall’s previous post promised, there were indeed periwinkle snail races. As you can see from the photo at the right here, the snails were color coded (white and blue) and numbered so that they could be told apart. Some crown conchs (periwinkle predators) were placed into the tubs to give the smaller snails some incentive to climb. The fastest climbers won. Let’s watch part of one race:
A listing of the animals seen in the slideshow is at the end of this post.
March is Seagrass Awareness Month, so it seems a fitting time to share some photos we took last fall. Seagrass beds are an under-appreciated habitat; they’re very productive and are more important than meets the eye (here I admit that neither seagrass beds or salt marshes seemed all that interesting to me until I actually went into them and took a closer look). Here are a few quick facts: Continue reading →