Dr. Rob Dillon, Coordinator





Tuesday, August 5, 2014

Just Before The Bust

Editor’s Note – This essay was subsequently published as: Dillon, R.T., Jr. (2019d)  Just Before The Bust.  Pp 55 - 61 in The Freshwater Gastropods of North America Volume 4, Essays on Ecology and Biogeography.  FWGNA Press, Charleston.

The fall line as it arcs through the midlands of South Carolina is a rather indistinct region of broad shoals and rocky flats, featuring no actual falls, constituting no real line.  The Catawba River enters this region at Great Falls, SC, and, finding nothing especially remarkable, much less great, traces a lazy path about 25 miles south to the vicinity of Camden, changing its name to the Wateree River somewhere along the journey, possibly out of boredom.  Prior to the 20th century, I feel certain that this section of the river presented at least occasional rocky shoals and rapids.  But it was on the last shoal of the Catawba/Wateree, perhaps 6-8 miles north of Camden, that Duke Power built a hydroelectric dam in 1920. 

Undistinguished by its 225 foot height, but stretching a longish 3,380 ft. across the wide river channel and associated flood plain, the Wateree Dam and Hydro Station has a 56 megawatt capacity, typically generating a daily 3-5 foot cycle at the gauge in its tailwaters during the warm months.  Its 13,864 acre reservoir also sees substantial recreational use, Duke Power having thoughtfully provided boat ramps and fisherman’s accesses throughout.
Invasive populations of Bellamya (or Cipangopaludina) japonica have been established in South Carolina since at least 1995 [1].  And indeed, my good friend Bill Poly of the SCDNR alerted me to the introduction of a Bellamya population in the Wateree Dam tailwaters back in June of 2011.  So I was not surprised by the email I received last month from another of my good friends among the ranks of state aquatic biologists, David Eargle of SCDHEC.  But the way he described the gastropod situation downstream from the Wateree Dam piqued my curiosity.  David reported “Unbelievable numbers of Bellamya.  One area I thought at first was a gravel bar was all snails.  Amazing.”

So I picked out a nice Saturday late last month, loaded my kayak into the back of my pickup, and headed up the interstate northwest about 2.5 hours from Charleston to the tailwaters of the Wateree Dam.  And indeed, the adjective “amazing” describes the situation quite well.

The fisherman’s access is on the right (descending) bank of the river.  I launched my kayak and paddled maybe 20 - 30 yards across the main channel about mid-day, to the broad and (in spots) marshy region, dissected by rocky pools and shoals, that extends across the left 90% of the riverbed.  The photo below was snapped in that left-side rocky/marshy region looking downstream.  The photo at the top of this essay was snapped from the same vantage point, looking upstream.
So the third photo in this series is a typical vista looking across one of those rocky pools downstream from the Wateree Dam.  The water levels had been dropping steadily all afternoon on this particular Saturday, reaching an extreme low around 4:30 PM, at which time the horn sounded and the hydro station began to generate.  The photo below was taken around 4:00 PM.
And the next photo was snapped looking directly down through about a foot of clear water, showing that the bottom of a typical channel is essentially a “bed” of gastropods, piled on top of each other, perhaps three or four snails deep.   If you click on the image below you can download a high-resolution (4.5 mb) jpeg, zoom in,  and see that the snails are not grazing.  They are lying on their backs on the bottom of the Wateree River, apparently filter feeding like a bed of mussels.
The ability to filter-feed is fairly well-documented in viviparids [2].  In fact, if you shop in one of those nurseries that specialize in backyard water-gardens, the salesmen will often advise you to purchase “Japanese Mystery Snails” for $1.00 each (or $10 per dozen) to help “clarify” the water in your ornamental lily pond.  Which I think they probably do.

Notice in this next photo that the snails in my net seem to be strikingly uniform in size, all approximately 30 – 40 mm in standard shell length.  It was my impression that the population was comprised almost entirely of the one-year-old age class, probably born in the spring and summer of 2013.  I noticed a few young-of-the-year juveniles the afternoon of my visit, all in the 10 mm size range, and just a couple 60 mm “lunkers,” which must have been 2+ years old.  But overall, the size distribution of the snail population struck me as unusually homogeneous.
So the tide hit dead low at about 4:30 PM, and I started back through the rocky marsh, more dragging my kayak than paddling it.  And I happened to wade through one warm pool with a slightly muddy bottom, apparently not receiving as much current as some of the others.  And when I turned back to look in my wake, this is what I saw:
These are empty shells, of course.  The snail has died and rotted, and the empty shell filled with gas.  I must have kicked up several hundred such “floaters” as I walked back to the channel.

It seems likely to me that the Bellamya population downstream from the Wateree Dam is on the verge of a bust.  Dramatic die-offs of invasive viviparid populations are not uncommon in the southeastern United States [3], occasionally even reaching the attention of the popular press.  I got telephone calls about a stinking Bellamya die-off in Lake Murray on the other side of Columbia a couple years ago, and there was a huge mess on the Neabsco River up in Virginia in 2010, necessitating the deployment of heavy equipment.  But in all cases of my personal experience, the phenomenon is discovered after the crash.  Last month’s observations were the first I have ever personally made during the population flush phase.

The population age distribution was especially interesting to me.  So I loaded my kayak back in my pickup and drove around the fisherman’s access roads to Lake Wateree just above the dam, maybe 300 yards upstream from where I had spent most of the afternoon.  The size distribution of the Bellamya population in the shallows of the reservoir seemed dominated by big lunkers 50-60 mm in shell length, which is normal year-round in the Carolinas, in my experience.  Typically very few animals aged one year and younger will be apparent upon a causal census of a Bellamya population around here.  I took this as evidence that the Bellamya population downstream from the Wateree Dam had reproduced explosively in the last year or so.

“Boom-and-bust” or “flush-crash” population dynamics are a familiar aspect of invasive species biology.  But it is my impression, after a couple hours of poking around the published literature, that about 95% of everything we know is anecdotal [4].  Danielle Haak and her colleagues [5] suggested that a 17-39% die-off of the adult Bellamya population in a Nebraska reservoir was due to “an extreme drought event, which was coincident with abnormally hot weather.”  Moore and colleagues [6] documented the community effects of a Potamopyrgus boom-and-bust cycle in California, reviewing the three most obvious hypotheses to account for the bust (weather, intraspecific competition and predators/pathogens), but not ultimately selecting a favorite [7].

Simberloff and Gibbons [8] conducted an “exhaustive” review of the worldwide literature on population crashes of established introduced species, together with systematic “queries to experts on invasives by particular taxa.”  They observed:
“even quantitative data documenting perceived declines were exceedingly scarce, while the great majority of proposed explanations were simply more-or-less reasonable ad hoc suggestions with no supporting evidence.”
Across the N=17 case studies Simberloff considered the best-documented, four of the putative causes were “competition with other introduced species,” with one case each for “parasitism by subsequently introduced species,” “adaptation by native herbivore,” and “exhaustion of resource.”  And for ten of the 17 best-documented invasive species population busts [9], “there is no strong evidence suggesting a cause.”

One would think, with all the dump trucks full of money being spent to study the causes and consequences of biological invasions worldwide – all the weeds, all the bugs, and all the slugs combined – at least a little funding would be available to study why this problem, at least occasionally, solves itself.  Or am I wrong, again?


Notes

[1] This is the fifth post I have authored in the last ten years on Bellamya invasion.  If you’re interested in digging into the phenomenon, perhaps the best approach would be to first go to the FWGNA pages on Bellamya japonica and the closely-related Bellamya chinensis, read the general biology, and then follow the links from the “Essays” sections at the bottom of those two species pages back to this blog.   So start here:
  • Bellamya japonica [FWGNA]
  • Bellamya chinensis [FWGNA]

[2] See pp 99 – 100 in my book:
Dillon, R. T. (2000) The Ecology of Freshwater Molluscs.  Cambridge University Press.

[3] Invasive viviparids in South Carolina [19Oct03]

[4] The irony that I myself am adding yet another anecdotal report here does not escape me.

[5] Haak, D. M., N. M. Chaine, B. J. Stephen, A. Wong, & C. R. Allen (2013)  Mortality estimate of Chinese mystery snail, Bellamya chinensis in a Nebraska reservoir.  BioInvasions Records 2: 137-139.

[6] Moore, J. W., D. B. Herbst, W. N. Heady and S. M. Carlson (2012)  Stream community and ecosystem responses to the boom and bust of an invading snail.  Biological Invasions 14: 2435-2446.

[7] Have there been similar (local) crashes of Potamopyrgus populations throughout the American West?  This was the impression that I took from the Snake River below Minidoka Dam in 2010, mentioned in footnote #4 here:
  • The Mystery of the SRALP: A Twofold Quest! [1Mar13]

[8] Simberloff, D. & L. Gibbons (2004)  Now you see them, now you don’t – Population crashes of established introduced species.  Biological Invasions 6: 161-172.

[9] Including the giant African land snail Achatina on Pacific islands.

6 comments:

  1. Wow! That's a lot of snails!

    Is the pale yellow color of the animal seen in photo 4 typical of B. japonica? All I have seen out here in Idaho is B. chinensis, in which the animal is dark gray with fine orange spots.

    Matt Hill

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    1. Good question! My own observations are VERY casual, but tend to agree with yours that SC Bellamya are predominantly gray, like the image at the bottom of the B. japonica species page:
      http://www.fwgna.org/species/viviparidae/Bjaponica_Lukhaup.JPG
      So why are all those snails in Fig #4 so yellow? Do their heads and necks get yellower when extended more fully? I do not know.

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  2. Wow. That's a lot of snails. I remember sending you a picture of a Bellamya from Fishing Creek Lake at High Falls around 2006, and at that time I couldn't even find a Bellamya in upper Lake Wateree (although they had been in Lake Wylie upstream for years before that). How things have changed.
    Speaking of changes, the reason the Catawba River changes its name to the Wateree below Great Falls is because the Wateree actually used to be a separate river. On maps from the 1600's, the Wateree is clearly a separate river, flowing to the sea independently of the Catawba River, which meets the sea through the Santee. That's because the the "Wateree River" used to be what we now called the Yadkin River in NC. It was named after a Native American community located near Salisbury. But the "Wateree" People moved down to South Carolina sometime before 1700, probably to escape devastation from slavers raiding from Virginia.
    They brought the "Wateree" name with them, and their name became attached to the SC river where they settled, and the name "Catawba" was restricted to the upper part of the same river, where the "Catawba" community originated and coalesced.
    Interestingly, the largest Native American mound in SC is/was also located on the Wateree River near Camden, although it predates the arrive of the Wateree People.
    The Wateree area was the capital of a powerful culture in the early 1500's, easily the dominant culture in the state at that time, feared as far away as central Georgia. There had been other similarly powerful cultural centers on the middle Savannah and Saluda Rivers in the 1300's, but they all collapsed during the 1400's for unknown reasons, leaving the Camden cultural center a the single remaining power at the time of European contact -- which proved disastrous to it. The European-aided collapse of that culture created the vacuum which the NC "Wateree" moved south to fill, thus giving us the Catawba/Wateree River.
    I blame it on de Soto.

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    1. Good to hear from you, Old Buddy! Thanks for the history lesson on the double name for the Catawba/Wateree River. And speaking of invasions, both human and otherwise. Last month a midstate naturalist named Austin Jenkins reported the first Viviparus georgianus in Lake Wateree:
      http://www.saunterinthesandhills.com/from-the-field/2014/7/5/snails-and-pirates
      Heading your way, Old Buddy! First Sherman, and now this.

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    2. Oh, no. I get back from Georgia and Georgia(nus) follows me home?! This is why I love your site -- who else is going to keep me up-to-date on all these wandering mollusks? But they will have to do better than Lake Wateree to catch up with me; I'm working up by the (Falls of the) Neuse River now.
      Speaking of the wandering Wateree, I'm asking myself now if there is any way the 10,000 years of human prehistory in the southeast could have impacted freshwater snails -- but I can't imagine how to detect such a thing. Obviously modern humans are tremendous dispersal agents. Would snail species have had more drainage-restricted pre-modern distributions if not for the movements of pre-modern people? Hard enough to show that kind of thing in plants, but fun to think about, as in why are there so many drainage-specific amphibians and bivalves (and even fish and crayfish) in NC but so few drainage-specific gastropods? There's bird dispersal, sure. Maybe that was enough to produce the distributions we see, and then again maybe it wasn't, but how could you test that... Botanists struggle with these same questions.

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    3. Good question. My own hypothesis is that freshwater gastropods can be divided into two groups on the basis of their dispersal capabilities: much-much-better-than-fish, and much-much-worse-than-fish. The MMBTF groups (including the viviparids and all the pulmonates) demonstrate continent-scale distributions, easily transcending river drainages and even mountain ranges. The MMWTF groups (basically the pleurocerids) demonstrate distributions that pre-date the drainage systems as they currently appear. See my post of 16Mar09 for more.

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