Editor’s Note – This essay was subsequently published as: Dillon, R.T., Jr. (2023c) Invasive Species Updates. Pp 15 – 22 in The Freshwater Gastropods of North America Volume 7, Collected in Turn One, and Other Essays. FWGNA Project, Charleston, SC.
Potamopyrgus in
Maryland. Early last September our
good buddy Matt Ashton of the Maryland DNR sent me an email with a couple jpegs
attached, including the photo below.
Matt was forwarding the report of a concerned citizen with very good
reason to think he had discovered New Zealand Mud Snails in the Gunpowder River
at the Prettyboy Dam tailwaters, about 30 km north of Baltimore. See the 21Sept17 article in The Baltimore Sun
from note [2] below for more details.
From Matt Ashton, MD-DNR |
This is the second population of Potamopyrgus antipodarium reported from a
US Atlantic drainage. My readership will
probably remember the first report I posted back in November of 2013, from a
small tributary of the Susquehanna River in central Pennsylvania, also heavily fished
by trout anglers [4]. Spring Creek is
perhaps 50 km north of the Gunpowder headwaters. The implication would be that the little
snails were transported from Pennsylvania to Maryland via muddy waders or bait
buckets.
From the mouth of the Gunpowder to the heart of our nation’s
capital is but another 80 km. I
understand that legislation has been introduced in Congress to build a big,
beautiful six-inch wall from the Delaware River to the West Virginia line, with
a three-inch guardhouse on the Baltimore/Washington parkway.
And (less
surprisingly) in Syracuse. The Great
Lakes populations of Potamopyrgus are much older than the Atlantic populations;
New Zealand mud snails were first reported from Lake Ontario as early as 1991
and Lake Erie in 2005. So, surfing
around in the USGS-NAS Nonindigenous Aquatic Species Database [5], I picked up
a couple 2016 reports of Potamopyrgus in tributaries of Onondaga Lake, near
Syracuse.
The Erie Canal runs from the eastern end of Lake Erie across the width of New York, intersecting Oneida Lake and the tailwaters of several of the Finger Lakes, as well as Onondaga Lake,
to meet the Hudson River just north of Albany.
How long will it be until tired, poor Potamopyrgus are tempest-tossed down
the Hudson into New York Harbor, to enter Ellis Island through the back
door? Is that one golden, too?
Pomacea progress. As threatening as an invasion of 5 mm snails down
from the north most certainly must be to homeland security, the threat posed by
an army of 5 cm snails advancing up from the south is two orders of magnitude
worse. On the plus side, however, we are
getting some very good science out of it.
In late 2015 our colleague Ken Hayes and 32 coauthors
published a comprehensive review of the biology of the entire family Ampullariidae
[6], broader than their systematic paper of 2012 [7] and better-integrated than
the big 2006 book edited by Joshi & Sebastian [8]. More than just the economically-important
pests and pets, the authors reviewed the entire scientific literature published
on all 117 ampullariid species (by their estimate) in all 7 genera worldwide.
But though Ken and his colleagues cast their nets as broadly
as possible, what they drew back was almost entirely Pomacea canaliculata. They concluded with a call for additional
research of a comparative nature, including behavioral studies that might
reveal patterns that may have played a role in the evolution of the other 116
species. We most certainly agree.
PhilRice II. So speaking of Joshi & Sebastian. Last year the Philippine Rice Institute published a second big collection of research focused on the Pomacea invasion, this volume with our good friend Rob Cowie among the editors [9]. A free pdf download is available from the link below.
PhilRice II. So speaking of Joshi & Sebastian. Last year the Philippine Rice Institute published a second big collection of research focused on the Pomacea invasion, this volume with our good friend Rob Cowie among the editors [9]. A free pdf download is available from the link below.
Fig. 7 of Rama Rao et al. [14] |
Maculata/canaliculata
hybridization. Since the first
appearance of pest Pomacea in North America, I have continued to be especially
curious about reproductive isolation between populations of P. canaliculata and
what is now called P. maculata. So
perhaps the most interesting Pomacea news in recent years, from my perspective,
was the 2008 discovery that P. maculata has been introduced together with P.
canaliculata throughout east and southeast Asia [10].
Apparently published a bit too late to be collected in the
nets of Hayes and his 32 colleagues was an excellent 2013 study by Matsukura et
al. documenting extensive hybridization between P. canaliculata and P. maculata
throughout Japan, Korea, Vietnam and The Philippines [11]. Of the 16 populations sampled, 7 (all
Japanese) were apparently pure canaliculata.
The remaining 9 were mixtures, including one population that was
primarily maculata with a few hybrids, and one that was primarily hybrid, with
a few pure maculata and canaliculata.
Even more interestingly, Matsukura performed a set of
no-choice mating experiments between canaliculata and maculata, suggesting that
F1 hybrid clutches suffer significant reduction in their hatching rates, from around
80% down to maybe 20% [12].
Pomacea release sex pheromones and demonstrate elaborate
courtship behaviors, featuring nuptial gifts [13]. It would be tempting to hypothesize that some
sort of prezygotic reproductive isolating mechanisms may have evolved in their
native ranges, which have now broken down in Asian rice fields, as lions and
tigers mate in zoos. But in a surprise
finish, Matsukura and colleagues also obtained a sample of 17 individual Pomacea
from 5 sites in Argentina and discovered evidence of hybridization in ten of
them! Even in the home range. Fascinating.
If maculata and canaliculata cannot tell each other apart,
how can we? Hayes et al. [7] observed
that typical egg masses of P. maculata contain significantly more eggs of a
significantly smaller size than P. canaliculata, a result that Matsukura and
colleagues confirmed in Japan. But
that’s not terribly helpful with an adult in hand.
So Hayes et al [7] also suggested a variety of
distinguishing shell traits [14], including adult size, ratio of spire height
to shell length, shell thickness, umbilicus, shouldering, and lip
pigmentation. But just last month Rama Rao
and colleagues [15] published an interesting study of 130 Pomacea sampled from
8 populations in peninsular Malaysia, 5 of which turned out to be
canaliculata/maculata mixtures, judging from CO1 sequence.
Rama Rao and colleagues did not employ nuclear markers,
and hence could not identify hybrids [16].
But judging from mtDNA haplotype, they selected 26 canaliculata and 26
maculata and performed an extensive series of shell morphological and
morphometric analyses, including simple linear measures and ratios as well as
the geometric analysis shown in the figure above. They did discover a statistically-significant
difference between the two groups in ratios of shell height to shell width and
aperture height, but of such a fine nature as to be practically useless. The bottom line is that the Pomacea of
Malaysia seem to comprise one single heap of big slimy snails, darn near indivisible.
And meanwhile, in
South Carolina. Our colleague
Elizabeth Gooding and six coauthors (including yours truly) have just published
a statewide survey [17] for Pomacea at the highest latitudes of its current US
range [18]. The Socastee/Myrtle Beach
area [19] is on the northern tip of USDA cold-hardiness zone 8b, with average
annual extreme minimums around 15 to 20 degrees F, or -9 to -6 degrees C. We report both copulation and egg laying
year-round, even in coldest months of winter [20].
I understand that legislation has been introduced in Washington to build a
big, beautiful wall on the North Carolina line from Cape Hatteras to Tennessee,
50 feet tall by back-of-the-envelope calculation [21], Pedro himself manning
the I-95 guardhouse just two mucus trails and one gigantic traffic jam North of
the Border.
Notes
[1] My earlier Pomacea reviews include:
[3] The situation is actually a bit more complicated. The first 7.2 miles below the dam are managed
as a wild trout stream, catch-and release.
Anglers in the next 4.2 miles can keep two trout/day. And the next 6.1 miles are stocked in the
spring and fall with ordinary hatchery-reared trout, creel limit five trout/day. See MD-DNR-fisheries.
[4] For more about the discovery of New Zealand Mud Snails
in central Pennsylvania:
- Potamopyrgus in US Atlantic Drainages [19Nov13]
[7] Hayes KA, Cowie RH, Thiengo SC, Strong EE (2012) Comparing
apples with apples: clarifying the identities of two highly invasive
Neotropical Ampullariidae (Caenogastropoda). Zool J Linn Soc. 166(4): 723–753.
[8] Joshi RC, Sebastian LS. (2006) Global advances in
ecology and management of golden apple snails: Philippine Rice Research
Institute (PhilRice), 600 pp.
[9] Joshi, RC, Cowie RH, Sebastian LS. (2017) Biology and management of invasive apple snails. Philippine Rice Research Institute (PhilRice) 406 pp. [PDF]
[9] Joshi, RC, Cowie RH, Sebastian LS. (2017) Biology and management of invasive apple snails. Philippine Rice Research Institute (PhilRice) 406 pp. [PDF]
[10] Hayes, K. A. et al. (2008) Out of South America:
multiple origins of non-native apple snails in Asia. Diversity and Distributions 14: 701-712.
Matsukura, K. et al. (2008) Genetic divergence of the genus
Pomacea (Gastropoda: Ampullariidae) distributed in Japan, and a simple
molecular method to distinguish between P. canaliculata and P. maculata. Appl. Entomol. Zool. 43:535-540.
[11] Matsukura, K et al.
(2013) Genetic exchange between two freshwater apple snails, Pomacea
canaliculata and Pomacea maculata invading East and Southeast Asia. Biol. Invasions 15: 2039-2048.
[12] The hatchability experiment was not as neat as one
might hope, and the results a bit ambiguous.
See the paper itself [10] for details.
[13] Burela S, Martin PR. 2009. Sequential pathways in the mating behavior of
the apple snail Pomacea canaliculata (Caenogastropoda: Ampullariidae). Malacologia 51: 157 – 164.
Burela S, Martín PR. 2011. Evolution and functional
significance of lengthy copulations in a promiscuous apple snail, Pomacea
canaliculata (Caenogastropoda: Ampullariidae).
Journal of Molluscan Studies 77: 54–64.
Takeichi M, Hirai Y, Yusa Y. 2007. A water-born sex pheromone
and trail following in the apple snail, Pomacea canaliculata. Journal of Molluscan Studies 73: 275–278.
[14] There are also anatomical differences between
canaliculata and maculata, most notably a difference in penial sheath. A study of anatomical hybrids would be most
salutary.
[15] Rama Rao S, Liew T-S, Yow Y-Y, Ratnayeke S (2018)
Cryptic diversity: Two morphologically similar species of invasive apple snail
in Peninsular Malaysia. PLoS ONE 13(5): e0196582.
[16] Back in the allozyme days, I could have solved that
problem with one afternoon in the laboratory and $30 for reagents. It does frustrate me that science often seems
to lose good old technology in its restless quest for the new.
[17] This is the same survey of which I made passing mention
in my essays of November and December of 2015.
Although we did not discover any Pomacea on Hilton Head Island, we do
formally report invasive populations of Bellamya, Biomphalaria, Melanoides and
Pyrgophorus in our 2018 paper [17]. To
refresh your memory:
- The Many Invasions of Hilton Head [16Dec15]
[19] Yes, the introduction of Pomacea we first reported from
the Myrtle Beach area in 2008 may even be spreading. I understand that the initial site of
discovery around that trailer park in Socastee was treated with copper sulfate,
but the snails seem to have jumped a couple km SE into ditches and stormwater
retention ponds around a sprawl of strip malls and big-box retailers. For ancient history, see:
[21] If a 6-inch wall is sufficient to stop a 5 mm gastropod
coming south between Baltimore and Washington, then to stop a 5 cm gastropod advancing
north from the Carolinas we need 100 x 6 inches = 600 inches = 50 feet.