Courtship of an undescribed Deroceras species from Turkey.
The video is playing at the natural rate (once fully downloaded); the rotation rate gradually declines over the 50 min courtship, but this video repeats after 80 s. During courtship the spoon-shaped sarcobelum of each slug merely rests on the partner's back; this is retracted before copulation when the rest of the penis everts rapidly to exchange sperm.
I work mostly on terrestrial slugs. Part of the research is taxonomic, but I am particularly interested in the elaborate mating behaviour of these simultaneous hermaphrodites. Mating behaviour not only provides extra characters with which to establish species identity, but, because it is an isolating mechanism, may explain why some taxa are more speciose than others. We investigate the role of sexual selection and partner manipulation in explaining particular features of the mating behaviour and reproductive anatomy. Another aspect of my research has been genetic analysis, for instance to estimate outcrossing rates.
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Mating behaviour of Deroceras slugs—with Joris Koene, Mandy Benke, Ines Schulze, Barbara Jäschke, Esther Carlitz, Stefanie Visser & John Hutchinson
Deroceras mating behaviour is long and elaborate, involving a prolonged courtship and then a more rapid mutual exchange of sperm between the extruded penises. A couple of videos available here show some of the spectacular behaviour. Reise (2007) reviews the interspecific diversity. Recently we have been focussing on the role of a penial gland that is everted over the back of the partner releasing a secretion. Since this occurs after sperm exchange, we suspect that its role is to manipulate the partner in some way (cf. the love darts of helicid snails). For instance, it might increase use of the donated sperm or hinder subsequent remating. A poster explains the idea, but since then experiments by a succession of M.Sc. students have tested some of these hypotheses.
Another approach that we are taking is to observe the mating behaviour of species in which particular parts of the penial morphology are unusually developed. For instance, Reise et al. (2007)
consider whether the spectacularly branched penial gland of D. gorgonium is associated with unusual mating behaviour in this species.
Another reason for examining mating behaviour is to provide extra characters for taxonomy. For example, by studying the mating behaviour of Deroceras collected in the Sächsische Schweiz, we have recognised that D. rodnae needs to be split into at least two species with very different courtship and copulation behaviours (link to paper and videos).
Our recent analyses of mating behaviour have been much facilitated by the development of a digital video system based on the ISIS TFS 406 digital video recorder card (4 channels, up to 25 fps, 768 x 576 pixels). We also recommend the Fujitsu CG-311 video camera with Fujinon YV10x5B-2 lens.
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Remating, paternity and fecundity in Deroceras panormitanum—with Ines Schulze, Barbara Jäschke, Josefine Sauer, Christiane Matthieu, Sabrina Matton & John Hutchinson
This species is our laboratory rat. We have found that individuals are willing to mate within a few days of an earlier mating, and by utilising three Mendelian colour morphs of this species, we can assess the paternity of offspring. Selfing is usually rare, yielding very small clutches apparently as a last resort in the absence of allosperm. Individuals mated to two partners often produced clutches of mixed paternity, but one father usually predominates. Lifetime fecundity is higher in double mated slugs than those allowed to mate only once. We are currently investigating the reasons for this by closely observing matings to see why sperm exchange sometimes fails and by measuring fecundity of slugs mated twice to the same partner. Most of these experiments have been carried out by M.Sc. students and by school-leavers working here for a year under the FÖJ scheme.
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Species boundaries in Deroceras slugs—with Stefanie Visser, John Hutchinson & Thierry Backeljau
Deroceras is the most speciose genus of terrestrial slugs;
most species are externally indistinguishable but distinctive in their genitalia and mating behaviour.
We have been mapping zones of contact between D. praecox and D. rodnae in the mountains of southern Poland
and between D. praecox and D. fatrense in the Mala Fatra mountains of Slovakia.
The species overlap very little.
At one site a narrow mountain stream marks the border, but the genital morphology suggests some hybrids just where bridges cross.
My earlier work had found interspecific differences in the timing of mating that we thought would prevent hybridisation.
Our plans are to quantify intra- and interspecific courtship behaviour near zones of contact,
and to apply molecular techniques to assess gene flow.
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Faunistic work on terrestrial slugs and snails—with John Hutchinson
Most of the slugs and snails found in synanthropic habitats in North America are from Europe.
Because there are relatively few workers on slugs and snails there, we have succeeded
in finding several new species there that have not previously been recognised. Our publications of these finds
include reviews of each species’ biology and ecology:
Boettgerilla pallens,
Aegopinella nitidula and
Tandonia budapestensis.
The latter species has considerable scope for becoming a pest, as does
Deroceras panormitanum,
whose range we have considerably extended into the Eastern USA. Most recently we have surveyed a range of
synanthropic habitats in the Denver region of Colorado and the Salt Lake City region of Utah.
In Europe, we have extended the range of the slug
Deroceras turcicum, initially to the Czech Republic and Slovakia,
and more recently to Poland. Our paper (Reise & Hutchinson, 2001)
also discusses its considerable range of morphological variation
so as to facilitate identification. By chance, we were the first to collect the introduced carnivorous slug Selenochlamys ysbryda, from a churchyard in Wales, although we were too slow-witted to appreciate it at the time!
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Allometry of genitalia size in Arion slugs—with John Hutchinson
Arion slugs are hermaphrodites with a long courtship finishing with reciprocal exchange of freshly manufactured spermatophores via everted genitalia.
Is size of the distal genitalia (parts involved in spermatophore manufacture, exchange and digestion, and sometimes stroking the partner) sexually selected:
i.e. do large individuals invest in relatively large genitalia to increase mating success?
Alternatively, genitalia much larger than the partner’s could cause incompatibility.
For five species collected throughout the year from one site, we weighed each slug, then dissected out the reproductive tract.
Relative weights of its proximal parts indicated maturity.
Adult mass varied intraspecifically 3.4–8.8-fold and interspecifically 43-fold.
As slugs mature the distal genitalia grow disproportionately fast, but within adults they scale with slight negative allometry (cf. isometry of the digestive gland and slight positive allometry of the whole reproductive tract).
Interspecifically the relationship is isometric.
The two almost obligate selfing species have relatively smaller genitalia than similarly sized congeners.
We have since measured allometry of various components of the reproductive system of the terrestrial snail Helix pomatia and the freshwater basommatophorans Stagnicola corvus and Stagnicola turricula. This was in collaboration with Bartek Gołdyn and Tereza Kořínková.
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Reise et al. (2001) described a sinistral specimen of Arion lusitanicus;
this is only the 5th sinistral individual reported for any slug species.
Our attempts to mate our specimen with dextral conspecifics indicated that it was incapable of proceeding far with courtship.
We discussed the possible genetic basis of sinistrality in slugs, given the absence of sinistral siblings of three of the sinistral specimens reported.
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Publications—I welcome reprint requests!
REISE, H. 1990. Untersuchungen zur Ökologie und Biologie der Amsel (Turdus merula) im Stadtzentrum von Leipzig (Aves, Passeriformes: Turdidae). Zool. Abh. Staatl. Mus. Tierkd. Dresden 45(18): 155–178.
REISE, H. & HANELT, M. 1991. Ökofaunistik und populationsdynamische Aspekte der Kleinsäuger eines Basaltberges in der Oberlausitz. In: STUBBE, M., HEIDECKE, D. & STUBBE, A.: Populationsökologie von Kleinsäugerarten. Wiss. Beitr. Univ. Halle1990/34: 42.
REISE, H. 1994. Funde der Landplanarie, Rhychodesmus terrestris (O. F. Müller, 1774), in der Oberlausitz (Turbellaria: Tricladida). Ber. Naturforsch. Ges. Oberlausitz3: 89–90.
REISE, H. & BACKELJAU, T. 1994. Deroceras panormitanum (Lessona & Pollonera, 1882), sensu Giusti, 1986 in Ostsachsen (Gastropoda, Stylommatophora, Agriolimacidae). Abh. Ber. Naturkundemus. Görlitz68(1): 71–76.
REISE, H. 1995. Mating behaviour of Deroceras rodnae Grossu & Lupu, 1965 and D. praecox Wiktor, 1966 (Pulmonata, Agriolimacidae). J. Moll. Stud.61: 325–330.
REISE, H. 1996. Laboratory studies on courtship and egg laying of Deroceras rodnae Grossu et Lupu, 1965 and Deroceras praecox Wiktor, 1966. Malacol. Rev.Suppl. 6: 15–19.
REISE, H. 1996. Electrophoretic comparision of Deroceras rodnae and D. juranum (Pulmonata, Agriolimacidae). Britsh Crop Protection Council Symp. Proc.66: 315–320.
REISE, H., BACKELJAU, T. & SEIDEL, D. 1996. Erstnachweise dreier Schneckenarten und weitere malakofaunistisch bemerkenswerte Funde aus der Oberlausitz. Ber. Naturforsch. Ges. Oberlausitz5: 39–47.
SCHNIEBS, K., REISE, H. & BÖSSNECK, U. 1996. Rote Liste Land- und Süßwassermollusken. Sächsisches Landesamt für Umwelt und Geologie (Hrsg.), Radebeul.
REISE, H. 1997. Deroceras juranum—a Mendelian colour morph of D. rodnae (Gastropoda: Agriolimacidae). J. Zool., Lond.241: 103–115.
REISE, H., BACKELJAU, T. & LIECKFELDT, E. 1997. Verhaltensbeobachtungen und molekulargenetische Methoden zur Untersuchung von Taxonomie und Reproduktionsbiologie terrestrischer Nacktschnecken. Abh. Ber. Naturkundemus. Görlitz69: 191–198.
SCHNIEBS, K. & REISE, H. 1997. Auswertung des Herbsttreffens-Ost der DMG, 18.-20.10.1996 in Ottendorf (Sachsen). Erstfunde von Trichia lubomirskii und Arion alpinus. Mitt. dtsch. malakozool. Ges.59: 33–36.
REISE, H. & SCHNIEBS, K. 1997. Deroceras rodnae Grossu & Lupu 1965 in der Sächsischen Schweiz (Sachsen) (Pulmonata: Agriolimacidae). Mitt. dtsch. malakozool. Ges.59: 15–17.
JORDAENS, K., BACKELJAU, T., REISE, H., VAN RIEL, P. VERHAGEN, R. 1998. First record of Deroceras juranum outside the Jura mountains (Pulmonata: Agriolimacidae). J. Moll. Stud.64: 495–499.
JORDAENS, K., BACKELJAU, T., ONDINA, P., REISE, H. & VERHAGEN, R. 1998. Allozyme homozygosity and phally polymorphism in the land snail Zonitoides nitidus (Gastropoda, Pulmonata). J. Zool., Lond.246: 95–104.
JORDAENS, K., GEENEN, S., REISE, H., VAN RIEL, P., VERHAGEN, R. & BACKELJAU, T. 2000. Is there a geographical component in the prevalence of outcrossing in Carinarion? Heredity85: 571–579.
REISE,H., HUTCHINSON, J.M.C., FORSYTH, R.G. & FORSYTH, T. 2000.
The ecology and spread of the terrestrial slug Boettgerilla pallens
in Europe with reference to its recent discovery in North America. Veliger43:313–318.
Abstract, pdf and update
REISE, H., ZIMDARS, B. JORDAENS, K. & BACKELJAU, T. 2001. First evidence of possible outcrossing in the terrestrial slug Arion intermedius (Gastropoda: Pulmonata). Hereditas134: 267–270.
FORSYTH, R.G., HUTCHINSON, J.M.C. & REISE, H. 2001. Aegopinella
nitidula (Draparnaud, 1805) (Gastropoda: Zonitidae) in British Columbia—first confirmed North American record. American
Malacological Bulletin16:65–69.
Abstract and pdf.
REISE, H. & HUTCHINSON, J.M.C. 2001. Morphological variation in terrestrial slug Deroceras turcicum (Simroth, 1894), and a northern extension of its range in Central Europe. Folia Malacologica9:63–71.
Abstract and pdf.
REISE, H. & HUTCHINSON, J.M.C. 2002. Penis-biting slugs: wild claims and confusions. Trends in Ecology and Evolution17:163.
Downloadable from here
REISE, H., BENKE, M. & HUTCHINSON, J.M.C. 2002. A sinistral specimen of the terrestrial slug Arion lusitanicus (Gastropoda: Pulmonata: Arionidae). Malakologische Abhandlungen Staatliches Museum für Tierkunde Dresden20:247–252.
Abstract, pdf and update.
OVASKA, K., CHICHESTER, L., REISE, H., LEONARD, W.P. & BAUGH, J. 2002. Anatomy of the dromedary jumping-slug, Hemphillia dromedarius Branson 1972 (Gastropoda: Stylommatophora: Arionidae), with new distributional records. Nautilus116: 89–94.
REISE, H. 2004. Diversity of mating behaviour within Deroceras. Bull. Malacol. Soc. Lond.43: 11. [Online-version includes 2 videos]
REISE, H., HUTCHINSON, J.M.C., FORSYTH, R.G. & FORSYTH T.J. 2005. First records of the terrestrial slug Deroceras turcicum (Simroth, 1894) in Poland. Folia Malacologica13:177–179.
Abstract and pdf.
REISE, H., HUTCHINSON, J.M.C. & ROBINSON, D.G. 2006. Two introduced pest slugs: Tandonia budapestensis new to the Americas, and Deroceras panormitanum new to the Eastern USA.
Veliger48:110–115.
Abstract and pdf.
SCHNIEBS, K., REISE, H. & BÖSSNECK, U. 2006. Rote Liste Mollusken Sachsens. 2., überarbeitete Auflage, Sächsisches Landesamt für Umwelt und Geologie (Hrsg.), Dresden.
REISE, H., VISSER, S. & HUTCHINSON, J.M.C. 2007. Mating behaviour in the terrestrial slug Deroceras gorgonium: is extreme morphology associated with extreme behaviour? Animal Biology57:197–215.
Abstract and pdf.
REISE, H. 2007. Mating behaviour of Deroceras. Malacologist49: 14-15.
REISE, H. & HUTCHINSON, J.M.C. 2009. An earlier record of the slug Selenochlamys ysbryda from Brecon, UK. Journal of Conchology40:103.
Downloadable from here, with update.
HUTCHINSON, J.M.C. & REISE, H. 2009.
Mating behaviour clarifies the taxonomy of slug species defined by genital anatomy: the Deroceras rodnae complex in the Sächsische Schweiz and elsewhere. Mollusca27:183–200.
Abstract, pdf, and videos.
BENKE, M., REISE, H., MONTAGNE-WAJER, K. & KOENE, J.M. 2010. Cutaneous application of an accessory-gland secretion after sperm exchange in a terrestrial slug (Mollusca: Pulmonata). Zoology113:118–124.
Abstract and updated preprint.
REISE, H. & ENGELMANN, W.E. (in press): Gehäuselose Landlungenschnecken (Nacktschnecken). In: ENGELMANN, W. E. & LANGE, J. (Eds), Zootierhaltung-Tiere in menschlicher Obhut. Wirbellose. Verlag Harri Deutsch, Frankfurt am Main. ISBN 978-3-8171-1684-3
![[thumbnail]](figs/zoo3.jpg){kind=small}
![[Figure of Deroceras mating sequence]](figs/mating.gif)
![[Penial gland of Deroceras panormitanum]](figs/penialgland3.gif)
Click for enlargement and caption
![[Photo of Boettgerilla pallens]](figs/boet3.jpg)
B. pallens: click to enlarge + caption
![[Photo of Tandonia budapestensis]](figs/buda3.jpg)
T. budapestensis: click to enlarge + caption
![[Photo of Aegopinella nitidula]](figs/aego3.jpg)
A. nitidula: click to enlarge
![[Photo of Deroceras panormitanum]](figs/pano3.jpg)
D. panormitanum: click to enlarge + caption
![[Photo of Arion rufus mating]](figs/arion_mate3.jpg)
Click to enlarge + caption
![[Photo dissecting Deroceras in Mala Fatra]](figs/Heike_mic.jpg)
![[Photo teaching at Goerlitz Zoo]](figs/zoo.jpg)
![[Photo of Deroceras mating]](figs/sarc.jpg)