Abstracts
Bulimulus tenuissimus (d'Orbigny, 1835) is a land snail of parasitological importance with a poorly understood biology. The goal of this laboratory study was to determine development and reproductive patterns in B. tenuissimus. Recently hatched individuals in seven groups of 10 were maintained in the laboratory for two years. To test for self-fertilization, 73 additional individuals were isolated. After 180 days the isolated snails showed no signs of reproduction. Subsequently, 30 of these snails were paired to test fertility. We noted the date and time of egg-laying, the number of eggs produced, the number of egg-layings per individual, the incubation period and hatch success. This species shows indeterminate growth. Individuals that were maintained with others, as compared to isolated individuals, laid eggs sooner, laid more eggs and had a greater hatching success. This species can self-fertilize, however, with lower reproductive success. Bulimulus tenuissimus has a well-defined reproductive period that is apparently characteristic for this species.
Growth; land snail; reproduction
Apesar de ser uma espécie de importância parasitológica, não existem estudos sobre a biologia de Bulimulus tenuissimus (d'Orbigny, 1835). O objetivo desse trabalho foi verificar o padrão de crescimento e aspectos reprodutivos dessa espécie em laboratório. Assim, 70 animais recém-eclodidos foram distribuídos em sete grupos, com 10 moluscos cada, por um período de dois anos. Para estes animais foi verificado o padrão de crescimento. A ocorrência de autofecundação foi observada através do isolamento de 73 animais. Por não ter sido verificado autofecundação em um período de 180 dias, 30 animais que estavam em isolamento foram pareados de modo a confirmar a fertilidade destes. Registrou-se o tempo para início da oviposição, número de ovos e de posturas, intervalo entre posturas e taxa de eclosão. Foi verificado um padrão de crescimento indeterminado para a espécie. Os animais mantidos agrupados iniciaram a oviposição mais cedo, produziram mais ovos e apresentaram maior eclodibilidade do que os demais grupos. A espécie é capaz de realizar autofecundação, porém um menor sucesso reprodutivo é obtido nesse processo. Os indivíduos de B. tenuissimus apresentaram um período reprodutivo bem definido que parece ser característico para a espécie.
Crescimento; reprodução; molusco terrestre
BIOLOGY
Development and reproduction in Bulimulus tenuissimus (Mollusca: Bulimulidae) in laboratory
Padrão de desenvolvimento e aspectos reprodutivos de Bulimulus tenuissimus (Mollusca: Bulimulidae) em condições de laboratório
Lidiane C. Silva; Liliane M. O. Meireles; Flávia O. Junqueira; Elisabeth C. A. Bessa
Núcleo de Malacologia, Departamento de Zoologia, Instituto de Ciências Biológicas, Universidade Federal de Juiz de Fora. Campus Universitário, 36036-330 Juiz de Fora, Minas Gerais, Brasil. E-mail: lhybio@yahoo.com.br
ABSTRACT
Bulimulus tenuissimus (d'Orbigny, 1835) is a land snail of parasitological importance with a poorly understood biology. The goal of this laboratory study was to determine development and reproductive patterns in B. tenuissimus. Recently hatched individuals in seven groups of 10 were maintained in the laboratory for two years. To test for self-fertilization, 73 additional individuals were isolated. After 180 days the isolated snails showed no signs of reproduction. Subsequently, 30 of these snails were paired to test fertility. We noted the date and time of egg-laying, the number of eggs produced, the number of egg-layings per individual, the incubation period and hatch success. This species shows indeterminate growth. Individuals that were maintained with others, as compared to isolated individuals, laid eggs sooner, laid more eggs and had a greater hatching success. This species can self-fertilize, however, with lower reproductive success. Bulimulus tenuissimus has a well-defined reproductive period that is apparently characteristic for this species.
Key Words: Growth; land snail; reproduction.
RESUMO
Apesar de ser uma espécie de importância parasitológica, não existem estudos sobre a biologia de Bulimulus tenuissimus (d'Orbigny, 1835). O objetivo desse trabalho foi verificar o padrão de crescimento e aspectos reprodutivos dessa espécie em laboratório. Assim, 70 animais recém-eclodidos foram distribuídos em sete grupos, com 10 moluscos cada, por um período de dois anos. Para estes animais foi verificado o padrão de crescimento. A ocorrência de autofecundação foi observada através do isolamento de 73 animais. Por não ter sido verificado autofecundação em um período de 180 dias, 30 animais que estavam em isolamento foram pareados de modo a confirmar a fertilidade destes. Registrou-se o tempo para início da oviposição, número de ovos e de posturas, intervalo entre posturas e taxa de eclosão. Foi verificado um padrão de crescimento indeterminado para a espécie. Os animais mantidos agrupados iniciaram a oviposição mais cedo, produziram mais ovos e apresentaram maior eclodibilidade do que os demais grupos. A espécie é capaz de realizar autofecundação, porém um menor sucesso reprodutivo é obtido nesse processo. Os indivíduos de B. tenuissimus apresentaram um período reprodutivo bem definido que parece ser característico para a espécie.
Palavras-Chave: Crescimento; reprodução; molusco terrestre.
The tropical land snail, Bulimulustenuissimus (dOrbigny, 1835), is the only species in its family with parasitological importance, being an intermediate host for parasitic helminths that infest domestic animals (THIENGO & AMATO 1995). Additionally, it is widespread in Brazil and therefore potentially very important for its medicinal impact (MORRETES 1943). While studied anatomically and histologically (ARAÚJO etal. 1960, REZENDE & LANZIERE 1964), its biology and behavior are almost unknown. Studies of development patterns reproduction are needed to inform possible control management of this species and its parasites (DAVILA etal. 2004).
The goal of this study is to describe patterns of growth and the reproductive biology of this species, including fecundity, number of lifetime reproductive events, incubation and hatching rate of B.tenuissimus.
MATERIAL AND METHODS
Growth and reproduction was studied in B.tenuissimusfrom May 2005 to May 2007. Recently hatched animals were gathered for the study from cultivation in the laboratory at the Mollusk Biology Laboratory at the Professor Maury Pinto de Oliveira Museum of Malacology, of the Federal University Juiz de Fora, where this study took place.
Seven groups of animals (10 snails in each) were maintained in plastic terrariums (14 cm x 9 cm deep) for two years. Substrate (mulch dirt) was sterilized (at 120°C for one hour) and then, during culture, was humidified once a day (BESSA & 30 27 ARAÚJO 1995). Animals were fed with commercial rations (for 24 bird courtship), enriched with calcium carbonate at 3:1 (OLIVEIRA et al. 1968, BESSA & ARAÚJO 1995). Rations were placed daily in a small plastic container (3 cm diameter) to avoid contaminating the substrate.
Beginning with the first day of study, every 15 days the 6 shell length of each animal was measured with a caliper (precision of 0.05 mm) to study growth rates for the first 180 days, after which they were measured monthly until the end of the experiment. Daily observations were used to identify the time interval until the first reproduction by finding eggs in the terrarium. Throughout the experiment, all clutches and the number of eggs in each were counted and the day they appeared was recorded.
To test for self-fertilization, 73 snails were kept isolated individually in small plastic terrariums (8 x 6 cm deep), for two years. This group was fed and observed and reproduction recorded as previously described, following OLIVEIRA etal. (1968) and BESSA & ARAÚJO (1995).
All egg masses were removed from the terrariums and transfered to small plastic boxes. Eggs from each clutch were counted and kept separate with dirt similar to natural clutches, to determine incubation interval and hatching rate (ALMEIDA & BESSA 2001).
Since egg laying did not occur in the individuals kept separate (self-fertilization) after 180 days, 30 of the 73 were placed together as 15 pairs to test that they were indeed fertile. These individuals were marked to identify their origins and the same reproductive parameters were measured for this group.
This study was carried out at natural temperature, relative humidity and photoperiod. Minimum and maximum temperature and relative humidity were measured throughout the study (Max-min thermometer and wet-dry hygrometer, Inconterm®).
Fecundity and reproduction of the different treatments (isolated and grouped) were compared with Kruskal-Wallis and Students t-test. Spearmen correlation was used to test for a correlation between egg production, temperature and relative humidity. Significance was considered at p < 0.05 and tests were carried out using BioEstat, version 4.0.
RESULTS
Final size of snails averaged 20.60 mm ± 3.75. Growth was slow during the first 15 days (0.74 mm day-1), more rapid up to day 210 (1.34 mm day-1) and declined again after the first egglaying (0.1 9mm day-1). Growth slowed, but did not stop after egg-laying and so growth is indeterminate in this species (Fig. 1).
Initiation of egg-laying varied between individuals in groups (mean = 210.9 ± 119.5 days, minimum = 180 days) and isolated (454.2 ± 76 days, minimum = 380 days; H = 27.26, p = 0.0001). Isolated individuals had a larger proportion of nonreproducing individuals (23.8%) in two years. For paired individuals after 180 days, the time to first egg-laying was 110.8 ± 89.0 days, with a minimum of 33 days. Only 6.6% of this groupnever reproduced during the experiment.
Isolated snails produced smaller clutches (647 eggs) than either paired (6240 eggs, t = 143.90, p < 0.0001) or grouped (12,642 eggs, t = 166.50, p < 0.0001) snails (Tab. I). The interval between egg-laying varied between grouped and paired (t = 25,99, p = 0.0055), grouped and isolated (t = 43.15, p = 0.0003), but not between paired and isolated (t = 17.16, p = 0.07) treatments (Tab. II).
Average time to hatching was 23.62 ± 0.89 days. Hatching rate varied between treatments: 39.0% for grouped, 32.6% for paired and 15.8% for isolated (H = 19.80, p = 0.0001) with a significant difference between grouped and isolated (t = 80.00, p < 0.0001) and paired and isolated (t = 60.71, p = 0.0015). Additionally, eggs from 59.0% of the clutches from isolated individuals were shells only.
There was an apparent seasonality to reproduction in B.tenuissimus due to a greater production during the months August-December, in both years of study, in both, grouped and paired treatments (Fig. 2). While this seasonality was during the months with greater temperatures and humidities, there was no correlation between egg production and either environmental variable (humidity: rs = 0.24, p = 0.35, temperature: rs = 0.35, p = 0.18; or hatching rate and humidity: rs = -0.09, p = 0.73).
Reproduction was similar during the two breeding seasons (Z = 24.50, p = 1.0) but the hatching rate was greater during the first year (Z = 2.61, p = 0.009).
DISCUSSION
Indeterminant growth in B.tenuissimus represents continuous energetic investment in growth after the beginning of egg production, even though growth declines with age (CICHON 1999). Other pulmonates also show this pattern, such as Achatinaachatina (Linné, 1758) (Achatinidae) (HODASI 1979), Subulinaoctona (Brugüìere, 1792) (Subulinidae) (BESSA & ARAÚJO 1995, DAVILA & BESSA 2005) and Bradybaenasimilaris (Férussac, 1821) (Bradybaenidae) (ALMEIDA & BESSA 2001).
Indeterminate growth is apparently optimal when productivity increases with shell size. Thus, growth after the initiation of egg-laying does not reduce reproductive success since it is compensated for, since fecundity increases with increasing body size (HELLER 2001). For example, body weight, shell length and egg production are all correlated in S.octona (DÁVILA & BESSA (2005). Bulimulustenuissimus is long lived and egg production is relatively delayed, which suggests that these animals gain reproductive success by breeding when they have reached a larger size.
Grouped animals reproduce earlier than either paired or isolated, as in Bradybaenasimilares (ALMEIDA & BESSA 2001). In B.similares sexual maturity for either grouped or isolated individuals occurred at 70 d after hatching, even thought grouped individuals laid eggs sooner (FURTADO etal. 2004). A similar trend is possible with B.tenuissimus, since the time interval to egg laying after mating is very short. However, this was not tested histologically in this study. Grouping and pairing apparently stimulate egg production, as shown by the lower production of snails kept in isolation, as demonstrated with Thebapisana(Müller 1774) (Helicidae) (LAZARIDOU-DIMITRIADOU & DAGUZAN 1981) and Bradybaenasimilares (ALMEIDA & BESSA 2001).
Variation in clutch size is common in other bulimulids as well, such as Bostryxconspersus (Sowerby, 1833) (Bulimulidae) (RAMÍREZ 1988), and other terrestrial pulmonates, such as Helixpomatia Linnaeus, 1758; Helixaspersa (Müller, 1974) (Helicidae) (HYMAN 1967) and B.similaris (ALMEIDA & BESSA 2001). Variable clutch size in terrestrial mollusks is apparently due to many factors, such as age, size and environmental conditions and sea-sonality (HELLER 2001, ALMEIDA & BESSA 2001). The interval between clutches for grouped snails also shows greater production in this treatment, such as in Subulinaoctona and B.similaris (BESSA & ARAUJO 1995, ALMEIDA & BESSA 2001). Age was unrelated to egg production in this study, although it is possible that it was related to hatching rate during the two years of study.
Incubation period in B.tenuissimus (19.56 ± 1.68 d) is similar to that of other species in the family, such as Bostryxconspersus (RAMÍREZ 1988). In Protoglyptuscarlucioi Pilsbry, 1897 (Orthalicidae) (REZENDE etal. 1972) the incubation period was 21 d, with hatching rate of 97.62%, also in the laboratory.
The low hatching rate of eggs produced by self-fertilization in B.tenuissimus is also found in other terrestrial pulmonates such as Bradybaenasimilaris (ALMEIDA & BESSA 2001) and Ariantaarbustorum Linnaeus, 1758 (Helicidae) (BAUR etal. 1998). Thus, while self-fertilization is possible, it does not confer a large reproductive success and is perhaps only important in unfavorable conditions, such as those of isolation.
Reproductive seasonality similar to that shown here was found in Trochoideasimulata (Ehrenberg, 1831) (Helicidae), which has very well defined seasonal reproduction, apparently generated by environmental conditions of temperature and humidity (WARD & SLOTOW 1992). Mastusolivaceos (Philippi, 1845) and Mastuscrelensis (Pfeiffer, 1846) (Bulimulidae) also have well-defined reproductive periods, also due to variable environmental conditions. Reproduction in these species is coincident with the wet season (PARMAKELIS & MYLONAS 2002).
Egg laying is dependent up favorable environmental conditions, such as temperature (DIMITRIEVA 1975) and humidity (HELLER 2001). In B.tenuissimus however, egg laying is not dependent upon either temperature or relative humidity. Yet, individuals had well-defined reproductive periods, which suggests that other environmental or endogenous factors trigger reproduction, such as in Sphincterochilazonata (Bourguignat, 1852) (Sphincterochilidae) and Sphincterochilaprophetarum(Bourguignat, 1853) (Sphincterochilidae) (ALON etal. 2007). Apparently hormonal changes, including testosterone, progesterone and estrogen, show seasonal variation (ALON etal. 2007). We suggest that similar studies be carried out with B.tenuissimusto better understand the reproductive cycle in this species.
ACKNOWLEDGMENTS
We thank Juliane F.S. Lopes for the suggestions and the statistical analysis, and Sthefane DÁvila for her critique and suggestions for the manuscript, and CAPES, for the fellowship.
LITERATURE CITED
Submitted: 09.X.2007; Accepted: 06.VI.2008.
Editorial responsibility: Georgina Bond-Buckup
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Publication Dates
-
Publication in this collection
25 July 2008 -
Date of issue
June 2008
History
-
Accepted
06 June 2008 -
Received
09 Oct 2007