The effects of temperature on embryonic and larval development of the stone crab Xantho poressa (Decapoda, Brachyura)
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1
Campus of International Excellence of the Sea (CEIMAR), University Institute of Marine Research (INMAR), Spain
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2
Simón Bolívar University, Colombia
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3
Institute of Marine Sciences of Andalusia (ICMAN), Spain
Temperature is known to largely influence survival and the total duration of larval development in many brachyuran species (Anger, 2001). Animals in the intertidal zone are subject to environmental challenges posed by both aquatic and aerial climatic regimes, and thus intertidal crabs are model species for the effect of climate change (Helmuth et al., 2006). Previous investigations on a number of crab species highlight that temperature has an effect on the survival and development time of larvae (Marco-Herrero et al., 2016). However, the information on the influence of temperature on survival, growth and variability of the number of larval instars in Brachyura is limited. The aim of this research was to analyse the effects of temperature, on the duration of embryonic development, and survival and duration of larval development of X. poressa.
Tests were done through laboratory experiments under controlled conditions of salinity (35), photoperiod (12:12), and food (freshly mixed of Brachionus plicatilis and hatched Artemia nauplii), at three temperature treatments (17, 21 and 25°C). Six ovigerous females were collected in the intertidal rocky shore from Torregorda beach (Cadiz, Spain) and maintained at ambient temperature and light-dark regime until hatching. From each female, 24 active swimming larvae were reared in individual vials where water and food were changed every day, and moults and dead larvae were recorded daily. For brood development experiments, six females per temperature treatment (18 females total) were maintained under the same salinity and photoperiod conditions. Each crab was kept in an individual tank with oxygen and monitored every two days.
Larval survival rates was higher at 25ºC than at 17ºC and 21ºC, and varied from 47,92 ± 27,98% at 17ºC, 52,08 ± 36,49% at 21ºC and 63,19 ± 35,59% at 25ºC. At 17 ºC, none of the megalopae moulted to the first juvenile crab. Meanwhile, at 21ºC and 25ºC, the average megalopal survival rates were 4,86 ± 8,09% and 32,64 ± 23,19%, respectively. Most of the larval mortality occurred during the moulting process to the second zoea and megalopa stages (the two bottlenecks in larval developments) and varied between larvae hatched from different females (see standard deviations in figures). Larval development was completed until zoea IV in the three temperatures and an additional stage (Zoea V) was observed at the lowest temperature treatment 17ºC from some females. From this extra stage, some larvae moulted to the megalopa stage although they did not survive to the first juvenile crab. The total duration of larval development was longer at 21°C and decreased at 25°C and varied (in days) from 19,67 ± 2,08 (21ºC) and 15,02 ± 0,68 (25ºC). At the lowest temperature treatment (17ºC), zoeal development time was 36,62 ± 1,43 days (from zoea I to zoea IV) and 42,16 ±1,18 days including zoea V (Figure 1). The duration of the intermolt periods at 25ºC was similar to the days reported for Rodríguez and Martin (1997), although these authors reared larvae at 26ºC. Mean brood incubation period was longer at 17ºC than at 21ºC and 25ºC and varied from 23,4 1,92 days at 17ºC, 12 days at 21ºC and 8,66 1,15 days at 25ºC (Figure 2). At the three temperatures, some females lost their broods before the embryos were fully developed.
The data indicate that temperature affects brood incubation, larval development time and survival in X. poressa. Our results point to important maternal influences on survival and development. The additional zoea stage V is probably related to the interactive effects of unfavourable culture temperature conditions and maternal influences through quantity or quality yolk.
Figure 1. Mean survival and development time of larvae of Xantho poressa reared at three temperatures. Error bars: standard deviations among broods.
Figure 2. Mean broods incubation period (days) for each temperature treatment for Xantho poressa parental females.
References
1. Anger, K. (2001), Crustacean Issues.
2. Helmuth, B. et al. (2006), Ecological Monographs, 76(4), pp. 461–479.
3. Marco-Herrero, E. et al. (2016), Marine Biology Research, 12(1), pp. 43–55.
4. Rodríguez, A. and Martin, J. W. (1997), Journal of Crustacean Biology, 17(1), pp. 98–110.
Keywords:
Xantho poressa,
temperature,
larval survival rate,
larval development time,
Brood development time
Conference:
XX Iberian Symposium on Marine Biology Studies (SIEBM XX) , Braga, Portugal, 9 Sep - 12 Sep, 2019.
Presentation Type:
Poster Presentation
Topic:
Ecology, Biodiversity and Vulnerable Ecosystems
Citation:
Navarro-Ojeda
N,
Cuesta
JA and
González-Ortegón
E
(2019). The effects of temperature on embryonic and larval development of the stone crab Xantho poressa (Decapoda, Brachyura).
Front. Mar. Sci.
Conference Abstract:
XX Iberian Symposium on Marine Biology Studies (SIEBM XX) .
doi: 10.3389/conf.fmars.2019.08.00073
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Received:
13 May 2019;
Published Online:
27 Sep 2019.
*
Correspondence:
Miss. Nebis Navarro-Ojeda, Campus of International Excellence of the Sea (CEIMAR), University Institute of Marine Research (INMAR), Cádiz, Spain, nebisadriana.navarroojeda@alum.uca.es