Your search keyword '"Munida gregaria"' showing total 35 results

1. Separate Feeding Between the Pelagic Stage of the Squat Lobster Munida gregaria and the Larger Sized Zooplankton Crustacean Groups in the Beagle Channel as Revealed by Stable Isotopes

Author

Leonardo R. Castro, Humberto E. González, José Garcés-Vargas, and Pamela Barrientos

Subjects

Beagle channel, stable isotopes, Munida gregaria, Euphausia vallentini, zooplankton, Patagonia, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

In southern Patagonia, the Beagle Channel shows very low production during winter but simultaneously sustains very dense aggregations of the pelagic stage of squat lobster (Munida gregaria), a benthic decapod whose pelagic juveniles have the largest body size within the chitinous pelagic community. To assess the coexistence of the mesozooplankton community and the pelagic M. gregaria stage under the harsh feeding winter conditions, we conducted a research cruise at two locations connected to the Beagle Channel, Yendegaia Bay (land terminating-glacier) and Pia Fjord (marine-terminating glacier). Our results showed that the zooplankton communities were similar in these two fjords, that a single pelagic group dominated in terms of biomass (pelagic Munida gregaria), and that differences in vertical distribution existed between most of the principal crustacean zooplankton and pelagic M. gregaria. All groups showed consumption of terrestrially derived organic matter, as revealed by their δ13C values. However, the isotopic composition, trophic positions (TP), and isotopic niche areas of the groups separated pelagic M. gregaria, presenting some of the lowest δ15N and the highest δ13C values, and the narrowest isotopic niche width. Pelagic M. gregaria was dominated by a single body size class along the 0–100 m water column, with no diel changes in vertical distribution, remained mostly in the upper layers (0–50 m), and benefited from the slightly higher phytoplankton concentrations at shallower depths as revealed by their higher δ13C values and low trophic position. In contrast, the other groups, including zoea M. gregaria stages, developed changes in distribution between day and night or remained deeper in the water column. These groups showed higher δ15N values, higher TP, and lower δ13C values, most of which probably fed on a nanoheterotrophs and terrestrial particulate organic matter mixture at deeper layers. Thus, the different vertical distributions, different trophic level food sources, and slightly different organic carbon sources apparently reduced any potential competence for food resources and form part of the feeding strategy that may facilitate the coexistence of the different large pelagic crustaceans under harsh feeding winter conditions in this high latitude austral region.

Published

2021

2. Proximate Composition and Nutritional Quality of the Meat of the Squat Lobster Munida gregaria (Fabricius 1973).

Author

Varisco, Martín, Crovetto, Cecilia, Colombo, Julia, Vinuesa, Julio, and Risso, Susana

Subjects

*MEAT quality, *UNSATURATED fatty acids, *LEUCINE, *GLUTAMIC acid, *ASPARTIC acid, *LOBSTERS

Abstract

The squat lobster Munida gregaria has been recognized as a potential resource in several countries. However, data about its composition and nutritional value are scarce. This study provides information about the nutrients and nutritional quality of M. gregaria meat. Meat yield, proximate composition, cholesterol content, and fatty acid (FA) and amino acid (AAs) profiles were analyzed, and nutritional quality indexes were estimated. The average meat yield was 9.93%. The yearly average of the proximate composition of the M. gregaria meat (g/100 g meat) was moisture = 77.6, protein = 13.7, lipids = 3.84, and ash = 2.19. The average annual cholesterol content was 6.60 mg/100 g. The predominant FA (%) was C20:5ω3 (23.6), followed by C18:1ω9c (20.9), C22:6ω3 (18.5), and C16:0 (16.3); the unsaturated fatty acids were 72.8% of the total FA. The main AAs (g/100 g protein) were glutamic acid (15.1), leucine (9.47), and aspartic acid (8.51). Regarding the nutritional quality, the polyunsaturated FA/saturated FA ratio (1.99), ω3/ω6 ratio (8.62), atherogenic index (0.26), thrombotic index (0.56), hypocholesterolemic/hypercholesterolemic ratio (4.07), and polyene index (2.58) showed that M. gregaria meat provides lipids that are beneficial to the human diet. Moreover, M. gregaria meat provides high-quality proteins, which are well balanced in their essential AAs composition. [ABSTRACT FROM AUTHOR]

Published

2020

3. Growth and reproduction investment of the young of the year of the squat lobster Munida gregaria (Crustacea: Anomura) in the Patagonian coast

Author

Martin Varisco and Julio H. Vinuesa

Subjects

resource allocation, growth, moult, maturity, fecundity, squat lobsters, munida gregaria, patagonia, Aquaculture. Fisheries. Angling, SH1-691

Abstract

The growth and reproduction investment of the young of the year (0+) of the squat lobster Munida gregaria in San Jorge Gulf, Argentina, were analysed. Moult cycle and size frequency distribution were studied in monthly field samples. Experiments to determine moult increments and intermoult duration were conducted. Sexual maturity, fecundity and reproductive output were analysed in field samples. In addition, maturity experiments in laboratory cultures were conducted. After settlement (November), juveniles showed fast growth until winter (July) and growth restarted in September-October. At the beginning of the mating period (early June), males 0+ exhibited mature gonads, whereas females 0+ only showed previtellogenic oocytes. Experimental data showed that females with developed gonads had smaller-size increments in the previous moult. Fecundity and reproductive output were significantly lower in females 0+ than in older females. The early life history of M. gregaria in San Jorge Gulf differs from that of southern populations as those of Beagle Channel and Strait of Magellan due to faster growth and early reproductive investment. Our results suggest that females 0+ of M. gregaria have two investment strategies: early maturity with low fecundity and delayed maturity with higher future fecundity.

Published

2015

4. Ontogenetic and seasonal analysis of the diet and isotopic niche of humpback whales in the Magellan Strait, Chile

Author

Jorge Acevedo, Anelio Aguayo-Lobo, Benjamín Cáceres, Daniela Haro, Pablo Sabat, Juan J. Capella, and Francisco Martínez

Subjects

0106 biological sciences, Squat lobster, Ecology, biology, 010604 marine biology & hydrobiology, Munida gregaria, Ontogeny, Niche, Zoology, Aquatic Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Ecology, Evolution, Behavior and Systematics

Abstract

The ecological niche is dynamic, since the position and width of the niche can vary at different spatial and temporal scales. We examined the trophic ecology of southeast Pacific humpback whales Megaptera novaeangliae in the Magellan Strait feeding area in 2011, 2012 and 2017, analyzing changes in diet and the width of the isotopic niche in relation to ontogeny and seasonality. The isotopic composition of carbon (δ13C) and nitrogen (δ15N) in whale skin and in putative prey species was analyzed. Bayesian mixing models were used to determine the diet, and the isotopic niche was estimated using the standard ellipse area. Differences were found between the diets of juveniles and adults; Fuegian sprat Sprattus fuegensis was consumed mostly by adult individuals. We found no differences in the diet or in the isotopic niche of humpback whales throughout the feeding season in all years. This study suggests that the differences in diet between age classes are influenced by the ability to find and capture prey, whereas seasonality does not influence the niche width of humpback whales in the Magellan Strait. Our results suggested that fluctuations in the abundance of prey populations could influence in the trophic niche dynamics of humpback whales in the Magellan Strait. In particular, a reduction in the availability of Fuegian sprat would mainly affect adult individuals, leading to a dietary switch and/or to an expansion of their feeding area.

Published

2021

5. Distribución y abundancia de larvas de Munida gregaria (Fabricius, 1793), Sergestes arcticus Kröyer, 1855 y Neotrypaea uncinata (H. Milne-Edwards, 1837) entre Puerto Montt (41°30'S) y Laguna San Rafael (46°30'S), sur de Chile

Author

Armando Mujica, Maria Luisa Nava, Mónica Saavedra, Jenniffer Pereira, and Alejandra Vargas

Subjects

larvas de crustáceos, Munida gregaria, Sergestes arcticus, Neotrypaea uncinata, fiordos, sur de Chile, Aquaculture. Fisheries. Angling, SH1-691, Oceanography, GC1-1581, Biology (General), QH301-705.5

Abstract

Se describe la distribución y abundancia de los estadios larvales de Munida gregaria, Neotrypaea uncinata y Sergestes arcticus, capturadas en cinco cruceros oceanográficos efectuados, en los fiordos y canales australes de Chile, entre Puerto Montt (41°30'S) y Laguna San Rafael (46°30'S). Sobre la base de diferentes masas de aguas, se caracterizaron tres áreas oceanográficas, donde se determinó la abundancia y frecuencia de ocurrencia de los estadios larvales de las tres especies capturadas en los diferentes cruceros. Se aplicaron estadígrafos para relacionar la abundancia y frecuencia de ocurrencia de los estadios larvales, las zonas oceanográficas definidas y los años de muestreo, lo que permitió discriminar áreas de desove y la posible dispersión de larvas de las especies estudiadas en la zona de estudio.

Published

2013

6. Proximate Composition and Nutritional Quality of the Meat of the Squat LobsterMunida gregaria(Fabricius 1973)

Author

Martín Varisco, Cecilia Crovetto, Susana Risso, Julio H. Vinuesa, and Julia Colombo

Subjects

0106 biological sciences, Squat lobster, biology, Munida gregaria, Zoology, 04 agricultural and veterinary sciences, Nutritional quality, Aquatic Science, biology.organism_classification, Proximate composition, 040401 food science, 01 natural sciences, 0404 agricultural biotechnology, 010608 biotechnology, Food Science

Abstract

The squat lobster Munida gregaria has been recognized as a potential resource in several countries. However, data about its composition and nutritional value are scarce. This study provides...

Published

2020

7. Larvas de Sergestes arcticus Kroyer, 1855, Neotrypaea uncinata (H. Milne-Edwards, 1837) y Munida gregaria (Fabricius, 1793), entre el seno Reloncaví y Boca del Guafo, sur de Chile Larvae of Sergestes arcticus Kroyer, 1855, Neotrypaea uncinata (H. Milne-Edwards, 1837), and Munida gregaria (Fabricius, 1793) between Seno Reloncaví and Boca del Guafo, southern Chile

Author

Armando Mujica, María Luisa Nava, and Andrea Araya

Subjects

larvas, Sergestes arcticus, Neotrypaea uncinata, Munida gregaria, distribución, canales australes, Chile, larvae, distribution, southern channels, Aquaculture. Fisheries. Angling, SH1-691, Oceanography, GC1-1581, Biology (General), QH301-705.5

Abstract

Se analiza la distribución de los estados de desarrollo de las larvas de Sergestes arcticus, Neotrypaea uncinata y Munida gregaria, capturadas entre el seno Reloncaví y la Boca del Guafo, durante noviembre de 2004. Se distinguieron tres zonas oceanógraficas, de acuerdo a los antecedentes relacionados con el grado de participación de aguas continentales y oceánicas. La distribución de las larvas de estas especies y sus estados de desarrollo, permitieron establecer diferencias significativas entre ellas respecto de las características oceanógraficas, lo que estaría relacionado con los lugares de desove y habitat de las poblaciones desovantes en el área de estudio.The distribution of developmental stages of Sergestes arcticus, Neotrypaea uncinata and Munida gregaria larvae caught between Seno Reloncaví and Boca del Guafo in November 2004 was analyzed. Three oceanographic zones were distinguished according to records showing the degree of participation of continental and oceanic waters. Significant differences were determined between larval distribution and development stages for these species with respect to oceanographic characteristics; said differences might be related to the spawning sites and the habitat of the spawning stock in the study area.

Published

2011

8. Trophic Ecology of Humpback Whales (Megaptera novaeangliae) in the Magellan Strait as Indicated by Carbon and Nitrogen Stable Isotopes.

Author

Haro, Daniela, Riccialdelli, Luciana, Acevedo, Jorge, Aguayo-Lobo, Anelio, and Montiel, Américo

Subjects

*HUMPBACK whale, *PREDATION, *SPRATTUS fuegensis, *FUEGIANS, *CRUSTACEA

Abstract

The contribution of prey species to the diet and their variation over time are poorly understood processes in the trophic ecology of Southeast Pacific humpback whales (Megaptera novaeangliae). The purpose of this study was to use carbon and nitrogen stable isotopes to provide insights into the trophic ecology and to determine the inter-annual variation of the diet of the humpback whales in the Magellan Strait. During 2011 and 2012, an analysis was carried out to determine the isotopic composition of humpback whale skin. We used a Bayesian isotope mixing model to determine the relative contribution of prey species to the isotopic value of the consumer. The humpback whale had mean values of -16.3 ± 0.6‰ in δ13 C and 14.7 ± 1.0‰ in δ15 N (n = 33). The δ13 C and δ15 N in both the whales and the Fuegian sprat (Sprattus fueguensis) were significantly higher in 2011 compared to 2012. Additionally, females had significantly higher δ15 N values in 2012; however, mean δ13 C and δ15 N values of whales within each season and between age classes did not differ statistically. A variation was observed in the contribution of different prey to the whale diet between the study years, with Fuegian sprat as the predominant prey during 2011 (mean 55 ± 12%), and crustaceans dominating the diet in 2012 (mean 82 ± 9%). This study confirms the diet of the humpback whale within the Magellan Strait. Furthermore, isotopic analyses suggest important inter-annual changes due to (1) changes in the proportion of the species being consumed, probably due to variations in availability (e.g., abundance) of prey; and/or (2) annual isotopic changes at the base of the food web. Further studies are required on the population dynamics of prey in order to monitor annual changes in abundance and food supply. [ABSTRACT FROM AUTHOR]

Published

2016

9. The complete mitochondrial genome of squat lobster

Author

Chi Woo, Lee, Ji-Hun, Song, Gi-Sik, Min, and Sanghee, Kim

Subjects

Munida gregaria, complete mitogenome, Circumpolar dispersal, Munididae, Galatheoidea, Mitogenome Announcement, Research Article

Abstract

We determined the mitogenome sequence of Munida gregaria (Fabricius 1793) (Anomura, Galatheoidea, Munididae), which is the first complete mitogenome sequence in the family Munididae Ahyong et al., 2010. The mitogenome of M. gregaria is 16 326 bp in length and contains 13 protein-coding genes (PCGs), 22 transfer RNAs (tRNAs), two ribosomal RNAs (rRNAs) and two control regions (CRs). Mitogenome analysis of M. gregaria showed an extra copy of the CR and rearrangements of two PCGs (nad2 and nad3) compared to the arthropod ground pattern. Additionally, it contains a tRNA (trnY) inversion and rearrangements of two PCGs (nad1 and nad3) when compared with that of Neopetrolisthes maculatus and Shinkaia crosnieri, respectively. The phylogenetic tree confirmed that M. gregaria belongs to the superfamily Galatheoidea within Anomura. Our results will be useful for the detailed study of mitogenome evolution and the phylogenetic relationships among the superfamily in the infraorder Anomura.

Published

2021

10. The complete mitochondrial genome of squat lobster, Munida gregaria (Anomura, Galatheoidea, Munididae).

Author

Lee, Chi Woo, Song, Ji-Hun, Min, Gi-Sik, and Kim, Sanghee

Subjects

HERMIT crabs, MITOCHONDRIAL DNA, CRUSTACEAN phylogeny, TRANSFER RNA, RIBOSOMAL RNA, GENE rearrangement, CRUSTACEAN evolution

Abstract

We determined the mitogenome sequence ofMunida gregaria(Fabricius 1793) (Anomura, Galatheoidea, Munididae), which is the first complete mitogenome sequence in the family Munididae Ahyong et al., 2010. The mitogenome ofM. gregariais 16 326 bp in length and contains 13 protein-coding genes (PCGs), 22 transfer RNAs (tRNAs), two ribosomal RNAs (rRNAs) and two control regions (CRs). Mitogenome analysis ofM. gregariashowed an extra copy of the CR and rearrangements of two PCGs (nad2andnad3) compared to the arthropod ground pattern. Additionally, it contains a tRNA (trnY) inversion and rearrangements of two PCGs (nad1andnad3) when compared with that ofNeopetrolisthes maculatusandShinkaia crosnieri, respectively. The phylogenetic tree confirmed thatM. gregariabelongs to the superfamily Galatheoidea within Anomura. Our results will be useful for the detailed study of mitogenome evolution and the phylogenetic relationships among the superfamily in the infraorder Anomura. [ABSTRACT FROM PUBLISHER]

Published

2016

11. Grazing on a toxic Alexandrium catenella bloom by the lobster krill Munida gregaria (Decapoda: Galatheoidea: Munididae).

Author

MacKenzie, A. Lincoln and Harwood, Tim

Subjects

*ALEXANDRIUM catenella, *GRAZING, *LOBSTERS, *DECAPODA, *DINOFLAGELLATES, *PARALYTIC shellfish poisoning, *SAXITOXIN

Abstract

Specimens of Munida gregaria were collected within and in the vicinity of a bloom of the toxic dinoflagellate Alexandrium catenella in Queen Charlotte Sound, New Zealand. The crustacean contained paralytic shellfish toxin (PST) with an analogue profile dominated by N -sulfocarbamoyl analogues (C1,2 and GTX5) and carbamate gonyautoxins (GTX1,4), similar to that of the dinoflagellate. A feeding experiment showed that M. gregaria is capable of actively grazing on A. catenella and it may play a role in controlling population growth of the dinoflagellate. This is the first account of the accumulation of PST by M. gregaria . When it is periodically abundant, M. gregaria is an important food item for fish, birds and other marine fauna and they are a vector by which PST may be transferred to higher trophic levels. [ABSTRACT FROM AUTHOR]

Published

2014

12. Distribución y abundancia de larvas de Munida gregaria (Fabricius, 1793), Sergestes arcticus Kröyer, 1855 y Neotrypaea uncinata (H. Milne-Edwards, 1837) entre Puerto Montt (41°30'S) y Laguna San Rafael (46°30'S), sur de Chile.

Author

Mujica, Armando, Nava, Maria Luisa, Saavedra, Mónica, Pereira, Jenniffer, and Vargas, Alejandra

Subjects

*SERGESTES, *NEOTRYPAEA, *CRUSTACEAN larvae, *CRUSTACEAN populations, *BIOGEOGRAPHY, *OCEANOGRAPHY, *PARAMETER estimation

Abstract

We describe the distribution and abundance of larval stages of Munida gregaria, Neotrypaea uncinata and Sergestes arcticus, captured during five oceanographic cruises realized in the fjords and channels of southern Chile, located between Puerto Montt (41°30'S) and Laguna San Rafael (46°30'S). Based on the presence of different water masses, three oceanographic areas were characterized, in which the abundance and the frequency of occurrence of the larval stages were determined. Statistical parameters were used to relate the abundance and frequency of occurrence of larval stages, defined oceanographic areas and sampling years, which allowed discrimination of spawning areas and larval dispersal potential of the species in the study area. [ABSTRACT FROM AUTHOR]

Published

2013

13. Larvas de Sergestes arcticus Krøyer, 1855, Neotrypaea uncinata (H. Milne-Edwards, 1837) y Munida gregaria (Fabricius, 1793), entre el seno Reloncaví y Boca del Guafo, sur de Chile.

Author

Mujica, Armando, Nava, María Luisa, and Araya, Andrea

Subjects

*SERGESTES, *NEOTRYPAEA, *OCEANOGRAPHY, *SPAWNING, *GEOGRAPHICAL distribution of larvae, *SEAWATER

Abstract

The distribution of developmental stages of Sergestes arcticus, Neotrypaea uncinata and Munida gregaria larvae caught between Seno Reloncaví and Boca del Guafo in November 2004 was analyzed. Three oceanographic zones were distinguished according to records showing the degree of participation of continental and oceanic waters. Significant differences were determined between larval distribution and development stages for these species with respect to oceanographic characteristics; said differences might be related to the spawning sites and the habitat of the spawning stock in the study area. [ABSTRACT FROM AUTHOR]

Published

2011

14. Multiple spawning and length of embryonic development of Munida gregaria in northern Patagonia (Argentina).

Author

Dellatorre, Fernando G. and Barón, Pedro J.

Abstract

Munida gregaria is a small galatheid widely distributed around the southern hemisphere, considered a key species in food webs of coastal and shelf marine ecosystems. Previous studies conducted at 55°S and 46°S on the Atlantic coast of South America, have shown that the species can adapt its reproductive patterns to different environmental conditions. The objectives of this work are to complete this analysis by determining: (1) the reproductive season span; (2) the potential of the species to produce multiple clutches of eggs; (3) the length of its embryonic development; and (4) based on previous objectives, the potential number of clutches produced by M. gregaria by reproductive season in the northern range of its coastal distribution (42–43°S, northern Patagonia). In this region, brooding females were present from June to December, representing more than 80% of total females between July and October. Females presented previtellogenic oocytes beginning maturation just after egg extrusion, and fully developed vitellogenic oocytes just before hatching. From November to February increasing proportions of females showed signs of athresia and resorption of mature oocytes. The complete embryonic development of M. gregaria lasted 26–29 days at 11ºC constant temperature. Considering the pattern of synchronous ovary re-maturation and embryonic development, the length of embryogenesis at water temperatures typical from costal waters off northern Patagonia during the breeding season, it is concluded that female M. gregaria have the potential to consecutively lay more than three egg clutches per reproductive season. [ABSTRACT FROM PUBLISHER]

Published

2008

15. Trophic ecology of the lobster krill Munida gregaria in San Jorge Gulf, Argentina.

Author

Vinuesa, Julio H. and Varisco, Martín

Subjects

*CRABS, *KRILL, *GALATHEIDAE, *CRUSTACEA, *PREDATORY animals, *BAYS

Abstract

The "langostilla", Munida gregaria, also called lobster krill or squat lobster, is a very common galatheid crustacean in San Jorge Gulf and around the southern tip of South America. Previous studies have shown that this species plays an important role in the trophic webs wherever it has been studied. In order to determine its natural food sources, we analyzed 10 samples (30-36 individuals each) taken from different sites in San Jorge Gulf. Moreover, stomach analyses were performed on 32 fish species, 4 mollusk species, and 7 crustacean species from the gulf. The lobster krill is primarily a detritivore or surface deposit-feeder and secondarily a predator and/or scavenger. Its main energy sources are particulate organic matter and their associated bacteria, small live organisms on the surface of the sediment layer (ostracods, copepods, foraminifers, other protists), and animal debris. Polychaetes are the main prey of lobster krill in the study area. This dual complementary feeding behavior is common in the studied galatheids, making them a fundamental link between detritus and benthic and demersal top predators. Some species of these predators constitute important fisheries. Different life-cycle stages of the squat lobster were preyed on by 32 of the examined species. However, the spectrum of predators is still incomplete, with other species feeding on larvae and juveniles of the species. [ABSTRACT FROM AUTHOR]

Published

2007

16. Trophic Ecology of Humpback Whales (Megaptera novaeangliae) in the Magellan Strait as Indicated by Carbon and Nitrogen Stable Isotopes

Author

Daniela Haro, Luciana Riccialdelli, Jorge Acevedo, Anelio Aguayo-Lobo, and Américo Montiel

Subjects

0106 biological sciences, Krill, FRANCISCO COLOANE COASTAL MARINE PROTECTED AREA, Ecology (disciplines), Aquatic Science, 010603 evolutionary biology, 01 natural sciences, DIET, Ciencias Biológicas, Technological research, EUPHAUSIA LUCENS, MEGAPTERA NOVAEANGLIAE, National commission, FUEGIAN SPRAT, Nature and Landscape Conservation, Trophic level, biology, Stable isotope ratio, Ecology, SOUTHEAST PACIFIC HUMPBACK WHALE, LOBSTER KRILL, 010604 marine biology & hydrobiology, Munida gregaria, Ecología, KRILL, biology.organism_classification, Fishery, Oceanography, SPRATTUS FUEGENSIS, Animal Science and Zoology, CIENCIAS NATURALES Y EXACTAS, Euphausia lucens, MUNIDA GREGARIA

Abstract

The contribution of prey species to the diet and their variation over time are poorly understood processes in the trophic ecology of Southeast Pacific humpback whales (Megaptera novaeangliae). The purpose of this study was to use carbon and nitrogen stable isotopes to provide insights into the trophic ecology and to determine the inter-annual variation of the diet of the humpback whales inthe Magellan Strait. During 2011 and 2012, an analysis was carried out to determine the isotopic composition of humpback whale skin. We used a Bayesian isotope mixing model to determine the relative contribution of prey species to the isotopic value of the consumer. The humpback whale had mean values of -16.3 ± 0.6? in δ13C and 14.7 ± 1.0? in δ15N (n = 33). The δ13C and δ15N in both the whales and the Fuegian sprat (Sprattus fueguensis) were significantly higher in 2011 compared to 2012. Additionally, females had significantly higher δ15N values in 2012; however, mean δ13C and δ15N values of whales within each seasonand between age classes did not differ statistically. A variation was observed in the contribution of different prey to the whale diet between the studyyears, with Fuegian sprat as the predominant prey during 2011 (mean 55 ± 12%), and crustaceans dominating the diet in 2012 (mean 82 ± 9%). This study confirms the diet of the humpback whale within the Magellan Strait. Furthermore, isotopicanalyses suggest important inter-annual changes due to (1) changes in the proportion of the species being consumed, probably due to variations in availability (e.g., abundance) of prey; and/or (2) annual isotopic changes at the base of the food web. Further studies are required on the populationdynamics of prey in order to monitor annual changes in abundance and food supply. Fil: Haro, Daniela. Asociación de Investigadores del Museo Historia Natural Río Seco; Chile. Universidad de Chile; Chile Fil: Riccialdelli, Luciana. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Austral de Investigaciones Científicas; Argentina Fil: Acevedo, Jorge. Fundación CEQUA; Chile Fil: Aguayo Lobo, Anelio. Asociación de Investigadores del Museo Historia Natural Río Seco; Chile. Universidad de Magallanes; Chile. Instituto Antártico Chileno; Chile Fil: Montiel, Americo. Universidad de Magallanes; Chile

Published

2016

17. SEASONAL CHANGES IN DRY MASS AND ENERGETIC CONTENT OF MUNIDA SUBRUGOSA (CRUSTACEA: DECAPODA) IN THE BEAGLE CHANNEL, ARGENTINA.

Author

Romero, M. Carolina, Lovrich, Gustavo A., and Tapella, Federico

Abstract

Munida subrugosa is the most abundant benthic species in the Beagle Channel (55°S, 68°W), Tierra del Fuego. Moreover, this species has two simultaneous but different feeding habits: predator and deposit feeder. Because of its high abundance (100 ind· 100 m-2) and trophic position, this species plays a key role in the subantarctic benthic ecosystems. However, little is known about its energetic content and changes in dry mass during its reproductive cycle. Samples of M. subrugosa were obtained in 2000 to 2001 by means of an epibenthic trawl. The relative water content (WC) and the energetic content (EC) (kJ·g-1 ash free dry mass [AFDM]) of whole adult animals, and the relative dry mass (RDM) and EC of tissues and organs of females were measured throughout one year. The EC investment of adults at the time of maximum gonadal development was evaluated. The EC was measured using a bomb calorimeter. The mean WC and EC for M. subrugosa was 59% ± 7% and 19 ± 2 kJ·g-1 AFDM, respectively. WC and EC for whole adult animals varied significantly throughout the year, attaining maximum values in autumn or summer respectively, after the pattern of seasonal reproduction and feeding. Moreover, the EC of M. subrugosa varied by 30% annually. The RDM and EC investment in gonadal development was significant higher in females. The hepatopancreas in M. subrugosa is used as an energetic storage organ, because RDM and EC increased before vitellogenesis and moulting. [ABSTRACT FROM AUTHOR]

Published

2006

18. 'Gregaria' to 'Subrugosa,' that is the question: Shape changes under laboratory conditions in the pelagic morphotype of the squat lobster Munida gregaria (Fabricius, 1793) (Decapoda: Anomura: Munididae)

Author

Gustavo A. Lovrich, Olga Florentín, Mariano J. Diez, Patricia Pérez-Barros, Aníbal Lezcano, and María Laura Rojas-Quiroga

Subjects

0106 biological sciences, Squat lobster, Geometric morphometry, Anomura, biology, Decapoda, Ecology, 010604 marine biology & hydrobiology, Munida gregaria, Otras Ciencias Biológicas, SWARMS, Munididae, Pelagic zone, Aquatic Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, GEOMETRIC MORPHOMETRY, purl.org/becyt/ford/1 [https], Ciencias Biológicas, BEAGLE CHANNEL, purl.org/becyt/ford/1.6 [https], TIERRA DEL FUEGO, CIENCIAS NATURALES Y EXACTAS

Abstract

Munida gregaria (Fabricius, 1793) is one of the few species of squat lobsters (Anomura, Munididae) with two morphotypes, one with a post-metamorphic pelagic phase that eventually settles to the bottom ("gregaria") and a second that is exclusively benthic ("subrugosa"). This study provides the first information on the growth of the pelagic morphotype of M. gregaria and its relation with changes in morphology in southern South America. Specifically, we studied growth at molt and duration of the intermolt period in the laboratory and analyzed changes in morphology through growth by means of geometric morphometry techniques. Fifty squat lobsters were sampled from shoals in the Beagle Channel, Tierra del Fuego and kept in individual flasks during 29 months. The carapace of each exuvia was photographed and analyzed using 2D geometric morphometry analysis. Changes in shape associated with growth in the gregaria morphotype were gradual, adjusted to a linear function, and occurred mainly in the anterior portion of the carapace. After two years and at least eight molts, however, individuals of the gregaria morphotype were still clearly distinguishable from a typical individual of the subrugosa morphotype. These results suggests that once sexual maturity is attained, pelagic individuals of M. gregaria do not transform from gregaria to subrugosa, and retain the gregaria morphology. Fil: Diez, Mariano Javier. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Austral de Investigaciones Científicas; Argentina Fil: Rojas Quiroga, María Laura. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Centro Nacional Patagónico; Argentina Fil: Pérez Barros, Patricia. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina. Universidad Maimónides. Área de Investigaciones Biomédicas y Biotecnológicas. Centro de Estudios Biomédicos, Biotecnológicos, Ambientales y de Diagnóstico; Argentina Fil: Lezcano, Anibal Hernán. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Centro Nacional Patagónico; Argentina Fil: Florentin, Olga Viviana. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Austral de Investigaciones Científicas; Argentina Fil: Lovrich, Gustavo Alejandro. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Austral de Investigaciones Científicas; Argentina

Published

2016

19. Occurrence of Pelagic Juveniles of Munida Gregaria (Fabricius, 1793) (Anomura, Galatheidae) in San Jorge Gulf, Argentina

Author

Martín Varisco and Julio Hector Vinuesa

Subjects

pelagic juveniles, Anomura, biology, Food availability, Munida gregaria, chlorophill-a, food availability, Zoology, Pelagic zone, Biología Marina, Limnología, Aquatic Science, biology.organism_classification, Ciencias Biológicas, Carcinology, Galatheidae, Animal Science and Zoology, diet, CIENCIAS NATURALES Y EXACTAS

Abstract

The appearance of large shoals of Munida gregaria pelagic juveniles in San Jorge Gulf was coincident with an increase in CCa. The results of this study support the hypothesis of Williams (1973), that increased food availability may delay the settlement of juveniles, thus determining the presence of post-larvae, juveniles, and even adults of pelagic habits. Fil: Varisco, Martin Alejandro. Universidad Nacional de la Patagonia "San Juan Bosco". Facultad de Humanidades y Ciencias Sociales - Sede Comodoro. Centro de Desarrollo Costero; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Vinuesa, Julio Hector. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina. Universidad Nacional de la Patagonia "San Juan Bosco". Facultad de Humanidades y Ciencias Sociales - Sede Comodoro. Centro de Desarrollo Costero; Argentina

Published

2010

20. Multiple spawning and length of embryonic development ofMunida gregariain northern Patagonia (Argentina)

Author

Pedro J. Barón and Fernando Gaspar Dellatorre

Subjects

EMBRYONIC DEVELOPMENT, Ciencias Biológicas, ARGENTINA, MULTIPLE SPAWNING, Ecology, Munida gregaria, Ecología, Aquatic Science, Biology, NORTHERN PATAGONIA, CIENCIAS NATURALES Y EXACTAS, MUNIDA GREGARIA

Abstract

Munida gregaria is a small galatheid widely distributed around the southern hemisphere, considered a key species in food webs of coastal and shelf marine ecosystems. Previous studies conducted at 55°S and 46°S on the Atlantic coast of South America, have shown that the species can adapt its reproductive patterns to different environmental conditions. The objectives of this work are to complete this analysis by determining: (1) the reproductive season span; (2) the potential of the species to produce multiple clutches of eggs; (3) the length of its embryonic development; and (4) based on previous objectives, the potential number of clutches produced by M. gregaria by reproductive season in the northern range of its coastal distribution (42-43°S, northern Patagonia). In this region, brooding females were present from June to December, representing more than 80% of total females between July and October. Females presented previtellogenic oocytes beginning maturation just after egg extrusion, and fully developed vitellogenic oocytes just before hatching. From November to February increasing proportions of females showed signs of athresia and resorption of mature oocytes. The complete embryonic development of M. gregaria lasted 26-29 days at 11°C constant temperature. Considering the pattern of synchronous ovary re-maturation and embryonic development, the length of embryogenesis at water temperatures typical from costal waters off northern Patagonia during the breeding season, it is concluded that female M. gregaria have the potential to consecutively lay more than three egg clutches per reproductive season. Copyright © Marine Biological Association of the United Kingdom 2008. Fil: Dellatorre, Fernando Gaspar. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Centro Nacional Patagónico; Argentina Fil: Baron, Pedro Jose. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Centro Nacional Patagónico; Argentina

Published

2008

21. Reproduction of Munida Gregaria (Decapoda: Galatheidae) in San Jorge Gulf, Southwest Atlantic Ocean

Author

Julio Hector Vinuesa

Subjects

education.field_of_study, Larva, biology, Decapoda, Hatching, media_common.quotation_subject, Munida gregaria, Population, Aquatic Science, Fecundity, biology.organism_classification, Fishery, embryonic structures, Reproduction, education, media_common, Trophic level

Abstract

Munida gregaria is a galatheid very abundant in coastal waters of southern South America playing an important role in the trophic webs of the subantarctic coastal ecosystem. Different reproductive aspects of this species were studied from samples obtained by coastal trawlers between September 1997 and December 2000, which allowed the analysis of a total of 10,868 crabs. The reproductive period started in June, and females with small clutches composed of non-fecundated eggs were found in many cases. The size of clutches increased during the reproductive period, and the simultaneous presence of eggs at different stages of development was observed in the same female. In part of the population, larval hatching started in September, after which females mated again. These embryos hatched between late November and mid-December. Females reached physiological maturity between 9 and 12 mm CL and males between 6 and 8 mm CL. Fecundity was initially low (less than 500 eggs/female), and clutches were complete...

Published

2007

22. Bycatch of the squat lobster Munida gregaria in bottom trawl fisheries in San Jorge Gulf, Argentina

Author

Martín Varisco, Julio Hector Vinuesa, and María Eva Góngora

Subjects

Bycatch, Squat lobster, Geography, biology, Squat lobsters, Munida gregaria, trawling, potential resource, Aquatic Science, bycatch, Oceanography, biology.organism_classification, Humanities

Abstract

Varias especies de langostillas son reconocidas como recursos pesqueros potenciales en todo el mundo. La langostilla Munida gregaria es un componente importante de las capturas incidentales en las pesquerias de arrastre en la Patagonia Argentina. Se evaluo la frecuencia de ocurrencia (FO), abundancia relativa (AR) y destino de las capturas incidentales de M. gregaria en: a) la flota congeladora tangonera (63579 lances), b) la flota fresquera de altura (5608) y c) la flota costera (584). Las mayores FO y AR fueron registradas en la flota costera. Sin embargo, dada la magnitud de la flota congeladora tangonera, el esfuerzo de pesca sugiere que las mayores capturas incidentales en terminos de biomasa son producidas por esta flota. Se observo un incremento significativo en FO y AR en los lances de la flota congeladora tangonera en los ultimos anos, siendo este mas marcado en aguas nacionales y provinciales de la provincia de Santa Cruz. La FO y AR de la especie en los lances de la flota fresquera de altura fueron bajas durante todo el periodo analizado. Los resultados confirman que la langostilla es una especie muy abundante y un recurso desaprovechado hasta el presente, y que puede representar una alternativa para la flota costera en el Golfo San Jorge.

Published

2015

23. Adaptation of diet in a changed environment: Increased consumption of lobster krillMunida gregaria(Fabricius, 1793) by Argentine hake

Author

Claudia Silvia Bremec, Mauro Belleggia, and Diego Giberto

Subjects

0106 biological sciences, Krill, Ecology, biology, Argentine hake, GALATHEIDAE, Otras Ciencias Biológicas, 010604 marine biology & hydrobiology, Merlucciidae, Munida gregaria, Aquatic Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Ciencias Biológicas, Fishery, Galatheidae, DIET SHIFT, MERLUCCIIDAE, Adaptation, TOP-DOWN, TROPHIC ECOLOGY, CIENCIAS NATURALES Y EXACTAS, Ecology, Evolution, Behavior and Systematics

Abstract

A well-replicated decadal-term (2005–2014) stomach content data set was analysed in order to infer inter-annual fluctuations in the diet of the Argentine hake, Merluccius hubbsi, an opportunistic predator in the San Jorge Gulf (SJG) ecosystem in the Southwest Atlantic. Ten research cruises were carried out each year during January from 2005 to 2014. A total of 18,461 specimens of Me. hubbsi was analysed, of which 6,777 (36.71%) contained food in their stomachs. The diet of Me. hubbsi changed markedly from 2011 onwards, with much greater consumption of the lobster krill Munida gregaria compared to the years before 2011. The frequency of occurrence (%F) of Mu. gregaria in the stomach contents of Argentine hake increased from the year 2009 onwards, most noticeably since 2011, and mostly over the southern region of the SJG. The main predators of Mu. gregaria in the SJG are two species of teleost fish (pink cusk eel, Genypterus blacodes, Argentine seabass, Acanthistius brasilianus) and three Rajidae skates (Zearaja chilensis, Psammobatis spp. and Sympterygia bonapartii), which exhibited decreased catches in the years analysed. The increased consumption of Mu. gregaria by Me. hubbsi, coupled with decreased trends in abundance of the main predators of the lobster krill during the last decade, indicate that top-down trophic dynamic control occurs in the SJG ecosystem. Fil: Belleggia, Mauro. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Mar del Plata. Instituto de Investigaciones Marinas y Costeras. Subsede Instituto Nacional de Investigación y Desarrollo Pesquero; Argentina Fil: Giberto, Diego Agustin. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Mar del Plata. Instituto de Investigaciones Marinas y Costeras. Subsede Instituto Nacional de Investigación y Desarrollo Pesquero; Argentina Fil: Bremec, Claudia Silvia. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina

Published

2017

24. Absence of a prezygotic behavioural barrier to gene flow between the two sympatric morphs of the squat lobster Munida gregaria (Fabricius, 1793) (Decapoda: Anomura: Galatheidae)

Author

Pérez-Barros, P., Calcagno, J.A., and Lovrich, G.A.

Subjects

Speciation, reproductive isolation, mating behavior, Galatheidae, Mating behaviour, behavioral ecology, speciation (biology), polymorphism, phylogenetics, Munida gregaria, Crustacea, Decapoda (Crustacea), mate choice, Anomura, gene flow, lobster

Abstract

Munida gregaria and M. subrugosa have been considered two different species for more than a century; however, after a recent molecular phylogenetic study, they are considered a single polymorphic species. Yet, the use of markers to diagnose species may be misleading when divergence between species is recent, since a speciation event may be obscured by the retention and stochastic sorting of ancestral polymorphisms. The morphs gregaria and subrugosa of Munida gregaria constitute an interesting case for the study of behavioural isolation since they are sympatric, breed at the same time of the year, and might have experienced a recent speciation. Mating behaviour observations and mate choice mating trials were conducted in order to investigate the potential existence of a behavioural prezygotic barrier to gene flow between these two morphs. Since factors involved in mate choice in galatheids are unknown, the four possible combinations of the two different morphs in trios were used to test for the existence of mate choice. Video recordings of all the possible trio combinations revealed that there was cross-attraction between males and females of different morphs. Females bearing partial broods participated in encounters as well as non-ovigerous females. The frequency and duration of homo- and heterotypic encounters were registered, and a reproductive isolation index was calculated for each variable for each trio. The isolation indexes calculated were not different from zero indicating random mating, and were not affected by the composition of the trio or the partial ovigerous condition of females. These results provided evidence of the absence of behavioural prezygotic barriers to gene flow between the morphs gregaria and subrugosa of M. gregaria. © 2011 Springer-Verlag and AWI. Fil:Pérez-Barros, P. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Calcagno, J.A. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Lovrich, G.A. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina.

Published

2011

25. Larvas de Sergestes arcticus Kroyer, 1855, Neotrypaea uncinata (H. Milne-Edwards, 1837) y Munida gregaria (Fabricius, 1793), entre el seno Reloncaví y Boca del Guafo, sur de Chile

Author

Mujica,Armando, Nava,María Luisa, and Araya,Andrea

Subjects

Munida gregaria, Sergestes arcticus, Neotrypaea uncinata, distribución, larvas, Chile, canales australes

Abstract

Se analiza la distribución de los estados de desarrollo de las larvas de Sergestes arcticus, Neotrypaea uncinata y Munida gregaria, capturadas entre el seno Reloncaví y la Boca del Guafo, durante noviembre de 2004. Se distinguieron tres zonas oceanógraficas, de acuerdo a los antecedentes relacionados con el grado de participación de aguas continentales y oceánicas. La distribución de las larvas de estas especies y sus estados de desarrollo, permitieron establecer diferencias significativas entre ellas respecto de las características oceanógraficas, lo que estaría relacionado con los lugares de desove y habitat de las poblaciones desovantes en el área de estudio.

Published

2011

26. Similar feeding habits of two morphs of Munida gregaria (Decapoda) evidence the lack of trophic polymorphism

Author

Javier A Calcagno, Gustavo A. Lovrich, Patricia Pérez-Barros, and M. Carolina Romero

Subjects

Squat lobster, biology, Ecology, Decapoda, Munida gregaria, squat lobster, Ecología, Aquatic Science, Oceanography, biology.organism_classification, SW Atlantic, Ciencias Biológicas, purl.org/becyt/ford/1 [https], speciation, crab, purl.org/becyt/ford/1.6 [https], CIENCIAS NATURALES Y EXACTAS, Trophic level

Abstract

Munida gregaria and M. subrugosa were originally described as two different species on the basis of several morphological characters, but recent studies evidenced that both former species constitute the same biological species, so hereafter they are referred to as two morphs of M. gregaria: `gregaria' and `subrugosa'. Notwithstanding their synonimization, the occurrence of two sympatric morphs represents an interesting case for the study of the processes involved in the maintenance of these two morphotypes in nature. We hypothesized that the distinct shapes of mouthparts of both morphs may be related to different feeding habits. Adults of M. gregaria, morphs `gregaria' and `subrugosa', were collected in the Beagle Channel by epibenthic trawling during November 2004. The trophic niche of both morphs highly overlapped. Both occupied the same trophic position in the food web of the Beagle Channel, showing the same feeding habits. As predators they fed mainly on crustaceans and algae, and as deposit feeders they ingested particulate organic matter and organisms associated with the superficial layer of the sediment. However, the relative abundance of crustaceans was higher in stomachs of `subrugosa' than in those of `gregaria', a higher proportion of stomachs of `gregaria' contained more algae than in `subrugosa', and a greater frequency of occurrence of unicellular preys was found in the diet of `gregaria'. Despite these differences, this study provided no evidences to support the existence of a trophic polymorphism between morphs of M. gregaria, at least based on the feeding habit of adults. Munida gregaria y M. subrugosa fueron originalmente descritas como especies diferentes, pero estudios recientes evidenciaron que ambas especies constituyen una misma especie biológica, y por tanto son referidas como dos morfos de M. gregaria: `gregaria' y `subrugosa'. A pesar de su reciente sinonimia taxonómica, la ocurrencia en simpatría de dos morfos representa un caso interesante para estudiar los procesos involucrados en el mantenimiento de los mismos en la naturaleza. Nuestra hipótesis es que las diferentes morfologías de los apéndices bucales de ambos morfos pueden estar relacionadas con hábitos alimentarios diferentes. Se capturaron adultos de M. gregaria, morfos `gregaria' y `subrugosa', en el Canal Beagle por medio de lances epibentónicos de arrastre en noviembre de 2004. La superposición dietaria entre los morfos resultó elevada. Ambos ocuparon la misma posición en la trama trófica del Canal Beagle y mostraron los mismos hábitos alimentarios. Como depredadores, se alimentaron principalmente de crustáceos y algas, y como depositívoros ingirieron materia orgánica particulada y organismos unicelulares bentónicos. Sin embargo, la abundancia relativa de crustáceos fue más alta en los estómagos de `subrugosa' que en los de `gregaria', una proporción más alta de estómagos de `gregaria' contenían más algas que los de `subrugosa', y se encontró una mayor frecuencia de ocurrencia de presas unicelulares en la dieta de `gregaria'. No obstante estas diferencias, este estudio no provee evidencias que respalden la existencia de un polimorfismo trófico entre los morfos de M. gregaria, al menos sobre la base del hábito alimentario de los adultos. Fil: Perez Barros, Patricia. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Austral de Investigaciones Científicas; Argentina. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales. Departamento de Ecología, Genética y Evolución; Argentina Fil: Romero, Maria Carolina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Austral de Investigaciones Científicas; Argentina Fil: Calcagno, Javier Angel. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales. Departamento de Ecología, Genética y Evolución; Argentina Fil: Lovrich, Gustavo Alejandro. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Austral de Investigaciones Científicas; Argentina

Published

2010

27. Influencia de factores ambientales sobre la distribución y el asentamiento de larvas de cangrejos braquiuros y anomuros con potencial pesquero en Golfo Nuevo

Author

Dellatorre, Fernando Gaspar, Lovrich, Gustavo, and Barón, Pedro

Subjects

Reclutamiento, Patagonia (Argentina), Munida gregaria, Golfo Nuevo (Chubut, Argentina), Ovalipes trimaculatus, Munida subrugosa, Platyxanthus patagonicus, Pesca, Ciencias de la Tierra y Medio Ambiente, Crustáceos, Vida larvaria

Abstract

La mayoría de los decápodos braquiuros y anomuros atraviesan una fase larvaria planctónica en las etapas tempranas de su ciclo de vida. Esta fase es una etapa crítica para la dinámica de las poblaciones básicamente por dos razones: 1) las mayores mortalidades de todo el ciclo de vida de los decápodos ocurren durante esta fase, y 2) las larvas son transportadas durante su vida planctónica, potencialmente lejos del ambiente parental. Una interacción entre el comportamiento de las larvas y procesos físicos determina el resultado de ese transporte y puede ser el factor responsable de buena parte de la variabilidad en la abundancia de las poblaciones. El conocimiento acerca del transporte larvario y la comprensión de los procesos que lo controlan tiene una importancia central en el diseño de estrategias de manejo y/o restauración de las especies de decápodos. En este trabajo se investigaron diferentes aspectos de la ecología larvaria de decápodos braquiuros y anomuros de la costa Atlántica de la región Patagónica, con énfasis en los braquiuros Platyxanthus patagonicus y Ovalipes trimaculatus, y el anomuro Munida gregaria, tres de las especies con potencial pesquero de la región. La vida larvaria puede dividirse en tres etapas cuyas características las hacen objeto de diferentes presiones ambientales: 1) la generación de la larva; 2) la vida larvaria estrictamente planctónica y 3) el asentamiento del último estadio larvario (megalopa), previo a la muda de metamorfosis, que transforma el último estadio larvario en el primer estadio juvenil estrictamente bentónico. En el Capítulo I se resuelven patrones estacionales de desove y eclosión de las tres especies objetivo. El Capítulo II describe y analiza algunos patrones espacio-temporales de distribución de las larvas de braquiuros y anomuros en el golfo Nuevo. El Capítulo III estudia las variaciones en diferentes escalas temporales, del asentamiento de megalopas y juveniles de braquiuros y anomuros sobre colectores artificiales en el golfo Nuevo. El Capítulo IV describe y analiza series temporales de datos meteorológicos y oceanográficos, y define una serie de procesos de importancia para el transporte larvario. En el Capítulo V se relacionan las variaciones temporales de distribución larvaria y el asentamiento con los patrones hidrodinámicos descriptos, en el marco de hipótesis alternativas sobre los mecanismos de transporte. Las tres especies con potencial pesquero estudiadas, presentan una estacionalidad marcada en sus ciclos reproductivos. Las hembras de M. gregaria comienzan a desovar en junio y se encuentran hembras incubando huevos hasta diciembre. En el laboratorio, el desarrollo embrionario demora aproximadamente un mes a la temperatura del ambiente (11ºC) y las hembras son capaces de producir puestas sucesivas dentro de una misma temporada. Las eclosiones secuenciales ocurren mayormente entre julio y diciembre. Las hembras de O. trimaculatus presentan un período reproductivo extenso con dos picos de desove consecutivos, seguidos por el desarrollo embrionario que concluye en períodos de eclosión en diciembre y febrero. El desarrollo embrionario en laboratorio demora aproximadamente 70 días a un régimen constante de temperatura de 11ºC. Las hembras de P. patagonicus desovan entre abril y mayo y la eclosión se produce entre octubre y diciembre. La estacionalidad de la presencia de larvas de estas tres especies en el plancton se corresponde con la estacionalidad reproductiva. Las larvas de P. patagonicus presenton máximos de abundancia entre octubre y noviembre, las de O. trimaculatus presentan dos picos de abundancia de zoeas, uno entre noviembre y diciembre y el otro en febrero, y las larvas de M. gregaria son muy abundantes entre julio y octubre. Se describe además, la estacionalidad de la abundancia de los diferentes estadios larvarios de otras 6 especies de braquiuros y anomuros: Pachycheles chubutensis, Leurocyclus tuberculosus, Leucippa pentagona, Halicarcinus planatus, Peltarion spinosulum y el género Cyrtograpsus. La distribución vertical de las zoeas de las nueve especies antes citadas no es homogénea en la mayoría de los casos. Las larvas de M. gregaria y P. spinosulum (que presentan grandes abundancias en invierno) se distribuyen cerca de la superficie durante el día y una pequeña fracción de sus larvas migra hacia aguas profundas durante la noche. Las zoeas de P. patagonicus se distribuyen en estratos intermedios y profundos de la columna de agua durante el día y migran hacia la superficie en proporciones variables durante la noche. Los estadios iniciales de Zoea (I y II) de O. trimaculatus se distribuyen en aguas profundas durante el día, mientras que los estadios más avanzados (Zoea III y IV) se concentran en aguas superficiales. En horas nocturnas todos los estadios de Zoea de la especie se concentran en la superficie manteniendo pequeñas proporciones en aguas profundas. Se propone que algunas especies costeras como P. chubutensis desarrollarían estrategias de retención ubicándose -al menos durante parte del día- en aguas profundas para no ser advectadas lejos del ambiente parental, mientras que otras como O. trimaculatus y Cyrtograpsus spp se concentrarían en aguas superficiales para desarrollarse en aguas abiertas con menor presión de predación y regresar a la costa en el estadio megalopa. Varias especies se asentaron sobre los colectores artificiales, algunas durante la primavera (P. spinosulum y M. gregaria) y otras durante el verano (P. chubutensis y Cyrtograpsus spp.). En todas ellas el asentamiento fue marcadamente estacional, con picos de intensidad diferentes en años consecutivos. Las series temporales de asentamiento alternaron períodos en los que las variaciones fueron abruptas y períodos con variaciones graduales, y la correlación entre las densidades de las especies que se asentaron simultáneamente fue muy baja en todos los casos. Se probaron tres diseños diferentes de colectores (uno de ellos el utilizado en el resto del trabajo) colocados en diferentes sitios y en diferentes momentos del año para capturar megalopas de O. trimaculatus y P. patagonicus sin obtener resultados positivos. Se registró y analizó información de diferentes variables meteorológicas y oceanográficas, a saber: intensidad y dirección de la corriente en diferentes estratos de la columna de agua, temperatura del agua en la superficie y el fondo en un área litoral de 15 m de profundidad, intensidad y dirección del viento, intensidad de la radiación solar, altura de marea y fases lunares. Se identificaron cuatro procesos costeros con potencial para transportar larvas de decápodos hacia la costa: 1) surgencias de aguas profundas generalmente asociado a vientos fuertes del oeste, 2) hundimiento de aguas superficiales generalmente asociado a vientos fuertes del este, 3) ondas internas de marea (oscilaciones de la termoclina), asociadas a mareas amplias y gran estratificación térmica de la columna de agua, y evidenciadas por fuertes fluctuaciones de la temperatura del fondo, y 4) ondas internas forzadas por la brisa, con período diurno y asociadas a la estratificación térmica de la columna de agua y a la persistencia de la brisa marina. La relación entre la intensidad del asentamiento de las cuatro especies más abundantes y las variables ambientales estudiadas sugirió un efecto de estos cuatro procesos costeros en el transporte de las megalopas hacia la costa. El asentamiento de M. gregaria varió significativamente en relación con la fase lunar y la amplitud de marea, y en menor medida con la brisa marina. Se propone que sus larvas se concentrarían en aguas profundas y serían transportadas por ondas internas de marea o de brisa. El asentamiento de P. spinosulum se vió fuertemente incrementado en períodos con incidencia de la brisa marina y amplitudes intermedias de marea. Se propone que las megalopas de esta especie serían concentradas en la superficie y transportadas por la brisa hacia la costa. Las especies con hábitos litorales asentadas en los colectores (P. chubutensis y Cyrtograpsus spp) no parecieron afectadas por los procesos costeros de alta frecuencia (brisa y marea), y se propone que las megalopas de ambas especies se concentrarían en aguas intermedias o profundas, transportándose hacia la costa en períodos de surgencias. Fil: Dellatorre, Fernando Gaspar. Universidad Nacional del Comahue. Centro Regional Universitario Bariloche; Argentina. Fil: Dellatorre, Fernando Gaspar. Universidad Tecnológica Nacional. Facultad Regional Chubut. CESIMAR - CONICET; Argentina.

Published

2009

28. Trophic ecology of the lobster krill Munida gregaria in San Jorge Gulf, Argentina

Author

Martín Varisco and Julio Hector Vinuesa

Subjects

Squat lobster, Krill, biology, Ecology, Detritivore, Aquatic Science, Oceanography, biology.organism_classification, Crustacean, lobster krill, Predation, Munida gregaria, depredadores, alimentación, golfo San Jorge, feeding, predators, Patagonia, langostilla, Energy source, San Jorge Gulf, Apex predator, Trophic level

Abstract

The "langostilla", Munida gregaria, also called lobster krill or squat lobster, is a very common galatheid crustacean in San Jorge Gulf and around the southern tip of South America. Previous studies have shown that this species plays an important role in the trophic webs wherever it has been studied. In order to determine its natural food sources, we analyzed 10 samples (30-36 individuals each) taken from different sites in San Jorge Gulf. Moreover, stomach analyses were performed on 32 fish species, 4 mollusk species, and 7 crustacean species from the gulf. The lobster krill is primarily a detritivore or surface deposit-feeder and secondarily a predator and/or scavenger. Its main energy sources are particu-late organic matter and their associated bacteria, small live organisms on the surface of the sediment layer (ostracods, copepods, foraminifers, other protists), and animal debris. Polychaetes are the main prey of lobster krill in the study area. This dual complementary feeding behavior is common in the studied galatheids, making them a fundamental link between detritus and benthic and demersal top predators. Some species of these predators constitute important fisheries. Different life-cycle stages of the squat lobster were preyed on by 32 of the examined species. However, the spectrum of predators is still incomplete, with other species feeding on larvae and juveniles of the species La langostilla, también llamada bogavante ó langostino de los canales, es un crustáceo galateido de gran abundancia en el Golfo San Jorge y otras áreas del extremo sur de América. Trabajos previos han resaltado la importancia de esta especie en todos los lugares donde ha sido estudiada. Se analizaron 10 muestras de 30 a 36 animales cada una, provenientes de distintos sectores del golfo San Jorge, con el fin de reconocer su alimentación natural. Se revisaron también los estómagos de 32 especies de peces, cuatro especies de moluscos y siete especies de crustáceos del golfo. La langostilla se comporta principalmente como detritívoro o consumidor de depósitos superficiales, y secundariamente, como depredador y/o carroñero. Su fuente principal de energía está dada por materia orgánica particulada y sus bacterias asociadas, organismos vivos pequeños que se encuentran en la capa de sedimento superficial (ostrácodos, copépodos, foraminíferos y otros protistas) y restos de organismos muertos. Su presa principal en el área son los poliquetos. Esta dualidad complementaria en su alimentación es común en los galateidos estudiados y lo convierte en un eslabón fundamental entre el detrito y los depredadores terminales bentónicos y demersales, algunas de cuyas especies integran pesquerías de gran importancia. La langostilla ha sido registrada como presa en 32 de las especies analizadas, en distintas etapas de su vida. Sin embargo, el espectro de depredadores es aún incompleto y existirían otras especies que actuarían sobre larvas y juveniles

Published

2007

29. Munida gregaria

Author

Ahyong, Shane T. and Poore, Gary C. B.

Subjects

Munida gregaria, Arthropoda, Decapoda, Animalia, Munida, Biodiversity, Galatheidae, Malacostraca, Taxonomy

Abstract

Munida gregaria (Fabricius, 1793) Galathea gregaris Fabricius, 1793: 473 [type locality: south Atlantic Ocean, 37°30’S]. Munida gregaria. — Davie, 2002: 63–64. Galathea subrugosa White, 1847: 66 [nomen nudum]. Munida subrugosa Dana, 1852: 479, pl. 30: fig. 7a–b [type locality: Hermite Island, Tierra del Fuego]. — Filhol, 1885: 425. — Sayce, 1902: 155. — Haig, 1973: 274. — Healy & Yaldwyn, 1970: 68, fig. 33. Munida subrugosa australiensis Henderson, 1885: 125, pl. 13: figs. 3, 3a–b [type locality: E of Moncoeur Island, Bass Strait]; 1888: 126, pl. 13: figs. 3, 3a–b. — Ortmann, 1892: 254. Munida australiensis. — Benedict, 1902: 306. Material examined. NEW SOUTH WALES: AM P5793, 3 males (10.8–13.3 mm), 1 female (12.3 mm), 4.8–6.4 km off Eden, 46–55 m, A. Livingstone & H. Fletcher, May 1922; AM P11892, 2 males (8.3–10.5 mm), 1 female (11.2 mm), off Eden, 37°04’S, 150°10’S, 102 m, CSIRO, 9 Mar 1948; AM P9464, 6 males (10.0– 13.9 mm), 4 females (11.9–12.3 mm), off Montague Island, 36°15’S, 150°14’E, 128 m, State Fisheries, 26 Jun 1929. TASMANIA: AM E1057, 8 males (9.5–24.0 mm), 47 females (10.5–19.9 mm), E coast of Flinders Island, Bass Strait, 40°01’S, 148°02’E, 53 m, FIS Endeavour, 17 May 1909; SAM, 2 males (18.5–19.5 mm), Mercury Passage, 20 m, in scallop collectors, C. Gardner, Mar 1997. Remarks. The specimens agree well with published accounts (Henderson 1885, 1888, Haig 1973). Munida gregaria is readily distinguished from other Australian species of Munida in having spines on the anterior margin of the fourth abdominal somite. Distribution. New Zealand, subantarctic islands, Patagonia, Falkland Islands, off Uruguay, and southern Australia from southern New South Wales, Victoria and Tasmania; 20–1097 m., Published as part of Ahyong, Shane T. & Poore, Gary C. B., 2004, Deep-water Galatheidae (Crustacea: Decapoda: Anomura) from southern and eastern Australia, pp. 1-76 in Zootaxa 472 (1) on pages 32-33, DOI: 10.11646/zootaxa.472.1.1, http://zenodo.org/record/5552920, {"references":["Fabricius, J. C. (1793) Entomologia Systematica Emendata et Aucta. Secundum Classes, Ordines, Genera, Species. Adjectis Synonimis, Locis, Observationibus, Descriptionibus, 2, 519. Hafniae.","Davie, P. J. F. (2002) Crustacea: Malacostraca: Eucarida (Part 2). In: Wells, A. & Houston, W. W. K. (Eds.) Zoological Catalogue of Australia. Vol. 19.3 B. CSIRO Publishing, Melbourne. 551 pp.","White, A. (1847) List of the species of Crustacea in the collection of the British Museum, London. 143 pp.","Dana, J. D. (1852 - 1855) Crustacea, Part 1. United States Exploring Expedition during the years 1838, 1839, 1840, 1841, 1842, under the command of Charles Wilkes, U. S. N., 13, 1 - 685 [1852]. Atlas: 1 - 27, pls. 1 - 96 [1855]. C. Sherman, Philadelphia.","Filhol, H. (1885) 1. Zoologie. 3. Crustaces. In: Recherches zoologiques, botaniques et geologiques faites a l'ile Campbell et en Nouvelle-Zelande. Recueil de Memoires, Rapports et Documents relatifs a l'Observation du Passage de Venus sur le Soleil du 9 Decembre 1874. Mission de Ile Campbell. Institut de France, Academie des Sciences, Paris. Zoologie, 3, 349 - 510.","Sayce, O. A. (1902) Dredging in Port Phillip. Victorian Naturalist 18, 149 - 155.","Haig, J. (1973) Galatheidea (Crustacea, Decapoda, Anomura) collected by the F. I. S. Endeavour. Records of the Australian Museum, 28, 269 - 289.","Healy, A. & Yaldwyn, J. (1970) Australian Crustaceans in Colour. Reed, Sydney. 112 pp.","Henderson, J. R. (1885) Diagnoses of the new species of Galatheidea collected during the \" Challenger \" Expedition. Annals and Magazine of Natural History, series 5, 16, 407 - 421.","Ortmann, A. (1892) Die Decapoden-Krebse des Strassburger Museums IV. Die Abtheilungen Galatheidea und Paguridea. Zoologischen Jahrbuchern, Abtheilung fur Systematik, Geographie und Biologie der Tiere, 6, 241 - 326.","Benedict, J. E. (1902) Descriptions of a new genus and forty-six new species of crustaceans of the family Galatheidae, with a list of the known marine species. Proceedings of the United States National Museum, 26, 243 - 334.","Henderson, J. R. (1888) Report on the Anomura collected by H. M. S. Challenger during the years 1873 - 76. Report on the Scientific Results of the Voyage of H. M. S. Challenger during the years 1873 - 76, Zoology, 27, i - vi + 1 - 221, pl. 1 - 21."]}

Published

2004

30. Trophic ecology of the lobster krill Munida gregaria in San Jorge Gulf, Argentina

Author

Vinuesa,Julio H, Varisco,Martin, Vinuesa,Julio H, and Varisco,Martin

Abstract

The "langostilla", Munida gregaria, also called lobster krill or squat lobster, is a very common galatheid crustacean in San Jorge Gulf and around the southern tip of South America. Previous studies have shown that this species plays an important role in the trophic webs wherever it has been studied. In order to determine its natural food sources, we analyzed 10 samples (30-36 individuals each) taken from different sites in San Jorge Gulf. Moreover, stomach analyses were performed on 32 fish species, 4 mollusk species, and 7 crustacean species from the gulf. The lobster krill is primarily a detritivore or surface deposit-feeder and secondarily a predator and/or scavenger. Its main energy sources are particu-late organic matter and their associated bacteria, small live organisms on the surface of the sediment layer (ostracods, copepods, foraminifers, other protists), and animal debris. Polychaetes are the main prey of lobster krill in the study area. This dual complementary feeding behavior is common in the studied galatheids, making them a fundamental link between detritus and benthic and demersal top predators. Some species of these predators constitute important fisheries. Different life-cycle stages of the squat lobster were preyed on by 32 of the examined species. However, the spectrum of predators is still incomplete, with other species feeding on larvae and juveniles of the species

Published

2007

31. The complete mitochondrial genome of squat lobster, Munida gregaria (Anomura, Galatheoidea, Munididae).

Author

Lee CW, Song JH, Min GS, and Kim S

Abstract

We determined the mitogenome sequence of Munida gregaria (Fabricius 1793) (Anomura, Galatheoidea, Munididae), which is the first complete mitogenome sequence in the family Munididae Ahyong et al., 2010. The mitogenome of M. gregaria is 16 326 bp in length and contains 13 protein-coding genes (PCGs), 22 transfer RNAs (tRNAs), two ribosomal RNAs (rRNAs) and two control regions (CRs). Mitogenome analysis of M. gregaria showed an extra copy of the CR and rearrangements of two PCGs ( nad2 and nad3 ) compared to the arthropod ground pattern. Additionally, it contains a tRNA ( trnY ) inversion and rearrangements of two PCGs ( nad1 and nad3 ) when compared with that of Neopetrolisthes maculatus and Shinkaia crosnieri , respectively. The phylogenetic tree confirmed that M. gregaria belongs to the superfamily Galatheoidea within Anomura. Our results will be useful for the detailed study of mitogenome evolution and the phylogenetic relationships among the superfamily in the infraorder Anomura., Competing Interests: The authors declare no conflicts of interest. The authors alone are responsible for the content and writing of the manuscript., (© 2016 The Author(s). Published by Taylor & Francis.)

Published

2016

32. Decapoda of the Snares Islands, New Zealand

Author

Graham D. Fenwick

Subjects

Ecology, biology, Decapoda, Fauna, Munida gregaria, Intertidal zone, Aquatic Science, biology.organism_classification, Waves and shallow water, Paguristes, Habitat, Pagurus, Ecology, Evolution, Behavior and Systematics, Water Science and Technology

Abstract

Twelve species of decapods, including six new records (Nauticaris marionis, Alpheus socialis, Munida gregaria, Paguristes subpilosus, Pagurus norae, and Pagurus thompsoni), are reported from the Snares Islands. Habitat information and the known distribution are presented for each species. The Snares decapod fauna is depauperate, probably because extreme wave exposure has resulted in a low diversity of intertidal and shallow water habitats. Those species present indicate that the decapod fauna has affinities with those of both southern New Zealand (Forsterian Province) and the southern islands (Antipodean Province).

Published

1978

33. Some chemical properties of Munida gregaria and Euphausia superba

Author

Enrique F. Mandelli, Paul R. Burkholder, and P. Centeno

Subjects

Munida gregaria, Euphausia, Zoology, General Chemistry, Biology, General Agricultural and Biological Sciences, biology.organism_classification

Published

1967

34. Correction-Some Chemical Properties of Munida Gregaria and Euphausia Superba

Author

P R. Burkholder and Et Al

Subjects

Munida gregaria, Euphausia, Zoology, General Chemistry, Biology, General Agricultural and Biological Sciences, biology.organism_classification

Published

1968

35. The Effect of the Environment On the Morphology of Munida Gregaria (Fabricius) (Decapoda, Anomura)

Author

Barbara G. Williams

Subjects

Anomura, biology, Decapoda, Munida gregaria, Zoology, Animal Science and Zoology, Aquatic Science, biology.organism_classification

Abstract

[Die untersuchten Tiere besitzen die Charakteristika von Munida gregaria wahrend der pelagischen Lebensphase; wenn sie jedoch zum Bodenleben ubergehen, andern sich die Merkmale im Verlaufe einer Serie von Hautungen und gleichen allmahlich den fur M. subrugosa charakteristischen Eigenarten. Diesen Ergebnissen zufolge handelt es sich bei den genannten Formen nicht um selbstandige Arten. Eine einzelne Art (M. gregaria) existiert vielmehr in einer Serie verschiedener Formen, die vom Habitat abhangen., Die untersuchten Tiere besitzen die Charakteristika von Munida gregaria wahrend der pelagischen Lebensphase; wenn sie jedoch zum Bodenleben ubergehen, andern sich die Merkmale im Verlaufe einer Serie von Hautungen und gleichen allmahlich den fur M. subrugosa charakteristischen Eigenarten. Diesen Ergebnissen zufolge handelt es sich bei den genannten Formen nicht um selbstandige Arten. Eine einzelne Art (M. gregaria) existiert vielmehr in einer Serie verschiedener Formen, die vom Habitat abhangen.]

Published

1973