1000 resultados para Gymnodinium Microadriaticum Freudenthal
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Kurt Wilhelm
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NW African climate shows orbital and millenial-scale variations, which are tightly connected to changes in marine productivity. We present an organic-walled dinoflagellate cyst (dinocyst) record from a sediment core off Cape Yubi at about 27°N in the Canary Basin covering the time period from 47 to 3ka before present (BP). The dinocyst record reflects differences in upwelling intensity and seasonality as well as the influence of fluvial input. Sea-level changes play an important role for the upwelling pattern and productivity signals at the core site. Within the studied time interval, four main phases were distinguished. (1) From 45 to 24ka BP, when sea-level was mostly about 75m lower than today, high relative abundances of cysts of heterotrophic taxa point to enhanced upwelling activity, especially during Heinrich Events, while relatively low dinocyst accumulation rates indicate that filament activity at the core location was strongly reduced. (2) At sea-level lowstand during the LGM to H1, dinocyst accumulation rates suggest that local filament formation was even more inhibited. (3) From the early Holocene to about 8ka BP, extraordinary high accumulation rates of most dinocyst species, especially of Lingulodinium machaerophorum, suggest that nutrient supply via fluvial input increased and rising sea-level promoted filament formation. At the same time, the upwelling season prolongated. (4) A relative increase in cysts of photoautotrophic taxa from about 8ka BP on indicates more stratified conditions while fluvial input decreased. Our study shows that productivity records can be very sensitive to regional features. From the dinocyst data we infer that marine surface productivity off Cape Yubi during glacial times was within the scale of modern times but extremely enhanced during deglaciation.
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Light-microscopic and electron-microscopic studies of the tropical marine sponge Haliclona sp. (Or der: Haplosclerida Family: Haliclonidae) from Heron Island, Great Barrier Reef, have revealed that this sponge is characterized by the presence of dinoflagellates and by nematocysts. The dinoflagellates are 7-10 mu m in size, intracellular, and contain a pyrenoid with a single stalk, whereas the single chloroplast is branched, curved, and lacks grana. Mitochondria are present, and the nucleus is oval and has distinct chromosomal structure. The dinoflagellates are morphologically similar to Symbiodinium microadriaticum, the common intracellular symbiont of corals, although more detailed biochemical and molecular studies are required to provide a precise taxonomic assignment. The major sponge cell types found in Haliclona sp, are spongocytes, choanocytes, and archaeocytes; groups of dinoflagellates are enclosed within large vacuoles in the archaeocytes. The occurrence of dinoflagellates in marine sponges has previously been thought to be restricted to a small group of sponges including the excavating hadromerid sponges; the dinoflagellates in these sponges are usually referred to as symbionts. The role of the dinoflagellates present in Haliclona sp. as a genuine symbiotic partner requires experimental investigation. The sponge grows on coral substrates, from which it may acquire the nematocysts, and shows features, such as mucus production, which are typical of some excavating sponges. The cytotoxic alkaloids, haliclonacyclamines A and B, associated with Haliclona sp. are shown by Percoll density gradient fractionation to be localized within the sponge cells rather than the dinoflagellates. The ability to synthesize bioactive compounds such as the haliclonacyclamines may help Haliclona sp. to preserve its remarkable ecological niche.
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Sea temperatures in many tropical regions have increased by almost 1 degrees C over the past 100 years, and are currently increasing at similar to 1-2 degrees C per century. Coral bleaching occurs when the thermal tolerance of corals and their photosynthetic symbionts (zooxanthellae) is exceeded. Mass coral bleaching has occurred in association with episodes of elevated sea temperatures over the past 20 years and involves the loss of the zooxanthellae following chronic photoinhibition. Mass bleaching has resulted in significant losses of live coral in many parts of the world. This paper considers the biochemical, physiological and ecological perspectives of coral bleaching. It also uses the outputs of four runs from three models of global climate change which simulate changes in sea temperature and hence how the frequency and intensity of bleaching events will change over the next 100 years. The results suggest that the thermal tolerances of reef-building corals are likely to be exceeded every year within the next few decades. Events as severe as the 1998 event, the worst on record, are likely to become commonplace within 20 years. Most information suggests that the capacity for acclimation by corals has already been exceeded, and that adaptation will be too slow to avert a decline in the quality of the world's reefs. The rapidity of the changes that are predicted indicates a major problem for tropical marine ecosystems and suggests that unrestrained warming cannot occur without the loss and degradation of coral reefs on a global scale.
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The scleractinian coral species, Seriatopora hystrix and Acropora longicyathus, are widely distributed throughout the latitudinal range of the tropical west Pacific. These 2 coral species live in a mutually beneficial relation with symbiotic dinoflagellates (zooxanthellae), which are passed to their progeny by vertical transmission (zooxanthellate eggs or larvae) and horizontal transmission (eggs or larvae that acquire symbionts from the environment), respectively. For S. hystrix, vertical transmission might create biogeographically isolated and genetically differentiated symbiont populations because the extent of its larval migration is known to be limited. On the other hand, horizontal transmission in corals such as A. longicyathus may result in genetically connected symbiont populations, especially if its zooxanthellae taxa are widely distributed. To examine these hypotheses, symbionts were collected from colonies of S. hystrix and A. longicyathus living in the Great Barrier Reef (Australia), South China Sea (Malaysia) and East China Sea (Ryukyus Archipelago, Japan), and were examined using restriction fragment length polymorphism and sequence analysis of large and small subunit rRNA genes. Phylogenetic analysis assigned the symbionts to 1 of 3 taxonomically distinct groups, known as clades. Symbionts from Australian and Japanese S. hystrix were placed in Clade C, and Malaysian S. hystrix symbionts in the newly described Clade D. Seven of 11 Australian and all Japanese and Malaysian colonies of A. longicyathus had symbiotic dinoflagellates that also grouped with Clade C, but symbionts from the remaining Australian colonies of A. longicyathus grouped with Clade A. Analysis of molecular variance of Clade C symbionts found significant genetic variation in 1 or more geographic groups (69.8%) and to a lesser extent among populations within geographic regions (13.6%). All populations of Clade C symbionts from S. hystrix were genetically differentiated according to geographic region. Although Clade C symbionts of A. longicyathus from Japan resolved into a distinct geographic group, those from Australia and Malaysia did not and were genetically connected. We propose that these patterns of genetic connectivity correlate with differences in the dispersal range of the coral or symbiont propagules and are associated with their respective modes of symbiont transmission.
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Marine viruses have been shown to affect phytoplankton productivity; however, there are no reports on the effect of viruses on benthic microalgae (microphytobenthos). Hence, this study investigated the effects of elevated concentrations of virus-like particles on the photosynthetic physiology and community composition of benthic microalgae and phytoplankton. Virus populations were collected near the sediment surface and concentrated by tangential flow ultrafiltration, and the concentrate was added to benthic and water column samples that were obtained along a eutrophication gradient in the Brisbane River/Moreton Bay estuary, Australia. Photosynthetic and community responses of benthic microalgae, phytoplankton and bacteria were monitored over 7 d in aquaria and in situ. Benthic microalgal communities responded to viral enrichment in both eutrophic and oligotrophic sediments. In eutrophic sediments, Euglenophytes (Euglena sp.) and bacteria decreased in abundance by 20 to 60 and 26 to 66%, respectively, from seawater controls. In oligotrophic sediments, bacteria decreased in abundance by 30 to 42% from seawater controls but the dinoflagellate Gymnodinium sp. increased in abundance by 270 to 3600% from seawater controls, The increased abundance of Gymnodinium sp. may be related to increased availability of dissolved organic matter released from lysed bacteria. Increased (140 to 190% from seawater controls) initial chlorophyll a fluorescence measured with a pulse-amplitude modulated fluorometer was observed in eutrophic benthic microalgal incubations following virus enrichment, consistent with photosystem II damage. Virus enrichment in oligotrophic water significantly stimulated carbon fixation rates, perhaps due to increased nutrient availability by bacterial lysis. The interpretation of data from virus amendment experiments is difficult due to potential interaction with unidentified bioactive compounds within seawater concentrates. However, these results show that viruses are capable of influencing microbial dynamics in sediments.
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Dinoflagellates exist in symbiosis with a number of marine invertebrates including giant clams, which are the largest of these symbiotic organisms. The dinoflagellates (Symbiodinium sp.) live intercellularly within tubules in the mantle of the host clam. The transport of inorganic carbon (Ci) from seawater to Symbiodinium (=zooxanthellae) is an essential function of hosts that derive the majority of their respiratory energy from the photosynthate exported by the zooxanthellae. Immunolocalisation studies show that the host has adapted its physiology to acquire, rather than remove CO2, from the haemolymph and clam tissues. Two carbonic anhydrase (CA) isoforms (32 and 70 kDa) play an essential part in this process. These have been localised to the mantle and gill tissues where they catalyse the interconversion of HCO3- to CO2, which then diffuses into the host tissues. The zooxanthellae exhibit a number of strategies to maximise Ci acquisition and utilisation. This is necessary as they express a form II Rubisco that has poor discrimination between CO2 and O-2. Evidence is presented for a carbon concentrating mechanism (CCM) to overcome. this disadvantage. The CCM incorporates the presence of a light-activated CA activity, a capacity to take up both HCO3- and CO2, an ability to accumulate an elevated concentration of Ci within the algal cell, and localisation of Rubisco to the pyrenoid. These algae also express both external and intracellular CAs, with the intracellular isoforms being localised to the thylakoid lumen and pyrenoid. These results have been incorporated into a model that explains the transport of Ci from seawater through the clam to the zooxanthellae.
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Haliclona sp. 628 (Demospongiae, Haplosclerida, Chalinidae), a sponge found on the reef slope below 5 in depth on the Great Barrier Reef, has two unusual characteristics. It contains a symbiotic dinoflagellate, Symbiodinium sp., similar in structure to the dinoflagellate found within Acropora nobilis (S. microadriaticum), and it contains coral nematocysts randomly distributed between the ectosome and endosome and usually undischarged in intact sponge tissue. Given the unusual occurrence of nematocysts in Haliclona sp. 628, the focus of this study was to determine the distribution of this species of sponge on the reef slope at Heron Island Reef in relation to the distribution of potential coral donors. A combination of line and belt transects was used to estimate the abundance of Halielona sp. 628 and a co-occurring congener, Haliclona sp. 1031, which does not contain nematocysts, at three widely separated sites on the reef slope at Heron Island Reef. The abundance of different types of substratum (sand, sand-covered coral rubble, dead A. nobilis, live A. nobilis, other live coral, and other dead coral) along the transects and the substratum to which each sponge colony was attached were also recorded. Despite the predominance of live A. nobilis and sand-covered rubble at all sites, between 30 and 55% of Haliclona sp. 628 colonies were attached to dead A. nobilis which comprised less than 8% of the available substratum along any transect. In contrast, Haliclona sp. 1031 was found significantly more frequently on other dead corals and less frequently on live A. nobilis than would be expected based on the availability of the different substrata in the sites. Potential explanations to account for the distribution of Haliclona sp. 628 in relation to potential coral donors are discussed.
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La serie de datos sobre clorófila, producción primaria y nutrientes de la costa pe ruana (4º -18º S) reunidos por el IMARPE a través de varios años ha permitido establecer los patrones promedio de su distribución en la superficial del mar. El principal objetivo del presente estudio fue la variabilidad a toda escala incluyendo "El Niño". Las fluctuaciones a corto plazo fueron evidentes dentro del periodo 1964-1978 pero no lograron alterar una distribución característica para todo el periodo. La intensidad estacional del afloramiento en el norte y sur (otoño e invierno) estuvo relacionada a la distribución de nutrientes, clorofila y productividad del fitoplancton cuya ocurrencia en ''patches" y lenguas reflejó la dinámica que gobierna la región costera de Perú como resultado del flujo de aguas oceánicas hacia la costa y del flujo de aguas afloradas Juera de la costa. El ciclo estacional de fitoplancton medido en base a su biomasa comienza en primavera cuando el régimen local de luz mejora, las concentraciones de clorófila alcanzan su máximo a mediados de verano y comienzos de otoño decreciendo en invierno; de esta variabilidad en la abundancia resulta una correlación estacional negativa con los nutrientes en verano e invierno. Similar tendencia mostró la distribución de producción primaria cuyas máximas estuvieron relacionadas con las aguas frías a lo largo de la costa. La distribución latitudinal de clorófila en la costa peruana durante los años de ocurrencia de El Niño mostró características diferentes del patrón normal especialmente en 1976. Las concentraciones se hallaron muy pegadas a la costa, una excepción fueron. las áreas donde dominó el dinoflagelado Gymnodinium splendens con una distribución más alejada de la costa. Los años cálidos se caracterizaron por una baja biomasa del fitoplancton en relación a la media de 1966 considerado como un año de condiciones promedio. El rango anual de la concentración de nutrientes encontrado a una temperatura dada mostró límites definidos para las diferentes estaciones del año. En respuesta al incremento de la temperatura Juera de la costa (norte y oeste) las variables químicas y biológicas decrecieron.
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El desarrollo de la maricultura en la Bahía de Samanco ha ocasionado descarga de restos orgánicos al ecosistema marino; se efectuaron monitoreos en esta Bahía en época de veda y de actividad pesquera industrial del 2005 al 2010; temperatura, salinidad y nutrientes se mantuvieron normales, pudiéndose afirmar que la capacidad de resiliencia del ecosistema no está afectada. Los parámetros fisicoquímicos, aceites y grasa presentaron altas concentraciones del 2007 al 2010, en relación al valor límite de los Estándares de Calidad Ambiental. La pesca artesanal generó 21.416 t de recursos hidrobiológicos, conformado por moluscos 57,78%, peces óseos 38,68%, equinodermos 3,20% y crustáceos, celentéreos y algas. La diversidad correspondió a 114 especies, mayor relevancia íctica dada por pejerrey, lisa, machete, lorna y coco; los invertebrados fueron concha de abanico, navajuela, calamar, marucha, caracol y ancoco. La captura de la pesca industrial de madera y artesanal anchovetera para consumo fue de 7.039 t, se identificaron 15 especies: peces (13) e invertebrados (2), la anchoveta aportó 98,71%. Se registraron 11 especies de fitoplancton potencialmente tóxicos, diatomeas: Pseudonitzschia cf delicatissima y P. pungens; dinoflagelados: Alexandrium sp., Dinophysis acuminata, D. caudata, D. rotundata, D. tripos, Gymnodinium sp., Prorocentrum mínimum, Protoperidinium crassipes y P. depressum.
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Se analizó la distribución espacio temporal de la abundancia fitoplanctónica, asociándola con la temperatura, salinidad, nutrientes y clorofila "a" en el perfil Callao 12 ºS, durante el año 1987. Se determinó la estructura de las asociaciones del fitoplancton mediante la composición específica, la riqueza específica (S), diversidad (H') y la dominancia ( D ) . La variación anual fitoplanctónica presentó un comportamiento similar al ciclo anual de producción del mar peruano, con dos picos de abundancia; el primero en primavera y el segundo en verano. Los eventos de surgencias que enriquecen de nutrientes las aguas del área del Callao son los responsables de que en esta zona se hayan registrado las concentraciones más altas de fitoplancton. Las diatomeas, los cocolitofóridos y los fitoflagelados fueron los componentes dominantes en los muestreos; siendo los dinoflagelados y los silicoflagelados ligeramente abundantes en el verano. La composición específica arrojó un total de 172 especies, comprendidos en 91 diatomeas, 52 dinoflagelados, 21 cocolitofóridos, 6 fitoflagelados y 2 silicoflagelados . Las especies Thalassiosira mínima, Skeletonema costatum, Nitzschia bicapitata, Nitzschia closterium, Navícula sp ., Guinardia delicatula, Gymnodinium splendens, Emiliania huxleyi y Eutreptiella gimnastica, fueron características de la temporada de la Primavera y Verano, mientras que Planktoniella sol, Rhizosolenia bergonii, Gymnodinium sp. y Nonada sp. lo fueron para la temporada del Otoño e Invierno. La variación de la diversidad específica y la dominancia estuvo relacionada por la influencia del fenómeno El Niño, así tenemos que durante la época de El Niño hasta el invierno de 1987 se observaron valores altos de diversidad y baja dominancia en la zona costera indicando una comunidad fitoplanctónica de etapa avanzada de la sucesión ecológica . El evento "El Niño" 1987, provocó una notable caída de la abundancia fitoplanctónica, desde Noviembre de 1986 hasta Marzo de 1987. Los indicios de recuperación del fitoplancton se observaron a partir de setiembre de 1987, habiéndose recuperado parcialmente en Primavera del mismo año. Durante el período 1987, Emiliania huxleyi, Caloiosolenia murrayi y el grupo de los Fitoflagelados fueron los taxas predominantes.
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O trabalho visou avaliar a influência da escala temporal (sucessional e sazonal) sobre a biomassa, diversidade e estrutura específica da comunidade de algas perifíticas em reservatório oligotrófico tropical. A sucessão foi acompanhada em períodos seco e chuvoso com amostragens regulares a cada três dias, durante 27 dias, incluindo 16 variáveis abióticas e atributos do perifíton sobre substrato artificial. A clorofila-a foi baixa e similar entre períodos, porém com maiores perdas na época chuvosa. A diversidade foi elevada (3,4 a 4,5 bits ind-1) e relativamente estável entre períodos e durante a sucessão. As clorofíceas foram a classe mais abundante em quase toda sucessão, com destaque para Chlamydomonas planctogloea Skuja que contribuiu em média com 23% (seca) e 37% (chuva) da densidade total. A análise integrada entre as espécies e os fatores ambientais mostrou que a principal fonte de variabilidade ocorreu em função do período climático. Oocystis lacustris Chodat e Gymnodinium sp. apresentaram estreita associação com o período seco e aos menores valores de temperatura, amônio e maiores de pH, oxigênio dissolvido e fósforo total. Ao período chuvoso associaram-se Frustulia rhomboides (Ehr.) de Toni var. rhomboides e Cosmarium majae Strom correlacionadas de forma inversa às variáveis ambientais citadas. A estrutura do perifíton foi primordialmente controlada pela escala climática, sendo que os processos autogênicos sucessionais tiveram papel secundário. As associações de espécies de algas e o processo de acumulação de biomassa foram os atributos mais sensíveis a esta variação. Tais resultados contribuem para o escasso conhecimento sobre a estruturação do perifíton de reservatórios oligotróficos, servindo de referência para avaliação de sistemas tropicais alterados pela eutrofização.
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Tekijä lopusta: A. O. F.
