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Flies that are parasitoids of a marine snail: the larviposition behaviour and life cycles of Sarcophaga megafilosia and Sarcophaga meiofilosia (2000)

McKillup, Stephen C. ; McKillup, Ruth V. ; Pape, Thomas

Springer

Hydrobiologia 439 (2000), S. 141-149

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ISSN: 1573-5117

Keywords: Littoraria ; parasitoid ; mangrove ; intertidal ; fly ; snail

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract We report on the larviposition behaviours and life cycles of what appear to be the first known insect parasitoids of a marine mollusc. In the field, Sarcophaga megafilosia Pape, McKillup & McKillup and Sarcophaga meiofilosia Pape, McKillup & McKillup were seen depositing larvae close to live individuals of the intertidal snail, Littoraria filosa (Sowerby), which lives on the upper leaves and branches of mangroves. Once a larva had entered the shell, by wriggling between the operculum and the spire, it began burrowing into the foot of the snail. This caused the snail to retract violently and produce large amounts of mucus that entrapped and prevented other larvae present outside from entering the shell. Each snail died within an hour of larval penetration and its shell, within which the larva and pupa developed, became glued to a leaf or branch with dried mucus. S. megafilosia only larviposited on snails with shells 10 mm or longer, while S. meiofilosia only larviposited on those with shells from 4 to 〈10 mm long. Both flies were reared in the laboratory and had similar life cycles with a minimum generation time of about 50 days. Adults lived for up to 7 months and overwintered as adults; there was no evidence of a larval or pupal diapause. The larviposition behaviours of these flies are contrasted with a sarcophagid parasitoid of terrestrial snails. We suggest that other sarcophagid parasitoids of littorinid snails may have been overlooked, and that visual selection of hosts by S. megafilosia and S. meiofilosia may be at least partly responsible for maintaining the shell colour polymorphism shown by L. filosa.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1004104931474

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Can hydrocarbons entrapped in seep carbonates serve as gas geochemistry recorder? (2018)

Blumenberg, Martin ; Pape, Thomas ; Seifert, Richard ; [et al.]

Springer

In: Geo-Marine Letters, 38 (2). pp. 121-129.

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Publication Date: 2021-02-08

Description: The geochemistry of seep gases is useful for an understanding of the local petroleum system. Here it was tested whether individual light hydrocarbons in seep gases are representatively entrapped in authigenic carbonates that formed near active seep sites. If applicable, it would be possible to extract geochemical information not only on the origin but also on the thermal maturity of the hydrocarbon source rocks from the gases entrapped in carbonates in the past. Respective data could be used for a better understanding of paleoenvironments and might directly serve as calibration point for, amongst others, petroleum system modeling. For this approach, (sub)-recent seep carbonates from the Black Sea (Paleodnjepr region and Batumi seep area), two sites of the Campeche Knoll region in the Gulf of Mexico, and the Venere mud volcano (Mediterranean Sea) were selected. These seep carbonates derive from sites for which geochemical data on the currently seeping gases exist. During treatment with phosphoric acid, methane and higher hydrocarbons were released from all carbonates, but in low concentrations. Compositional studies demonstrate that the ratio of methane to the sum of higher hydrocarbons (C1/(C2+C3)) is (partly strongly) positively biased in the entrapped gas fraction. δ13C values of C1 were determined for all samples and, for the samples from the Gulf of Mexico and the Mediterranean Sea, also of C2 and C3. The present dataset from six seep sites indicates that information on the seeped methane can be—although with a scatter of several permil—recorded in seep carbonate matrices, but other valuable information like the composition and δ13C of ethane and propane appears to be modified or lost during, for example, enclosure or at an early stage of diagenesis.

Type: Article , PeerReviewed

Format: text

DOI: 10.1007/s00367-017-0522-6

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Gas hydrates in shallow deposits of the Amsterdam mud volcano, Anaximander Mountains, Northeastern Mediterranean Sea (2010)

Pape, Thomas ; Kasten, Sabine ; Zabel, Matthias ; [et al.]

Springer

In: Geo-Marine Letters, 30 (3-4). pp. 187-206.

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Publication Date: 2019-09-23

Description: We investigated gas hydrate in situ inventories as well as the composition and principal transport mechanisms of fluids expelled at the Amsterdam mud volcano (AMV; 2,025 m water depth) in the Eastern Mediterranean Sea. Pressure coring (the only technique preventing hydrates from decomposition during recovery) was used for the quantification of light hydrocarbons in near-surface deposits. The cores (up to 2.5 m in length) were retrieved with an autoclave piston corer, and served for analyses of gas quantities and compositions, and pore-water chemistry. For comparison, gravity cores from sites at the summit and beyond the AMV were analyzed. A prevalence of thermogenic light hydrocarbons was inferred from average C1/C2+ ratios 〈35 and δ13C-CH4 values of −50.6‰. Gas venting from the seafloor indicated methane oversaturation, and volumetric gas–sediment ratios of up to 17.0 in pressure cores taken from the center demonstrated hydrate presence at the time of sampling. Relative enrichments in ethane, propane, and iso-butane in gas released from pressure cores, and from an intact hydrate piece compared to venting gas suggest incipient crystallization of hydrate structure II (sII). Nonetheless, the co-existence of sI hydrate can not be excluded from our dataset. Hydrates fill up to 16.7% of pore volume within the sediment interval between the base of the sulfate zone and the maximum sampling depth at the summit. The concave-down shapes of pore-water concentration profiles recorded in the center indicate the influence of upward-directed advection of low-salinity fluids/fluidized mud. Furthermore, the SO42− and Ba2+ pore-water profiles in the central part of the AMV demonstrate that sulfate reduction driven by the anaerobic oxidation of methane is complete at depths between 30 cm and 70 cm below seafloor. Our results indicate that methane oversaturation, high hydrostatic pressure, and elevated pore-water activity caused by low salinity promote fixing of considerable proportions of light hydrocarbons in shallow hydrates even at the summit of the AMV, and possibly also of other MVs in the region. Depending on their crystallographic structure, however, hydrates will already decompose and release hydrocarbon masses if sediment temperatures exceed ca. 19.3°C and 21.0°C, respectively. Based on observations from other mud volcanoes, the common occurrence of such temperatures induced by heat flux from below into the immediate subsurface appears likely for the AMV.

Type: Article , PeerReviewed

Format: text

DOI: 10.1007/s00367-010-0197-8

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Yam Seep at Four-Way Closure Ridge: a prominent active gas seep system at the accretionary wedge SW offshore Taiwan (2023)

Tseng, Yiting ; Römer, Miriam ; Lin, Saulwood ; [et al.]

Springer

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Publication Date: 2024-02-07

Description: Hydroacoustic surveys at the accretionary wedge southwest of Taiwan reveal a confined active hydrocarbon seepage area of ~ 49,000 m 2 in ~ 1350 m water depth on the northern crest of the Four-Way Closure Ridge, which we call Yam Seep. In this study, multibeam and side-scan sonar data acquired during surveys with an autonomous underwater vehicle during an expedition with R/V Ocean Researcher I in 2017 showed that the area is characterized by rough topography and high seafloor backscatter. Seafloor observations with a video sled and sediment sampling with gravity corers and the MeBo seafloor drill rig during an expedition with R/V SONNE in 2018 revealed that the area is almost entirely covered by intensely fractured methane-derived carbonates, which indicate that seepage has been ongoing for thousands of years. Hydroacoustic anomalies (‘flares’) in the water column indicated the presence of several gas bubble emission sites mostly at the center and eastern flank of the area in 2019. Drilling through massive carbonates in the northwestern part of Yam Seep induced free gas escape from a depth of ~ 5.1 m. This suggests the presence of gas hydrates in the subsurface as the seep area is located well within the gas hydrate stability zone. The inter-disciplinary investigations of the Yam Seep demonstrate that upward migration of light hydrocarbons and seafloor discharge has a considerable influence on the seabed properties.

Type: Article , PeerReviewed

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