scholarly journals Growth rates of the giant clam Tridacna maxima (Röding, 1798) reared in cages in the Egyptian Red Sea

2019 ◽  
Vol 45 (1) ◽  
pp. 67-73
Author(s):  
T.A.A. Mohammed ◽  
M.H. Mohamed ◽  
R.M. Zamzamy ◽  
M.A.M. Mahmoud
Keyword(s):  
Red Sea ◽  
Growth Rates ◽  
Giant Clam ◽  
Tridacna Maxima

scholarly journals Tissue-Specific Microbiomes of the Red Sea Giant Clam Tridacna maxima Highlight Differential Abundance of Endozoicomonadaceae

2019 ◽  
Vol 10 ◽  
Author(s):  
Susann Rossbach ◽  
Anny Cardenas ◽  
Gabriela Perna ◽  
Carlos M. Duarte ◽  
Christian R. Voolstra
Keyword(s):  
Red Sea ◽  
Giant Clam ◽  
Differential Abundance ◽  
Tissue Specific ◽  
Tridacna Maxima

scholarly journals Large dendrinids meet giant clam: the bioerosion trace fossil <i>Neodendrina carnelia</i> igen. et isp. n. in a <i>Tridacna</i> shell from Pleistocene–Holocene coral reef deposits, Red Sea, Egypt

Fossil Record ◽  
2018 ◽  
Vol 21 (1) ◽  
pp. 1-9 ◽  
Author(s):  
Max Wisshak ◽  
Christian Neumann
Keyword(s):  
Coral Reef ◽  
Red Sea ◽  
Trace Fossil ◽  
Giant Clam ◽  
Shallow Marine ◽  
Tropical Coral ◽  
Tropical Coral Reef ◽  
Tridacna Maxima ◽  
Large Representative ◽  
Sea Coast

Abstract. The rosette-shaped microboring trace fossil Neodendrina carnelia igen. et isp. n. – a large representative of the ichnofamily Dendrinidae – is identified on the inner side of the giant clam Tridacna maxima from Pleistocene to Holocene coral reef deposits of the El Quseir district at the Egyptian Red Sea coast. The new dendritic bioerosion trace fossil is diagnosed as a radial rosette comprised of a prostrate system of roofless canals that ramify in a strictly dichotomous fashion forming intermittent branches of uniform width and rounded terminations. The trace appears to be rare, although in the type material it occurs in a cluster of more than a hundred specimens. The location of traces on the interior surface of the shell suggests that boring occurred post-mortem to the host. Its record is presently restricted to shallow marine, euphotic, tropical coral reef settings in the Western Indo-Pacific (Red Sea and Madagascar). The biological identity of the trace maker cannot be resolved yet, but several lines of reasoning allow speculations directed towards a complex attachment scar, perhaps produced by a benthic foraminiferan or a macrophyte.

scholarly journals Supplementary material to "Light-dependent calcification in Red Sea giant clam <i>Tridacna maxima</i>"

2019 ◽  
Author(s):  
Susann Rossbach ◽  
Vincent Saderne ◽  
Andrea Anton ◽  
Carlos M. Duarte
Keyword(s):  
Red Sea ◽  
Giant Clam ◽  
Tridacna Maxima ◽  
Supplementary Material

scholarly journals Light-dependent calcification in Red Sea giant clam <i>Tridacna maxima</i>

2019 ◽  
Vol 16 (13) ◽  
pp. 2635-2650 ◽  
Author(s):  
Susann Rossbach ◽  
Vincent Saderne ◽  
Andrea Anton ◽  
Carlos M. Duarte
Keyword(s):  
Primary Production ◽  
Red Sea ◽  
Gross Primary Production ◽  
Dry Mass ◽  
Giant Clam ◽  
Light Levels ◽  
Unicellular Algae ◽  
Giant Clams ◽  
Intermediate Size ◽  
Tridacna Maxima

Abstract. Tropical giant clams of the subfamily Tridacninae, including the species Tridacna maxima, are unique among bivalves as they live in a symbiotic relationship with unicellular algae and generally function as net photoautotrophs. Light is therefore crucial for these species to thrive. Here we examine the light dependency of calcification rates of T. maxima in the central Red Sea as well as the patterns of its abundance with depth in the field. Red Sea T. maxima show the highest densities at a depth of 3 m with 0.82±0.21 and 0.11±0.03 individuals m−2 (mean ± SE) at sheltered and exposed sites, respectively. Experimental assessment of net calcification (µmol CaCO3 cm−2 h−1) and gross primary production (µmol O2 cm−2 h−1) under seven light levels (1061, 959, 561, 530, 358, 244, and 197 µmol quanta m−2 s−1) showed net calcification rates to be significantly enhanced under light intensities corresponding to a water depth of 4 m (0.65±0.03 µmol CaCO3 cm−2 h−1; mean ± SE), while gross primary production was 2.06±0.24 µmol O2 cm−2 h−1 (mean ± SE). We found a quadratic relationship between net calcification and tissue dry mass (DM in gram), with clams of an intermediate size (about 15 g DM) showing the highest calcification. Our results show that the Red Sea giant clam T. maxima stands out among bivalves as a remarkable calcifier, displaying calcification rates comparable to other tropical photosymbiotic reef organisms such as corals.

scholarly journals Microplastic removal by Red Sea giant clam (Tridacna maxima)

2019 ◽  
Vol 252 ◽  
pp. 1257-1266 ◽  
Author(s):  
Silvia Arossa ◽  
Cecilia Martin ◽  
Susann Rossbach ◽  
Carlos M. Duarte
Keyword(s):  
Red Sea ◽  
Giant Clam ◽  
Tridacna Maxima

scholarly journals Drivers of the Abundance of Tridacna spp. Giant Clams in the Red Sea

2021 ◽  
Vol 7 ◽  
Author(s):  
Susann Rossbach ◽  
Andrea Anton ◽  
Carlos M. Duarte
Keyword(s):  
Red Sea ◽  
Large Scale ◽  
Multiple Roles ◽  
Giant Clam ◽  
Carbonate Budget ◽  
Giant Clams ◽  
Tridacna Squamosa ◽  
Tridacna Maxima ◽  
Large Scale Survey ◽  
Reef Zone

Giant clams (Subfamily Tridacninae), are important members of Indo-Pacific coral reefs, playing multiple roles in the framework of these communities. Although they are prominent species in Red Sea reefs, data on their distribution and densities in the region are scarce. The present study provides the first large-scale survey of Red Sea Tridacna spp. densities, where we examined a large proportion of the Saudi Arabian Red Sea coast (1,300 km; from 18° to 29°N). Overall, Tridacninae were found at densities of 0.19 ± 0.43 individuals m–2 (±SD). Out of the total 4,002 observed clams, the majority (89%) were Tridacna maxima, with 0.17 ± 0.37 individuals m–2, while only 11% were Tridacna squamosa clams with 0.02 ± 0.07 individuals m–2. We also report on a few (total 6) Tridacna squamosina specimens, found at a single reef. We identified different geographical parameters (i.e., latitude and distance to shore) and local environmental factors (i.e., depth and reef zone) as the main drivers for local Tridacna spp. densities. Our results show that the drivers influencing the densities of Red Sea giant clams are complex due to their co-occurrence and that this complexity might explain the high variation in Tridacninae abundances across the Indo-Pacific, but also within a given reef. We also estimate that giant clam calcification likely contributes to an average of 0.7%, but potentially up to 9%, of the overall mean calcium carbonate budget of Red Sea coral reef communities.

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