Marine Mussels. Elizabeth Gosling
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Название: Marine Mussels

Автор: Elizabeth Gosling

Издательство: John Wiley & Sons Limited

Жанр: Техническая литература

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isbn: 9781119293934

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СКАЧАТЬ range of 15–32.5 °C without much problem. For example, the species can survive a temperature of 39 °C for about 200 min (Rajagopal et al. 1995), which is considerably greater than the thermal tolerance of P. perna (see later). Also, P. viridis thrives well at winter water temperatures as low as 12 °C and has a higher degree of adaptability to salinity changes than P. perna (Rajagopal et al. 2006).

      The larvae of the ribbed mussel, Geukensia demissa, settle on subtidal oyster reefs, in intertidal salt marshes and on artificial structures in these habitats. Sometimes, they attach to one another in aggregations or to clumps of hollow grass stems (Spartina alterniflora) in low marshes. They are most abundant at the lowest shore levels within salt marshes, and occur in small numbers in the high marsh zone above the average high watermark (GISD 2015). The highest water temperature tolerated is 56 °C, and salinities are tolerated from nearly freshwater up to 70 psu, which is twice as salty as the open ocean (Cohen 2005).

      Modiolus modiolus occurs, partly buried, in soft sediments or coarse grounds or attached to hard substrata, forming clumps or extensive beds or reefs. The mussel may be found on the lower shore in rock pools or in laminarian holdfasts but is more commonly found subtidally to a depth of ~280 m (Tyler‐Walters 2007). Dense populations of very young M. modiolus do occasionally occur subtidally in estuaries, although the species is more poorly adapted to fluctuating salinity than other mussel species (Bayne 1976). M. barbatus is found among rocks and stones on the lower shore, extending into the sublittoral to depths of around 100 m. Modiolus auriculatus is found attached to rocks and in rock crevices in the littoral and sublittoral zones to a depth of 25 m. It also inhabits sandy mudflats and sometimes intertidal reefs in rock pools and crevices. Abdel‐Razak et al. (2014) examined the distribution of the species over the intertidal zone, coastal fringing reefs, offshore reefs and lagoons along the Red Sea coast of Egypt. They identified several diverse habitats: flat and rocky with a few sandy depressions in both intertidal and subtidal zones, with moderate vegetation of macro algae and sea grass beds and dead and live small coral patches; mangrove trees and tidal zones that reach to about 100 m; and a substrate consisting of small gravel pieces mixed with sand, extending down to ~70 m, with a dense vegetation of macro algae and sea grasses.

      Arcuatula senhousia inhabits littoral and sublittoral rock and other hard substrata, and also hard and soft substrates in the intertidal and shallow subtidal zones to 20 m depth. The mussel may settle on hard surfaces, but prefers to settle gregariously on soft substrates, burrowing until only the hind part of the shell protrudes, after which the species secretes fibrous threads that attach to sediment particles to form a kind of nest or byssal cocoon around the shell. Gregarious settlement results in the formation of large colonies, raised several centimetres above the surface of the sand or mud (NIMPIS 2002). In some areas of California, the mussel has been reported to reach densities of 15 000 m−2. The byssus mats formed by the mussel may smother native biota and can make the underlying seabed anoxic. A. senhousia is tolerant of low salinity and low oxygen levels. In San Francisco Bay, it has been collected at salinities of 17–33 psu and temperatures of 17–24 °C, and in southern California at 35–37 psu and 25–27 °C (Cohen 2005). Aulacomya atra is well known for its presence in deep water. For example, in Punta Arenas Cove, Chile, natural banks of the species are found at depths of 15 to >30 m, where temperatures vary from 12 to 16 °C. The mussel is also commonly found in shallow nearshore kelp‐bed communities and algae holdfasts in Central Chile, subantarctic and Antarctic waters, South Africa and cold and deep waters of the Kerguelen Islands (Caza et al. 2016). In South Africa, where A. atra is indigenous, its existence is compromised in many areas by the presence of alien species, such as M. galloprovincialis, which has a faster growth rate and a higher resistance to exposure to air on exposed and semi‐exposed shores compared to A. atra, which is predominantly a subtidal species (see later on interspecific competition). Choromytilus meridionalis is most abundant in the lower intertidal and subtidal zones and is geographically restricted to areas of cool upwelled water on the west and south coasts of South Africa. The mussel co‐occurs with P. perna on the southern coast of S. Africa. The two species exhibit a degree of habitat separation, with P. perna inhabiting sand‐free rocks and C. meridionalis inhabiting rocks subject to frequent sand cover (Marshall & McQuaid 1993).

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