Marine , Georgia The Black Sea supports an active and dynamic marine ecosystem, dominated by species suited to the
brackish, nutrient-rich, conditions. As with all marine food webs, the Black Sea features a range of
trophic groups, with
autotrophic algae, including
diatoms and
dinoflagellates, acting as primary producers. The fluvial systems draining Eurasia and central Europe introduce large volumes of sediment and dissolved nutrients into the Black Sea, but the distribution of these nutrients is controlled by the degree of physiochemical stratification, which is, in turn, dictated by seasonal physiographic development. During winter, strong winds promote convective overturning and upwelling of nutrients, while high summer temperatures result in marked vertical stratification and a warm, shallow mixed layer. Day length and
insolation intensity also control the extent of the
photic zone. Subsurface productivity is limited by nutrient availability, as the anoxic bottom waters act as a sink for reduced
nitrate, in the form of
ammonia. The
benthic zone also plays an important role in Black Sea nutrient cycling, as chemosynthetic organisms and anoxic geochemical pathways recycle nutrients which can be upwelled to the photic zone, enhancing productivity. In total, the Black Sea's biodiversity contains around one-third of the Mediterranean's and is experiencing natural and artificial invasions or "Mediterranizations".
Phytoplankton blooms and plumes of sediment form the bright blue swirls that ring the Black Sea in this 2004 image. The main phytoplankton groups present in the Black Sea are
dinoflagellates,
diatoms,
coccolithophores and
cyanobacteria. Generally, the annual cycle of phytoplankton development comprises significant diatom and dinoflagellate-dominated spring production, followed by a weaker mixed assemblage of community development below the seasonal thermocline during summer months, and surface-intensified autumn production. This pattern of productivity is augmented by an
Emiliania huxleyi bloom during the late spring and summer months. •
Dinoflagellates : Annual dinoflagellate distribution is defined by an extended bloom period in subsurface waters during the late spring and summer. In November, subsurface plankton production is combined with surface production, due to vertical mixing of water masses and nutrients such as
nitrite. Estimates of dinoflagellate diversity in the Black Sea range from 193 to 267 species. This level of species richness is relatively low in comparison to the Mediterranean Sea, which is attributable to the brackish conditions, low water transparency and presence of
anoxic bottom waters. It is also possible that the low winter temperatures below of the Black Sea prevent
thermophilous species from becoming established. The relatively high organic matter content of Black Sea surface water favors the development of
heterotrophic (an organism that uses organic carbon for growth) and mixotrophic dinoflagellates species (able to exploit different trophic pathways), relative to autotrophs. Despite its unique hydrographic setting, there are no confirmed
endemic dinoflagellate species in the Black Sea.
Animal species •
Zebra mussel : The Black Sea along with the
Caspian Sea is part of the zebra mussel's native range. The mussel has been accidentally introduced around the world and become an
invasive species where it has been introduced. •
Common carp : The common carp's native range extends to the Black Sea along with the Caspian Sea and
Aral Sea. Like the zebra mussel, the common carp is an invasive species when introduced to other habitats. •
Round goby : Another native fish that is also found in the Caspian Sea. It preys upon zebra mussels. Like the mussels and common carp, it has become invasive when introduced to other environments, like the
Great Lakes in North America. • with a ferry at
Batumi portMarine mammals and marine
megafauna : Marine mammals present within the basin include subspecies of two species of dolphin (
common and
bottlenose) and the
harbour porpoise, although all of these are endangered due to pressures and impacts by human activities. All three species have been classified as distinct subspecies from those in the Mediterranean and the Atlantic and are endemic to the Black and
Azov seas, and are more active during nights in the Turkish Straits. However, construction of the
Crimean Bridge has caused increases in nutrients and planktons in the waters, attracting large numbers of fish and more than 1,000 bottlenose dolphins. However, others claim that construction may cause devastating damages to the ecosystem, including dolphins. :
Mediterranean monk seals, now a vulnerable species, were historically abundant in the Black Sea, and are regarded to have become extinct from the basin in 1997. Monk seals were present at
Snake Island, near the
Danube Delta, until the 1950s, and several locations such as the and
Doğankent were the last of the seals'
hauling-out sites post-1990. Very few animals still thrive in the
Sea of Marmara. : Ongoing Mediterranizations may or may not boost cetacean diversity in the Turkish Straits were introduced into the Black Sea by mankind and later escaped either by accidental or purported causes. Of these,
grey seals and beluga whales
Ecological effects of pollution Since the 1960s, rapid industrial expansion along the Black Sea coastline and the construction of a major dam on the Danube have significantly increased annual variability in the N:P:Si ratio in the basin. Coastal areas, accordingly, have seen an increase in the frequency of monospecific phytoplankton blooms, with diatom-bloom frequency increasing by a factor of 2.5 and non-diatom bloom frequency increasing by a factor of 6. The non-diatoms, such as the prymnesiophytes (coccolithophore), sp., and the Euglenophyte , can out-compete diatom species because of the limited availability of silicon, a necessary constituent of diatom frustules. As a consequence of these blooms, benthic macrophyte populations were deprived of light, while anoxia caused mass mortality in marine animals. Overfishing during the 1970s further compounded the decline in macrophytes, while the invasive ctenophore
Mnemiopsis reduced the biomass of
copepods and other zooplankton in the late 1980s. Additionally, an alien species—the
warty comb jelly ()—established itself in the basin, exploding from a few individuals to an estimated biomass of one billion metric tons. Pollution-reduction and regulation efforts led to a partial recovery of the Black Sea ecosystem during the 1990s, and an EU monitoring exercise, 'EROS21', revealed decreased nitrogen and phosphorus values relative to the 1989 peak. Recently, scientists have noted signs of ecological recovery, in part due to the construction of new
sewage-treatment plants in Slovakia, Hungary, Romania, and Bulgaria in connection with those countries' membership of the European Union. populations have been checked with the arrival of another alien species that feeds on them. However other sources say that there was ecological decline in the early 21st century. File:black sea fauna jelly 01.jpg|
Jellyfish File:black sea fauna actinia 01.jpg|
Actinia File:black sea fauna actinia 02.JPG|Actinia File:black sea fauna goby 01.jpg|
Goby File:black sea fauna stingray 01.jpg|
Stingray File:Black sea mullus barbatus ponticus 01.jpg|
Goat fish File:Black sea fauna hermit crab 01.jpg|
Hermit crab,
Diogenes pugilator File:Black sea fauna blue sponge.jpg|Blue
sponge File:Squalus acanthias2.jpg|
Spiny dogfish File:Black Sea fauna Seahorse.JPG|
Seahorse File:Kitesurfer and Dolphins Cropped.jpg|
Black Sea common dolphins with a
kite-surfer off
Sochi == History ==