Alexander Trofimov scite author profile

Boitsov, V. D., Karsakov, A. L., and Trofimov, A. G. 2012. Atlantic water temperature and climate in the Barents Sea, 2000–2009. – ICES Journal of Marine Science, 69: 833–840. Year-to-year variability in the temperature of Atlantic water (AW), which has a strong influence on the marine climate and ecosystem of the Barents Sea, was analysed using data from the Kola Section. With a positive trend in mean annual temperature during the late 20th century, only positive anomalies were registered during the past decade. In nine of those years, the temperature was warmer than the 1951–2000 long-term mean by 0.5–1.2°C, and in 2006, the historical maximum for the 110-year period of observations along the section was recorded. High air and water temperature coincided with reduced sea-ice cover, especially between October and April, when there is seasonal enlargement of the ice-covered area. An integral climate index (CI) of the Barents Sea based on the variability in temperature of AW, air temperature, and ice cover is presented. A prediction of future Barents Sea climate to 2020 is given by extrapolating the sixth degree polynomial approximating the CI.

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Formation of Barents Sea Branch Water in the north-eastern Barents Sea

Lien

Trofimov²

2013

Polar Research

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The Barents Sea throughflow accounts for approximately half of the Atlantic Water advection to the Arctic Ocean, while the other half flows through Fram Strait. Within the Barents Sea, the Atlantic Water undergoes considerable modifications before entering the Arctic Ocean through the St. Anna Trough. While the inflow area in the south-western Barents Sea is regularly monitored, oceanographic data from the outflow area to the north-east are very scarce. Here, we use conductivity, temperature and depth data from August/September 2008 to describe in detail the water masses present in the downstream area of the Barents Sea, their spatial distribution and transformations. Both Cold Deep Water, formed locally through winter convection and ice-freezing processes, and Atlantic Water, modified mainly through atmospheric cooling, contribute directly to the Barents Sea Branch Water. As a consequence, it consists of a dense core characterized by a temperature and salinity maximum associated with the Atlantic Water, in addition to the colder, less saline and less dense core commonly referred to as the Barents Sea Branch Water core. The denser core likely constitutes a substantial part of the total flow, and it is more saline and considerably denser than the Fram Strait branch as observed within the St. Anna Trough. Despite the recent warming of the Barents Sea, the Barents Sea Branch Water is denser than observed in the 1990s, and the bottom water observed in the St. Anna Trough matches the potential density at 2000 m depth in the Arctic Ocean

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Biomass of Scyphozoan Jellyfish, and Its Spatial Association with 0-Group Fish in the Barents Sea

et al. 2012

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An 0-group fish survey is conducted annually in the Barents Sea in order to estimate fish population abundance. Data on jellyfish by-catch have been recorded since 1980, although this dataset has never been analysed. In recent years, however, the ecological importance of jellyfish medusae has become widely recognized. In this paper the biomass of jellyfish (medusae) in 0–60 m depths is calculated for the period 1980–2010. During this period the climate changed from cold to warm, and changes in zooplankton and fish distribution and abundance were observed. This paper discusses the less well known ecosystem component; jellyfish medusae within the Phylum Cnidaria, and their spatial and temporal variation. The long term average was ca. 9×108 kg, with some years showing biomasses in excess of 5×109 kg. The biomasses were low during 1980s, increased during 1990s, and were highest in early 2000s with a subsequent decline. The bulk of the jellyfish were observed in the central parts of the Barents Sea, which is a core area for most 0-group fishes. Jellyfish were associated with haddock in the western area, with haddock and herring in the central and coastal area, and with capelin in the northern area of the Barents Sea. The jellyfish were present in the temperature interval 1°C

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The ICES Working Group on Oceanic Hydrography: A Bridge From In-situ Sampling to the Remote Autonomous Observation Era

et al. 2019

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The ICES Working Group on Oceanic Hydrography: Building on Over 100 Years of North Atlantic Observations

Holliday¹,

Valdimarsson²,

Nolan³

et al. 2010

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The ICES (International Council for the Exploration of the Sea) Working Group on Oceanic Hydrography (WGOH) maintains, analyses and develops coastal, shelf and deep ocean repeated stations and sections around the subpolar North Atlantic, the Nordic Seas and adjacent shelf seas. The WGOH annually reviews the latest results and research from repeat hydrography sections and stations, and generates a summary of hydrographic conditions in the North Atlantic, the ICES Report on Ocean Climate (IROC).By combining expertise in variability in physical processes and the relationship with ecosystems from around the North Atlantic, the WGOH is an excellent forum for developing new insight into climate variability and the impact on ecosystems. Recent new collaborative research highlights include observations of unusually warm and saline Atlantic Water in the Nordic Seas, a comparison of gridded sea surface temperature products to selected time series, and an isopycnal analysis over 300,000 profiles from the Nordic Seas.The WGOH encourages development of new time series and the use of new technology, and has led to the establishment of new ADCP (Acoustic Doppler Current Profiler) and surface observations from voluntary observing ships. Future challenges for WGOH include maintaining the integrity of time series, and communicating the information from the time series in a useful way to a wide range of stakeholders.The ICES WGOH has no dedicated funding, instead participants and time series are funded by member nations which are Canada,

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