Occurrence of the Freshwater Chrysophyte Poterioochromonas malhamensis in a High Arctic Marine Ecosystem

Kongsfjorden is a small Arctic fjord but with great hydrographic complexity and has changed greatly due to the climate change. Arctic warming has increased melts of sea ice and glaciers that results in higher freshwater content. Microbial community variability and increasing terrestrial input were detected continuously in recent years ITag eukaryotic 18S rRNA V4 metabarcoding, photosynthetic pigments analysis and epifluorescence microscopy were used to reveal the dominant species of small eukaryotic community (<20 μm). Both Spearman correlation and redundant analysis were used to study the correlation between the small eukaryotes and the environmental conditions. In the present study, the surface water with salinity lower than 34 was thicker than in summers of previous years. The freshwater mixotrophic chrysophyte Poterioochromonas malhamensis was found for the first time as the dominant species. No general trends were found for the contributions of P. malhamensis to the total reads of small eukaryotes in water depths; and no obvious differences were found at different stations and water masses. Phagotrophy, which is more common than phototrophy at all times in P. malhamensis, is thought to be the main reason for the prevalence of P. malhamensis in Kongsfjorden. The occurrence of P. malhamensis induced a disorder in the small eukaryotic community, which biodiversity and composition showed weak correlation with the water masses. The dominance of the freshwater-originating phytoplankton may indicate an ecosystem change in the Kongsjforden, which probably might become more remarkable in the future as the climate continues to change.

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Advection of Atlantic water masses influences seabird community foraging in a high-Arctic fjord

Progress In Oceanography ◽

10.1016/j.pocean.2021.102549 ◽

2021 ◽

pp. 102549

Author(s):

Lech Stempniewicz ◽

Agata Weydmann-Zwolicka ◽

Agnieszka Strzelewicz ◽

Michał Goc ◽

Marta Głuchowska ◽

...

Keyword(s):

High Arctic ◽

Atlantic Water ◽

Water Masses ◽

Arctic Fjord

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Glacial and depth influence on sublittoral macroalgal standing stock in a high-Arctic fjord

Continental Shelf Research ◽

10.1016/j.csr.2019.104045 ◽

2020 ◽

Vol 194 ◽

pp. 104045

Author(s):

Marta Ronowicz ◽

Maria Włodarska-Kowalczuk ◽

Piotr Kukliński

Keyword(s):

Standing Stock ◽

High Arctic ◽

Arctic Fjord

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Changing Microarthropod Communities in Front of a Receding Glacier in the High Arctic

Insects ◽

10.3390/insects11040226 ◽

2020 ◽

Vol 11 (4) ◽

pp. 226 ◽

Cited By ~ 5

Author(s):

Dariusz J. Gwiazdowicz ◽

Bogna Zawieja ◽

Izabella Olejniczak ◽

Piotr Skubała ◽

Anna K. Gdula ◽

...

Keyword(s):

Dominant Species ◽

Diversity Index ◽

Rapid Change ◽

High Arctic ◽

Soil Characteristics ◽

Landscape Scale ◽

Soil Samples ◽

Pioneer Species ◽

The Mean ◽

Study Sites

This study was carried out at Ny-Ålesund on Spitsbergen in Svalbard (High Arctic). Eight study sites were established along a transect from the fjord to the snout of the glacier. The sites differed from each other by the type of vegetation cover and soil characteristics. Soil samples were collected and placed in Tullgren funnels. Extracted arthropods were represented by two groups of mites (Mesostigmata and Oribatida) and springtails (Collembola). The pioneer species that occurred first after retreat of the glacier were representatives of the Collembola (Agrenia bidenticulata and Hypogastrura concolor). Later, other springtails appeared including Folsomia alpha, Folsomia quadrioculata, Hypogastrura concolor, Isotoma anglicana, Sminthurinus concolor and the first species of oribatid mites; Camisia foveolata and Tectocepheus velatus velatus. Arthropod communities recorded along the transect were characterized by large variations in both species composition and abundance of individuals. The greater the distance from the glacier snout, the greater the species richness (2 to 22 species). The mean number of species per sample was the lowest at site 8 (1 ± 0.71) (the closest to the glacier) and greatest at site 1 (14 ± 1.41) (furthest from the glacier). The Simpson’s diversity index (D) was distinctly greater at sites 1 (4.61 ± 0.06) and 3 (3.94 ± 0.11) than at other sites, especially site 8 (1.07 ± 0.06). Densities were least in the samples closest to the glacier (30 to 101 individuals; density 3000–10,100 individuals/m2). At the other locations, abundance was highly variable (905 to 7432 individuals; density 90,500–743,200 individuals/m2). The mean abundances were greatest at sites 2 and 3. The great variations in total abundances observed were often due to the presence or absence of one or more dominant species exhibiting extreme abundance variability between sites. The microarthropod community of the High Arctic is composed of heterogeneous circumpolar species, yet on a landscape scale is extremely dependent on local environmental conditions which may be subject to rapid change.

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Biochemical composition of particles shape particle-attached bacterial community structure in a high Arctic fjord

Ecological Indicators ◽

10.1016/j.ecolind.2019.03.015 ◽

2019 ◽

Vol 102 ◽

pp. 581-592 ◽

Cited By ~ 9

Author(s):

Anand Jain ◽

Kottekkatu Padinchati Krishnan ◽

Archana Singh ◽

Femi Anna Thomas ◽

Nazira Begum ◽

...

Keyword(s):

Community Structure ◽

Bacterial Community ◽

Biochemical Composition ◽

Bacterial Community Structure ◽

High Arctic ◽

Arctic Fjord

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Spring Succession and Vertical Export of Diatoms and IP25 in a Seasonally Ice-Covered High Arctic Fjord

Frontiers in Earth Science ◽

10.3389/feart.2018.00226 ◽

2018 ◽

Vol 6 ◽

Cited By ~ 10

Author(s):

Audrey Limoges ◽

Guillaume Massé ◽

Kaarina Weckström ◽

Michel Poulin ◽

Marianne Ellegaard ◽

...

Keyword(s):

High Arctic ◽

Arctic Fjord ◽

Vertical Export

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Unsynchronised and synchronised vertical migration of zooplankton in a high Arctic fjord

Limnology and Oceanography ◽

10.4319/lo.2006.51.6.2586 ◽

2006 ◽

Vol 51 (6) ◽

pp. 2586-2599 ◽

Cited By ~ 79

Author(s):

Finlo R. Cottier ◽

Geraint A. Tarling ◽

Anette Wold ◽

Stig Falk-Petersen

Keyword(s):

Vertical Migration ◽

High Arctic ◽

Arctic Fjord

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Relating marine ecosystem indicators to fishing and environmental drivers: an elucidation of contrasting responses

ICES Journal of Marine Science ◽

10.1093/icesjms/fsp258 ◽

2009 ◽

Vol 67 (4) ◽

pp. 787-795 ◽

Cited By ~ 82

Author(s):

Jason S. Link ◽

Dawit Yemane ◽

Lynne J. Shannon ◽

Marta Coll ◽

Yunne-Jai Shin ◽

...

Keyword(s):

Marine Ecosystem ◽

Ecosystem Dynamics ◽

Environmental Drivers ◽

Ecosystem Change ◽

Relative Importance ◽

Ecosystem Sensitivity ◽

Ecosystem Indicators ◽

Proxy Indicators ◽

Key Drivers ◽

Ecosystem Drivers

Abstract Link, J. S., Yemane, D., Shannon, L. J., Coll, M., Shin, Y-J., Hill, L., and Borges, M. F. 2010. Relating marine ecosystem indicators to fishing and environmental drivers: an elucidation of contrasting responses. – ICES Journal of Marine Science, 67: 787–795. The usefulness of indicators in detecting ecosystem change depends on three main criteria: the availability of data to estimate the indicator (measurability), the ability to detect change in an ecosystem (sensitivity), and the ability to link the said change in an indicator as a response to a known intervention or pressure (specificity). Here, we specifically examine the third aspect of indicator change, with an emphasis on multiple methods to explore the “relativity” of major ecosystem drivers. We use a suite of multivariate methods to explore the relationships between a pre-established set of fisheries-orientated ecosystem status indicators and the key drivers for those ecosystems (particularly emphasizing proxy indicators for fishing and the environment). The results show the relative importance among fishing and environmental factors, which differed notably across the major types of ecosystems. Yet, they also demonstrated common patterns in which most ecosystems, and indicators of ecosystem dynamics are largely driven by fisheries (landings) or human (human development index) factors, and secondarily by environmental drivers (e.g. AMO, PDO, SST). How one might utilize this empirical evidence in future efforts for ecosystem approaches to fisheries is discussed, highlighting the need to manage fisheries in the context of environmental and other human (e.g. economic) drivers.

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