ALBERT — All Library Books, journals and Electronic Records Telegrafenberg

Hits per page

hits 1 - 10 | 113 hits

Sorting

Online Resource

POLAR NIGHT Marine Ecology : Life and Light in the Dead of Night (2020)

Berge, Jørgen. [editor.] ; Johnsen, Geir. [editor.] ; Cohen, Jonathan H. [editor.]

Cham :Springer International Publishing :

add to mindlist on the mindlist

Details

Keywords: Biotic communities. ; Biodiversity. ; Freshwater ecology. ; Marine ecology. ; Climatology. ; Physical geography. ; Botanical chemistry. ; Ecosystems. ; Biodiversity. ; Freshwater and Marine Ecology. ; Climate Sciences. ; Physical Geography. ; Plant Biochemistry.

Description / Table of Contents: Preface -- The marine physical environment during the Polar Night -- Light in the Polar Night -- Marine micro- and macroalgae in the Polar Night -- Zooplankton in the Polar Night -- Benthic communities in the Polar Night -- Fish ecology in the Polar Night -- Biological clocks and rhythms in polar organisms -- Sensor carrying platforms -- Operative habitat mapping and monitoring in the Polar Night -- The Polar Night exhibition: Life and light at the dead of night -- Index.

Abstract: Until recently, the prevailing view of marine life at high latitudes has been that organisms enter a general resting state during the dark Polar Night and that the system only awakens with the return of the sun. Recent research, however, with coordinated, multidisciplinary field campaigns based on the high Arctic Archipelago of Svalbard, have provided a radical new perspective. Instead of a system in dormancy, a new perspective of a system in full operation and with high levels of activity across all major phyla is emerging. Examples of such activities and processes include: Active marine organisms at sea surface, water column and the sea-floor. At surface we find active foraging in seabirds and fish, in the water column we find a high biodiversity and activity of zooplankton and larvae such as active light induced synchronized diurnal vertical migration, and at seafloor there is a high biodiversity in benthic animals and macroalgae. The Polar Night is a period for reproduction in many benthic and pelagic taxa, mass occurrence of ghost shrimps (Caprellides), high abundance of Ctenophores, physiological evidence of micro- and macroalgal cells that are ready to utilize the first rays of light when they appear, deep water fishes found at water surface in the Polar night, and continuous growth of bivalves throughout the winter. These findings not only begin to shape a new paradigm for marine winter ecology in the high Arctic, but also provide conclusive evidence for a top-down controlled system in which primary production levels are close to zero. In an era of environmental change that is accelerated at high latitudes, we believe that this new insight is likely to strongly impact how the scientific community views the high latitude marine ecosystem. Despite the overwhelming darkness, the main environmental variable affecting marine organisms in the Polar Night is in fact light. The light regime during the Polar Night is unique with respect to light intensity, spectral composition of light and photoperiod. .

Type of Medium: Online Resource

Pages: XI, 375 p. 133 illus., 116 illus. in color. , online resource.

Edition: 1st ed. 2020.

ISBN: 9783030332082

Series Statement: Advances in Polar Ecology, 4

URL: https://doi.org/10.1007/978-3-030-33208-2

DOI: 10.1007/978-3-030-33208-2

DDC: 577

Language: English

Permalink

	Location	Call Number	Expected	Availability

Others were also interested in ...

E-BOOKS (AWI ONLY)

Fulltext

facet.materialart.12

Polar night marine ecology : life and light in the dead of night (2020)

Berge, Jørgen [HerausgeberIn] ; Johnsen, Geir [HerausgeberIn] ; Cohen, Jonathan H. [HerausgeberIn]

Cham : Springer

add to mindlist on the mindlist

Details

Call number: 9783030332082 (e-book)

Description / Table of Contents: Until recently, the prevailing view of marine life at high latitudes has been that organisms enter a general resting state during the dark Polar Night and that the system only awakens with the return of the sun. Recent research, however, with coordinated, multidisciplinary field campaigns based on the high Arctic Archipelago of Svalbard, have provided a radical new perspective. Instead of a system in dormancy, a new perspective of a system in full operation and with high levels of activity across all major phyla is emerging. Examples of such activities and processes include: Active marine organisms at sea surface, water column and the sea-floor. At surface we find active foraging in seabirds and fish, in the water column we find a high biodiversity and activity of zooplankton and larvae such as active light induced synchronized diurnal vertical migration, and at seafloor there is a high biodiversity in benthic animals and macroalgae. The Polar Night is a period for reproduction in many benthic and pelagic taxa, mass occurrence of ghost shrimps (Caprellides), high abundance of Ctenophores, physiological evidence of micro- and macroalgal cells that are ready to utilize the first rays of light when they appear, deep water fishes found at water surface in the Polar night, and continuous growth of bivalves throughout the winter. These findings not only begin to shape a new paradigm for marine winter ecology in the high Arctic, but also provide conclusive evidence for a top-down controlled system in which primary production levels are close to zero. In an era of environmental change that is accelerated at high latitudes, we believe that this new insight is likely to strongly impact how the scientific community views the high latitude marine ecosystem. Despite the overwhelming darkness, the main environmental variable affecting marine organisms in the Polar Night is in fact light. The light regime during the Polar Night is unique with respect to light intensity, spectral composition of light and photoperiod. .

Type of Medium: 12

Pages: 1 Online-Ressource (XI, 375 Seiten) , Illustrationen, Diagramme, Karten (farbig)

ISBN: 9783030332082 , 978-3-030-33208-2

ISSN: 2468-5720 , 2468-5712

Series Statement: Advances in polar ecology volume 4

URL: https://doi.org/10.1007/978-3-030-33208-2

Language: English

Note: Contents 1 Introduction / Jørgen Berge, Geir Johnsen, and Jonathan H. Cohen 2 The Marine Physical Environment During the Polar Night / Finlo Cottier and Marie Porter 3 Light in the Polar Night / Jonathan H. Cohen, Jørgen Berge, Mark A. Moline, Geir Johnsen, and Artur P. Zolich 4 Marine Micro- and Macroalgae in the Polar Night / Geir Johnsen, Eva Leu, and Rolf Gradinger 5 Zooplankton in the Polar Night / Jørgen Berge, Malin Daase, Laura Hobbs, Stig Falk-Petersen, Gerald Darnis, and Janne E. Søreide 6 Benthic Communities in the Polar Night / Paul E. Renaud, William G. Ambrose Jr., and Jan Marcin Węsławski 7 Fish Ecology During the Polar Night / Maxime Geoffroy and Pierre Priou 8 Biological Clocks and Rhythms in Polar Organisms / Kim S. Last, N. Sören Häfker, Vicki J. Hendrick, Bettina Meyer, Damien Tran, and Fabio Piccolin 9 Sensor-Carrying Platforms / Asgeir J. Sørensen, Martin Ludvigsen, Petter Norgren, Øyvind Ødegård, and Finlo Cottier 10 Operative Habitat Mapping and Monitoring in the Polar Night / Geir Johnsen, Aksel A. Mogstad, Jørgen Berge, and Jonathan H. Cohen 11 Life and Light at the Dead of Night / Jørgen Berge and Geir Johnsen Index

Permalink

	Location	Call Number	Expected	Availability

Others were also interested in ...

E-BOOK

Fulltext

Unknown

Bio-Mooring Arrays and Long-Term Sediment Traps: Key Tools to Detect Change in the Biogeochemical and Ecological Functioning of Arctic Marine Ecosystems (2013)

Forest, Alexandre ; Lalande, Catherine ; Hwang, J. ; [et al.]

In: EPIC3Arctic Observing Summit 2013, Vancouver, Canada, 2013-04-30-2013-05-02

add to mindlist on the mindlist

Details

Publication Date: 2019-08-02

Description: Through the transfer of carbon from the surface to the deep ocean via the passive sinking and active transport of organic material, the biological pump is a key global process for the regulation of atmospheric CO2. Over the last decades, studies relying on sediment traps and other bio-devices moored over an annual cycle in the Arctic Ocean helped to resolve how the Arctic biological pump is operating and how it is responding to global change. Here, we provide a short review of the pioneer work done in the 1980-90’s and we present key knowledge gained on Arctic ecosystem functioning with a series of case-studies conducted in the 2000’s on the basis of bio-moorings: (1) carbon export in response to warm anomalies in the main Arctic gateway, the Fram Strait; (2) ecosystem-level analyses in Beaufort Sea from a vertical flux perspective; (3) the importance of lateral processes for sinking flux events in the Central Basin; and (4) the impact of zooplankton life-cycle strategies on the biological pump in fjord-like systems. We also identify regional challenges and potential future research avenues in terms of new sampling tools and coordination for the development of an Arctic biogeochemical observatory network aligned with global initiatives. As such, this paper represents a call to sustain and further develop observing activities that rely on bio-mooring arrays in the Arctic Ocean over the next decade. By capturing the full seasonality of ice-covered environments, we argue that bio-moorings are one of the most powerful approaches to distinguish natural variability from actual shifts that might affect the structure and function of Arctic marine ecosystems in response to human-induced changes.

Repository Name: EPIC Alfred Wegener Institut

Type: Conference , notRev

Permalink

	Location	Call Number	Expected	Availability

Others were also interested in ...

PAPER (OA)

S·F·X

Fulltext

Unknown

Mesopelagic Sound Scattering Layers of the High Arctic: Seasonal Variations in Biomass, Species Assemblage, and Trophic Relationships (2019)

Geoffroy, Maxime ; Daase, Malin ; Cusa, Marine ; [et al.]

Frontiers Media SA

In: EPIC3Frontiers in Marine Science, Frontiers Media SA, 6, pp. 1-18, ISSN: 2296-7745

add to mindlist on the mindlist

Details

Publication Date: 2019-08-26

Description: Mesopelagic sound scattering layers (SSL) are ubiquitous in all oceans. Pelagic organisms within the SSL play important roles as prey for higher trophic levels and in climate regulation through the biological carbon pump. Yet, the biomass and species composition of SSL in the Arctic Ocean remain poorly documented, particularly in winter. A multifrequency echosounder detected a SSL north of Svalbard, from 79.8 to 81.4°N, in January 2016, August 2016, and January 2017. Midwater trawl sampling confirmed that the SSL comprised zooplankton and pelagic fish of boreal and Arctic origins. Arctic cod dominated the fish assemblage in August and juvenile beaked redfish in January. The macrozooplankton community mainly comprised the medusa Cyanea capillata, the amphipod Themisto libellula, and the euphausiids Meganyctiphanes norvegica in August and Thysanoessa inermis in January. The SSL was located in the Atlantic Water mass, between 200–700 m in August and between 50–500 m in January. In January, the SSL was shallower and weaker above the deeper basin, where less Atlantic Water penetrated. The energy content available in the form of lipids within the SSL was significantly higher in summer than winter. The biomass within the SSL was 〉12-fold higher in summer, and the diversity of fish was slightly higher than in winter (12 vs. 9 species). We suggest that these differences are mainly related to life history and ontogenetic changes resulting in a descent toward the seafloor, outside the mesopelagic layer, in winter. In addition, some fish species of boreal origin, such as the spotted barracudina, did not seem to survive the polar night when advected from the Atlantic into the Arctic. Others, mainly juvenile beaked redfish, were abundant in both summer and winter, implying that the species can survive the polar night and possibly extend its range into the high Arctic. Fatty-acid trophic markers revealed that Arctic cod mainly fed on calanoid copepods while juvenile beaked redfish targeted krill (Thysanoessa spp.). The relatively high biomass of Arctic cod in August and of redfish in January thus suggests a shift within the SSL, from a Calanus-based food web in summer to a krill-based food web during winter.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

Format: application/pdf

Permalink

	Location	Call Number	Expected	Availability

Others were also interested in ...

PAPER (OA)

S·F·X

PDF

Fulltext

Unknown

Does climate change lead to timelapse versions of spring bloom scenarios in Arctic fjords? (2021)

Leu, Eva ; Hobbs, Laura ; Notz, Dirk ; [et al.]

In: EPIC3Arctic Science Summit Week 2021

add to mindlist on the mindlist

Details

Publication Date: 2021-04-06

Repository Name: EPIC Alfred Wegener Institut

Type: Conference , notRev

Permalink

	Location	Call Number	Expected	Availability

Others were also interested in ...

PAPER (OA)

S·F·X

Fulltext

Unknown

An overview of the HAVOC project during MOSAiC: a multi-disciplinary glimpse at bio-physical sea ice ridge habitat properties from winter to summer (2021)

Lange, Benjamin A. ; Divine, Dmitry V. ; Gardner, Jessie ; [et al.]

In: EPIC3Arctic Frontiers

add to mindlist on the mindlist

Details

Publication Date: 2021-04-06

Repository Name: EPIC Alfred Wegener Institut

Type: Conference , notRev

Permalink

	Location	Call Number	Expected	Availability

Others were also interested in ...

PAPER (OA)

S·F·X

Fulltext

Unknown

The underwater ligth climate in Kongsfjorden and its ecological implications (2019)

Pavlov, Alexey K. ; Leu, Eva ; Hanelt, Dieter ; [et al.]

Springer Nature Switzerland AG

In: EPIC3The ecosystem of Kongsfjorden, Svalbard, Advances in Polar Ecology 2, Cham, Springer Nature Switzerland AG, 36 p., pp. 137-172, ISBN: 978-3-319-46423-7

add to mindlist on the mindlist

Details

Publication Date: 2020-03-05

Description: Due to its Arctic location at 79°N, Kongsfjorden in Svalbard experiences strong seasonality in light climate, changing from polar night to midnight sun. Sea ice conditions and the optical properties of seawater further modify the amount and the spectral composition of solar radiation penetrating into the water column, thus defining the underwater light climate in Kongsfjorden. Light represents one of the major shaping factors for the entire marine ecosystem. A number of studies focusing on implications of the underwater light for marine organisms have beenconducted in Kongsfjorden, generating diverse datasets on seawater optical properties, scattered over time and space. This review synthesizes the fragmentary information available from the literature as well as presenting some unpublished data, and discusses the underwater light climate and its main controlling factors in Kongsfjorden. Furthermore, we provide a short synopsis about the relevance of light for different components of an Arctic marine ecosystem, exemplified by studies carried out in Kongsfjorden. Due to its year-round accessibility and its high-Arctic location, Kongsfjorden has become a prime fjord for studying how the strong seasonal changes in light availability, ranging from polar night to midnight sun, affect marine life with respect to primary production, behavioural aspects and synchronization of growth and reproduction.

Repository Name: EPIC Alfred Wegener Institut

Type: Inbook , peerRev

Permalink

	Location	Call Number	Expected	Availability

Others were also interested in ...

PAPER (OA)

S·F·X

Fulltext

Unknown

Dense mesopelagic sound scattering layer and vertical segregation of pelagic organisms at the Arctic-Atlantic gateway during the midnight sun (2021)

Priou, Pierre ; Nikolopoulos, Anna ; Flores, Hauke ; [et al.]

In: EPIC3Progress in Oceanography, pp. 102611, ISSN: 00796611

add to mindlist on the mindlist

Details

Publication Date: 2021-05-19

Description: Changes in vertical and spatial distributions of zooplankton and small pelagic fish impact the biological carbon pump and the distribution of larger piscivorous fish and marine mammal species. However, their distribution and abundance remain poorly documented at high latitudes because of the difficulties inherent to sampling relatively fast-moving organisms in ice-covered waters. This study documents the under-ice distribution of epipelagic and mesopelagic organisms at the Arctic-Atlantic gateway in spring, during the midnight sun period, using ice-tethered and ship-based echosounders. An epipelagic surface scattering layer composed of copepods consistently occupied the top 60 m and was associated with cold polar surface water (mean temperature of -1.5°C). A mesopelagic deep scattering layer (DSL), partly composed of fish, persisted between 280 m and 600 m and was associated with modified Atlantic water. Backscattering strength within the DSL was higher than previously reported in the Arctic and north Atlantic, and increased by two orders of magnitude over the continental slope where one of the Atlantic water pathways enters the Arctic Ocean. Mesopelagic organisms did not perform diel vertical migrations. The consistent segregation between copepods at the surface and their predators at mesopelagic depths suggests limited predator-prey interactions during the midnight sun period, even under the ice cover. Predation on copepods by mesopelagic organisms, including fish, could thus be limited to very pulsed events during the seasonal vertical migration of copepods to and from overwintering depths. This suggests that the arctic mesopelagic food web may be decoupled from secondary production in the epipelagic layer throughout most of the year.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

Format: application/pdf

Permalink