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Künstlicher Auftrieb: Mehr Power für die biologische Kohlenstoffpumpe des Meeres (2023)

CDRmare Research Mission

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Publication Date: 2023-01-30

Description: Algen, Zooplankton und Fische gehören zu den Schlüsselakteuren der biologischen Kohlenstoffpumpe, mithilfe derer der Ozean der Atmosphäre auf natürliche Weise Kohlendioxid entnimmt und den enthaltenen Kohlenstoff in großen Wassertiefen einlagert. Damit dieser Mechanismus jedoch optimal funktioniert, braucht es Nährstoffe, die vielerorts fehlen, zumindest im lichtdurchfluteten Oberflächenwasser. Durch das Heraufpumpen nährstoffreichen Tiefenwassers könnte der Mensch diesen Nährstoffmangel beheben. Ob ein solcher künstlicher Auftrieb aber tatsächlich klimawirksam wäre, welche Risiken er mit sich brächte und ob er technisch und rechtlich im großen Stil umgesetzt werden könnte, ist bislang ungewiss. Die Forschungsmission CDRmare liefert Antworten.

Type: Report , NonPeerReviewed

Format: text

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3

Unknown

Edit distance based recurrence plot for event time series (2022)

Marwan, N.

CERN / Zenodo

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Publication Date: 2022-12-21

Description: Julia code to calculate recurrence plots of the Rössler system: - calculated from the original continuous data (regular recurrence plot) and - from the events series representing the maxima of the x-component (edit distance recurrence plot).

Language: English

Type: info:eu-repo/semantics/other

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4

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UNFCCC country-submitted greenhouse gas emissions data until 2022-12-13 (2022)

Pflüger, M. ; Gütschow, J.

CERN / Zenodo

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Publication Date: 2023-01-04

Description: Dataset containing all greenhouse gas emissions data submitted by countries under climate change convention (including CRF data) as published by the UNFCCC secretariat at 2022-12-13.

Language: English

Type: info:eu-repo/semantics/workingPaper

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5

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pik-primap/primap2: PRIMAP2 Version 0.9.5 (2022)

Pflüger, M. ; Gütschow, J.

CERN / Zenodo

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Publication Date: 2023-01-03

Description: PRIMAP2 is the next generation of the PRIMAP climate policy analysis suite.

Language: English

Type: info:eu-repo/semantics/other

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6

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pik-primap/primap2: PRIMAP2 Version 0.7.1 (2021)

Pflüger, M. ; Gütschow, J.

CERN / Zenodo

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Publication Date: 2023-01-03

Description: PRIMAP2 is the next generation of the PRIMAP climate policy analysis suite.

Type: info:eu-repo/semantics/other

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7

Unknown

Parental investment and immune dynamics in sex-role reversed pipefishes (2020)

Keller, Isabel S. ; Roth, Olivia

Public Library of Science

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Publication Date: 2023-02-08

Description: Parental care elevates reproductive success by allocating resources into the upbringing of the offspring. However, it also imposes strong costs for the care-giving parent and can foster sexual dimorphism. Trade-offs between the reproductive system and the immune system may result in differential immunological capacities between the care-providing and the non-care-providing parent. Usually, providing care is restricted to the female sex making it impossible to study a sex-independent influence of parental investment on sexual immune dimorphism. The decoupling of sex-dependent parental investment and their influences on the parental immunological capacity, however, is possible in syngnathids, which evolved the unique male pregnancy on a gradient ranging from a simple carrying of eggs on the trunk (Nerophinae, low paternal investment) to full internal pregnancy (Syngnathus, high paternal investment). In this study, we compared candidate gene expression between females and males of different gravity stages in three species of syngnathids (Syngnathus typhle, Syngnathus rostellatus and Nerophis ophidion) with different male pregnancy intensities to determine how parental investment influences sexual immune dimorphism. While our data failed to detect sexual immune dimorphism in the subset of candidate genes assessed, we show a parental care specific resource-allocation trade-off between investment into pregnancy and immune defense when parental care is provided.

Type: Article , PeerReviewed , info:eu-repo/semantics/article

Format: text

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8

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A near-synoptic survey of ocean microplastic concentration along an around-the-world sailing race (2020)

Tanhua, Toste ; Gutekunst, Sören B. ; Biastoch, Arne

Public Library of Science

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Publication Date: 2023-02-08

Description: Litter and plastic pollution in the marine environment is of major concern when considering the health of ocean ecosystems, and have become an important focus of ocean research during recent years. There is still significant uncertainty surrounding the distribution and impact of marine plastic litter on ocean ecosystems, and in particular on the nano- and microplastic fractions that are difficult to observe and may be harmful to marine organisms. Current estimates of ocean plastic concentrations only account for a small fraction of the approximated 8 million tons of plastic litter entering the oceans on an annual basis. Here, we present the distribution of 100–500 μm microplastic particles within the ocean mixed layer, covering a significant fraction of the ocean, in a near-synoptic survey. During The Ocean Race 2017/2018 edition (formerly known as Volvo Ocean Race), two yachts served as ships of opportunity that regularly took samples of microplastics on a regular schedule during their circumnavigation. This effort resulted in information on microplastic distribution along the race track in the ocean’s upper, well-mixed, layer. We found concentrations ranging from 0–349 particles per cubic meter, but with large spatial variability. There was a tendency toward higher concentrations off south-western Europe and in the southwest Pacific, and indications of long-range transport of microplastic with major ocean currents.

Type: Article , PeerReviewed

Format: text

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9

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Wissen kompakt, Kohlendioxid-Speicherung im tiefen Untergrund der deutschen Nordsee - Version 2 (2023)

CDRmare Research Mission

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Publication Date: 2023-02-15

Description: Die Speicherung von Kohlendioxid im tiefen Untergrund der Nordsee ist technisch machbar und wird bereits seit Jahrzehnten unter norwegischen Gewässern praktiziert. Unter der deutschen Nordsee existieren ebenfalls Gesteinsformationen, in denen sich vermutlich große Mengen Kohlendioxid speichern ließen. Dennoch bleiben wichtige Fragen offen, die in der Forschungsmission CDRmare adressiert und beantwortet werden sollen – mit dem Ziel, die Kohlendioxid-Speicherung im geologischen Untergrund der deutschen Nordsee unter Einhaltung des Vorsorgeprinzips zu ermöglichen.

Type: Report , NonPeerReviewed

Format: text

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10

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Wissen kompakt, Ein Tiefsee-Experiment zur Kohlendioxid-Speicherung in ozeanischer Kruste - Version 2 (2023)

CDRmare Research Mission

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Publication Date: 2023-02-15

Description: Auf Island wird seit dem Jahr 2014 mit Kohlendioxid angereichertes Wasser in die obere Ozeankruste injiziert – und das erfolgreich. Das Kohlendioxid mineralisiert innerhalb kurzer Zeit und wird für Jahrmillionen fest gebunden. Da Ozeankruste jedoch nur an wenigen Orten der Welt über den Meeresspiegel hinausragt, untersuchen Forschende derzeit die Option, Kohlendioxid in Meeresregionen zu verpressen, in denen riesige Areale geeigneter Basaltkruste in mittlerer bis großer Wassertiefe liegen. Ein möglicher Vorteil: Im Untergrund der Tiefsee würde sich das Kohlendioxid entweder verflüssigen oder aber im Meerwasser lösen, welches im Gestein zirkuliert. Aufgrund des hohen Drucks wären sowohl das flüssige Kohlendioxid als auch das Kohlendioxid-Wasser-Gemisch schwerer als Meerwasser und Leckagen aus dem Untergrund damit unwahrscheinlicher. Doch wäre eine Kohlendioxid-Speicherung im Tiefsee-Untergrund technisch machbar und am Ende auch ökonomisch sinnvoll? Die Forschungsmission CDRmare liefert Antworten – mithilfe eines weltweit ersten Tiefsee-Forschungsexperimentes zur Kohlendioxid-Speicherung an erkalteten Flanken des Mittelatlantischen Rückens.

Type: Report , NonPeerReviewed

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