GLORIA — GEOMAR Library Ocean Research Information Access

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Development of Mining Technology and Equipment for Seafloor Massive Sulfide Deposits (2016)

Shaojun, Liu ; Jianhua, Hu ; Ruiqiang, Zhang ; [et al.]

Chinese Mechanical Engineering Society | Springer

In: Chinese Journal of Mechanical Engineering, 29 (5). pp. 863-870.

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Publication Date: 2020-07-27

Description: Seafloor massive sulfide(SMS) deposits which consist of Au, Ag, Cu, and other metal elements, have been a target of commercial mining in recent decades. The demand for established and reliable commercial mining system for SMS deposits is increasing within the marine mining industry. The current status and progress of mining technology and equipment for SMS deposits are introduced. First, the mining technology and other recent developments of SMS deposits are comprehensively explained and analyzed. The seafloor production tools manufactured by Nautilus Minerals and similar mining tools from Japan for SMS deposits are compared and discussed in turn. Second, SMS deposit mining technology research being conducted in China is described, and a new SMS deposits mining tool is designed according to the environmental requirement. Finally, some new trends of mining technology of SMS deposits are summarized and analyzed. All of these conclusions and results have reference value and guiding significance for the research of SMS deposit mining in China.

Type: Article , PeerReviewed

Format: text

DOI: 10.3901/CJME.2016.0815.093

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Climate Engineering under the Paris Agreement: A Legal and Policy Primer (2016)

Neil Craik, A. ; Burns, William C.G.

Centre for International Governance Innovation (CIGI)

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Publication Date: 2023-06-29

Description: While the Paris Agreement does not address the issue of climate engineering expressly, the target of limiting global average temperature rise to no more than 2°C (a goal that appears unlikely to be achieved in the absence of significant amounts of carbon removal) raises questions with respect to how the issue of carbon dioxide removal (CDR) and solar radiation management (SRM) technologies may be addressed under the Paris Agreement. This report examines the specific provisions of the Paris Agreement with a view to identifying where legal and policy questions in relation to climate engineering are likely to arise. Inclusion of CDR technologies as part of a state’s nationally determined contributions (NDCs) is permissible under article 4 of the Paris Agreement, but will likely trigger concerns respecting technological readiness and equity. SRM technologies would appear to have little entry room within the Paris Agreement, but the process mechanism of the agreement provides opportunities to satisfy SRM research governance demands for transparency and public deliberation. The report concludes that the building blocks for an internationally integrated approach to climate engineering law and policy are faintly present in the Paris Agreement’s procedural and institutional capacities. As research activities generate a clearer understanding of the feasibility of CDR and SRM technologies, bringing the science to bear on the normative commitments to equity, human rights and the nature of climate change as an issue of common concern will be critical to realizing a broader coherence in global climate policy under the Paris Agreement.

Type: Report , NonPeerReviewed

Format: text

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The genome of the seagrass Zostera marina reveals angiosperm adaptation to the sea (2016)

Olsen, Jeanine L. ; Rouze, Pierre ; Verhelst, Bram ; [et al.]

Nature Research

In: Nature, 530 . pp. 331-335.

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Publication Date: 2020-10-16

Description: Seagrasses colonized the sea1 on at least three independent occasions to form the basis of one of the most productive and widespread coastal ecosystems on the planet2. Here we report the genome of Zostera marina (L.), the first, to our knowledge, marine angiosperm to be fully sequenced. This reveals unique insights into the genomic losses and gains involved in achieving the structural and physiological adaptations required for its marine lifestyle, arguably the most severe habitat shift ever accomplished by flowering plants. Key angiosperm innovations that were lost include the entire repertoire of stomatal genes3, genes involved in the synthesis of terpenoids and ethylene signalling, and genes for ultraviolet protection and phytochromes for far-red sensing. Seagrasses have also regained functions enabling them to adjust to full salinity. Their cell walls contain all of the polysaccharides typical of land plants, but also contain polyanionic, low-methylated pectins and sulfated galactans, a feature shared with the cell walls of all macroalgae4 and that is important for ion homoeostasis, nutrient uptake and O2/CO2 exchange through leaf epidermal cells. The Z. marina genome resource will markedly advance a wide range of functional ecological studies from adaptation of marine ecosystems under climate warming5, 6, to unravelling the mechanisms of osmoregulation under high salinities that may further inform our understanding of the evolution of salt tolerance in crop plants7.

Type: Article , PeerReviewed

Format: text

Format: archive

DOI: 10.1038/nature16548

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